WEATHER PAGE 4 CORN GRAIN PAGE 7 CORN SILAGE PAGE …The 2016 growing season will go into the books...
Transcript of WEATHER PAGE 4 CORN GRAIN PAGE 7 CORN SILAGE PAGE …The 2016 growing season will go into the books...
Research conducted by Michigan State University.
Results of the 2016 Growing Season.
Extension Bulletin E-431DECEMBER 2016
WEATHER ..........................................PAGE 4CORN GRAIN ..................................... PAGE 7 CORN SILAGE .................................PAGE 28FUNGICIDE EFFECTS .....................PAGE 47
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COMPANY INDEXBRAND CONTACT
AGRIGOLD AgriGold Hybrids 5381 Akin Rd St. Francisville, IL 62460 www.agrigold.com
BECK Beck’s Hybrids 6767 E. 276th Street Atlanta, IN 46031 www.beckshybrids.com
BLUE RIVER Blue River Hybrids 2326 230th Street Ames, IA 50014 www.blueriverorgseed.com
BRODBECK Brodbeck Seeds 15 Ringel Avenue Wabash, IN 46992 www.brodbeckseed.com
CHANNEL Monsanto Company 800 N. Lindbergh Blvd. St. Louis, MO 63167 www.channel.com
CROPLAN Croplan Genetics P.O. Box 64281, MS 5735 St Paul, MN 55164 www.croplan.com DAIRYLAND Dairyland Seed P.O. Box 958 West Bend, WI 53095 www.dairylandseed.com
DEKALB Monsanto Company 800 N. Lindbergh Blvd. St. Louis, MO 63167 www.asgrowanddekalb.com
DYNA-GRO Dyna-Gro Seed 4648 S. Garfi eld Road Auburn, MI 48611 www.dyna-groseed.com
FOUNDATION Foundation Direct SeedDIRECT 634 13th Avenue North Onalaska, WI 54650 www.foundationorganicseed.com
GOLDEN HARVEST Syngenta Seed 11055 Wayzata Blvd. Minnetonka, MN 55440 www.syngenta.com
BRAND CONTACT
GREAT LAKES Great Lakes Hybrids 9915 West M21 Ovid, MI 48866 www.greatlakeshybrids.com
INTEGRA Integra Fortifi ed Seed 3300 S Parker Rd. Suite 500 Aurora, CO 80014 [email protected]
KEY AGRA Solutions, LLC 23778 Delphos Jennings Road Delphos, OH 45833 www.agrasolutions.com
LEGACY SEEDS Legacy Seeds, Inc. P.O. Box 68 - 290 Depot St. Scandinavia, WI 54799 www.legacyseeds.com
LEGEND Legend Seeds P.O. Box 241 DeSmet, SD 57231 www.legendseeds.com
M & W SEEDS M & W Seeds Inc. 8443 Wilcox Road Eaton Rapids, MI 48827 www.mwseeds.com
MASTERS CHOICE Masters Choice, Inc. 3010 State Route 146 E. Anna, IL 62906 www.seedcorn.com
MYCOGEN Mycogen Seeds 9330 Zionsville Road Indianapolis, IN 46268 www.mycogen.com
NK Brand Syngenta Seeds, Inc. 11055 Wayzata Blvd. Minnetonka, MN 55440 www.syngenta.com
NuTech/ NuTech Seed, LLCG2 GENETICS 2321 N. Loop Dr., Suite 230 Ames, IA 50010 www.nutechseed.com
PARTNERS Partners Brand Seed, LLC 4610 E SR120 Howe, IN 46746 www.partnersbrandseed.com
BRAND CONTACT
RENK Renk Seed Company 6809 Wilburn Road Sun Prairie, WI 53590 www.renkseed.com
RUPP Rupp Seeds, Inc. 17919 Co. Rd. B Wauseon, OH 43567 www.ruppseeds.com
SEED CONSULTANTS Seed Consultants, Inc. 648 Miami Trace Rd. SW Washington C. H., OH 43160 www.seedconsultants.com
SPECIALTY Specialty Hybrids 306 N Main Street Monticello, IN 47960 www.specialtyhybrids.com
STEYER Steyer Seeds 6145 N. County Road 33 Tiffi n, OH 44883 www.steyerseeds.com
T.A. SEEDS T.A Seeds 39 Seeds Lane Jersey Shore, PA 17740 www.taseeds.com
VIKING Albert Lea Seeds 1414 West Main Street P.O. Box 127 Albert Lea, MN 56007 [email protected] WELLMAN Wellman Seeds, Inc. 23778 Delphos Jennings Rd. Delphos, OH 45833 www.wellmanseeds.com
WYCKOFF Wyckoff Hybrids 594 E 400 N Valparaiso, IN 46383 www.wyckoffhybrids.com
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2016MICHIGAN CORN PERFORMANCE TRIALS
M. Singh, K. Thelen, W. D. Widdicombe and L. A. WilliamsDepartment of Plant, Soil, and Microbial Sciences
Michigan State UniversityIntroduction
The Michigan State University Department of Plant, Soil and Microbial Sciences conduct hybrid corn trials each year in cooperation with Michigan State University AgBio Research stations, seed corn companies, and farmers to determine yield and quality performance.
EntriesSeed companies are invited to enter hybrids in the trials; a
fee is charged to cover expenses incurred while conducting the trials. Separate indexes for grain and silage provide a list of all hybrids entered in the 2016 trials (pg. 26 and 31, respectively). Thirteen grain and eleven silage locations were planted. A total of 369 hybrids from 34 brand names make up the 564 entries; that translates into 6,768 separate county plots planted. Company names used in association with hybrid numbers refer to the brand. The hybrid numbers are the companies’ designations.
Hybrids that have a seed-applied insecticide that may enhance yield are listed in the table column TRT (Treatment). The “TRAIT” column uses code numbers, listing the hybrid traits provided by the company. Treatment and Trait codes are listed in the tables on page 19.
How to Use This BulletinTables list hybrids alphabetically and contain yield results
for each location, plus zone averages. Complete one and two-year yield results are listed in tables for each zone where data is available. One-year single-site results are less reliable than multiple year and multiple location averages, and should be interpreted with more caution. Confi dence in corn performance data increases as the number of years and the number of testing locations increase. Results for corn grain and corn silage trials are also listed on our Web site:
http://www.varietytrials.msu.edu
To obtain additional published copies of this bulletin please contact the Michigan State University Extension Bulletin Offi ce at the following:
SHOP.MSU.EDUAngell BuildingMichigan State University166 Service Rd.East Lansing, MI 48824(517) 432-1859(800) 709-9195 (Toll Free)
The results shown are the average of four replications grown in close proximity to one another. Two or more plots of the same hybrid in the same fi eld may produce somewhat different results because of uncontrolled variability in the soil and other environmental factors. Replication and randomization of the entries were two methods employed to reduce this variation.
Because these methods do not eliminate all variables, the magnitude of difference necessary for statistical signifi cance has been calculated for yield, moisture content, and test weight. The value calculated as the least signifi cant difference (LSD) is the amount an individual hybrid would have to differ from another hybrid in the same test to be considered signifi cantly different from that hybrid. The coeffi cient of variability, (CV) is indicative of a trials precision. Trials with low levels of error variation have lower CV values.
The highest yielding hybrid in each trial is indicated with a double asterisk (**) in each table, hybrids that are not signifi cantly different from the highest yielding hybrid are indicated with an asterisk (*). Other agronomic information relative to each trial is given in tables B and C (pg. 25 and 30). Fertilizer amounts are shown as total pounds per acre of nitrogen, P2O5, and K2O applied during the season.
Season in Summary: 2016Entry forms for participating companies were due March
15th; by the end of March we began receiving the hybrids that made up our trials. After a lot of paper work, printing of labels and placing labels on packets, our students began counting the seeds and fi lling the packets. The counting process was made easier with an Agriculex ESC-1 seed counter. Packets were sorted by trial and location and placed in a computer generated random planting order. Some of our seed comes from winter production in South America. We are usually receiving seed up to the morning we leave the Agronomy Farm for the fi rst day of planting.
Planting Commenced in Huron County on May 5th and ended in Alger County on May 31st. We experienced several rain delays between May 5th and May 17th. Beginning May 18th, we were able to plant nearly every day until completion. We did, however, have to make an unusual return trip to the Upper Peninsula due to a rain delay at our Alger County location. The planting depth is checked at each individual fi eld and is adjusted according to the tillage practices and soil texture.
Weed control was applied at all fi elds. All but one weed control application was performed by our cooperators. Fertilizer applications were consistent with rates that were necessary based on soil type, soil samples and cooperator recommendations for their fi eld.
Normally, stand counts are one of the least challenging tasks of the season; this year, stand counts were the most diffi cult challenge. Finding workers to help complete stand counts was the over-riding issue which slowed the pace in which the fi elds were counted and thinned.
- Season Continued On Page 6.
2016GROWING SEASON WEATHER SUMMARY
Jeff Andresen, Extension Agricultural MeteorologistDepartment of GeographyMichigan State University
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The 2016 growing season will go into the books as warmer-than-normal statewide with highly variable precipitation totals and timing of the precipitation that fell.
It was preceded by an unusually mild fall and winter with strong El Nino conditions in progress across the equatorial Pacifi c region.
For the state as a whole, winter (December through February) temperatures averaged out at 27.8 degrees F, which is 7.6 degrees above normal and the fi fth warmest winter on record since 1895.
However, thanks to an active and persistent storm track through the Midwest region (largely to the west and north of Michigan), seasonal precipitation totals were above normal, with a state average value of 7.39 inches (2.08 inches above normal).
Given the mild temperatures, a majority of the precipitation fell as rain, and seasonal snowfall totals in most sections of the state remained well below normal. Some of the 2015/2016 winter statistics are typical of El Nino conditions and others are not.
Temperature-wise, the preceding winter (December through February) was much milder than normal, which is very typical of El Nino events. However, El Nino winters more often than not are drier than normal, which is a reminder that not all El Nino (or La Nina) events are identical, and that impacts can vary signifi cantly from event to event.
During April, an active northern branch of the jet stream led to the passage of a series of upper-air troughs through the Upper Midwest region, resulting in a cool and wet weather pattern across Michigan and extended fi eldwork and planting delays.
April ended up cooler than normal statewide, with departures from normal ranging from 1 degree below normal across southwestern sections of the state to more than 5 degrees below normal across northeastern sections. Precipitation totals generally ranged from 1.5 inches to more than 3 inches (from less than 75 percent of normal to more than 150 percent of normal), a signifi cant portion of which fell as snow in northern sections.
Snowfall for the month was heavier than normal in almost all areas of the state and exceeded 30 inches in most northern sections (more than 300 percent of normal in some areas). Given wetter-than-normal conditions for much of the preceding winter and at least portions of April, all but extreme southwestern sections of the state were categorized by the Palmer Drought Severity Index as ‘Unusually’, ‘Very’, or ‘Extremely Moist’ by month’s end.
Persistent upper air troughing across the region through the fi rst half of May resulted in a continuation of cooler-than-normal temperatures and prolonged fi eldwork delays.
An unusually cold air mass moved across the state on the 14th-16th, bringing unseasonably cold temperatures and some (very) late season snowfall. Fortunately, the cold air mass was accompanied by mostly cloudy, windy conditions, which prevented surface temperatures from falling much below the freezing mark.
A major upper air pattern shift across the Upper Midwest took place during the third week of May with the formation of a broad ridging feature which would generally persist for much of June, July and early August.
The change resulted in a prolonged period of mild, dry weather that fi nally allowed rapid progress of spring fi eldwork and planting. However, by the fi rst week in June, the extended dryness resulted in abnormally dry topsoils, slow germination of late-planted crops, delayed activation of some herbicides, and initial moisture stress for some shallow-rooted crops. In southern sections of the state on well-drained soils, the dryness prompted initial use of irrigation several weeks ahead of normal.
Drier-than-normal weather continued across much of the state during June and July, increasing levels of moisture stress in many crops. As of the fi rst week of July, precipitation defi cits since May 1st (observed versus normal totals) increased to as high as 5 inches in parts of the state and the U.S. Drought Monitor categorized much of Lower Michigan except for the southwest corner in D0 “abnormally dry” or D1 “moderate drought” categories.
In contrast to areas with precipitation defi cits, western parts of the state, including the western Upper Peninsula, recorded normal or even above- normal precipitation totals during the same time frame with near-ideal growing conditions.
For June, mean temperatures across Michigan ranged from 1 degree below normal across extreme northwestern sections of the state to almost 2 degrees above normal across southern sections of Lower Michigan. Precipitation totals for June ranged from less than 1 inch across south central sections of the state (less than 50 percent of normal) to more than 6 inches across western Upper Michigan (more than 150 percent of normal).
Continued warm and dry weather led to increasing levels of moisture stress during the fi rst three weeks of July.
Daytime temperatures in the 90s and high levels of solar radiation increased potential evapotranspiration rates into the 0.25 – 0.28 inches of water per day range, which far exceeded the water available to the crops in most cases.
Later-planted crops were particularly impacted by the stressful conditions. Late in the month, a series of weak weather disturbances brought showers and thunderstorms to most sections of the state on the 21st, 24th, and 30th, easing persistent dryness in many areas and providing moisture just in time for the water-sensitive pollination stage for a signifi cant portion of the state’s corn crop.
Rainfall totals for the last 10 days of July generally ranged from 2 inches -4 inches across much of western Lower Michigan. In some areas it was the heaviest rainfall since early spring.
Unfortunately, rainfall totals across eastern sections of the state were much less, and dryness and moisture stress continued as a problem for many crops in that portion of the state.
For July, rainfall totals generally ranged from less than 1.5 inches (less than 50 percent of normal) across eastern and northern sections of the Lower Peninsula to more than 6 inches (more than 200 percent of normal) in western Lower and Upper Michigan.
- Weather Continued On Page 6.
TABL
E A.
GROW
ING
SEAS
ON S
UMMA
RY -
TEMP
ERAT
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PRE
CIPI
TATI
ON A
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ROW
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DEGR
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AY A
CCUM
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CO
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JULY
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NO
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DE
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V
Zone 1 B
RA
NC
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CA
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TE
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57
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58.2
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67.3
67
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70.4
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61.6
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Pre
cipi
tatio
n (in
ches
) G
DD
= G
row
ing
Deg
ree
Day
cal
cula
ted
at b
ase
50°F
, with
an
86°F
cut
off
OB
S =
Tot
als
obse
rved
in 2
016
NO
RM
= N
orm
als
calc
ulat
ed o
ver 3
0 ye
ar p
erio
d (1
981-
2010
) D
EV
= D
evia
tion
of o
bser
ved
from
nor
mal
Ta
ble
cour
tesy
of M
SU
Agr
icul
tura
l Wea
ther
Offi
ce (5
17-3
55-0
231)
- 6 -
Some fi elds were slightly more advanced than we like but, in the end, all fi elds were counted and thinned to a uniform stand. All locations except Grand Traverse County, MI and Wood County, OH were thinned back to a population of 35,244. Grand Traverse County was thinned to 31,284 and Wood County, OH was thinned to 34,452.
We began harvesting silage plots on September 9th in Wood County, Ohio and fi nished on October 7th with the Alger County silage plot. We are able to place 1,155 samples in the dryer at any given time; this space limitation accounts for some of the gaps in fi eld harvest days. We were able to run approximately three days, depending on the size of the fi elds, before the dryer was full, leaving us with no other choice than to suspend harvesting until the samples could be removed. We also experienced a few delays with equipment adjustments.
Last year we saw signifi cant improvements with our silage harvest equipment; this year we gained positive improvements for the grain harvesting equipment for the Michigan Corn Performance Trials. In August we took possession of a brand new Kincaid 8-XP combine. Grain harvest began October 30th on the Ingham County Conventional trial and ended on the Saginaw County plot on November 14th. We were fortunate to have only a single day when the rain shut us down. Grand Traverse County was dropped due to drought.
Table A (pg. 5) presents 2016 accumulations of temperature, rainfall, and heat units, plus their deviation from 30 year norms. Data is obtained from Michigan State University weather stations located closest to each plot location. Actual accumulation at each location may vary slightly. The weather summary is provided by Dr. Jeff Andresen from the Department of Geography using data from the Michigan State University Agricultural Weather Offi ce.
Mean temperatures ranged from near-normal across western sections to more than 3 degrees above normal in the east.
One of the consistent patterns during the fi rst half of the growing season was unusually high spatial variability of rainfall. For example, rainfall totals during July in Genessee County ranged from less than 1.5 inches in some sections to more than 8 inches in others.
As of early August, the driest areas of the state were found from south- central through southeast Lower Michigan, which represented a general eastward shift relative to earlier portions of the growing season.
A major jet stream pattern shift took place in mid-August, with the passage of a series of upper-air troughing features across the northern U.S. which led to an active weather pattern and heavy rain across portions of Michigan and the Great Lakes region during the second half of August into early September.
Heavy rain from the 13th-17th was associated with remnants of the weather system that had earlier caused devastating fl ooding across Louisiana and the Gulf Coast region.
Precipitation totals for August ranged from less than 2 inches across west central and northern sections of Lower Michigan to more than 10 inches across southwestern sections of the state, which improved late- season growing conditions for most crops. However, long-term dryness and some moisture stress persisted across northern sections of the Lower Peninsula.
Mean temperatures during August were above-normal statewide, ranging from about 2 degrees above normal across far western sections to more than 4 degrees above normal in eastern sections.
With warmer-than-normal conditions for much of the summer, seasonal growing degree day accumulations as of the end of August were generally 150-300 base 50 degree units above normal, which translates into 1-2 calendar weeks or more ahead of normal.
Warmer-than-normal weather continued for much of September and helped bring most spring-planted crops to maturity. A very slowly-moving upper air troughing system brought several consecutive days of moderate to heavy rain (1.5 inches to more than 3 inches) across portions of southern and central Lower Michigan from the 28th of September through the fi rst of October, which brought most early harvest-related and fall fi eldwork to an abrupt halt.
Mean temperatures for the month generally ranged from 2-4 degrees above normal. Precipitation totals for the month varied signifi cantly across the state, ranging from less than 2 inches in east-central sections of the state to more than 5 inches in the north and west.
Given the late-season rains, the Palmer Drought Severity Index increased to ‘Unusually Moist’ across much of southern and east-central Lower Michigan and all of Upper Michigan, which is noteworthy as drought conditions had been a problem in some of those areas are recently as mid-August.
As of the beginning of October, portions of northern Lower Michigan were still categorized by the U.S. Drought Monitor as ‘Abnormally Dry’.
Upper-air ridging across the central U.S. brought a general continuation of warmer-than-normal weather to Michigan and the Great Lakes region during October into early November, which
- Season Continued From Page 3
- Weather Continued From Page 4
favored crop maturation, grain drydown and fall fi eldwork activities. Mean temperatures for October generally ranged from 2-4
degrees above normal, resulting in the 7th consecutive warmer-than-normal month since March.
Not surprisingly, the fi rst freezing temperatures of the fall season were much later than normal in many portions of the state. Despite the warmer-than-normal mean temperatures, a series of cool frontal passages brought periodic precipitation and cooler, more seasonable temperatures. One of these systems brought the fi rst widespread snowfall to northern and central sections of the state on the 24th. The precipitation disrupted fall harvest and other fi eldwork activities, and progress of corn and soybean harvest progress remained behind normal in most sections of the state.
For October, precipitation totals generally ranged from just under 3 inches in southeastern and northern sections of Lower Michigan to more than 5 inches across west central sections of the Lower Peninsula and central sections of the Upper Peninsula.
By early November, most of the state except for northern and western Lower Michigan was classifi ed as, ‘Unusually Moist’ to ‘Very Moist’ by the long term Palmer Drought Severity Index.
2016GRAIN PERFORMANCE TRIALS
2016 Grain Trial Locations
- 7 -
IntroductionThe grain index (pg. 26) contains a list of all hybrids planted
in the 2016 grain trials.
County results are reported in the following tables:Tables 1E/1L Zone 1 - Branch, Cass and Washtenaw Tables 2E/2L Zone 2 – Allegan, Ingham and SaginawTables 3E/3L Zone 3 - Huron, Mason and MontcalmTable 4 Zone 4 –Grand Traverse, Iosco and Menominee, (Grand Traverse dropped due to drought)
Table 5 Zone 5 – Grand Traverse (E), Delta and Menominee (E)Tables 6E/6L Conventional Trial – Ingham, Saginaw (Zone 2) and Montcalm (Zone 3)
The map of Michigan (lower right) shows each zone and the locations where the trials were located.
MethodsThree trial locations were planted in each of fi ve maturity
zones. These zones were based on available growing degree-day units established from long-term weather records. Hybrids entered in a zone were tested in each of the three designated locations. Entries for zone 1, zone 2, and zone 3 were divided into two maturity groups, early and late, on the basis of relative maturity (RM) provided by the seed companies. In zone 4 and zone 5, all hybrids were tested in one group.
Planting is accomplished with an Almaco vacuum planter. A cable with “bobbins” that are set at twenty-fi ve foot intervals assure the uniform length of 22 foot long plots with a 3 foot alleyway and were planted at 30-inch row spacing. Four-row plots were used at all grain locations. The two center rows were harvested for yield. Experimental design, data acquisition, analysis of variance and data summarization were facilitated in part by AGROBASE Generation IITM. The experimental layout was a four-replication, randomized complete block design. Hybrid performance is reported as the adjusted mean averaged together from four replicated plots.
Variety trials were conducted on farmers’ fi elds and Michigan State University AgBio Research Stations. All hybrids in a location were managed uniformly with the same fertilizers, population, date of planting, and other management practices. In the fi eld, hybrids were identifi ed only by a plot number to assure unbiased comparisons. Trials in Branch, Cass and Mason counties were irrigated.
Stand counts were recorded in June. Plots with stand counts higher than the desired population were thinned at that time. Average trial population plus the desired population rates are listed with other important agronomic information in Table B (pg. 25). Lodging measurements were made during harvest. All plants broken below the ear and/or leaning more than 45 degrees were counted. Moisture content and fi eld weights were measured by a Harvest MasterTM single plot high capacity Grain GageTM HM800 System that is mounted on the Kincaid 8-XP plot combine. Grain moisture is reported at the standard 15.5 percent.
Data was recorded on a Panasonic FZ-G1 Toughpad using Harvest MasterTM Software. Grain test weight is reported at harvest moisture. Automated test weight equipment loses some accuracy as harvest moistures increase. Test weight values should be used to determine relative rank and not as a precise weight.
ResultsThe tables report the following information about the hybrids
tested:
1. Moisture content at harvest (%H20)
2. Yield (in bushels per acre) of shelled corn corrected to 15.5 percent moisture (Bu/A)
3. Test weight at harvest moisture (Twt)
4. Percent of stalk lodging (plants broken below the ear and/or 45 degrees off vertical at harvest) (%SL)
5. Percent stand of target population (%Std)
- 8 -
TABL
E 1E
.ZO
NE 1
BRAN
CH, C
ASS
& W
ASHT
ENAW
COU
NTY
GRAI
N TR
IALS
- EA
RLY
(107
Day
and
Earli
er)
2016
BRAN
D / H
YBRI
DRM
TRT
TRAI
T%
H2O
Twt
%SL
%Sd
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
%H2
OTw
t%
SL%
SdAG
RIGO
LD A
6416
STXR
IB10
7P5
001,2
,3,4
17.5
229.1
54
.80.5
9819
.223
3.0*
55.1
0.396
17.0
227.0
54
.20.0
9916
.322
7.1
55.2
1.110
0BE
CK 53
37V2
P10
3ES
C1,2
16.2
219.1
55
.90.2
100
17.8
205.1
56
.00.0
100
16.1
234.5
55
.70.0
9914
.821
7.7
56.1
0.610
0BE
CK 54
60AM
™*
104
ESC
1,2,4,
617
.223
1.6
55.6
0.698
18.6
207.5
55
.40.7
9416
.524
5.9*
55.8
0.010
016
.524
1.4
55.6
1.110
0BE
CK 51
40HR
™*
105
ESC
1,2,4,
617
.823
4.5
56.3
0.193
19.1
224.5
56
.50.0
8117
.223
0.1
56.2
0.098
17.2
248.7
*56
.30.3
100
BECK
5665
AMX™
*10
6ES
C1,2
,3,4,6
17.9
218.6
55
.42.1
9919
.721
1.2
55.1
0.010
017
.323
1.1
55.1
0.097
16.8
213.5
56
.16.2
100
CHAN
NEL 1
92-0
9 VT3
PRIB
92A5
001,2
,3,4,6
14.8
219.2
56
.21.2
9915
.920
8.9
56.8
1.498
14.6
241.4
*55
.60.0
100
14.0
207.3
56
.22.3
100
CHAN
NEL 1
97-6
8 STX
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97A5
001,2
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15.4
223.1
56
.10.7
9816
.822
4.6
56.3
0.095
14.7
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55
.40.0
9914
.722
9.8
56.7
2.010
0CH
ANNE
L 201
-61 S
TXRI
B10
1A5
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15.2
224.8
54
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.322
4.6
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15.3
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0.6
55.7
0.310
0CH
ANNE
L 204
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TXRI
B10
4A5
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16.2
230.6
55
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15.7
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55
.60.0
100
15.0
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56
.00.6
100
CHAN
NEL 2
05-1
9 STX
RIB
105
A500
1,2,3,
4,616
.722
4.3
55.3
0.095
18.9
211.7
55
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5.6
55.2
0.093
14.7
235.7
55
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ANNE
L 207
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7A5
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54
.30.7
100
20.3
239.2
*54
.20.6
9918
.921
4.3
53.9
0.010
017
.825
2.0*
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1.410
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IRYL
AND
SEED
DS-
9106
106
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19.1
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0.7
54.6
0.090
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KALB
DKC
51-3
8 GEN
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B10
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0.4
56.6
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17.3
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LB D
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103
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DEKA
LB D
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18.7
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17.2
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GREA
T LA
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5029
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15.0
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EAT
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S 52
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616
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17.6
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.122
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GREA
T LA
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16.6
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56
.70.4
9918
.121
8.8
57.5
1.110
016
.722
5.2
55.8
0.097
15.1
231.4
56
.80.0
100
GREA
T LA
KES
5556
VT2R
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.023
5.5*
55.0
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16.4
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A250
1,2,3
15.4
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.60.0
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15.3
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4.1
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INTE
GRA
4902
GSS
100
A250
1,2,3,
4,616
.221
8.7
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17.2
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.30.0
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.519
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15.0
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.50.0
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INTE
GRA
5243
DGVT
2PRI
B10
2A2
501,2
15.6
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54
.20.5
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.320
3.4
54.3
0.494
14.8
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.90.0
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.823
4.8
54.6
1.297
LEGA
CY S
EEDS
L-55
16 V
T2PR
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5P5
001,2
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15.9
234.8
55
.80.2
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.722
0.9
54.7
0.099
15.1
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.20.0
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6.5
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LEGA
CY S
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L-59
14 G
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1,2,3,
4,617
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0.498
19.5
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4.4*
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1,215
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0.6
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0.010
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M&W
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DS 45
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1,216
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.321
8.1
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0.094
14.7
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100
M&W
SEE
DS 45
K75
102
P250
1,2,5
15.7
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56
.20.3
100
17.0
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100
15.0
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.90.0
9915
.122
2.7
56.1
0.010
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45M4
410
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501,2
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56
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100
18.4
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9915
.523
4.4
57.0
0.010
015
.122
1.2
56.7
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M&W
SEE
DS M
WX1
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501,2
16.5
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16.5
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1.1
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16.6
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4.0*
56.1
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MYCO
GEN
X136
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106
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1,2,3,
4,618
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7.2
55.0
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.124
1.5*
54.4
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100
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ch/G
2 GEN
ETIC
S 5L
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™10
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001,2
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.524
1.8*
54.5
0.098
15.5
239.8
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100
NuTe
ch/G
2 GEN
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S 5Z
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1.9
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0.099
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Tech
/G2 G
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ICS
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04™
104
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55
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.522
0.9
55.2
0.095
16.6
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.20.0
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.124
4.7*
56.2
0.698
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ch/G
2 GEN
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S 5H
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56.3
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100
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ch/G
2 GEN
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S 5F
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55.8
0.010
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6.6
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1,216
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103
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01,2
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.521
6.7
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54
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.021
1.9
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0.087
14.7
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PP X
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1,216
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.624
2.3*
56.0
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.33.1
100
RUPP
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500
1,215
.624
2.9*
55.9
0.098
16.9
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.70.0
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.124
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55.8
0.099
14.9
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56
.20.0
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Early
- TR
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.84.0
99BR
ODBE
CK 94
0910
9C2
521
19.5
212.3
54.1
0.697
21.9
202.1
52.6
0.994
18.5
238.5
54.1
0.010
018
.019
6.455
.70.9
99BR
ODBE
CK 57
RA10
110
C253
1,2,3,
4,619
.121
0.452
.30.2
9821
.718
6.650
.40.0
9719
.222
6.352
.40.0
9716
.421
8.353
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99DA
IRYL
AND
SEED
DS-
9508
RA10
8C5
001,2
,3,4,6
20.3
218.5
52.5
0.098
22.8
210.9
*51
.10.0
9419
.823
2.052
.20.0
9918
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2.754
.30.0
100
DEKA
LB D
KC58
-06 G
ENSS
RIB
108
PV50
01,2
,3,4,6
18.8
217.1
56.3
0.499
20.3
199.1
56.3
0.399
18.8
239.1
55.7
0.099
17.3
213.1
57.1
0.910
0DE
KALB
DKC
60-87
GEN
SSRI
B11
0PV
500
1,2,3,
4,619
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5.154
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9922
.418
7.453
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100
19.1
231.7
55.0
0.098
16.8
226.1
*56
.50.0
100
DYNA
GRO
D51S
S54
111
P500
1,2,3,
4,620
.122
6.7*
54.6
0.310
022
.520
1.054
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100
19.2
257.3
**54
.40.0
100
18.5
221.9
*55
.20.6
100
GOLD
EN H
ARVE
ST G
07B3
9-312
2A10
9C5
001,2
,3,4,5
,620
.520
8.455
.50.8
9622
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8.855
.10.0
9220
.322
7.555
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9718
.220
9.056
.32.3
99GO
LDEN
HAR
VEST
G09
E98-3
122
109
C500
1,2,3,
4,618
.821
6.856
.00.0
9820
.620
5.355
.40.0
9318
.223
8.455
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100
17.5
206.6
57.5
0.010
0GR
EAT L
AKES
5824
STXR
IB10
8P5
001,2
,3,6
18.9
232.0
*56
.40.0
9921
.020
9.0*
55.4
0.010
018
.525
2.2*
56.6
0.097
17.1
234.8
*57
.30.0
100
GREA
T LAK
ES 59
44ST
XRIB
109
P500
1,2,3,
619
.022
5.7*
55.0
0.498
21.4
207.9
53.8
0.098
18.5
239.8
54.6
0.096
17.1
229.4
*56
.41.2
99LE
GACY
SEED
S L-70
14 G
ENSS
110
P500
1,2,3,
4,619
.622
4.354
.80.0
9721
.421
7.5*
54.5
0.095
19.0
229.9
54.6
0.097
18.6
225.5
*55
.40.0
98M&
W SE
EDS 4
4D81
108
P250
1,218
.422
6.0*
55.2
0.498
20.3
213.2
*55
.00.0
9518
.324
0.154
.90.0
100
16.7
224.8
*55
.81.1
100
NK Br
and N
63R-
3122
109
C250
1,2,3,
4,618
.621
4.956
.70.0
100
20.4
201.4
55.7
0.099
18.2
230.2
56.6
0.099
17.4
213.0
57.7
0.010
0NK
Bran
d N59
B-31
22A
109
C250
1,2,3,
4,5,6
20.8
206.2
55.8
1.399
23.5
188.6
55.3
0.099
20.1
214.9
55.5
0.697
18.9
215.2
56.6
3.410
0Nu
Tech
/G2 G
ENET
ICS 5
F-308
™10
8P5
001,2
,418
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6.954
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9720
.718
4.853
.10.0
9217
.823
9.354
.90.0
100
17.6
226.5
*56
.50.0
100
RENK
RK7
94DG
VT2P
108
P250
1,2,5
18.3
221.0
54.1
0.498
20.6
211.3
*53
.20.0
9717
.623
8.354
.20.0
9516
.821
3.354
.81.1
100
RENK
RK7
92SS
TX10
8P5
001,2
,3,4,6
18.1
233.6
**55
.60.4
9720
.621
0.6*
55.5
0.698
17.8
257.0
*54
.80.0
9415
.923
3.1*
56.6
0.610
0RE
NK R
K810
SSTX
110
P500
1,2,3,
4,619
.322
5.7*
55.1
0.199
20.9
195.5
54.9
0.399
18.7
245.9
*54
.60.0
9918
.223
5.6**
55.7
0.099
RENK
RK8
71VT
2P11
1P2
501,2
20.1
218.6
54.0
0.798
21.6
196.8
52.8
1.198
19.6
240.4
54.4
0.099
19.0
218.6
*54
.91.1
97RU
PP XR
J10-9
111
0PV
500
1,2,3,
418
.622
1.356
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9520
.920
8.156
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9718
.223
7.556
.00.0
9316
.721
8.357
.00.3
96RU
PP XR
D10-0
111
0A2
501,2
18.5
223.0
55.7
0.399
20.7
202.8
54.5
0.099
18.2
240.3
55.7
0.099
16.5
226.0
*57
.00.9
99RU
PP XR
D11-5
711
1A2
501,2
18.1
226.3
*53
.90.9
9820
.120
4.753
.80.3
9618
.124
1.5*
54.0
0.097
16.1
232.7
*54
.02.5
100
SEED
CON
SULT
ANTS
SCS 1
086Y
HR™
108
P125
01,2
,419
.622
5.1*
53.5
0.397
21.7
220.8
*51
.50.0
9119
.223
7.653
.90.0
100
17.8
217.0
55.1
0.910
0SE
ED C
ONSU
LTAN
TS SC
S 107
7YHQ
™10
8P1
250
1,2,3,
419
.023
0.4*
55.6
0.599
20.7
222.7
**55
.20.0
9918
.523
9.355
.10.0
9817
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9.4*
56.5
1.499
SEED
CON
SULT
ANTS
SC 10
AGT9
6™10
9P5
001,2
,417
.821
1.254
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9919
.320
3.952
.80.6
9716
.924
0.554
.90.0
9917
.118
9.454
.68.2
100
STEY
ER 10
805 V
T2PR
ORIBC
108
C250
1,218
.222
8.4*
54.4
2.396
20.4
212.5
*54
.01.2
8717
.924
2.4*
54.4
0.010
016
.523
0.2*
54.9
5.610
0WE
LLMA
N W2
610D
P11
0EN
C1,2
18.5
213.2
55.2
0.298
20.5
201.4
54.3
0.099
17.5
232.0
55.8
0.099
17.4
206.1
55.4
0.697
WELL
MAN
W260
9DP
109
ENC
1,218
.522
8.4*
54.7
0.995
20.1
212.4
*54
.31.0
9118
.425
1.4*
54.8
0.098
17.0
221.4
*55
.11.7
95WY
CKOF
F 254
0 VT2
P10
8P5
061,2
17.9
218.1
54.1
1.495
19.8
211.2
*53
.40.3
9017
.721
9.153
.10.0
9516
.222
4.1*
55.7
3.910
0AV
ERAG
E19
.022
0.454
.80.6
9821
.020
3.954
.00.3
9618
.623
8.254
.70.0
9817
.421
9.255
.81.5
99HI
GHES
T20
.823
3.656
.72.9
100
23.5
222.7
56.6
1.210
020
.325
7.356
.60.6
100
19.0
235.6
57.7
8.210
0LO
WEST
17.8
206.2
52.3
0.095
19.3
184.8
50.4
0.087
16.9
214.9
52.2
0.093
15.9
189.4
53.7
0.095
CV (%
)3.2
6.21.6
232.3
5.03.1
5.81.7
303.3
8.02.9
5.81.6
1183
.03.0
3.66.6
1.514
8.92.0
LSD
(5%)
0.49.2
0.60.9
3.00.8
14.0
1.10.9
9.00.6
16.2
1.00.2
4.00.7
17.1
1.02.6
2.0
BU/A
BU/A
BU/A
BU/A
Late
- TRI
AL A
VERA
GEBr
anch
- Late
Cass
- Late
Wash
tenaw
- Late
- 11 -
2 Yea
r Ave
rages
2016
- 201
5BR
AND
/ HYB
RID
RMTR
TTR
AIT
%H2O
Twt
%SL
%Sd
%H2O
Twt
%SL
%Sd
%H2O
Twt
%SL
%Sd
%H2O
Twt
%SL
%Sd
AGRI
GOLD
A64
62ST
XRIB
110
P500
1,2,3,
421
.322
0.8*
54.9
0.197
18.0
207.1
*55
.60.4
9722
.323
3.254
.60.0
100
23.6
222.1
*54
.60.0
96BE
CK 58
40AM
™*
108
ESC
1,2,4,
619
.520
9.855
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9916
.818
7.756
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9820
.523
5.1*
54.7
0.010
021
.220
6.754
.80.0
99BE
CK 58
28AM
™*
110
ESC
1,2,4,
620
.222
2.0*
54.1
0.399
17.9
196.1
54.4
0.898
20.4
236.8
*54
.40.0
100
22.3
233.1
**53
.50.0
100
DAIR
YLAN
D SE
ED D
S-95
08RA
108
C500
1,2,3,
4,620
.221
9.253
.20.0
9818
.020
1.1*
53.3
0.096
21.6
235.6
*52
.40.0
100
21.1
220.9
53.9
0.099
DEKA
LB D
KC58
-06 G
ENSS
RIB
108
PV50
01,2
,3,4,6
19.4
219.5
56.9
0.298
17.0
205.4
*58
.00.6
9820
.623
2.856
.00.0
9720
.522
0.456
.80.0
98DY
NAGR
O D5
1SS5
411
1P5
001,2
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21.2
226.6
**55
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9818
.820
5.0*
55.9
0.110
021
.924
6.0**
54.6
0.099
22.9
228.8
*55
.00.0
96M&
W S
EEDS
44D8
110
8P2
501,2
18.6
223.0
*55
.50.0
9916
.320
8.3**
55.5
0.197
19.6
239.8
*55
.30.0
100
20.0
221.0
*55
.70.0
99RE
NK R
K810
SSTX
110
P500
1,2,3,
4,620
.822
1.7*
55.3
0.598
17.3
191.6
56.2
1.499
21.6
242.4
*54
.80.0
9723
.423
1.0*
54.9
0.097
RENK
RK8
71VT
2P11
1P2
501,2
20.1
216.2
54.7
0.399
17.3
190.0
54.9
0.899
21.5
239.8
*54
.80.0
9921
.521
8.854
.50.0
99RU
PP X
RJ10
-9111
0PV
500
1,2,3,
418
.721
8.156
.90.0
9616
.819
8.0*
57.6
0.098
20.0
231.3
56.1
0.096
19.2
224.9
*56
.90.0
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ELLM
AN W
2610
DP11
0EN
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20.6
215.6
55.0
0.298
17.2
200.5
*55
.80.7
9920
.723
2.655
.40.0
9823
.721
3.854
.00.0
97AV
ERAG
E20
.021
9.355
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9817
.419
9.255
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9821
.023
6.954
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9921
.822
2.055
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98HI
GHES
T21
.322
6.656
.90.5
9918
.820
8.358
.01.4
100
22.3
246.0
56.1
0.010
023
.723
3.156
.90.0
100
LOW
EST
18.6
209.8
53.2
0.096
16.3
187.7
53.3
0.096
19.6
231.3
52.4
0.096
19.2
206.7
53.5
0.095
CV (%
)4.7
6.41.5
234.0
5.03.2
6.51.6
350.2
6.04.5
5.81.5
0.03.0
5.96.6
1.60.0
4.0LS
D (5%
)0.4
6.70.4
0.62.0
0.510
.80.7
1.15.0
0.711
.40.7
0.03.0
0.912
.10.7
0.04.0
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ighes
t Yiel
ding H
ybrid
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ot Sig
nifica
ntly D
ifferen
t from
High
est Y
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BU/A
BU/A
BU/A
BU/A
Late
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AL A
VERA
GEBr
anch
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Cass
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Wash
tenaw
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- 12 -
TABL
E 2E
.ZO
NE 2
ALLE
GAN,
INGH
AM &
SAG
INAW
COU
NTY
GRAI
N TR
IALS
- EA
RLY
(101
Day
and
Earli
er)
2016
BRAN
D / H
YBRI
DRM
TRT
TRAI
T%
H2O
Twt
%SL
%Sd
%H2
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t%
SL%
Sd%
H2O
Twt
%SL
%Sd
%H2
OTw
t%
SL%
SdAG
RIGO
LD A
6257
STXR
IB10
0P5
001,2
,3,4
16.8
221.2
55.5
0.296
17.3
235.7
55.9
0.610
018
.519
7.354
.40.0
8914
.623
0.556
.30.0
99BE
CK 47
21AM
™*
97ES
C1,2
,4,6
15.8
231.3
53.5
0.097
15.3
227.4
54.6
0.010
017
.822
2.8*
52.0
0.093
14.4
243.7
53.8
0.097
BECK
4919
V2P
99ES
C1,2
15.7
220.8
57.6
1.091
15.7
219.2
58.0
0.610
017
.021
8.656
.82.6
9114
.322
4.658
.20.0
83BE
CK 51
62A3
101
ESC
1,2,3,
416
.122
1.356
.41.3
9816
.221
9.957
.23.9
100
17.6
225.1
*55
.30.0
9514
.521
8.856
.80.0
98CH
ANNE
L 192
-08 V
T2PR
IB92
A500
1,215
.322
2.255
.80.5
9515
.322
7.156
.51.4
9916
.621
4.654
.80.0
9314
.022
4.956
.10.0
94CH
ANNE
L 194
-14 V
T2PR
IB94
A500
1,214
.921
8.155
.70.5
9215
.122
8.656
.11.4
9716
.021
6.754
.80.0
9213
.620
9.156
.30.0
87CH
ANNE
L 197
-66 V
T2PR
IB97
A500
1,216
.123
6.4*
56.5
0.595
16.1
239.6
57.0
1.410
017
.721
9.455
.70.0
9514
.525
0.2*
57.0
0.091
CHAN
NEL 1
97-5
0 VT2
PRIB
97A5
001,2
15.5
223.9
55.1
1.197
15.2
237.2
56.2
3.410
017
.520
1.353
.40.0
9313
.823
3.255
.60.0
98CH
ANNE
L 199
-00 D
GVT2
PRIB
99A5
001,2
, 516
.122
1.956
.10.6
9416
.223
0.456
.61.8
9717
.920
1.555
.00.0
8714
.323
3.856
.90.0
99CH
ANNE
L 201
-61 V
T2PR
IB10
1A5
001,2
17.5
231.3
54.4
0.392
17.6
234.3
54.9
0.997
19.7
221.1
*52
.80.0
8615
.123
8.455
.40.0
92CR
OPLA
N 33
14VT
2P93
A250
1,215
.321
0.655
.51.0
9115
.522
2.956
.23.1
100
16.6
205.3
54.1
0.087
13.8
203.5
56.1
0.086
CROP
LAN
3399
SS/R
IB93
A500
1,2,3,
616
.121
9.256
.30.2
9416
.124
6.7*
57.2
0.610
017
.918
9.654
.90.0
8414
.422
1.457
.00.0
97CR
OPLA
N 34
99VT
3P/R
IB94
A250
1,2,3
15.8
224.7
56.2
0.596
15.5
231.8
56.3
1.498
17.9
214.5
55.2
0.092
14.1
227.8
57.1
0.097
CROP
LAN
3611
SS/R
IB96
A500
1,2,3,
615
.823
6.7*
56.5
0.295
16.1
244.8
*57
.30.0
100
17.3
231.4
*55
.60.6
8714
.123
4.056
.70.0
99CR
OPLA
N 38
99VT
2P/R
IB96
A250
1,216
.422
8.555
.70.7
9516
.524
6.9*
56.5
2.010
018
.320
9.354
.00.0
8814
.522
9.356
.60.0
97CR
OPLA
N 36
14VT
2P96
A250
1,216
.121
9.855
.70.0
9716
.021
5.156
.40.0
9917
.921
0.854
.60.0
9514
.423
3.456
.00.0
97CR
OPLA
N 41
99SS
/RIB
100
A500
1,2,3,
617
.221
9.555
.60.4
9417
.824
0.856
.60.6
100
18.6
195.0
53.8
0.788
15.3
222.7
56.5
0.094
DAIR
YLAN
D SE
ED D
S-91
98RA
98C5
001,2
,3,4,6
16.4
209.2
54.4
0.694
16.8
218.7
55.3
1.710
018
.419
3.153
.00.0
9514
.021
5.755
.00.0
88DA
IRYL
AND
SEED
DS-
9599
99C5
001,2
,3,4
16.8
211.9
54.3
0.394
17.2
215.7
54.9
0.910
018
.419
5.052
.70.0
9314
.722
5.055
.20.0
88DA
IRYL
AND
SEED
DS-
9701
101
C500
1,2,3,
4,617
.422
5.854
.70.3
9417
.323
3.855
.70.8
9719
.820
8.952
.80.0
8615
.223
4.755
.80.0
98DE
KALB
DKC
46-3
6 GEN
SSRI
B96
PV50
01,2
,3,4,6
16.1
227.9
55.6
0.396
16.4
242.6
*56
.40.0
100
17.6
208.9
54.0
0.992
14.4
232.2
56.3
0.097
DEKA
LB D
KC49
-72 G
ENSS
RIB
99PV
500
1,2,3,
4,616
.222
7.854
.60.0
9716
.424
8.4*
55.4
0.010
017
.921
5.352
.80.0
9514
.421
9.755
.70.0
95DE
KALB
DKC
51-3
8 GEN
SSRI
B10
1PV
500
1,2,3,
4,616
.523
3.6*
55.7
0.594
16.5
238.9
56.5
1.499
18.3
212.7
54.0
0.088
14.6
249.2
*56
.80.0
95DY
NAGR
O D3
7SS6
097
P500
1,2,3,
4,615
.822
5.456
.40.0
9615
.924
5.4*
57.6
0.099
17.7
214.4
55.3
0.091
13.8
216.4
56.4
0.097
DYNA
GRO
D39D
C43
99P5
001,2
,516
.523
7.8*
54.8
0.094
16.4
250.9
*55
.70.0
9718
.822
1.1*
53.6
0.087
14.3
241.4
55.1
0.099
DYNA
GRO
D40S
S48
100
P500
1,2,3,
4,616
.222
0.556
.20.4
9916
.423
1.056
.61.1
100
17.6
206.3
55.0
0.097
14.5
224.3
57.0
0.099
GOLD
EN H
ARVE
ST G
01P5
2-31
22A
101
C250
1,2,3,
4,5,6
16.4
207.8
56.2
0.495
16.4
215.5
57.2
1.110
018
.218
5.454
.70.0
8814
.622
2.656
.70.0
97GR
EAT
LAKE
S 40
37ST
XRIB
90P5
001,2
,3,6
15.3
220.5
56.8
0.395
15.4
224.0
57.0
0.910
016
.621
3.656
.50.0
8913
.922
4.057
.10.0
98GR
EAT
LAKE
S 42
50ST
XRIB
92P5
001,2
,3,6
14.9
213.3
55.0
1.292
15.3
219.1
56.0
3.798
16.0
197.7
53.8
0.078
13.4
222.9
55.3
0.099
GREA
T LA
KES
4452
VT2R
IB94
P500
1,215
.323
4.7*
55.5
0.297
15.5
241.8
*56
.00.6
100
16.8
218.9
54.5
0.093
13.6
243.5
56.1
0.098
GREA
T LA
KES
4548
STXR
IB95
P500
1,2,3,
615
.723
8.0*
56.1
0.399
16.2
235.4
56.4
0.910
016
.723
7.9**
55.3
0.097
14.3
240.8
56.5
0.099
GREA
T LA
KES
4879
STXR
IB98
P500
1,2,3,
616
.522
3.555
.60.3
9316
.424
3.5*
56.0
0.910
018
.320
2.154
.40.0
8415
.022
4.856
.40.0
96GR
EAT
LAKE
S 50
29VT
2RIB
100
P500
1,216
.822
5.955
.30.0
9416
.624
1.355
.90.0
100
19.1
190.3
53.8
0.085
14.8
246.1
*56
.10.0
99IN
TEGR
A 94
82VT
3PRI
B98
A250
1,2,3
16.3
232.3
56.2
0.895
16.5
232.3
56.9
0.999
18.1
228.9
*54
.91.4
9014
.523
5.856
.90.0
96IN
TEGR
A 46
52GS
S96
PV50
01,2
,3,4,6
15.4
221.6
56.3
0.199
15.6
229.9
57.0
0.310
016
.821
3.755
.40.0
9813
.822
1.356
.60.0
99IN
TEGR
A 49
02GS
S10
0A2
501,2
,3,4,6
16.8
222.4
55.8
0.092
16.7
239.4
56.8
0.098
18.7
192.3
53.7
0.080
15.0
235.5
56.9
0.097
LEGA
CY S
EEDS
L-37
15 G
ENSS
96P5
001,2
,3,4,6
15.7
227.1
56.2
0.095
15.7
237.4
57.4
0.010
017
.520
0.054
.50.0
8513
.924
4.056
.70.0
100
LEGA
CY S
EEDS
L-38
45 G
ENSS
97P5
001,2
,3,4,6
15.5
207.8
54.7
0.287
15.5
222.9
55.5
0.697
17.3
184.3
53.2
0.078
13.9
216.3
55.4
0.085
LEGA
CY S
EEDS
L-43
15 G
ENSS
101
P500
1,2,3,
4,617
.023
1.355
.50.0
9217
.023
7.256
.20.0
100
18.8
223.4
*53
.80.0
8115
.123
3.256
.60.0
95LE
GACY
SEE
DS L-
4445
VT2
PRO
DG10
1P2
501,2
,5,6
16.9
227.8
55.1
0.695
17.2
242.1
*55
.70.0
100
18.9
201.3
53.5
1.787
14.6
240.1
56.2
0.098
LEGE
ND 94
92 G
ENSS
RIB
92C2
501,2
,3,4,6
15.5
210.0
56.3
0.592
15.6
214.5
56.8
1.594
17.0
198.9
55.4
0.089
13.9
216.8
56.7
0.095
LEGE
ND 97
94 G
ENSS
RIB
94C2
501,2
,3,4,6
15.2
217.1
55.4
0.497
15.3
224.2
55.7
1.199
16.9
209.0
55.3
0.092
13.4
218.1
55.3
0.099
LEGE
ND 96
97 G
ENSS
RIB
97C2
501,2
,3,4,6
15.1
221.7
54.8
0.095
15.1
229.9
55.1
0.010
016
.520
2.054
.10.0
8513
.723
3.155
.10.0
99LE
GEND
9600
GEN
SSRI
B10
0C2
501,2
,3,4,6
16.2
229.9
55.6
0.496
16.3
244.6
*55
.61.1
100
18.0
216.8
54.7
0.090
14.2
228.4
56.4
0.097
LEGE
ND 97
01 G
ENSS
RIB
101
C250
1,2,3,
4,616
.723
0.955
.80.0
9416
.424
3.0*
55.9
0.010
018
.821
6.854
.60.0
8514
.823
3.056
.80.0
96
Early
- TR
IAL
AVER
AGE
Alleg
an -
Early
Sagi
naw
- Ear
lyIn
gham
- Ea
rlyBU
/ABU
/ABU
/ABU
/A
- 13 -
M&W
SEE
DS 47
J66
94P2
501,2
15.8
219.5
56.1
0.799
16.0
226.8
56.7
1.410
017
.420
5.554
.80.6
9714
.222
6.356
.70.0
99M&
W S
EEDS
46J1
196
P250
1,216
.223
7.5*
56.1
0.495
15.8
237.8
57.1
1.199
17.8
237.8
*54
.60.0
9015
.023
6.956
.80.0
97M&
W S
EEDS
46L4
296
P250
1,215
.722
7.156
.31.7
9615
.923
6.156
.75.1
100
17.0
213.5
55.0
0.093
14.2
231.7
57.1
0.096
M&W
SEE
DS 46
G55
98P2
501
16.4
210.4
54.3
0.085
16.9
231.1
55.4
0.095
18.4
177.8
52.8
0.077
14.0
222.3
54.8
0.083
M&W
SEE
DS 45
M21
100
P250
1,216
.522
1.155
.71.3
9216
.923
6.656
.10.9
100
17.6
200.9
54.3
3.083
14.9
226.0
56.7
0.094
M&W
SEE
DS 45
A36
101
P250
1,216
.721
9.854
.90.0
9716
.822
3.255
.10.0
100
18.7
210.7
53.6
0.092
14.6
225.5
56.1
0.010
0M&
W S
EEDS
45N3
110
1P2
501,2
16.5
230.3
55.5
0.091
16.4
248.0
*56
.00.0
9918
.321
7.254
.20.0
8214
.822
5.856
.30.0
93MY
COGE
N 2A
499
99C5
001,2
,3,4,6
17.1
215.4
55.5
2.598
17.0
210.9
56.3
7.610
018
.720
7.654
.10.0
9615
.622
7.856
.20.0
97NK
Bran
d N45
P-31
22A
101
C250
1,2,3,
4,5,6
16.5
207.6
56.3
0.394
16.6
236.5
56.8
0.010
018
.217
5.055
.10.9
8214
.721
1.457
.00.0
100
NuTe
ch/G
2 GEN
ETIC
S X5
Z-95
01™
95P5
001,2
,415
.921
1.656
.70.2
9616
.021
6.357
.00.6
100
17.4
201.3
56.0
0.094
14.4
217.1
57.1
0.096
NuTe
ch/G
2 GEN
ETIC
S 5F
-196™
96P5
001,2
,416
.022
8.753
.10.0
9716
.222
9.654
.00.0
100
17.9
220.5
*51
.50.0
9213
.923
6.053
.70.0
99Nu
Tech
/G2 G
ENET
ICS
X5Z-
9902
™99
P500
1,2,4
16.8
205.9
53.0
0.083
16.8
234.1
54.7
0.093
19.0
192.8
50.4
0.077
14.7
190.8
53.9
0.079
NuTe
ch/G
2 GEN
ETIC
S 5F
-701™
101
P500
1,2,4
17.0
228.8
55.0
0.896
16.8
235.9
56.1
0.610
018
.721
6.653
.11.8
9215
.423
3.855
.60.0
96Nu
Tech
/G2 G
ENET
ICS
5Z-60
1™10
1P5
001,2
,417
.124
2.4**
54.7
1.195
17.4
258.1
**55
.90.8
100
18.5
209.4
53.0
2.485
15.5
259.7
**55
.20.0
99RE
NK R
K596
SSTX
98P5
001,2
,3,4,6
15.6
225.3
56.1
0.095
15.5
236.3
57.0
0.010
017
.519
5.655
.20.0
8613
.924
3.856
.20.0
99RE
NK R
K595
SSTX
99P5
001,2
,3,4,6
15.8
225.7
56.4
0.198
16.0
231.2
56.7
0.397
17.2
220.7
*55
.30.0
9614
.422
5.157
.30.0
100
RENK
RK6
12SS
TX10
0P5
001,2
,3,4,6
16.2
230.2
55.7
1.797
16.5
233.1
55.8
5.110
017
.921
4.054
.50.0
9714
.424
3.656
.70.0
95RE
NK R
K608
DGVT
2P10
0P2
501,2
,516
.523
6.6*
54.4
0.197
17.0
247.3
*55
.20.3
100
18.1
230.7
*53
.20.0
9414
.323
1.754
.90.0
96RU
PP X
RD94
-2694
A250
1,215
.821
8.556
.31.2
9715
.922
7.556
.33.7
100
17.3
210.0
55.2
0.099
14.3
218.2
57.5
0.092
RUPP
XRT
94-06
94A2
501,2
,316
.021
7.456
.40.7
9616
.222
4.157
.01.4
100
17.5
202.8
55.4
0.090
14.4
225.1
56.9
0.696
RUPP
XRD
97-56
97A2
501,2
15.4
221.4
55.8
0.096
14.9
234.3
56.7
0.010
017
.420
2.854
.30.0
9213
.922
7.156
.30.0
97RU
PP X
RD00
-5110
0A2
501,2
16.8
234.3
*55
.60.0
9216
.724
8.5*
55.9
0.010
018
.620
8.654
.40.0
8315
.024
5.8*
56.4
0.093
SEED
CON
SULT
ANTS
SCS
924Y
HR™
92C2
501,2
,416
.121
0.754
.31.0
9416
.522
8.455
.03.1
9917
.319
4.653
.30.0
8614
.520
9.054
.70.0
96SE
ED C
ONSU
LTAN
TS S
CS 96
5YHR
™96
C250
1,2,4
15.9
230.9
53.0
0.593
15.4
235.4
53.8
1.499
18.3
222.1
*51
.40.0
8313
.923
5.153
.80.0
95SE
ED C
ONSU
LTAN
TS S
C 9A
Q61™
98P5
001,2
,3,4
16.6
218.3
55.3
3.097
17.0
212.6
56.6
9.010
018
.120
3.053
.40.0
9414
.823
9.256
.10.0
98SE
ED C
ONSU
LTAN
TS S
CS 10
17YH
R™10
1P1
250
1,2,4
16.7
224.2
51.9
0.094
17.4
225.1
52.9
0.010
018
.720
9.350
.00.0
8714
.123
8.252
.70.0
96SP
ECIA
LTY
24A1
0494
P500
1,2,3,
4,615
.622
2.955
.50.9
9816
.122
0.556
.32.6
9916
.721
6.854
.30.0
9814
.123
1.456
.00.0
98SP
ECIA
LTY
26A2
3696
P500
STX
15.8
236.9
*55
.80.1
9816
.124
9.9*
56.5
0.310
017
.222
1.7*
54.6
0.096
14.0
239.0
56.4
0.099
SPEC
IALT
Y 28
A325
98P5
001,2
,3,4,6
16.7
222.9
56.0
0.294
16.4
233.2
56.4
0.699
19.1
208.1
54.9
0.088
14.8
227.4
56.7
0.096
SPEC
IALT
Y 29
A263
99P5
001,2
,3,4,6
15.7
231.8
55.0
1.395
15.8
221.4
55.8
3.895
17.3
227.2
*53
.40.0
9114
.124
7.0*
55.8
0.010
0ST
EYER
9203
VT2
PROR
IBC
92C2
501,2
15.5
211.1
56.2
0.292
15.8
223.5
57.1
0.696
17.0
188.6
55.1
0.087
13.8
221.3
56.5
0.094
STEY
ER 10
102 V
T2PR
ORIB
C10
1C2
501,2
16.5
221.4
55.1
0.397
16.2
217.5
56.1
0.810
018
.621
0.152
.70.0
9114
.723
6.656
.50.0
99ST
EYER
9204
VT2
PROR
IBC
92C2
501,2
15.1
203.6
55.1
0.994
14.2
201.0
54.8
2.810
017
.019
0.254
.40.0
8814
.121
9.656
.10.0
94ST
EYER
9401
GEN
SSRI
BC94
C250
1,2,3,
415
.622
4.955
.70.0
9515
.523
4.456
.30.0
9917
.021
3.654
.50.0
9214
.222
6.856
.30.0
93Fil
l17
.122
2.155
.51.2
9816
.621
3.356
.13.7
100
19.3
217.8
54.1
0.097
15.3
235.3
56.4
0.096
Fill
16.8
219.0
55.4
1.097
16.4
212.0
56.2
3.110
018
.822
2.3*
54.2
0.097
15.3
222.7
55.8
0.095
AVER
AGE
16.1
223.3
55.5
0.595
16.2
231.6
56
.11.3
9917
.820
8.9
54.2
0.290
14.4
229.4
56
.10.0
96HI
GHES
T17
.524
2.457
.63.0
9917
.825
8.1**
58.0
9.010
019
.823
7.9**
56.8
3.099
15.6
259.7
**58
.20.6
100
LOW
EST
14.9
203.6
51.9
0.083
14.2
201.0
52.9
0.093
16.0
175.0
50.0
0.077
13.4
190.8
52.7
0.079
CV (%
)3.3
6.31.3
240.1
7.02.9
6.01.4
135.1
2.03.8
7.51.6
552.0
11.0
2.95.5
0.918
00.0
7.0LS
D (5%
)0.4
9.50.5
0.85.0
0.516
.40.9
2.03.0
0.818
.31.0
1.311
.00.5
14.7
0.60.1
8.0
** H
ighes
t Yiel
ding H
ybrid
* N
ot Sig
nifica
ntly D
ifferen
t from
High
est Y
ieldin
g Hyb
rid
-2 Y
ear A
vera
ges
Cont
inue
d O
n Pa
ge 2
3.
- 14 -
TABL
E 2L
.ZO
NE 2
2016
BRAN
D / H
YBRI
DRM
TRT
TRAI
T%
H2O
Twt
%SL
%Sd
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
%H2
OTw
t%
SL%
SdAG
RIGO
LD A
6267
STXR
IB10
2P5
001,2
,3,4
17.5
238.3
*55
.00.0
9517
.124
6.855
.10.0
100
19.9
217.5
54.0
0.095
15.7
250.6
*55
.90.0
91AG
RIGO
LD A
6355
STXR
IB10
3P5
001,2
,3,4
18.6
223.5
54.3
2.693
17.8
238.7
54.4
0.099
21.2
213.0
53.5
6.990
16.7
218.9
55.1
0.890
AGRI
GOLD
A63
46ST
X10
4P5
001,2
,3,4
18.2
225.7
54.6
0.588
17.9
236.8
55.0
0.096
20.3
203.8
52.9
1.485
16.3
236.5
56.0
0.082
BECK
5234
AMX™
*10
2ES
C1,2
,3,4,6
16.9
236.2
55.0
0.091
16.8
244.7
56.2
0.010
018
.822
4.1*
53.3
0.090
15.2
239.7
55.7
0.084
BECK
5337
V2P
103
ESC
1,217
.322
7.155
.10.0
9316
.725
1.555
.00.0
100
19.3
212.5
54.1
0.094
15.8
217.3
56.1
0.087
BECK
5460
AM™
*10
4ES
C1,2
,4,6
17.6
237.9
*54
.30.1
9517
.225
4.554
.90.3
100
19.4
218.5
53.0
0.097
16.2
240.9
55.0
0.088
BECK
5140
HR™
*10
5ES
C1,2
,4,6
18.1
245.8
**54
.50.6
9017
.725
5.554
.40.0
9819
.921
9.853
.71.9
9616
.726
1.9**
55.4
0.076
BROD
BECK
9409
109
C252
119
.423
0.153
.81.9
9418
.023
4.154
.14.0
9922
.023
1.7*
53.1
0.097
18.2
224.5
54.2
1.785
BROD
BECK
57RA
1011
0C2
531,2
,3,4,6
19.3
225.3
51.5
0.186
18.6
226.1
52.7
0.395
22.7
202.6
49.9
0.089
16.6
247.0
*52
.00.0
75DA
IRYL
AND
SEED
DS-
9802
102
C500
1,2,3,
4,618
.022
1.253
.90.0
9517
.423
1.454
.80.0
100
20.5
210.8
52.6
0.097
16.0
221.3
54.4
0.087
DAIR
YLAN
D SE
ED D
S-94
0310
3C5
001,2
,3,4,6
17.2
227.7
52.6
3.095
16.6
227.0
53.1
4.210
019
.321
9.250
.40.9
9615
.623
6.954
.44.0
90DA
IRYL
AND
SEED
DS-
9204
104
C500
1,2,3,
4,617
.921
8.052
.20.0
9516
.822
6.352
.40.0
100
21.5
203.6
52.2
0.097
15.3
224.3
52.1
0.087
DAIR
YLAN
D SE
ED D
S-91
0610
6C5
001,2
,3,4,6
18.0
228.3
54.3
0.490
17.4
239.1
54.8
0.099
20.1
214.1
53.2
1.395
16.6
231.6
54.9
0.077
DEKA
LB D
KC53
-68 G
ENSS
RIB
103
PV50
01,2
,3,4,6
16.9
238.8
*56
.10.0
9416
.723
9.255
.20.0
9718
.624
0.4**
55.0
0.099
15.4
237.0
58.0
0.087
DEKA
LB D
KC55
-20 G
ENSS
RIB
105
PV50
01,2
,3,4,6
17.9
240.0
*53
.70.3
9317
.724
6.653
.70.0
9819
.722
6.6*
52.9
0.096
16.2
246.7
*54
.50.9
86DY
NAGR
O D4
3SS5
010
3P5
001,2
,3,4,6
18.3
231.9
56.5
0.392
18.4
246.6
57.4
0.010
019
.822
2.354
.80.9
9416
.622
6.857
.40.0
83GO
LDEN
HAR
VEST
G03
A50-
3010
103
C250
1,2,4
17.4
223.4
56.0
0.895
17.1
227.9
56.2
2.510
019
.421
4.754
.50.0
9415
.622
7.757
.20.0
91GO
LDEN
HAR
VEST
G03
C84-
3010
103
C250
1,2,4
17.7
226.5
54.8
0.796
17.5
230.1
55.7
1.710
019
.622
8.1*
53.2
0.097
16.0
221.3
55.4
0.390
GOLD
EN H
ARVE
ST G
03H4
2-30
00GT
103
C250
1,2,4
17.7
196.4
53.9
0.098
17.5
217.3
55.3
0.010
020
.217
3.352
.60.0
9515
.619
8.553
.90.0
100
GOLD
EN H
ARVE
ST G
07F2
3-31
1110
7C2
501,2
,3,4
18.7
231.3
53.5
5.291
18.3
218.2
53.7
3.610
021
.422
6.0*
52.3
11.5
9916
.424
9.8*
54.6
0.674
GREA
T LA
KES
5283
STXR
IB10
2P5
001,2
,3,6
17.3
245.3
*54
.80.2
9816
.725
6.754
.50.6
100
19.5
236.1
*54
.00.0
9815
.824
3.056
.10.0
96GR
EAT
LAKE
S 54
70ST
XRIB
104
P500
1,2,3,
617
.823
5.655
.70.2
9817
.524
5.856
.40.6
100
19.6
223.5
*54
.00.0
9516
.523
7.656
.60.0
99GR
EAT
LAKE
S 55
56VT
2RIB
105
P500
1,217
.922
2.554
.50.0
9117
.622
6.055
.10.0
9820
.020
7.753
.00.0
8916
.223
3.955
.30.0
87GR
EAT
LAKE
S 58
24ST
XRIB
108
P500
1,2,3,
619
.024
5.4*
55.7
2.296
19.3
250.6
55.6
0.310
020
.923
5.8*
54.6
6.390
16.9
249.7
*56
.90.0
98IN
TEGR
A 52
43DG
VT2P
RIB
102
A250
1,217
.623
4.753
.60.0
9517
.324
8.853
.60.0
9919
.922
4.9*
52.3
0.094
15.6
230.3
55.0
0.091
LEGA
CY S
EEDS
L-55
16 V
T2PR
O10
5P5
001,2
,3,4,6
18.0
233.8
53.8
2.291
17.9
245.3
53.2
0.099
20.2
220.0
53.4
6.588
15.9
236.0
54.7
0.086
LEGE
ND 94
05 G
ENSS
RIB
105
C250
1,2,3,
4,618
.321
9.455
.50.3
8917
.923
2.955
.60.0
9920
.221
0.054
.50.8
8716
.921
5.456
.40.0
82LE
GEND
9608
GEN
SSRI
B10
8C2
501,2
,3,4,6
18.2
233.1
54.5
0.192
17.6
241.7
55.2
0.399
20.7
203.6
52.4
0.092
16.4
254.0
*56
.00.0
85M&
W S
EEDS
45K7
510
2P2
501,2
,516
.922
6.954
.80.0
9516
.523
9.855
.60.0
9819
.022
1.553
.40.0
9815
.221
9.455
.60.0
90M&
W S
EEDS
45M4
410
3P2
501,2
17.3
236.2
55.4
0.390
16.8
244.2
56.1
0.010
019
.022
6.1*
53.5
0.991
16.0
238.5
56.6
0.079
M&W
SEE
DS M
WX1
0310
3P2
501,2
17.7
240.9
*54
.40.3
9717
.525
1.354
.20.9
100
19.7
227.3
*52
.70.0
9616
.024
4.256
.30.0
94M&
W S
EEDS
45N8
910
4P2
501,2
18.4
240.7
*54
.80.2
8818
.824
7.254
.70.6
9320
.522
6.6*
53.5
0.086
16.0
248.2
*56
.20.0
86MY
COGE
N X1
3526
VH10
2C5
001,2
,3,4,6
17.8
223.3
53.9
0.994
17.7
220.8
54.1
1.197
19.9
212.4
53.0
1.595
15.8
236.8
54.6
0.090
NK B
rand
N50
D-30
1010
3C2
501,2
,417
.522
9.656
.10.9
9017
.123
8.756
.32.8
100
19.3
216.5
55.2
0.010
016
.223
3.756
.70.0
69NK
Bra
nd N
51R-
3000
GT10
3C2
501,2
,417
.920
1.854
.30.0
9517
.821
0.754
.00.0
100
19.7
188.5
53.3
0.098
16.2
206.2
55.6
0.088
NK B
rand
N60
F-31
1110
7C2
501,2
,3,4,6
18.7
229.4
53.6
1.893
18.4
210.9
54.4
2.510
021
.323
0.6*
52.1
2.998
16.5
246.6
*54
.50.0
81RE
NK R
K680
SSTX
103
P500
1,2,3,
4,616
.823
0.655
.00.0
9716
.324
5.454
.90.0
9819
.121
7.053
.70.0
9415
.022
9.356
.50.0
99RE
NK R
K675
DGVT
2P10
3P2
501,2
,516
.622
6.954
.30.6
9516
.223
8.854
.91.7
100
18.8
220.5
53.2
0.093
14.9
221.4
54.9
0.091
RENK
RK7
17SS
TX10
5P5
001,2
,3,4,6
17.5
233.8
55.8
0.096
17.5
217.2
55.3
0.010
019
.124
0.2*
55.0
0.010
015
.824
3.857
.00.0
90RU
PP X
RD02
-93
102
A250
1,218
.223
6.7*
54.8
0.290
18.3
249.9
54.6
0.091
20.2
231.4
*53
.50.7
8616
.122
8.856
.50.0
92RU
PP X
RD03
-71
103
PV50
01,2
,516
.722
7.754
.30.0
8616
.923
8.354
.80.0
9918
.522
0.453
.00.0
8714
.822
4.455
.10.0
72RU
PP X
RD05
-04
105
A250
1,217
.123
4.256
.00.5
9816
.524
0.856
.10.8
100
19.3
231.0
*55
.00.6
9615
.423
0.857
.00.0
97SE
ED C
ONSU
LTAN
TS S
CS 10
37YH
R™10
3P1
250
1,2,4
17.6
244.6
*54
.60.0
9017
.227
6.1**
55.7
0.010
019
.422
8.6*
53.4
0.094
16.1
229.3
54.8
0.078
SEED
CON
SULT
ANTS
SCS
10HR
43™
104
P125
01,2
,418
.024
1.5*
54.9
0.592
17.5
257.9
55.0
1.499
19.2
228.6
*54
.20.0
9217
.223
8.155
.70.0
85SP
ECIA
LTY
32A3
2310
2P5
001,2
,3,4,6
16.9
239.4
*54
.20.1
9716
.725
3.254
.60.3
100
18.9
230.1
*52
.70.0
9815
.123
5.055
.30.0
94
Late
- TR
IAL
AVER
AGE
Alleg
an -
Late
Ingh
am -
Late
Sagi
naw
- Lat
eBU
/ABU
/ABU
/ABU
/A
ALLE
GAN,
INGH
AM &
SAG
INAW
COU
NTY
GRAI
N TR
IALS
- LA
TE (
102 D
ay an
d La
ter)
- 15 -
SPEC
IALT
Y 34
G234
104
P500
DGVT
2P18
.723
4.855
.40.0
9318
.724
8.355
.30.0
100
21.1
227.1
*53
.50.0
9416
.322
8.957
.30.0
85SP
ECIA
LTY
35A6
5510
5P5
001,2
,3,4,6
18.3
226.6
55.4
0.997
18.3
241.2
55.8
2.099
20.0
222.5
54.2
0.097
16.8
216.2
56.3
0.794
STEY
ER 10
304 D
GVT2
PROR
IBC
103
C250
1,216
.623
9.7*
54.9
0.095
16.4
243.6
55.2
0.097
18.6
239.2
*53
.30.0
9714
.823
6.456
.40.0
90ST
EYER
1050
3 VT2
PROR
IBC
105
C250
1,218
.622
3.654
.50.8
8918
.322
7.954
.10.3
9421
.121
5.653
.22.0
8816
.522
7.256
.40.0
84AV
ERAG
E17
.823
0.954
.60.6
9317
.523
9.354
.90.7
9919
.922
0.153
.31.0
9416
.023
3.155
.60.2
87HI
GHES
T19
.424
5.856
.55.2
9819
.327
6.157
.44.2
100
22.7
240.4
55.2
11.5
100
18.2
261.9
58.0
4.010
0LO
WES
T16
.619
6.451
.50.0
8616
.221
0.752
.40.0
9118
.517
3.349
.90.0
8514
.819
8.552
.00.0
69CV
(%)
3.76.1
1.747
8.411
.03.2
6.22.0
220.5
4.04.0
6.71.6
479.5
6.03.8
5.71.6
702.9
18.0
LSD
(5%
)0.4
9.50.6
1.97.0
0.717
.41.3
1.74.0
0.917
.41.0
5.47.0
0.715
.51.0
1.518
.0
2 Yea
r Ave
rage
s 201
6 - 20
15BR
AND
/ HYB
RID
RMTR
TTR
AIT
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
AGRI
GOLD
A62
67ST
XRIB
102
P500
1,2,3,
420
.224
0.755
.00.0
9720
.324
9.4*
54.2
0.099
19.6
236.2
*55
.40.0
9720
.623
6.455
.30.0
96BE
CK 52
34AM
X™*
102
ESC
1,2,3,
4,618
.923
4.955
.70.0
9519
.324
5.555
.70.0
100
18.1
235.8
*55
.70.0
9419
.222
3.555
.70.0
91BE
CK 54
60AM
™*
104
ESC
1,2,4,
620
.523
9.254
.80.0
9721
.524
3.954
.50.0
9919
.123
6.3*
55.0
0.098
20.7
237.6
*55
.00.0
94BE
CK 51
40HR
™*
105
ESC
1,2,4,
621
.124
9.5**
55.0
0.394
21.8
257.9
**54
.40.0
9919
.824
2.8*
55.9
0.998
21.8
247.9
**54
.70.0
87DE
KALB
DKC
53-6
8 GEN
SSRI
B10
3PV
500
1,2,3,
4,620
.123
5.055
.90.2
9521
.223
4.055
.00.0
9618
.723
7.6*
56.7
0.597
20.4
233.4
56.0
0.092
DEKA
LB D
KC55
-20 G
ENSS
RIB
105
PV50
01,2
,3,4,6
20.7
240.4
53.9
0.296
21.6
247.5
*53
.50.0
9920
.324
0.6*
54.6
0.098
20.1
233.3
53.5
0.592
DYNA
GRO
D43S
S50
103
P500
1,2,3,
4,621
.523
0.456
.50.1
9322
.624
3.056
.20.0
9420
.122
4.956
.60.4
9621
.722
3.256
.70.0
89GO
LDEN
HAR
VEST
G07
F23-
3111
107
C250
1,2,3,
422
.622
7.553
.82.0
9424
.222
9.653
.10.0
9822
.922
1.654
.25.8
9720
.923
1.254
.10.3
86GR
EAT
LAKE
S 52
83ST
XRIB
102
P500
1,2,3,
620
.224
3.6*
54.8
0.398
20.6
247.1
*53
.70.0
9919
.424
6.1**
55.6
0.098
20.6
237.7
*55
.10.8
97GR
EAT
LAKE
S 54
70ST
XRIB
104
P500
1,2,3,
620
.923
7.755
.90.1
9721
.524
4.855
.80.0
9920
.323
9.6*
55.8
0.097
20.9
228.6
56.1
0.394
MYCO
GEN
X135
26VH
102
C500
1,2,3,
4,620
.522
8.854
.00.2
9721
.923
2.152
.90.0
9819
.222
7.655
.10.7
9620
.322
6.854
.20.0
96NK
Bra
nd N
60F-
3111
107
C250
1,2,3,
4,622
.622
3.453
.80.9
9623
.521
7.953
.40.0
9922
.122
5.854
.01.9
9922
.422
6.554
.00.7
90RU
PP X
RD03
-71
103
PV50
01,2
,519
.323
5.254
.60.0
9320
.424
3.154
.30.0
9818
.223
4.554
.90.0
9419
.322
8.254
.60.0
87SE
ED C
ONSU
LTAN
TS S
CS 10
HR43
™10
4P1
250
1,2,4
21.1
245.5
*55
.10.0
9521
.025
4.9*
54.7
0.097
19.9
246.1
**55
.90.0
9522
.323
5.454
.60.0
92SP
ECIA
LTY
32A3
2310
2P5
001,2
,3,4,6
19.6
238.9
54.6
0.198
20.3
250.8
*54
.30.0
100
18.9
241.6
*54
.90.0
9719
.822
4.554
.50.4
97SP
ECIA
LTY
35A6
5510
5P5
001,2
,3,4,6
22.3
227.5
55.7
0.297
24.3
233.4
56.0
0.099
20.3
235.9
*55
.70.0
9722
.321
3.155
.40.5
96AV
ERAG
E20
.723
6.154
.90.3
9621
.624
2.254
.50.0
9819
.823
5.855
.40.6
9720
.823
0.555
.00.2
92HI
GHES
T22
.624
9.556
.52.0
9824
.325
7.956
.20.0
100
22.9
246.1
56.7
5.899
22.4
247.9
56.7
0.897
LOW
EST
18.9
223.4
53.8
0.093
19.3
217.9
52.9
0.094
18.1
221.6
54.0
0.094
19.2
213.1
53.5
0.086
CV (%
)5.3
5.81.8
1052
.08.0
5.65.8
2.20.0
5.04.6
6.01.5
442.5
5.05.5
5.81.6
3902
.013
.0LS
D (5
%)
0.56.4
0.52.4
4.00.9
11.4
1.00.0
4.00.8
11.3
0.72.7
4.00.8
11.1
0.76.7
10.0
** H
ighes
t Yiel
ding H
ybrid
* N
ot Si
gnific
antly
Diffe
rent
from
High
est Y
ieldin
g Hyb
rid
Late
- TR
IAL
AVER
AGE
Alleg
an -
Late
Ingh
am -
Late
Sagi
naw
- Lat
eBU
/ABU
/ABU
/ABU
/A
- 16 -
TABL
E 3E
.ZO
NE 3
HURO
N, M
ASON
& M
ONTC
ALM
COUN
TY G
RAIN
TRI
ALS
- EAR
LY (9
7 Day
and
Earli
er)
2016
BRAN
D / H
YBRI
DRM
TRT
TRAI
T%
H2O
Twt
%SL
%Sd
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
%H2
OTw
t%
SL%
SdBE
CK 4
323V
R93
ESC
1,2,
4,6
19.0
192.
155
.12.
296
16.6
151.
157
.64.
296
21.1
230.
954
.41.
992
19.2
194.
453
.40.
610
0BE
CK 4
606V
2P96
ESC
1,2
17.3
199.
953
.51.
010
016
.117
6.3
55.9
0.0
100
19.9
227.
153
.02.
698
16.0
196.
251
.70.
610
3BE
CK 4
721A
M™
*97
ESC
1,2,
4,6
19.7
209.
9*
50.9
1.6
9517
.117
1.7
54.3
2.4
9722
.024
5.2
*50
.02.
590
20.2
212.
7*
48.4
0.0
97CR
OPLA
N 33
14VT
2P93
A250
1,2
18.7
201.
052
.70.
094
16.5
177.
054
.90.
095
20.3
231.
152
.30.
093
19.1
194.
951
.10.
095
CROP
LAN
3399
SS/R
IB93
A500
1,2,
3,6
19.0
211.
1*
53.9
0.7
9917
.018
4.6
*56
.00.
399
21.5
254.
6**
52.4
1.1
9818
.519
3.9
53.3
0.8
99CR
OPLA
N 34
99VT
3P/R
IB94
A250
1,2,
319
.220
4.3
53.8
0.1
9817
.117
8.3
56.5
0.0
100
20.9
236.
853
.50.
395
19.7
197.
751
.40.
010
0CR
OPLA
N 36
11SS
/RIB
96A5
001,
2,3,
619
.220
7.2
53.8
0.6
9617
.418
8.6
*56
.30.
610
021
.522
9.9
52.5
1.2
8818
.820
3.2
*52
.60.
099
CROP
LAN
3899
VT2P
/RIB
96A2
501,
220
.621
0.0
*53
.01.
398
18.3
190.
7*
55.1
0.0
100
22.4
237.
2*
53.4
3.8
9421
.020
2.1
50.6
0.0
100
CROP
LAN
3614
VT2P
96A2
501,
219
.219
8.5
52.8
0.0
9716
.816
6.5
55.0
0.0
9620
.922
8.8
52.5
0.0
9519
.920
0.2
50.9
0.0
100
DAIR
YLAN
D SE
ED D
S-72
9494
C500
1,2,
4,6
19.4
195.
154
.71.
998
17.0
146.
157
.65.
799
21.2
241.
5*
54.1
0.0
9720
.019
7.7
52.5
0.0
99DE
KALB
DKC
46-3
6 GE
NSSR
IB96
PV50
01,
2,3,
4,6
19.3
214.
3*
53.0
0.3
100
17.3
180.
7*
55.3
0.0
9920
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1.8
*52
.30.
910
019
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0.3
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.40.
010
0DY
NAGR
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192
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1,2
18.7
203.
953
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496
16.5
177.
356
.30.
697
20.8
241.
2*
52.7
0.6
9218
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3.1
51.6
0.0
99DY
NAGR
O D3
4VC5
494
P500
1,2,
19.1
207.
353
.00.
896
16.8
185.
4*
54.6
1.1
100
20.1
247.
9*
53.1
0.6
8820
.418
8.6
51.2
0.9
100
DYNA
GRO
D35S
S58
95P5
001,
2,3,
4,6
19.2
195.
853
.20.
293
17.2
175.
456
.10.
097
21.0
226.
452
.10.
683
19.4
185.
751
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010
0DY
NAGR
O D3
7SS6
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P500
1,2,
3,4,
619
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2.4
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.70.
397
17.8
187.
3*
56.0
0.0
100
21.3
235.
752
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090
19.5
214.
1*
52.1
0.0
100
GOLD
EN H
ARVE
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4-31
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92C2
501,
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854
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596
17.2
170.
857
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410
021
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3.6
54.5
0.9
8819
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5.9
52.6
0.3
100
GOLD
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94B9
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1,2,
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195.
154
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196
17.2
156.
257
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296
20.7
238.
2*
53.9
0.0
9318
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0.8
52.7
0.0
100
GOLD
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ARVE
ST G
95D3
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1095
C250
1,2,
4,6
20.1
200.
554
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193
17.8
175.
156
.70.
095
21.9
227.
154
.30.
383
20.6
199.
552
.10.
099
GOLD
EN H
ARVE
ST G
96V9
9-30
1096
C250
1,2,
420
.420
8.3
53.2
1.7
9818
.418
5.2
*54
.90.
010
022
.723
6.1
52.5
4.7
9420
.120
3.8
*52
.10.
699
GREA
T LA
KES
4037
STXR
IB90
P500
1,2,
3,6
17.8
193.
754
.30.
397
16.2
176.
056
.70.
099
20.4
218.
053
.60.
693
16.8
187.
252
.70.
398
GREA
T LA
KES
4250
STXR
IB92
P500
1,2,
3,6
18.4
192.
753
.01.
797
16.7
165.
454
.92.
310
020
.221
5.3
52.5
2.9
9318
.319
7.3
51.6
0.0
99GR
EAT
LAKE
S 44
52VT
2RIB
94P5
001,
218
.821
8.7
**53
.50.
399
16.6
182.
8*
55.8
0.6
100
20.8
254.
6**
52.4
0.3
9819
.021
8.7
**52
.20.
010
0GR
EAT
LAKE
S 45
48ST
XRIB
95P5
001,
2,3,
619
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7.2
53.8
0.8
9717
.518
4.1
*56
.40.
098
20.9
243.
3*
52.5
2.5
9419
.719
4.4
52.6
0.0
100
INTE
GRA
4652
GSS
96PV
500
1,2,
3,4,
618
.419
6.6
54.8
6.1
9916
.518
4.3
*56
.60.
010
020
.121
1.0
54.1
17.2
9418
.519
4.5
53.6
1.1
103
INTE
GRA
4342
VT2P
RIB
93A2
501,
218
.819
1.1
54.2
0.7
9217
.116
9.3
56.1
0.0
9720
.721
3.8
53.9
1.9
8618
.619
0.2
52.7
0.3
92LE
GACY
SEE
DS L
-311
5 VT
2PRO
92P2
501,
218
.518
7.7
54.1
1.3
9016
.116
7.9
56.5
1.5
9220
.321
4.6
53.5
2.1
8219
.018
0.6
52.3
0.3
97LE
GACY
SEE
DS L
-341
6 VT
2PRO
94P2
501,
218
.820
1.6
53.3
2.4
9616
.216
8.1
56.0
0.9
9420
.723
6.5
52.2
5.0
9419
.520
0.3
51.8
1.1
100
LEGA
CY S
EEDS
L-3
423
GENS
S95
P500
1,2,
3,4,
619
.019
5.6
52.8
0.5
9316
.816
5.3
55.5
0.9
9821
.023
2.9
52.7
0.6
8119
.218
8.5
50.2
0.0
99LE
GACY
SEE
DS L
-371
5 GE
NSS
96P5
001,
2,3,
4,6
18.9
210.
8*
53.9
0.4
9617
.018
0.1
*56
.10.
398
20.7
244.
1*
53.0
0.9
9018
.920
8.2
*52
.50.
099
M&W
SEE
DS 4
7J66
94P2
501,
219
.019
4.1
53.8
0.3
9717
.017
3.6
55.8
0.8
100
20.6
223.
753
.80.
092
19.3
184.
851
.70.
010
0M
&W S
EEDS
46J
1196
P250
1,2
19.2
201.
153
.81.
298
17.3
191.
9**
55.9
0.0
9920
.222
5.3
53.6
2.4
9720
.118
6.2
52.0
1.2
98M
&W S
EEDS
46L
4296
P250
1,2
18.5
208.
053
.41.
098
16.8
171.
456
.50.
610
020
.623
6.6
53.2
2.0
9718
.021
6.1
*50
.60.
697
NK B
rand
N27
P-31
10A
92C2
501,
2,4,
5,6
18.8
203.
555
.00.
697
17.1
169.
257
.50.
910
020
.823
9.7
*54
.21.
092
18.5
201.
853
.40.
010
0NK
Bra
nd N
35T-
3110
95C2
501,
2,4,
619
.619
9.5
54.0
0.0
9417
.317
5.8
56.8
0.0
100
21.2
243.
2*
53.6
0.0
8820
.317
9.6
51.7
0.0
95NK
Bra
nd N
36G-
301 0
96C2
501,
2,4
20.6
206.
953
.11.
896
18.3
177.
055
.70.
010
022
.823
4.0
52.3
5.3
8820
.820
9.7
*51
.40.
399
NuTe
ch/G
2 GE
NETI
CS 5
F-89
4™94
P500
1,2,
417
.219
4.1
51.5
0.9
9516
.716
7.2
54.2
2.0
100
20.2
217.
150
.80.
884
14.8
198.
049
.40.
010
0Nu
Tech
/G2
GENE
TICS
X5Z
-950
1™95
P500
1,2,
419
.019
4.1
54.6
0.6
9417
.318
3.9
*56
.90.
899
20.5
205.
053
.90.
986
19.2
193.
353
.00.
098
NuTe
ch/G
2 GE
NETI
CS 5
F-19
6™96
P500
1,2,
420
.320
4.0
51.2
0.3
9417
.417
8.1
54.3
0.0
9622
.124
5.3
*50
.30.
087
21.5
188.
649
.10.
999
PART
NERS
BRA
ND 6
255
RR2
92C2
501
18.5
202.
853
.71.
196
16.6
177.
155
.60.
697
20.5
239.
3*
53.7
2.7
9118
.419
1.9
51.8
0.0
99RE
NK R
K299
VT2P
89P2
501,
217
.719
2.8
53.9
0.1
9316
.017
5.9
56.2
0.3
9420
.420
3.1
53.8
0.0
8816
.719
9.3
51.8
0.0
98RE
NK R
K408
VT2P
91P2
501,
218
.320
6.5
53.7
0.1
9516
.517
5.8
56.1
0.0
9920
.623
9.8
*52
.60.
389
18.0
203.
9*
52.3
0.0
98RE
NK R
K433
VT2P
92P2
501,
218
.819
1.5
53.7
0.9
9717
.517
2.8
55.8
0.0
9720
.621
3.5
54.1
2.7
9518
.518
8.4
51.1
0.0
100
RENK
RK5
22SS
TX94
P500
1,2,
3,4,
618
.420
4.8
53.4
0.6
9616
.817
2.3
55.5
0.9
9820
.923
9.6
*52
.81.
092
17.6
202.
451
.80.
097
RENK
RK5
66SS
TX94
P500
1,2,
3,4,
619
.220
9.0
53.8
0.0
9117
.118
1.4
*56
.60.
094
21.1
242.
0*
52.2
0.0
8419
.320
3.7
*52
.60.
095
RUPP
XRD
90-6
490
C250
1,2,
419
.220
0.8
53.0
1.8
8816
.716
7.0
55.4
1.6
9021
.222
2.7
52.2
3.4
7919
.721
2.6
*51
.50.
696
Early
- TR
IAL
AVER
AGE
Huro
n - E
arly
Maso
n - E
arl y
Mont
calm
- Ea
rlyBU
/ABU
/ABU
/ABU
/A
- 17 -
RUPP
XRD
92-74
92A2
501,2
17.9
192.2
54.1
0.895
16.1
173.5
57.2
0.098
20.2
215.5
53.5
1.990
17.4
187.8
51.6
0.697
RUPP
XRD
94-26
94A2
501,2
19.3
205.2
53.9
0.798
16.9
188.5
*56
.90.6
100
21.1
227.3
52.9
1.494
20.0
199.8
52.1
0.010
0RU
PP X
RT94
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A250
1,2,3
19.0
207.9
53.9
0.297
17.0
181.9
*56
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9721
.224
0.9*
53.4
0.696
18.9
200.9
51.9
0.010
0RU
PP X
RD97
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A250
1,218
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1.553
.11.0
9916
.517
1.355
.60.6
100
20.0
227.9
53.0
2.298
17.5
175.2
50.8
0.399
STEY
ER 92
03 V
T2PR
ORIB
C92
C250
1,218
.919
8.953
.60.1
9317
.216
7.855
.60.0
9420
.923
4.052
.70.3
9318
.619
5.052
.60.0
92ST
EYER
8602
3000
GT86
C250
1,2,3,
418
.517
6.654
.60.9
9316
.314
6.156
.82.5
9620
.920
7.154
.00.0
8518
.317
6.752
.90.3
98ST
EYER
9204
VT2
PROR
IBC
92C2
501,2
17.9
185.5
53.2
2.397
16.6
176.0
55.4
0.910
019
.720
4.453
.35.9
9217
.317
6.051
.00.0
98ST
EYER
9401
GEN
SSRI
BC94
C250
1,2,3,
418
.620
2.152
.80.3
9016
.617
3.855
.30.0
9521
.222
0.451
.81.0
8118
.021
1.9*
51.2
0.095
AVER
AGE
18.9
200.6
53.6
0.996
16.9
174.7
56.0
0.898
20.9
230.8
53.0
1.791
18.9
196.4
51.8
0.299
HIGH
EST
20.6
218.7
55.1
6.110
018
.419
1.957
.66.2
100
22.8
254.6
54.5
17.2
100
21.5
218.7
53.6
1.210
3LO
WES
T17
.217
6.650
.90.0
8816
.014
6.154
.20.0
9019
.720
3.150
.00.0
7914
.817
5.248
.40.0
92CV
(%)
3.96.7
1.326
3.46.0
3.06.4
0.825
1.63.0
2.66.6
1.420
7.610
.05.4
6.91.7
327.4
3.0LS
D (5%
)0.5
9.10.5
1.64.0
0.613
.10.5
2.44.0
0.617
.70.9
4.210
.01.2
15.9
1.00.8
3.0
2 Yea
r Ave
rages
2016
- 201
5BR
AND
/ HYB
RID
RMTR
TTR
AIT
%H2O
Twt
%SL
%Sd
%H2O
Twt
%SL
%Sd
%H2O
Twt
%SL
%Sd
%H2O
Twt
%SL
%Sd
CROP
LAN
3611
SS/R
IB96
A500
1,2,3,
620
.522
0.8*
54.3
0.494
17.7
209.0
*56
.50.8
9823
.323
4.5*
53.2
0.086
20.5
218.8
*53
.30.3
99CR
OPLA
N 38
99VT
2P/R
IB96
A250
1,221
.821
9.4*
53.8
0.396
18.8
213.2
*55
.10.3
9824
.124
4.0**
53.6
0.091
22.7
201.0
52.6
0.710
0DE
KALB
DKC
46-36
GEN
SSRI
B96
PV50
01,2
,3,4,6
20.8
219.3
*54
.30.0
9818
.120
4.555
.60.0
9922
.824
0.2*
53.5
0.094
21.5
213.2
*53
.80.1
100
DYNA
GRO
D37S
S60
97P5
001,2
,3,4,6
20.9
216.7
*54
.20.0
9618
.020
3.556
.30.0
100
23.3
236.9
*53
.60.0
9221
.220
9.5*
52.8
0.098
GOLD
EN H
ARVE
ST G
94B9
5-311
094
C250
1,2,4,
619
.720
7.656
.71.1
9617
.618
7.158
.13.3
9821
.522
9.256
.50.0
9020
.120
6.5*
55.5
0.010
0GO
LDEN
HAR
VEST
G95
D32-3
110
95C2
501,2
,4,6
20.8
217.9
*55
.50.3
9618
.320
4.457
.10.9
9722
.423
0.055
.10.0
9121
.821
9.2**
54.3
0.010
0GR
EAT L
AKES
4548
STXR
IB95
P500
1,2,3,
620
.721
2.854
.40.1
9617
.919
5.856
.40.3
9923
.023
5.0*
53.0
0.091
21.3
207.5
*53
.80.0
99LE
GACY
SEE
DS L-
3115
VT2
PRO
92P2
501,2
19.9
205.3
54.3
0.393
16.7
206.5
*56
.20.8
9621
.821
6.053
.90.0
8521
.219
3.452
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98M&
W S
EEDS
47J6
694
P250
1,219
.920
6.155
.00.6
9617
.419
8.355
.81.4
100
22.0
230.7
*55
.70.0
8920
.318
9.453
.40.3
98M&
W S
EEDS
46J1
196
P250
1,220
.521
1.554
.80.3
9517
.920
7.2*
55.9
0.110
022
.322
9.854
.10.0
8721
.219
7.454
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97NK
Bran
d N27
P-31
10A
92C2
501,2
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19.7
210.9
56.6
0.195
17.5
193.3
57.9
0.499
21.7
236.9
*55
.70.0
8720
.020
2.656
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99NK
Bran
d N35
T-31
1095
C250
1,2,4,
620
.621
3.9*
55.4
5.095
17.9
212.5
*57
.00.8
100
22.1
227.9
54.7
0.087
21.9
201.2
54.4
14.0
97Nu
Tech
/G2 G
ENET
ICS
5F-19
6™96
P500
1,2,4
21.6
221.2
**52
.70.1
9318
.421
5.6**
54.3
0.096
24.0
243.6
*51
.90.0
8622
.520
4.5*
51.8
0.496
RENK
RK2
99VT
2P89
P250
1,218
.619
7.951
.46.2
9416
.320
2.756
.50.1
9721
.021
3.254
.90.0
8818
.517
7.742
.718
.596
RENK
RK5
22SS
TX94
P500
1,2,3,
4,620
.020
7.454
.00.3
9517
.419
7.955
.40.7
9922
.422
9.353
.30.0
8820
.219
5.053
.20.3
97RU
PP X
RD92
-7492
A250
1,218
.520
7.157
.00.2
9616
.220
3.757
.30.1
9920
.821
9.654
.50.0
9218
.519
7.959
.40.6
97RU
PP X
RD94
-2694
A250
1,220
.721
0.054
.84.8
9317
.521
0.4*
56.7
0.310
023
.322
2.053
.90.0
8021
.319
7.553
.814
.310
0RU
PP X
RT94
-0694
A250
1,2,3
20.4
215.6
*52
.80.3
9717
.620
6.0*
56.7
0.998
23.3
236.4
*53
.80.0
9320
.320
4.3*
47.8
0.010
0RU
PP X
RD97
-5697
A250
1,219
.319
2.652
.00.4
9716
.518
7.055
.60.6
9922
.422
5.553
.60.0
9619
.116
5.346
.90.6
96AV
ERAG
E20
.321
1.354
.41.1
9517
.620
3.156
.30.6
9922
.523
0.654
.10.0
8920
.720
0.152
.82.7
98HI
GHES
T21
.822
1.257
.06.2
9818
.821
5.658
.13.3
100
24.1
244.0
56.5
0.096
22.7
219.2
59.4
18.5
100
LOW
EST
18.5
192.6
51.4
0.093
16.2
187.0
54.3
0.096
20.8
213.2
51.9
0.080
18.5
165.3
42.7
0.096
CV (%
)4.0
6.91.6
261.0
7.03.4
6.40.9
229.2
3.03.7
7.12.1
0.011
.05.5
9.015
.811
68.0
4.0LS
D (5%
)0.4
7.60.5
1.14.0
0.59.9
0.41.4
2.00.7
13.5
0.90.0
8.00.9
16.0
6.814
.83.0
** H
ighes
t Yiel
ding H
ybrid
* N
ot Sig
nifica
ntly D
ifferen
t from
High
est Y
ieldin
g Hyb
rid
Early
- TRI
AL A
VERA
GEHu
ron -
Early
Maso
n - Ea
rlyMo
ntcalm
- Earl
yBU
/ABU
/ABU
/ABU
/A
- 18 -
TABL
E 3L
.ZO
NE 3
HURO
N, M
ASON
& M
ONTC
ALM
COUN
TY G
RAIN
TRI
ALS
- LAT
E (9
8 Day
and
Late
r)
2016
BRAN
D / H
YBRI
DRM
TRT
TRAI
T%H
2OTw
t%S
L%S
d%H
2OTw
t%S
L%S
d%H
2OTw
t%S
L%S
d%H
2OTw
t%S
L%S
dBE
CK 49
19V2
P99
ESC
1,218
.820
1.2
55.1
4.099
16.7
180.8
57
.40.3
9921
.022
2.3
54.3
11.9
9818
.720
0.6*
53.7
0.010
0BE
CK 51
62A3
101
ESC
1,2,3,
420
.420
2.6
54.5
2.298
18.5
191.3
*56
.61.1
9822
.223
3.6
53.3
4.997
20.6
183.0
53
.50.6
100
BECK
5234
AMX™
*10
2ES
C1,2
,3,4,6
20.7
213.4
53
.32.9
9718
.619
3.2*
55.7
0.094
22.8
236.7
52
.58.3
9720
.821
0.4*
51.8
0.310
0BE
CK 53
37V2
P10
3ES
C1,2
21.3
205.4
53
.00.1
9918
.718
4.7
55.4
0.099
23.0
250.2
*52
.10.0
9722
.318
1.1
51.6
0.310
0BR
ODBE
CK 57
RA98
98C2
501,2
,3,4,6
22.2
196.3
51
.70.4
9819
.517
0.4
54.1
0.099
23.8
229.9
50
.51.2
9523
.318
8.5
50.3
0.010
0BR
ODBE
CK 96
0210
2C2
511
22.0
204.1
51
.62.4
9819
.919
0.3*
54.1
1.410
023
.623
4.1
50.4
3.795
22.6
188.0
50
.32.1
98DA
IRYL
AND
SEED
DS-
9198
RA98
C500
1,2,3,
4,620
.919
1.1
51.1
1.199
18.0
182.9
54
.10.9
9922
.622
4.2
50.3
2.597
22.1
166.4
49
.10.0
100
DAIR
YLAN
D SE
ED D
S-95
9999
C500
1,2,3,
421
.319
8.8
51.7
1.496
18.8
194.6
*53
.90.0
9823
.221
3.3
51.1
4.292
21.9
188.5
50
.20.0
99DA
IRYL
AND
SEED
DS-
9701
101
C500
1,2,3,
4,622
.019
6.5
52.0
3.696
19.3
168.5
54
.65.7
9624
.322
8.8
51.0
5.093
22.6
192.2
50
.40.0
99DA
IRYL
AND
SEED
DS-
9802
102
C500
1,2,3,
4,621
.819
9.9
51.7
0.298
19.9
166.7
54
.20.0
9723
.723
4.7
50.3
0.698
21.8
198.3
*50
.70.0
100
DAIR
YLAN
D SE
ED D
S-94
0310
3C5
001,2
,3,4,6
22.7
197.3
50
.45.2
100
19.9
179.6
52
.56.8
9925
.422
7.1
48.7
3.410
022
.718
5.1
50.0
5.310
0DA
IRYL
AND
SEED
DS-
9204
104
C500
1,2,3,
4,624
.120
1.4
50.4
0.098
21.1
182.9
52
.90.0
9824
.622
8.3
50.2
0.096
26.6
193.1
48
.20.0
100
DEKA
LB D
KC49
-72 G
ENSS
RIB
99PV
5001
,2,3,4
,619
.621
8.7*
52.0
0.997
17.0
192.7
*54
.20.0
100
22.0
257.3
**51
.42.8
9420
.020
6.3*
50.5
0.097
DEKA
LB D
KC51
-38 G
ENSS
RIB
101 P
V500
1,2,3,
4,620
.821
5.1*
53.3
0.095
18.7
189.2
55
.60.0
9623
.324
6.2*
52.0
0.091
20.3
209.9
*52
.40.0
99DE
KALB
DKC
53-68
GEN
SSRI
B10
3PV5
001,2
,3,4,6
21.1
211.3
53
.00.4
9918
.719
0.1*
55.5
0.999
23.2
247.6
*51
.90.3
9721
.519
6.1*
51.7
0.010
0DY
NAGR
O D3
9DC4
399
P500
1,2,5
21.1
222.5
**51
.50.0
9618
.020
1.1**
53.9
0.097
23.0
254.9
*50
.90.0
9622
.221
1.3**
49.8
0.097
DYNA
GRO
D40S
S48
100
P500
1,2,3,
4,620
.020
4.3
53.9
0.610
018
.317
1.6
56.5
0.010
022
.024
4.0*
52.7
1.799
19.9
197.3
*52
.50.0
100
DYNA
GRO
D41S
S71
101
P500
1,2,3,
4,621
.321
0.4
52.6
0.597
18.6
179.8
54
.70.0
9723
.324
6.4*
51.5
1.594
21.9
204.9
*51
.40.0
100
GREA
T LAK
ES 48
79ST
XRIB
98P5
001,2
,3,6
20.9
210.2
52
.40.2
9818
.719
6.4*
55.0
0.097
23.4
244.1
*51
.10.0
9720
.719
0.0
51.2
0.699
GREA
T LAK
ES 50
29VT
2RIB
100
P500
1,220
.920
7.4
52.4
1.596
17.9
186.9
55
.10.0
9723
.124
1.9*
51.7
4.495
21.8
193.5
50
.40.0
96GR
EAT L
AKES
5283
STXR
IB10
2P5
001,2
,3,6
21.6
208.4
52
.70.4
9819
.019
2.9*
54.7
0.398
23.9
249.2
*51
.90.9
9722
.118
3.2
51.6
0.099
INTE
GRA
9482
VT3P
RIB
98A2
501,2
,321
.020
9.6
53.4
0.696
18.0
189.5
56
.10.3
9923
.324
2.9*
52.1
1.691
21.6
196.3
*52
.00.0
98LE
GACY
SEE
DS L-
4315
GEN
SS10
1P5
001,2
,3,4,6
21.4
202.9
53
.20.0
9719
.117
8.9
55.0
0.096
22.7
251.7
*52
.40.0
9822
.417
8.1
52.2
0.098
LEGA
CY S
EEDS
L-44
45 V
T2PR
O DG
101
P250
1,2,5,
621
.320
5.4
53.1
0.894
18.0
190.5
*55
.60.0
9323
.022
7.6
52.6
2.290
22.9
198.1
*51
.10.3
99M&
W S
EEDS
46G5
598
P250
121
.019
3.3
51.9
0.886
18.9
181.8
54
.91.2
8922
.820
7.5
50.9
1.281
21.4
190.6
49
.80.0
88PA
RTNE
RS B
RAND
6981
GTA
99C2
501
21.2
196.2
51
.83.8
8518
.818
3.4
53.3
0.092
23.7
207.2
50
.911
.571
21.0
198.2
*51
.10.0
90RE
NK R
K596
SSTX
98P5
001,2
,3,4,6
19.8
208.6
53
.30.2
9518
.019
0.8*
56.6
0.096
22.1
233.4
51
.30.3
8819
.420
1.8*
52.2
0.399
RUPP
XRD
00-51
100
A250
1,221
.220
7.8
52.9
0.098
18.5
187.2
55
.40.0
9723
.224
1.3*
52.1
0.097
21.8
194.9
51
.10.0
98RU
PP X
RD02
-9310
2A2
501,2
22.4
208.5
53
.30.1
9020
.018
9.2
54.9
0.394
24.1
233.8
52
.50.0
8123
.120
2.3*
52.6
0.096
RUPP
XRD
03-71
103
250
1,2,5
21.8
211.0
51
.81.1
9118
.219
0.5*
54.5
0.096
24.6
236.4
50
.33.4
8422
.520
6.1*
50.6
0.092
STEY
ER 10
102 V
T2PR
ORIB
C10
1C2
501,2
20.3
204.4
53.0
4.998
18.0
187.6
54.8
0.010
021
.622
7.252
.914
.696
21.4
198.3
*51
.30.0
99AV
ERAG
E21
.220
5.352
.51.3
9618
.6718
5.754
.90.6
197
23.2
235.6
51.5
3.093
21.7
194.6
51.1
0.398
HIGH
EST
24.1
222.5
55.1
5.210
021
.0820
1.157
.46.7
510
025
.425
7.354
.314
.610
026
.621
1.353
.75.3
100
LOW
EST
18.8
191.1
50.4
0.085
16.7
166.7
52.5
088
.521
.020
7.248
.70.0
7118
.716
6.448
.20.0
88CV
(%)
3.76.3
1.527
0.84.0
2.85.1
61.1
629
8.43.4
13.0
6.41.2
192.3
6.04.7
7.01.9
335.4
3.0LS
D (5%
)0.5
8.70.5
2.43.0
0.61
11.27
0.75
2.15
3.89
0.817
.70.7
6.77.0
1.216
.01.2
1.23.0
Late
- TRI
AL A
VERA
GEHu
ron -
Late
Maso
n - La
teMo
ntca
lm - L
ateBU
/ABU
/ABU
/ABU
/A
- 19 -
2 Yea
r Ave
rage
s 201
6 - 20
15BR
AND
/ HYB
RID
RMTR
TTR
AIT
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
%H2
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t%
SL%
Sd%
H2O
Twt
%SL
%Sd
DAIR
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D SE
ED D
S-95
9999
C500
1,2,
3,4
23.5
206.
5
52.3
0.7
9819
.920
7.6
53
.90.
099
26.0
212.
6
51.5
2.1
9624
.519
9.2
*51
.50.
099
DAIR
YLAN
D SE
ED D
S-97
0110
1C5
001,
2,3,
4,6
24.2
204.
1
52.7
7.0
9420
.119
7.0
54
.73.
996
26.5
222.
2
52.3
17.0
9025
.919
2.9
51
.20.
096
DEKA
LB D
KC49
-72
GENS
SRIB
99PV
5001
,2,3
,4,6
21.3
221.
4**
52.7
0.5
9718
.121
6.0
*54
.30.
010
023
.725
2.1
**52
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494
22.3
196.
1*
51.7
0.0
97DY
NAGR
O D4
0SS4
810
0P5
001,
2,3,
4,6
22.3
213.
2
54.2
0.7
9818
.920
4.4
56
.20.
810
025
.223
2.2
53
.10.
896
22.8
203.
1*
53.2
0.4
99DY
NAGR
O D4
1SS7
110
1P5
001,
2,3,
4,6
23.2
217.
1*
53.6
0.3
9819
.420
2.1
55
.30.
198
26.4
240.
5*
52.5
0.8
9623
.820
8.8
**53
.10.
010
0GR
EAT
LAKE
S 48
79ST
XRIB
98P5
001,
2,3,
623
.021
3.8
53
.10.
498
19.3
203.
3
54.8
0.0
9826
.223
8.2
52
.20.
097
23.5
199.
9*
52.3
1.2
99GR
EAT
LAKE
S 52
83ST
XRIB
102
P500
1,2,
3,6
24.4
218.
0*
53.1
0.2
9620
.721
8.0
**54
.70.
199
27.3
241.
4*
52.6
0.4
9025
.119
4.6
52
.10.
099
M&W
SEE
DS 4
6G55
98P2
501
23.0
203.
7
52.3
0.6
8919
.420
8.8
54
.70.
692
25.2
209.
8
51.5
0.6
8324
.519
2.5
50
.80.
692
RENK
RK5
96SS
TX98
P500
1,2,
3,4,
621
.921
4.8
*54
.20.
195
18.5
205.
756
.70.
096
24.6
232.
152
.60.
294
22.5
206.
7*
53.4
0.1
96AV
ERAG
E23
.021
2.5
53.1
1.2
9619
.420
7.0
55.0
0.6
9825
.723
1.2
52.3
2.6
9323
.919
9.3
52.1
0.3
97HI
GHES
T24
.422
1.4
54.2
7.0
9820
.721
8.0
56.7
3.9
100
27.3
252.
153
.117
.097
25.9
208.
853
.41.
210
0LO
WES
T21
.320
3.7
52.3
0.1
8918
.119
7.0
53.9
0.0
9223
.720
9.8
51.5
0.0
8322
.319
2.5
50.8
0.0
92CV
(%)
5.6
6.8
1.8
1145
.05.
03.
85.
71.
232
5.6
3.0
4.8
6.1
1.2
854.
37.
05.
57.
41.
831
1.0
3.0
LSD
(5%
)0.
66.
80.
57.
72.
00.
69.
10.
61.
62.
01.
011
.70.
521
.45.
01.
113
.00.
80.
93.
0
** H
ighes
t Yiel
ding
Hybr
id
* Not
Sign
ifican
tly D
iffere
nt fr
om H
ighes
t Yiel
ding
Hybr
id
Late
- TR
IAL
AVER
AGE
Huro
n - L
ate
Maso
n - L
ate
Mont
calm
- La
teBU
/ABU
/ABU
/ABU
/A
TRT Seed Treatment Chemical RateNo Seed Insecticide Applied
C125 Cruiser® 125 0.125 mg Thiamethoxan per kernalC250 Cruiser® 250 0.250 mg Thiamethoxan per kernal
C1250 Cruiser® 1250 1.25 mg Thiamethoxan per kernalP250 Poncho® 250 0.25 mg Clothianidian per kernal
P1250 Poncho® 1250 1.25 mg Clothianidian per kernalCruiser® is a registered trademark of Syngenta Group CompanyPoncho® is a registered trademark of Gustafson LLC
TREATMENT CODES FOR SEED APPLIED INSECTICIDES
CODES NUMBERS FOR HYBRID TRAITSCode Num. Traits & Resistant Events
1 Glyphosate2 European Corn Borer3 Corn Rootworm4 Liberty Link5 Clearfield, IMI, IT, IR6 Western Bean Cutworm7 Brown Mid Rib8 Leafy9 High Oil10 Waxy11 HTF High Total Fermentable12 HAE High Available Energy13 HES High Extractable Starch14 Other
- 20 -
TABL
E 4.
ZONE
4GR
AND
TRAV
ERSE
, IOSC
O &
MENO
MINE
E (L
ATE)
COU
NTY
GRAI
N TR
IALS
(96 D
ay an
d Ea
rlier
)20
16BR
AND
/ HYB
RID
RMTR
TTR
AIT
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
BROD
BECK
57R
A98
98C2
501,
2,3,
4,6
25.1
208.
550
.60.
098
25.2
186.
551
.70.
097
25.0
230.
6*
49.5
0.0
99BR
ODBE
CK 9
602
102
C250
125
.821
2.0
50.4
0.0
9624
.920
8.4
51.1
0.0
9426
.721
5.6
49.6
0.0
97DA
IRYL
AND
SEED
DS-
7294
94C5
001,
2,4,
620
.422
1.3
54.3
0.0
9820
.621
4.7
55.1
0.0
9920
.122
8.0
*53
.60.
097
DYNA
GRO
D27V
C47
87P5
001,
218
.519
4.5
53.1
0.0
9518
.920
4.5
54.9
0.0
9418
.118
4.5
51.2
0.0
96DY
NAGR
O D3
2VC4
192
P500
1,2
21.0
219.
652
.40.
098
21.2
214.
953
.60.
096
20.9
224.
4*
51.3
0.0
99DY
NAGR
O D3
4VC5
494
P500
1,2,
21.0
226.
151
.60.
397
21.1
234.
152
.80.
097
21.0
218.
050
.40.
697
DYNA
GRO
D37V
C60
95P5
001,
220
.222
6.4
52.4
0.0
9921
.324
4.3
*52
.90.
099
19.0
208.
552
.00.
010
0DY
NAGR
O D3
5SS5
895
P500
1,2,
3,4,
621
.022
5.6
51.8
0.0
9620
.723
7.9
52.6
0.0
9421
.321
3.3
51.1
0.0
98GO
LDEN
HAR
VEST
G84
B99-
3220
A84
C250
1,2,
4,5,
619
.519
4.9
52.7
0.0
9820
.920
7.6
54.2
0.0
9718
.218
2.3
51.3
0.0
98GO
LDEN
HAR
VEST
G85
Z56-
3110
85C2
501,
2,4,
619
.720
2.6
54.0
0.0
100
20.6
217.
255
.20.
010
018
.718
8.0
52.8
0.0
100
GOLD
EN H
ARVE
ST G
84J9
2-30
11A
86C2
501,
2,3,
419
.219
9.7
54.4
0.0
9619
.320
5.2
55.9
0.0
9419
.019
4.2
52.9
0.0
98GO
LDEN
HAR
VEST
G88
R13-
3010
88C2
501,
2,4
19.5
206.
553
.50.
092
19.4
205.
055
.10.
090
19.6
208.
052
.00.
094
GOLD
EN H
ARVE
ST G
90E4
1-31
10A
90C2
501,
2,4,
5,6
21.3
202.
954
.50.
198
21.5
201.
555
.70.
398
21.1
204.
353
.40.
099
GREA
T LA
KES
3847
VT2R
IB88
P500
1,2
19.5
208.
852
.60.
092
20.2
222.
153
.80.
093
18.8
195.
451
.40.
091
GREA
T LA
KES
4037
STXR
IB90
P500
1,2,
3,6
20.9
216.
052
.60.
098
21.4
231.
753
.30.
097
20.4
200.
352
.00.
010
0GR
EAT
LAKE
S 42
50ST
XRIB
92P5
001,
2,3,
620
.122
3.2
51.3
0.0
9820
.823
3.4
52.1
0.0
9719
.521
3.0
50.6
0.0
99GR
EAT
LAKE
S 44
52VT
2RIB
94P5
001,
221
.722
0.8
52.0
0.0
9920
.722
4.2
53.1
0.0
9822
.721
7.5
50.9
0.0
100
GREA
T LA
KES
4548
STXR
IB95
P500
1,2,
3,6
21.2
238.
1*
52.4
0.0
9921
.625
6.7
**53
.20.
099
20.9
219.
451
.60.
099
INTE
GRA
4342
VT2P
RIB
93A2
501,
221
.621
0.3
52.2
0.0
9621
.021
2.1
53.5
0.0
9922
.120
8.6
51.0
0.0
92LE
GACY
SEE
DS L
-251
6 VT
2PR O
85P2
501,
218
.819
4.5
53.8
1.3
9719
.521
0.3
55.0
0.0
9718
.017
8.7
52.6
2.6
98LE
GACY
SEE
DS L
-291
6 VT
2PRO
88P2
501,
218
.821
1.9
53.3
0.0
9619
.722
9.8
54.5
0.0
9918
.019
3.9
52.2
0.0
94LE
GEND
958
3 VT
2PRI
B83
C250
1,2
18.4
193.
353
.40.
096
19.4
205.
454
.60.
096
17.5
181.
252
.20.
095
LEGE
ND 9
7A89
-301
1A89
C250
1,2,
3,4,
A19
.520
9.5
54.1
0.0
9819
.721
5.5
55.4
0.0
9719
.320
3.5
52.7
0.0
99LE
GEND
969
1 VT
2PRI
B91
C250
1,2
20.9
219.
252
.60.
095
20.7
223.
753
.50.
096
21.0
214.
751
.70.
094
MYC
OGEN
2V3
5793
C500
1,2,
3,4,
621
.822
2.9
52.2
0.0
9822
.023
3.0
53.4
0.0
9721
.621
2.8
51.0
0.0
99NK
Bra
nd N
19D
85C2
501,
2,4
19.9
204.
853
.80.
097
21.1
212.
454
.60.
097
18.7
197.
253
.10.
097
NK B
rand
N18
Q-30
11A
86C2
501,
2,3,
419
.620
7.0
54.3
0.0
9619
.821
4.9
55.1
0.0
9519
.319
9.1
53.6
0.0
97Nu
Tech
/G2
GENE
TICS
5F-
091™
91P5
001,
2,4
21.1
206.
452
.00.
086
21.6
202.
552
.60.
084
20.6
210.
351
.50.
087
NuTe
ch/G
2 GE
NETI
CS 5
F-89
4™94
P500
1,2,
420
.021
6.9
50.6
0.1
9820
.323
2.3
51.4
0.3
9819
.820
1.5
49.7
0.0
98Nu
Tech
/G2
GENE
TICS
X5Z
-950
1™95
P500
1,2,
420
.322
7.8
53.6
0.0
9720
.521
9.3
54.3
0.0
9820
.023
6.4
**52
.90.
097
NuTe
ch/G
2 GE
NETI
CS 5
F-19
6™96
P500
1,2,
421
.923
9.9
**50
.30.
099
22.7
243.
5*
50.6
0.0
100
21.2
236.
3*
49.9
0.0
99PA
RTNE
RS B
RAND
563
0 GT
86C2
501
18.6
186.
254
.00.
097
19.4
196.
254
.50.
096
17.7
176.
153
.60.
098
RUPP
XRD
82-0
282
A250
1,2
18.8
182.
854
.60.
096
19.4
187.
255
.80.
095
18.3
178.
453
.50.
097
RUPP
XRD
90-6
490
C250
1,2,
420
.420
6.8
51.8
0.0
8821
.021
9.9
52.9
0.0
8719
.719
3.7
50.6
0.0
90RU
PP X
RD92
-74
92A2
501,
219
.422
2.7
53.2
0.0
9719
.822
8.3
54.1
0.0
9919
.021
7.0
52.2
0.0
96AV
ERAG
E20
.421
1.7
52.8
0.1
9620
.821
8.2
53.8
0.0
9620
.120
5.3
51.8
0.1
97HI
GHES
T25
.823
9.9
54.6
1.3
100
25.2
256.
755
.90.
310
026
.723
6.4
53.6
2.6
100
LOW
EST
18.4
182.
850
.30.
086
18.9
186.
550
.60.
084
17.5
176.
149
.50.
087
CV (%
)4.
05.
71.
454
0.9
4.0
3.7
6.1
1.2
836.
35.
04.
35.
21.
642
5.0
3.0
LSD
(5%
)0.
710
.00.
60.
23.
00.
915
.60.
80.
25.
01.
012
.51.
00.
44.
0
** H
ighes
t Yiel
ding
Hybr
id
* Not
Sign
ifican
tly D
iffere
nt fr
om H
ighes
t Yiel
ding
Hybr
i d
Loca
tion
drop
ped
due
to d
roug
ht co
nditio
ns.
BU/A
BU/A
BU/A
BU/A
TRIA
L AV
ERAG
EIo
sco
- Ear
lyGr
and
Trav
erse
- Ea
rlyM
enom
inee
- La
te
- 21 -
TABL
E 5.
ZONE
5DE
LTA,
GRA
ND T
RAVE
RSE
(EAR
LY) &
MEN
OMIN
EE (E
ARLY
) COU
NTY
GRAI
N TR
IALS
(93 D
ay an
d Ea
rlier
)
2016
BRAN
D / H
YBRI
DRM
TRT
TRAI
T%
H2O
Twt
%SL
%Sd
%H2
OTw
t%
SL%
Sd%
H2O
Twt%
SL%
Sd%
H2O
Twt
%SL
%Sd
DYNA
GRO
D25V
C45
85P5
001,
224
.817
3.1
**49
.50.
010
029
.314
4.6
47.8
0.0
100
20.3
201.
7**
51.1
0.0
100
DYNA
GRO
D27V
C47
87P5
001,
223
.016
1.8
*50
.70.
096
28.9
150.
5*
49.1
0.0
9717
.217
3.2
52.3
0.0
96FO
UNDA
TION
DIR
ECT
GT H
Z 76
083
MXL
121
.316
4.1
*51
.30.
396
24.4
155.
7*
49.8
0.0
9418
.317
2.5
52.8
0.6
98FO
UNDA
TION
DIR
ECT
GT H
Z 87
790
MXL
124
.416
4.6
*48
.80.
010
030
.112
9.2
45.8
0.0
100
18.8
200.
0*
51.8
0.0
99GR
EAT
LAKE
S 35
10VT
2RIB
85P5
001,
220
.716
2.5
*52
.70.
096
24.8
147.
9*
51.0
0.0
9516
.617
7.1
54.5
0.0
97GR
EAT
LAKE
S 38
47VT
2RIB
88P5
001,
225
.114
0.7
50.0
0.0
9529
.511
1.1
47.6
0.0
9520
.717
0.3
52.3
0.0
96GR
EAT
LAKE
S 42
50ST
XRIB
92P5
001,
2,3,
625
.516
6.7
*48
.70.
099
30.1
159.
7**
46.3
0.0
100
20.9
173.
751
.00.
099
LEGA
CY S
EEDS
L-2
245
VT2P
RO82
P250
1,2
21.2
165.
3*
52.2
0.0
9625
.615
0.7
*50
.00.
095
16.8
179.
854
.40.
096
LEGA
CY S
EEDS
L-2
314
VT2P
RO83
P250
1,2
21.6
152.
951
.20.
098
25.1
143.
449
.60.
097
18.2
162.
452
.90.
098
AVER
AGE
23.1
161.
350
.60.
097
27.5
143.
648
.60.
097
18.6
179.
052
.60.
198
HIGH
EST
25.5
173.
152
.70.
310
030
.115
9.7
51.0
0.0
100
20.9
201.
754
.50.
610
0LO
WES
T20
.714
0.7
48.7
0.0
9524
.411
1.1
45.8
0.0
9416
.616
2.4
51.0
0.0
96CV
(%)
6.1
8.8
2.1
848.
53.
05.
67.
11.
70.
03.
06.
88.
02.
460
0.0
3.0
LSD
(5%
)1.
211
.90.
90.
22.
01.
912
.31.
00.
04.
01.
517
.61.
50.
43.
0
** H
ighes
t Yiel
ding
Hybr
id
* Not
Sign
ifican
tly D
iffere
nt fr
om H
ighes
t Yiel
ding
Hybr
id
BU/A
TRIA
L AV
ERAG
EDe
ltaGr
and
Trav
erse
- Ea
rlyM
enom
inee
- Ea
rly
Loca
tion
drop
ped
due
to d
roug
ht co
nditio
ns.
BU/A
BU/A
BU/A
- 22 -
TABL
E 6E
.ZO
NE 2
- 3IN
GHAM
, MON
TCAL
M &
SAGI
NAW
COU
NTY
CONV
ENTI
ONAL
GRA
IN T
RIAL
S - E
ARLY
(101
Day
and
Earli
er)
2016
BRAN
D / H
YBRI
DRM
TRT
TRAI
T%
H2O
Twt
%SL
%Sd
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
%H2
OTw
t%
SL%
SdBL
UE R
IVER
33A
1692
MXL
Conv
.18
.319
3.4
55.7
3.4
9819
.019
2.2
56.7
0.0
100
20.7
178.
253
.210
.198
15.1
209.
757
.20.
095
BLUE
RIV
ER 3
7K90
95M
XLCo
nv.
19.5
195.
253
.41.
099
19.9
191.
353
.80.
099
22.4
176.
551
.23.
110
016
.321
7.9
55.2
0.0
98BL
UE R
IVER
43T
3598
MXL
Conv
.18
.620
2.7
53.0
0.8
9819
.320
8.1
*53
.40.
010
021
.718
5.5
50.4
1.7
100
14.8
214.
455
.10.
793
BLUE
RIV
ER 4
8G35
101
MXL
Conv
.20
.021
0.2
52.4
1.4
9821
.521
3.1
*52
.30.
010
023
.418
0.8
50.4
4.3
9915
.023
6.8
*54
.60.
096
FOUN
DATI
ON D
IREC
T OR
G 88
0190
MXL
Conv
.17
.218
8.7
57.3
0.5
9717
.719
1.4
58.0
0.0
100
19.3
167.
654
.61.
597
14.5
207.
059
.10.
094
FOUN
DATI
ON D
IREC
T 87
8995
MXL
Conv
.16
.519
8.2
57.3
0.4
9417
.420
4.7
58.0
0.0
9717
.918
7.5
55.4
1.2
9514
.120
2.3
58.4
0.0
90FO
UNDA
TION
DIR
ECT
ORG
8700
97M
XLCo
nv.
18.0
198.
053
.80.
188
19.7
182.
655
.00.
089
20.0
191.
751
.90.
390
14.4
219.
954
.60.
087
FOUN
DATI
ON D
IREC
T 87
6297
MXL
Conv
.17
.720
0.2
55.1
2.0
100
17.8
196.
655
.30.
010
020
.117
4.4
53.4
5.9
100
15.2
229.
4*
56.7
0.0
100
GREA
T LA
KES
4452
94P5
00Co
nv.
16.8
211.
754
.50.
497
17.9
203.
154
.90.
010
018
.421
4.1
**52
.41.
299
14.1
217.
956
.20.
093
GREA
T LA
KES
4699
96P5
00Co
nv.
17.1
221.
6*
55.0
0.4
9917
.821
2.7
*55
.60.
010
019
.521
2.3
*52
.41.
299
14.2
239.
9**
56.9
0.0
99GR
EAT
LAKE
S 48
7998
P500
Conv
.17
.922
2.7
**54
.30.
199
19.4
219.
3*
55.2
0.0
100
19.4
209.
1*
51.6
0.0
100
15.0
239.
6*
56.2
0.3
96KE
Y 40
110
1EN
CCo
nv.
18.5
201.
854
.50.
599
20.2
193.
453
.80.
010
020
.419
9.7
*53
.31.
499
14.9
212.
256
.50.
098
M&W
SEE
DS 4
7J64
94P2
50Co
nv.
16.6
207.
255
.20.
299
17.7
200.
955
.80.
098
18.4
193.
753
.40.
610
013
.922
7.1
*56
.50.
099
M&W
SEE
DS 4
6L41
96P2
50Co
nv.
16.9
220.
0*
55.4
0.4
9717
.722
0.6
**55
.80.
099
18.8
204.
2*
53.9
0.9
100
14.1
235.
1*
56.5
0.3
94M
&W S
EEDS
45A
3710
0P2
50Co
nv.
18.2
202.
154
.40.
099
18.6
206.
5*
54.4
0.0
100
21.0
186.
152
.70.
098
15.1
213.
656
.10.
010
0M
&W S
EEDS
45K
3310
1P2
50Co
nv.
18.4
209.
053
.00.
599
19.4
214.
1*
53.7
0.0
9821
.019
0.7
50.3
1.4
100
14.8
222.
155
.00.
097
PART
NERS
BRA
ND 6
358
93C2
50Co
nv.
17.2
204.
556
.20.
598
17.6
191.
657
.10.
099
19.1
190.
353
.91.
298
15.0
231.
4*
57.6
0.3
98PA
RTNE
RS B
RAND
698
199
C250
Conv
.18
.021
7.3
*54
.01.
095
19.2
209.
8*
54.1
0.0
9420
.120
3.8
*51
.43.
094
14.6
238.
3*
56.6
0.0
97RU
PP X
RA94
-16
94A2
50Co
nv.
17.0
201.
654
.90.
096
17.3
208.
2*
56.0
0.0
9519
.418
3.2
52.4
0.0
9714
.221
3.3
56.4
0.0
94ST
EYER
980
198
C250
Conv
.17
.519
9.8
54.9
0.5
9518
.019
1.5
55.3
0.0
9719
.718
1.1
53.2
1.5
9314
.922
6.9
*56
.10.
094
STEY
ER 9
802
98C2
50Co
nv.
18.4
203.
453
.50.
093
19.9
195.
354
.10.
096
20.8
191.
551
.60.
091
14.6
223.
5*
54.8
0.0
92ST
EYER
101
0210
1C2
50Co
nv.
19.1
199.
853
.70.
095
19.9
191.
753
.70.
099
22.0
189.
251
.10.
096
15.4
218.
456
.40.
091
STEY
ER 8
602
86C2
50Co
nv.
16.5
182.
256
.30.
096
17.2
173.
457
.60.
099
17.9
180.
453
.40.
096
14.5
192.
857
.90.
092
STEY
ER 9
302
93C2
50Co
nv.
17.2
198.
856
.60.
593
17.9
183.
457
.10.
093
18.8
194.
955
.11.
294
15.0
218.
157
.50.
492
STEY
ER 9
503
95C2
50Co
nv.
17.7
211.
554
.40.
498
18.9
217.
5*
55.1
0.0
9918
.719
5.2
52.3
1.1
9915
.522
1.7
55.9
0.0
95VI
KING
O.8
4-95
P95
C250
Conv
.17
.321
4.0
*55
.00.
298
17.9
214.
8*
55.7
0.0
100
19.5
206.
8*
52.3
0.6
100
14.4
220.
356
.90.
094
VIKI
NG O
.24-
95P
95Co
nv.
18.0
187.
253
.90.
099
18.8
190.
454
.90.
010
020
.316
5.8
51.0
0.0
100
14.8
205.
455
.90.
097
VIKI
NG O
.71-
97P
97Co
nv.
20.4
182.
253
.11.
698
20.3
162.
254
.30.
010
024
.317
3.3
49.4
4.9
9816
.721
1.2
55.5
0.0
97VI
KING
O.5
8-98
GS98
C250
Conv
.18
.220
7.6
53.4
0.5
9019
.020
6.6
*53
.90.
095
21.2
181.
551
.21.
589
14.6
234.
8*
55.1
0.0
87VI
KING
O.6
9-99
P99
C250
Conv
.19
.621
4.7
*54
.02.
998
20.9
218.
6*
54.3
0.0
100
21.7
192.
852
.18.
097
16.2
232.
9*
55.6
0.6
96VI
KING
O.3
5-99
P99
Conv
.19
.419
2.5
52.8
1.1
9820
.618
5.8
53.6
0.0
9822
.417
7.1
49.5
3.4
100
15.3
214.
655
.30.
095
VIKI
NG 6
0-01
101
C250
Conv
.19
.020
7.6
54.7
0.2
9819
.821
0.9
*55
.40.
099
21.5
185.
052
.30.
697
15.7
227.
0*
56.3
0.0
98M
&W S
EEDS
46G
5498
Conv
.18
.519
8.5
52.7
0.6
9719
.419
1.2
53.3
0.0
9621
.518
1.9
50.5
1.8
9814
.522
2.5
54.1
0.0
96AV
ERAG
E18
.020
3.2
54.5
0.7
9718
.919
9.8
55.1
0.0
9820
.318
8.7
52.2
1.9
9714
.922
1.1
56.2
0.1
95HI
GHES
T20
.422
2.7
57.3
3.4
100
21.5
220.
658
.00.
010
024
.321
4.1
55.4
10.1
100
16.7
239.
959
.10.
710
0LO
WES
T16
.518
2.2
52.4
0.0
8817
.216
2.2
52.3
0.0
8917
.916
5.8
49.4
0.0
8913
.919
2.8
54.1
0.0
87CV
(%)
4.2
6.5
1.7
225.
94.
02.
96.
01.
30.
03.
05.
36.
82.
313
4.1
3.0
3.5
6.4
1.4
495.
36.
0LS
D (5
%)
0.5
8.8
0.6
1.0
3.0
0.6
14.2
0.8
0.0
4.0
1.3
15.2
1.4
3.0
3.0
0.6
16.6
0.9
0.4
6.0
** H
ighes
t Yiel
ding
Hybr
id
* Not
Sign
ifican
tly D
iffere
nt fr
om H
ighes
t Yiel
ding
Hybr
id
BU/A
BU/A
BU/A
BU/A
Early
- TR
IAL
AVER
AGE
Ingh
am -
Early
Mont
calm
- Ea
rlySa
gina
w - E
arly
- 23 -
2 Ye
ar A
vera
ges
2016
- 20
15BR
AND
/ HYB
RID
RMTR
TTR
AIT
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
BLUE
RIV
ER 4
3T35
98M
XLCo
nv.
18.5
220.
654
.00.
298
19.4
226.
8*
53.6
0.0
100
17.5
214.
454
.50.
396
GRE
AT L
AKES
469
996
P500
Conv
.16
.922
2.5
56.4
0.1
9917
.221
8.0
56.3
0.0
100
16.5
227.
1*
56.6
0.1
99G
REAT
LAK
ES 4
879
98P5
00Co
nv.
18.3
233.
2**
55.5
0.1
9919
.223
4.4
**55
.10.
010
017
.523
2.0
**55
.90.
198
M&W
SEE
DS 4
7J64
94P2
50Co
nv.
16.2
212.
156
.50.
099
16.3
205.
156
.50.
099
16.1
219.
156
.50.
010
0M
&W S
EEDS
45A
3710
0P2
50Co
nv.
17.9
221.
955
.90.
110
018
.523
0.2
*55
.60.
099
17.4
213.
656
.20.
310
0M
&W S
EEDS
45K
3310
1P2
50Co
nv.
18.3
217.
654
.30.
199
18.5
219.
454
.40.
099
18.0
215.
854
.20.
199
RUPP
XRA
94-1
694
A250
Conv
.16
.521
8.1
56.5
0.0
9716
.422
1.3
56.5
0.0
9816
.721
4.9
56.5
0.0
97ST
EYER
980
198
C250
Conv
.18
.021
5.5
56.2
0.0
9618
.020
8.8
56.2
0.0
9818
.122
2.1
56.2
0.0
93ST
EYER
980
298
C250
Conv
.18
.721
1.7
54.2
0.0
9519
.521
1.4
54.2
0.0
9517
.821
2.1
54.2
0.0
95ST
EYER
101
0210
1C2
50Co
nv.
18.9
212.
355
.50.
097
19.9
208.
154
.80.
098
17.9
216.
656
.20.
095
M&W
SEE
DS 4
6G54
98Co
nv.
18.8
209.
953
.90.
094
19.5
202.
753
.90.
095
18.1
217.
254
.00.
093
AVER
AGE
17.9
217.
855
.40.
098
18.4
216.
955
.20.
098
17.4
218.
255
.60.
197
HIG
HEST
18.9
233.
256
.50.
210
019
.923
4.4
56.5
0.0
100
18.1
232.
056
.60.
310
0LO
WES
T16
.220
9.9
53.9
0.0
9416
.320
2.7
53.6
0.0
9516
.121
2.1
54.0
0.0
93CV
(%)
4.5
6.4
1.5
212.
14.
04.
47.
21.
20.
03.
04.
25.
31.
241
4.1
5.0
LSD
(5%
)0.
47.
00.
40.
72.
00.
712
.40.
50.
02.
00.
69.
70.
60.
34.
0
BU/A
BU/A
BU/A
BU/A
Early
- TR
IAL
AVER
AGE
Ingh
am -
Early
Mon
tcal
m -
Early
Sagi
naw
- Ea
rly
2 Ye
ar A
vera
ges
2016
- 20
15BR
AND
/ HYB
RID
RMTR
TTR
AIT
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
BECK
472
1AM
™*
97ES
C1,
2,4,
617
.723
3.0
*53
.90.
098
18.1
227.
053
.80.
099
17.5
238.
2*
54.0
0.0
9617
.323
3.7
*54
.00.
098
BECK
516
2A3
101
ESC
1,2,
3,4
18.4
225.
356
.80.
098
19.6
221.
856
.70.
099
17.6
232.
5*
57.0
0.0
9718
.022
1.6
56.8
0.0
98CR
OPL
AN 3
611S
S/RI
B96
A500
1,2,
3,6
17.6
235.
6*
57.0
0.1
9618
.922
8.8
56.6
0.0
9816
.424
0.9
*57
.60.
393
17.5
237.
2*
56.7
0.0
98CR
OPL
AN 3
899V
T2P/
RIB
96A2
501,
218
.723
8.1
**56
.00.
097
19.7
243.
9**
55.9
0.0
100
17.7
237.
2*
56.1
0.0
9318
.623
3.2
*56
.00.
098
DAIR
YLAN
D SE
ED D
S-95
9999
C500
1,2,
3,4
19.2
215.
854
.80.
096
20.2
214.
154
.90.
098
18.4
214.
855
.00.
096
19.0
218.
754
.40.
094
DAIR
YLAN
D SE
ED D
S-97
0110
1C5
001,
2,3,
4,6
19.7
223.
554
.90.
095
21.1
224.
454
.70.
095
18.7
223.
054
.70.
091
19.2
223.
255
.30.
097
DEKA
LB D
KC46
-36
GEN
SSRI
B96
PV50
01,
2,3,
4,6
18.0
229.
756
.00.
198
19.3
234.
1*
55.7
0.0
100
16.4
227.
156
.20.
496
18.2
227.
955
.90.
098
DEKA
LB D
KC49
-72
GEN
SSRI
B99
PV50
01,
2,3,
4,6
18.1
230.
254
.90.
097
19.2
238.
0*
54.3
0.0
9516
.823
0.8
55.1
0.0
9718
.422
1.8
55.2
0.0
98DY
NAG
RO D
37SS
6097
P500
1,2,
3,4,
617
.622
9.3
56.9
0.2
9818
.623
5.2
*57
.20.
010
016
.623
1.8
57.4
0.0
9517
.722
1.0
56.2
0.7
98DY
NAG
RO D
40SS
4810
0P5
001,
2,3,
4,6
18.2
226.
756
.50.
098
19.3
231.
656
.40.
010
016
.622
4.5
57.3
0.0
9718
.722
4.0
56.0
0.0
98G
REAT
LAK
ES 4
548S
TXRI
B95
P500
1,2,
3,6
17.4
236.
1*
56.5
0.0
9918
.623
2.0
56.3
0.0
9916
.023
9.6
*57
.30.
099
17.6
236.
8*
56.0
0.0
100
GRE
AT L
AKES
487
9STX
RIB
98P5
001,
2,3,
618
.923
0.2
55.6
0.0
9719
.924
0.0
*55
.60.
010
017
.822
2.5
55.9
0.0
9219
.122
8.3
55.4
0.0
98LE
GAC
Y SE
EDS
L-38
45 G
ENSS
97P5
001,
2,3,
4,6
17.1
220.
155
.40.
091
18.1
226.
955
.20.
095
16.4
213.
555
.50.
089
16.9
219.
955
.50.
091
M&W
SEE
DS 4
7J66
94P2
501,
217
.222
1.5
56.5
0.1
9918
.022
5.1
56.7
0.0
9916
.221
9.3
56.8
0.3
9817
.322
0.3
56.1
0.0
99M
&W S
EEDS
46J
1196
P250
1,2
17.5
233.
4*
56.6
0.0
9618
.923
2.6
56.3
0.0
9716
.723
7.3
*57
.10.
094
17.0
230.
356
.50.
098
M&W
SEE
DS 4
6G55
98P2
501
18.7
216.
554
.50.
086
19.8
221.
854
.60.
087
17.7
211.
554
.80.
087
18.5
216.
454
.00.
085
MYC
OG
EN 2
A499
99C5
001,
2,3,
4,6
19.0
218.
456
.00.
099
19.6
213.
556
.10.
099
18.3
219.
956
.10.
098
19.0
221.
955
.90.
098
NuTe
ch/G
2 G
ENET
ICS
5F-1
96™
96P5
001,
2,4
17.9
231.
553
.60.
094
18.6
225.
653
.40.
091
17.8
238.
6*
53.5
0.0
9617
.323
0.5
53.8
0.0
95Nu
Tech
/G2
GEN
ETIC
S 5F
-701
™10
1P5
001,
2,4
18.9
230.
755
.80.
395
19.7
234.
1*
56.1
0.0
9718
.223
3.6
*55
.40.
992
18.9
224.
255
.90.
097
RENK
RK5
96SS
TX98
P500
1,2,
3,4,
617
.522
3.9
56.3
0.0
9618
.722
7.8
55.9
0.0
9716
.421
6.3
56.9
0.0
9217
.322
7.6
56.2
0.0
98RE
NK R
K612
SSTX
100
P500
1,2,
3,4,
618
.723
1.2
55.6
0.0
9819
.823
4.0
*55
.00.
010
017
.322
4.5
56.3
0.0
9719
.123
5.2
*55
.40.
097
RUPP
XRD
94-2
694
A250
1,2
17.6
221.
657
.00.
098
18.6
228.
356
.50.
099
16.4
220.
357
.40.
099
17.8
216.
257
.10.
096
RUPP
XRT
94-0
694
A250
1,2,
317
.322
2.5
57.1
0.1
9818
.122
4.6
56.9
0.0
100
16.1
217.
957
.40.
095
17.6
225.
057
.10.
398
RUPP
XRD
97-5
697
A250
1,2
16.8
222.
556
.20.
096
17.9
229.
355
.90.
010
015
.621
5.1
56.7
0.0
9116
.822
3.0
56.1
0.1
99SP
ECIA
LTY
24A1
0494
P500
1,2,
3,4,
617
.222
9.1
56.1
0.0
9917
.922
0.6
56.1
0.0
9916
.323
5.9
*56
.40.
098
17.5
230.
856
.00.
099
SPEC
IALT
Y 28
A325
98P5
001,
2,3,
4,6
19.2
222.
856
.40.
095
19.9
219.
856
.10.
096
18.6
224.
156
.70.
093
19.0
224.
556
.30.
097
SPEC
IALT
Y 29
A263
99P5
001,
2,3,
4,6
18.0
235.
4*
55.4
0.0
9719
.222
2.4
55.5
0.0
9616
.924
3.2
**55
.50.
095
17.8
240.
5**
55.2
0.0
100
AVER
AGE
18.1
227.
255
.90.
096
19.1
228.
055
.70.
098
17.1
227.
256
.20.
195
18.0
226.
455
.70.
097
HIG
HEST
19.7
238.
157
.10.
399
21.1
243.
957
.20.
010
018
.724
3.2
57.6
0.9
9919
.224
0.5
57.1
0.7
100
LOW
EST
16.8
215.
853
.60.
086
17.9
213.
553
.40.
087
15.6
211.
553
.50.
087
16.8
216.
253
.80.
085
CV (%
)4.
45.
71.
422
6.9
6.0
4.7
5.7
1.6
0.0
5.0
4.0
6.3
1.4
606.
18.
04.
45.
01.
213
44.0
5.0
LSD
(5%
)0.
46.
10.
40.
43.
00.
710
.80.
70.
04.
00.
611
.30.
60.
86.
00.
69.
40.
60.
24.
0
Sagi
naw
- Ea
rlyEa
rly -
TRIA
L AV
ERAG
EAl
lega
n - E
arly
Ingh
am -
Early
BU/A
BU/A
BU/A
BU/A
TABL
E 2E
- Co
ntin
ued
from
pag
e 13.
ZONE
2AL
LEGA
N, IN
GHAM
& S
AGIN
AW C
OUNT
Y GR
AIN
TRIA
LS -
EARL
Y (1
01 D
ay an
d Ea
rlier
)
- 24 -
TABL
E 6L
.ZO
NE 2
- 3IN
GHAM
, MON
TCAL
M &
SAGI
NAW
COU
NTY
CONV
ENTI
ONAL
GRA
IN T
RIAL
S - L
ATE
(102
Day
and
Late
r)20
16BR
AND
/ HYB
RID
RMTR
TTR
AIT
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
BLUE
RIV
ER 49
K70
102
MXL
Conv
.22
.619
5.953
.32.2
9523
.720
2.653
.80.0
9226
.416
8.951
.36.6
9717
.621
6.254
.90.0
95BL
UE R
IVER
51T5
910
3MX
LCo
nv.
19.6
215.2
53.0
2.596
20.5
208.6
53.7
0.093
23.5
190.0
50.5
6.210
014
.924
6.9*
54.8
1.294
BLUE
RIV
ER 57
A30
107
MXL
Conv
.20
.821
0.251
.51.7
9721
.721
3.351
.30.0
9824
.918
2.349
.64.9
9715
.823
5.053
.50.3
97GR
EAT
LAKE
S 52
8310
2P5
00Co
nv.
20.1
225.9
*53
.50.4
9720
.623
3.1*
54.1
0.095
24.9
197.2
*49
.70.6
9914
.824
7.4*
56.8
0.696
GREA
T LA
KES
5755
107
P500
Conv
.22
.322
5.8*
51.2
1.897
23.3
222.9
*52
.10.0
9527
.519
6.1*
48.3
5.110
016
.225
8.4**
53.3
0.397
KEY
704
104
ENC
Conv
.21
.221
2.551
.71.7
9721
.821
0.652
.40.0
9225
.419
0.749
.14.8
100
16.3
236.1
53.6
0.397
KEY
305
105
ENC
Conv
.19
.121
0.850
.31.3
100
20.5
217.9
51.2
0.010
023
.618
0.047
.73.9
100
13.1
234.4
51.9
0.099
LEGE
ND JS
C 30
J704
104
C250
Conv
.20
.722
1.1*
52.0
2.298
21.5
227.5
*52
.40.0
9923
.919
9.1*
50.0
6.099
16.6
236.7
53.7
0.694
M&W
SEE
DS 45
M43
103
P250
Conv
.19
.821
6.854
.90.4
9121
.122
1.654
.60.0
8422
.519
3.4*
51.7
1.198
15.7
235.5
58.3
0.092
M&W
SEE
DS 44
G44
106
P250
Conv
.20
.821
8.254
.60.8
9722
.422
2.8*
55.1
0.098
23.6
195.2
*51
.92.3
9916
.523
6.756
.90.0
93M&
W S
EEDS
44M8
710
8P2
50Co
nv.
23.1
227.8
**52
.70.3
9426
.323
7.9**
52.2
0.099
25.9
204.1
**50
.90.6
9517
.024
1.455
.10.3
90RU
PP X
RA02
-20
102
A250
Conv
.19
.821
9.254
.50.3
9520
.723
0.2*
54.7
0.010
022
.919
9.4*
51.8
0.997
15.7
228.0
57.1
0.088
RUPP
XRA
03-9
110
3A2
50Co
nv.
20.1
213.0
52.6
0.298
20.8
223.7
*53
.20.0
100
24.7
186.6
49.6
0.697
14.9
228.6
55.0
0.097
STEY
ER 10
303
103
C250
Conv
.19
.922
1.0*
54.3
0.196
21.5
214.0
54.1
0.092
22.4
198.0
*52
.10.3
9915
.725
1.0*
56.9
0.097
VIKI
NG O
.63-0
5P10
5C2
50Co
nv.
20.6
215.2
52.1
0.299
22.1
219.0
51.6
0.099
23.7
184.4
50.4
0.610
016
.124
2.3*
54.4
0.099
WEL
LMAN
W24
0810
8EN
CCo
nv.
21.7
218.6
51.7
0.391
23.0
219.3
52.0
0.088
25.4
194.2
*48
.80.9
9516
.924
2.5*
54.2
0.090
WEL
LMAN
W27
0810
8EN
CCo
nv.
20.8
221.1
*53
.00.4
9322
.622
1.953
.70.0
9023
.820
2.3*
49.6
1.299
16.1
239.2
55.6
0.092
WEL
LMAN
W23
1010
9EN
CCo
nv.
23.3
203.7
53.0
0.095
24.5
195.4
53.0
0.095
27.5
178.4
50.5
0.094
17.9
237.3
55.4
0.095
AVER
AGE
20.9
216.2
52.8
0.996
22.1
219.0
53.1
0.095
24.6
191.1
50.2
2.698
16.0
238.5
55.1
0.294
HIGH
EST
23.3
227.8
54.9
2.510
026
.323
7.955
.10.0
100
27.5
204.1
52.1
6.610
017
.925
8.458
.31.2
99LO
WES
T19
.119
5.950
.30.0
9120
.519
5.451
.20.0
8422
.416
8.947
.70.0
9413
.121
6.251
.90.0
88CV
(%)
3.95.7
1.918
4.18.0
2.95.9
1.20.0
12.0
4.75.6
2.411
2.03.0
2.96.0
2.029
9.36.0
LSD
(5%
)0.5
8.40.7
1.25.0
0.815
.20.7
0.013
.01.4
12.6
1.43.4
3.00.5
16.9
1.30.7
7.0
2 Yea
r Ave
rage
s 201
6 - 20
15BR
AND
/ HYB
RID
RMTR
TTR
AIT
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
%H2
OTw
t%
SL%
Sd%
H2O
Twt
%SL
%Sd
GREA
T LA
KES
5283
102
P500
Conv
.20
.024
2.7**
55.2
0.198
20.6
243.2
*54
.90.0
9719
.424
2.1*
55.5
0.398
GREA
T LA
KES
5755
107
P500
Conv
.22
.324
2.3*
53.5
0.198
23.3
233.5
*53
.30.0
9721
.425
1.0**
53.8
0.198
KEY
305
105
ENC
Conv
.19
.722
6.051
.20.0
9921
.723
3.4*
51.0
0.010
017
.721
8.551
.40.0
98M&
W S
EEDS
44G4
410
6P2
50Co
nv.
22.6
229.7
55.6
0.097
23.7
226.5
55.3
0.097
21.5
233.0
55.9
0.096
M&W
SEE
DS 44
M87
108
P250
Conv
.24
.724
0.0*
53.8
0.496
27.1
243.3
**53
.10.0
9722
.323
6.754
.40.7
95RU
PP X
RA03
-91
103
A250
Conv
.19
.822
8.754
.10.2
9920
.523
5.8*
53.9
0.010
019
.222
1.654
.40.3
97W
ELLM
AN W
2408
108
ENC
Conv
.22
.523
1.953
.60.4
9323
.022
3.753
.00.0
9422
.024
0.154
.20.7
93AV
ERAG
E21
.723
4.553
.90.2
9722
.923
4.253
.50.0
9820
.523
4.754
.20.3
97HI
GHES
T24
.724
2.755
.60.4
9927
.124
3.355
.30.0
100
22.3
251.0
55.9
0.798
LOW
EST
19.7
226.0
51.2
0.093
20.5
223.7
51.0
0.094
17.7
218.5
51.4
0.093
CV (%
)4.7
5.61.8
188.9
6.04.5
6.31.3
0.08.0
5.35.0
1.928
1.95.0
LSD
(5%
)0.5
6.60.5
0.73.0
0.811
.90.6
0.07.0
0.89.8
0.90.6
4.0
** H
ighes
t Yiel
ding H
ybrid
* N
ot Si
gnific
antly
Diffe
rent
from
High
est Y
ieldin
g Hyb
rid
BU/A
BU/A
BU/A
BU/A
BU/A
BU/A
BU/A
BU/A
Late
- TR
IAL
AVER
AGE
Ingh
am -
Late
Mont
calm
- La
teSa
gina
w - L
ate
Late
- TR
IAL
AVER
AGE
Ingh
am -
Late
Mont
calm
- La
teSa
gina
w - L
ate
- 25 -
TABLE B. AGRONOMIC TABLE FOR GRAIN TRIAL LOCATIONS
COUNTY PLANTING DATES
HARVEST DATES
PREVIOUSCROP
100 % STAND
AVERAGE STAND
FERTILIZER N - P - K
Zone
1
WASHTENAW May 22 Nov 11 Soybeans 35,244 34,891 180-9-3
BRANCH May18 Oct 31 Corn 35,244 34,010 221-9-3
CASS May 16 Nov 9 Soybeans 35,244 34,539 240-9-3 150 lbs. potash
Zone
2
ALLEGAN May 20 Nov 10 Soybeans 35,244 34,891 109-9-3 + chicken manure
INGHAM May 23 Nov 8 Soybeans 35,244 32,424 190-9-3
INGHAM CONV. May 20 Oct 30 Soybeans 35,244 34,010 191-9-3
SAGINAW & CONV. May 23 Nov 14 Soybeans 35,244 32,689 155-9-3
Zone
3
HURON May 5 Nov 1 Corn 35,244 34,186 127-9-3 +manure
MONTCALM
MONTCALM CONV.
May 25
May 25
Nov 13
Nov 13
Corn
Corn
35,244
35,244
34,539
34,186
170-9-3
170-9-3
MASON May 13 Nov 3 Soybeans 35,244 32,424 170-9-3 + pig manure
Zone
4
IOSCO May 8 Nov 6 Corn 35,244 33,834 170-9-3 +manure
GRANDTRAVERSE Dropped Due To Drought
MENOMINEE May 26 Nov 7 Alfalfa 35,244 34,186 140-9-3 + manure
Z5 DELTA May 26 Nov 7 Sod 35,244 34,186 109-9-3 +manure
COUNTY SOIL TYPE SOIL TEST FARM COOPERATOR LOCATION
Zone
1
WASHTENAW Ypsi sandy loam pH 6.45, P 80 K 223
Talladay Farms Matthew Talladay
Milan
BRANCH Spinks-Oshtemo-Houghton- Fox-Boyer
pH 6.4, P38.5 K 143
Huff Farms Kyle Huff
Coldwater
CASS Kalamazoo loam pH 6.25, P 35 K 167
Brossman’s Farm George Brossman
Vandalia
Zone
2
ALLEGAN Ockley loam pH 5.85, P 97 K 238
Schipper Farms Jim & John Schipper
Martin
INGHAM Capac loam pH 6.2, P63.5 K 180.5
Jorgensen Farms Jerry Jorgensen & Mike Turner
Williamston
INGHAM CONV. Colwood-Brookston pH 6.45,P 51 K213.5
Crop, Soil & Microbial Sciences Research Facility, MSU
Lansing
SAGINAW & Conv. Slon-Shoals-Houghton-Cuhoctah-Ceresco
pH 6.8, P 48 K 139
Fred Gross Farms Peggy Gross & Dick Birchmeier
New Lothrop
Zone
3
HURON & Conv. Shebeon-Kilmanagh-Grindstone
pH 7, P 76K 146.5
Wil-Le Farms Ron & Ed McCrea
Bad Axe
MONTCALM Tekenink-Elmdale loamy sands
pH 6.15, P 72K 177
Karnatzs Farms Scott Karnatzs
Greenville
MASON Pipestone-Grattan pH 6.75, P 76 K 115.5
Robert Oshe Jacob Zwagerman
Scottville
Zone
4
IOSCO Nester-Kawkawlin pH 6.5, P 46 K 173
Double B Dairy Jeremy & Tim Beebe
Hale
GRAND TRAVERSE Dropped due to drought Carousel Farms Ed Breitmeyer
Buckley
MENOMINEE Onaway-Emmet-Cathro pH7.45,P42.5 K148.5
Johnson Dairy Farm Dave Johnson
Daggett
Z5 DELTA Trenary fine sandy loam pH6.15,P39.5 K89
VanDrese Farms Cornell
- 26 -
HYBRID INDEX FOR GRAIN TRIALSZONE 1
Tables 1E/1LBranchCass
WastenawTrial Average
ZONE 2Tables 2E/2L
Allegan InghamSaginaw
Trial Average
CONVENTIONAL TRIALTables 6E/6L
Ingham - Zone 2Montcalm - Zone 3Saginaw - Zone 2
Trial Average
ZONE 3Tables 3E/3L
HuronMason
MontcalmTrial Average
ZONE 4Table 4Iosco
Grand Traverse - LateMenominee - Late
Trial Average
ZONE 5Table 5Delta
Grand Traverse - EarlyMenominee - Early
Trial AverageBRAND / HYBRID RM TABLE AGRIGOLD A6257STXRIB 100 2E~ A6267STXRIB 102 2L~ A6355STXRIB 103 2L A6346STX 104 2L A6416STXRIB 107 1E~ A6424GT3VIP 108 1L A6441STXRIB 108 1L A6462STXRIB 110 1LBECK 4323VR 93 3E 4606V2P 96 3E 4721AM™* 97 2E,3E 4919V2P 99 2E,3L 5162A3 101 2E,3L~ 5234AMX™* 102 2L,3L 5337V2P 103 1E,2L,3L~ 5460AM™* 104 1E,2L~ 5140HR™* 105 1E,2L~ 5665AMX™* 106 1E~ 5840AM™* 108 1L 5828AM™* 110 1L 6076V2P 110 1LBLUE RIVER 33A16 92 6E 37K90 95 6E 43T35 98 6E 48G35 101 6E 49K70 102 6L 51T59 103 6L 57A30 107 6LBRODBECK 57RA98 98 3L,4 9602 102 3L,4 9409 109 1L,2L 57RA10 110 1L,2LCHANNEL 192-09 VT3PRIB 92 1E 192-08 VT2PRIB 92 2E 194-14 VT2PRIB 94 2E 197-68 STXRIB 97 1E 197-66 VT2PRIB 97 2E 197-50 VT2PRIB 97 2E 199-00 DGVT2PRIB 99 2E 201-61 STXRIB 101 1E 201-61 VT2PRIB 101 2E 204-12 STXRIB 104 1E 205-19 STXRIB 105 1E 207-27 STXRIB 107 1E
BRAND / HYBRID RM TABLE CROPLAN 3314VT2P 93 2E,3E 3399SS/RIB 93 2E,3E 3499VT3P/RIB 94 2E,3E 3611SS/RIB 96 2E,3E 3899VT2P/RIB 96 2E,3E 3614VT2P 96 2E,3E 4199SS/RIB 100 2EDAIRYLAND SEED DS-7294 94 3E,4 DS-9198RA 98 2E,3L DS-9599 99 2E,3L DS-9701 101 2E,3L DS-9802 102 2L,3L~ DS-9403 103 2L,3L DS-9204 104 2L,3L DS-9106 106 1E,2L DS-9508RA 108 1LDEKALB DKC46-36 GENSSRIB 96 2E,3E DKC49-72 GENSSRIB 99 2E,3L DKC51-38 GENSSRIB 101 1E,2E,3L DKC53-68 GENSSRIB 103 1E,2L,3L DKC55-20 GENSSRIB 105 1E,2L DKC58-06 GENSSRIB 108 1L DKC60-87 GENSSRIB 110 1LDYNAGRO D25VC45 85 5 D27VC47 87 4,5 D32VC41 92 3E,4 D34VC54 94 3E,4 D37VC60 95 4~ D35SS58 95 3E,4~ D37SS60 97 2E,3E D39DC43 99 2E,3L D40SS48 100 2E,3L~ D41SS71 101 3L D43SS50 103 1E,2L D51SS54 111 1LFOUNDATION DIRECT GT HZ 760 83 5 ORG 8801 90 6E GT HZ 877 90 5 8789 95 6E ORG 8700 97 6E 8762 97 6EGOLDEN HARVEST G84B99-3220A 84 4 G85Z56-3110 85 4 G84J92-3011A 86 4 G88R13-3010 88 4~ G90Y04-3110A 92 3E G90E41-3110A 90 4 G94B95-3110 94 3E
BRAND / HYBRID RM TABLE GOLDEN HARVEST Continued ~ G95D32-3110 95 3E G96V99-3010 96 3E~ G01P52-3122A 101 2E G03A50-3010 103 2L~ G03C84-3010 103 2L G03H42-3000GT 103 2L G07F23-3111 107 2L~ G07B39-3122A 109 1L~ G09E98-3122 109 1LGREAT LAKES 3510VT2RIB 85 5 3847VT2RIB 88 4,5 4037STXRIB 90 2E,3E,4~ 4250STXRIB 92 2E,3E,4,5 4452VT2RIB 94 2E,3E,4 4452 94 6E~ 4548STXRIB 95 2E,3E,4 4699 96 6E 4879 98 6E~ 4879STXRIB 98 2E,3L 5029VT2RIB 100 1E,2E,3L 5283 102 6L~ 5283STXRIB 102 1E,2L,3L 5470STXRIB 104 1E,2L 5556VT2RIB 105 1E,2L 5755 107 6L~ 5824STXRIB 108 1L,2L~ 5944STXRIB 109 1LINTEGRA 4342VT2PRIB 93 3E,4 4652GSS 96 2E,3E 9482VT3PRIB 98 1E,2E,3L 4902GSS 100 1E,2E 5243DGVT2PRIB 102 1E,2LKEY 401 101 6E 704 104 6L 305 105 6LLEGACY SEEDS L-2245 VT2PRO 82 5 L-2314 VT2PRO 83 5 L-2516 VT2PRO 85 4 L-2916 VT2PRO 88 4 L-3115 VT2PRO 92 3E L-3416 VT2PRO 94 3E L-3423 GENSS 95 3E L-3715 GENSS 96 2E,3E L-3845 GENSS 97 2E L-4315 GENSS 101 2E,3L L-4445 VT2PRO DG 101 2E,3L L-5516 VT2PRO 105 1E,2L L-5914 GENSS 106 1E L-7014 GENSS 110 1L
- 27 -
BRAND / HYBRID RM TABLE LEGEND 9583 VT2PRIB 83 4 97A89-3011A 89 4 9691 VT2PRIB 91 4 9492 GENSSRIB 92 2E 9794 GENSSRIB 94 2E 9697 GENSSRIB 97 2E 9600 GENSSRIB 100 2E 9701 GENSSRIB 101 2E JSC 30J704 RR 104 6L 9405 GENSSRIB 105 2L 9608 GENSSRIB 108 2LM&W SEEDS ~ 47J66 94 2E,3E 47J64 94 6E 46J11 96 2E,3E 46L42 96 2E,3E 46L41 96 6E 46G54 98 6E 46G55 98 2E,3L 45A37 100 6E 45M21 100 1E,2E 45K33 101 6E~ 45A36 101 1E,2E 45N31 101 1E,2E 45K75 102 1E,2L 45M44 103 1E,2L MWX103 103 1E,2L 45M43 103 6L 45N89 104 1E,2L 44G44 106 6L~ 44D81 108 1L 44M87 108 6LMYCOGEN 2V357 93 4 2A499 99 2E X13526VH 102 2L X13663VH 106 1ENK Brand N19D 85 4 N18Q-3011A 86 4~ N27P-3110A 92 3E~ N35T-3110 95 3E N36G-3010 96 3E~ N45P-3122A 101 2E N50D-3010 103 2L N51R-3000GT 103 2L N60F-3111 107 2L~ N63R-3122 109 1L~ N59B-3122A 109 1LNuTech/G2 GENETICS 5F-091™ 91 4 5F-894™ 94 3E,4 X5Z-9501™ 95 2E,3E,4~ 5F-196™ 96 2E,3E,4 X5Z-9902™ 99 2E~ 5F-701™ 101 2E 5Z-601™ 101 2E 5L-702™ 102 1E 5Z-503™ 103 1E~ 5F-504™ 104 1E
BRAND / HYBRID RM TABLE NuTech/G2 GENETICS Continued ~ 5H-806™ 106 1E~ 5F-906™ 106 1E 5F-707™ 107 1E~ 5F-308™ 108 1LPARTNERS BRAND 5630 GT 86 4 6255 RR2 92 3E 6358 93 6E 6981 GTA 99 3L 6981 99 6ERENK RK299VT2P 89 3E RK408VT2P 91 3E RK433VT2P 92 3E RK522SSTX 94 3E RK566SSTX 94 3E RK596SSTX 98 2E,3L~ RK595SSTX 99 2E RK612SSTX 100 2E RK608DGVT2P 100 2E RK680SSTX 103 2L RK675DGVT2P 103 2L~ RK717SSTX 105 1E,2L~ RK776SSTX 107 1E RK794DGVT2P 108 1L RK792SSTX 108 1L~ RK810SSTX 110 1L RK871VT2P 111 1LRUPP XRD82-02 82 4 XRD90-64 90 3E,4 XRD92-74 92 3E,4 XRA94-16 94 6E XRD94-26 94 2E,3E XRT94-06 94 2E,3E XRD97-56 97 2E,3E XRD00-51 100 2E,3L XRA02-20 102 6L XRD02-93 102 1E,2L,3L XRA03-91 103 6L XRD03-71 103 1E,2L,3L XRD05-04 105 1E,2L XRD06-70 106 1E XRD07-19 107 1E 8XP675 107 1E XRJ10-91 110 1L XRD10-01 110 1L XRD11-57 111 1LSEED CONSULTANTS SCS 924YHR™ 92 2E SCS 965YHR™ 96 2E SC 9AQ61™ 98 2E SCS 1017YHR™ 101 1E,2E SCS 1037YHR™ 103 1E,2L SCS 10HR43™ 104 1E,2L SCS 1067YHR™ 106 1E SCS 1086YHR™ 108 1L SCS 1077YHQ™ 108 1L~ SC 10AGT96™ 109 1L
BRAND / HYBRID RM TABLE SPECIALTY 24A104 94 2E 26A236 96 2E 28A325 98 2E 29A263 99 1E,2E 32A323 102 1E,2L 34G234 104 1E,2L 35A655 105 1E,2LSTEYER 8602 3000GT 86 3E 8602 86 6E~ 9203 VT2PRORIBC 92 2E,3E 9204 VT2PRORIBC 92 2E,3E 9302 93 6E 9401 GENSSRIBC 94 2E,3E 9503 95 6E 9801 98 6E 9802 98 6E 10102 101 6E 10102 VT2PRORIBC 101 1E,2E,3L 10304 DGVT2PRORIBC 103 1E,2L 10303 103 6L 10503 VT2PRORIBC 105 1E,2L~ 10805 VT2PRORIBC 108 1LVIKING O.84-95UP 95 6E O.24-95P 95 6E O.71-97P 97 6E O.58-98GS 98 6E O.69-99P 99 6E O.35-99P 99 6E 60-01 101 6E O.63-05P 105 6LWELLMAN W2401DP 101 1E W2603DP 103 1E W2705DP 105 1E W2307DP 107 1E W2408 108 6L W2708 108 6L W2609DP 109 1L W2310 109 6L W2610DP 110 1LWYCKOFF 2211 GENSS 100 1E 2323 GENSS 103 1E 2360 GENSS 104 1E 2390 VT2P 105 1E 2405 GENSS 106 1E 2400 GENSS 106 1E 2540 VT2P 108 1L
~ Denotes hybrids that were entered into the Grain and Silage Trials.
- 28 -
2016SILAGE PERFORMANCE TRIALS
IntroductionThe silage index (pg. 31) contains a list of all hybrids planted
in the 2016 silage trials.
County results are reported in the following tables:Tables 7E/7L Zone 1 - Branch, Lenawee, and Wood County, OH
Tables 8E/8L Zone 2/3 – Ottawa, Huron (Zone 3) and Ingham
Table 9 Zone 4 – Iosco, Menominee, and OsceolaTable 10 Zone 5 – Alger, Delta and Menominee (Early)
The map of Michigan (pg. 29) shows each zone and the locations where the trials were located.
MethodsTesting procedures (randomization, replication, planting
rates, etc.) for silage evaluation are the same as those utilized for the grain trials. For silage Agronomic information refer to Table C (pg. 30)
Zones 1 and zone 2/3 were divided into two maturity groups designated early and late on the basis of the relative maturity (RM) submitted by the companies with results listed in separate tables. In cooperation with The Ohio State University, the Wood County, OH location is planted and managed by OSU while MSU handles harvest, quality and data analysis.
A New Holland T6.175 tractor powered a two-row Champion C1200 Kemper forage harvester and a rear mounted Haldrup M-63 Weigh system to harvest the two center rows. Electronic scales mounted on the Haldrup M-63 weigh system measured plot and subsample weights. All fi eld data was recorded on a Panasonic FZ-G1 Toughpad using Harvest MasterTM software. Total plot weight was used to calculate green tons per acre (GT/A). Sub samples of fodder including grain were collected, weighed, oven dried in a WRH586-500 Greives forced air dryer until weight loss was zero, then re-weighed to determine the percent dry matter (%DM). Dry tons per acre (DT/A) is calculated mathematically by multiplying GT/A by %DM. The samples were ground using a Cristy mill fi tted with a 1mm screen before conducting quality analysis using Near-infrared spectroscopy (NIRS) to predict quality components.
Silage Analysis Tables 7E, 7L, 8E, 8L, 9 and 10 provide silage quality data
as determined by Near-infrared Spectroscopy (NIRS) analysis on freshly dried & ground samples. Data is provided for individual locations and also averaged over multiple locations. Near-infrared spectral analysis involves irradiating the sample with light in the near infrared spectrum (1,100 to 2,500 nm). The illuminated sample absorbs light proportional to specifi c chemical and physical properties. The refl ected energy is measured and correlated statistically with the NIRS Consortiums calibration equation established for silage quality levels. Results of the six quality traits analyzed are presented in the quality tables. The six quality traits are:
1. IVD= (in vitro) digestible dry matter-48hr. IVD is a measure of forage digestibility. Higher IVD is desirable.
2. ADF=acid detergent fi ber. ADF represents the less digestible portion of the corn forage, containing cellulose, lignin, and heat damaged protein. ADF is closely related to the digestibility of forages. Lower ADF implies the forage is more digestible. More mature plant material will contain higher ADF concentrations. A low concentration of ADF is desirable.
3. NDF=neutral detergent fi ber. NDF is a measure of the
fi ber content of the corn forage. It is less digestible than non-fi ber constituents of the forage. Forages with high NDF levels have lower energy. NDF is also a measure of potential forage intake. High NDF levels decrease the potential forage intake. Low NDF content is desirable.
4. NDFD=neutral detergent fi ber digestibility-48hr. NDFD is the portion of neutral detergent fi ber digested by animals at a specifi ed level of feed intake. High NDFD is desirable.
5. CP=crude protein. Forages are generally supplemented with high protein concentrates such as soybean meal to increase the protein content of ruminant diets. Corn hybrids with high protein levels require less supplementation and therefore result in lower feed costs. High protein content is desirable.
6. STRCH=starch. Starch from the grain, along with the digestible component of the fi ber, accounts for the majority of the energy in corn silage. High Starch content is desirable.
- 29 -
2016 Silage Trial LocationsSilage quality traits are reported on a dry matter basis (100 percent DM). Quality traits in these tables are intended for use in hybrid selection only. Analysis for the balancing of feed rations should be analyzed from hybrids grown on each individual farm.
MILK2006The MILK2006 equation (UW-Madison Dairy Science
Department) was used to estimate MK/T (milk per ton) and MK/A (milk per acre). MILK2006 estimates the dry matter intake using the NDF and CWD (cell wall digestibility) parameters of the sample. The updated equation utilizes CP, fat, and sugar as well as the organic acid fractions along with their total-tract digestibility coeffi cients to estimate energy. Whole plant dry matter was calculated to 34% for all hybrids and digestibility coeffi cients used for the fat and sugars as well as the organic acid fractions were held constant. MILK2006 also assumes the weight of the cow is 1,350 lbs. and that it consumes a 30 percent NDF diet. Using National Research Council (NRC, 2001) energy requirements, the estimated intake of energy from corn silage is converted to milk per ton. Milk per acre is then calculated using the estimated values for milk per ton and dry matter yield per acre. For more information on the utility of MILK2006 please see:
www.uwex.edu/ces/crops/uwforage/Milk2006silage.html
Wood Co. OH
Notes
- 30 -
TABLE C. AGRONOMIC TABLE FOR SILAGE TRIAL LOCATIONS
COUNTY PLANTING DATES
HARVEST DATES
PREVIOUSCROP
100 % STAND
AVERAGE STAND
FERTILIZER N - P - K
Zone
1
BRANCH May 18 Oct 4 Corn 35,244 34,292 201-9-3
LENAWEE May 22 Sept 20 Soybeans 35,244 34,574 160-9-3 +manure
WOOD(OHIO) May 23 Sept 9 Soybeans 34,452 32,694 206-26-0
Zone
2
OTTAWA May 19 Sept 22 Corn 35,244 34,644 170-9-3 + manure
INGHAM May 20 Sept 15 Soybeans 35,244 33,763 154-9-3
HURON May 5 Sept 13 Corn 35,244 34,045 124-9-3 +manure
Zone
4
IOSCO May 8 Sept 14 Corn 35,244 34,574 170-9-3 + manure
OSCEOLA May 24 Sept 29 Corn 35,244 31,138 170-9-3 + manure
MENOMINEE May 26 Oct 6 Alfalfa 35,244 34,398 140-9-3 +manure
Z5ALGER May 31 Oct 7 Alfalfa 35,244 25,468 139-9-3
DELTA May 26 Oct 5 Sod 35,244 34,821 109-9-3 +manure
COUNTY SOIL TYPE SOIL TEST FARM COOPERATOR LOCATION
Zone
1
BRANCHSpinks-Oshtemo-Houghton- Fox-Boyer
pH 6.4, P 38.5 K 143
Huff farms Kyle Huff
Coldwater
LENAWEE Blount loam pH 7.2, P 63K 122.5
Baker-Ladd Farms Blaine Baker Clayton
WOOD(OHIO) Hoytville clay loam pH 5.8 , P 114
K 435
OARDC Matt Davis & Richard Minyo
Hoytville, Ohio
Zone
2
OTTAWA Perrinton-Ithica-Coloma pH 6.8, P 64.5 K 152
Eadie Farms Arden Eadie
Conklin
INGHAM Capac loam pH 6.55, P 66.5 K 212.5
Crop & Soil Sciences Research Facility, MSU East Lansing
HURON Kilmanagh loam pH 7, P 76 K 146.5
Wil-Le Farms Ron & Ed McCrea
Bad Axe
Zone
4
IOSCO Nester-Kawkawlin pH 6.55, P 46 K 173
Double B Dairy Jeremy & Tim Beebe
Hale
OSCEOLA Nester pH 6.9, P 87K 174.5 Robert Lee Marion
MENOMINEE Onaway-Emmet-Cathro pH 7.45, P 42.5 K 148.5
Johnson Dairy Farm Dave Johnson
Daggett
Zone
5 ALGER Shoepac-Trenary silt loams pH 6.1, P 197.5 K 103
Bahrman Potato FarmDaniel & Dave Bahrman Skandia
DELTA Trenary fine sandy loam pH 6.15, P 39.5 K 89 VanDrese Farms Cornell
- 31 -
SILAGE HYBRID INDEXZONE 1 - Tables 7E/7L
BranchLenawee
Wood (Ohio)Trial Average
ZONE 2 - Tables 8E/8LHuron - Zone 3
InghamOttawa
Trial Average
ZONE 4 - Table 9Iosco
Menominee - LateOsceola
Trial Average
ZONE 5 - Table 10AlgerDelta
Menominee - EarlyTrial Average
BRAND / HYBRID RM TABLE AGRIGOLD ~ A6267STXRIB 102 8E~ A6355STXRIB 103 8E~ A6424GT3VIP 108 7E,8L A6559STXRIB 113 7L A6517VT3PRIB 113 7LBECK ~ 5234AMX™* 102 8E~ 5460AM™* 104 8E~ 5140HR™* 105 7E,8L~ 5665AMX™* 106 7E,8L~ 5840AM™* 108 7E,8L 6158AM™* 111 7L 6365AM™* 113 7LCROPLAN 4099SS/RIB 99 8E S4100VT3P/RIB 100 8E 4819 3000/GT 101 8E 5415SS/RIB 104 8EDAIRYLAND SEED HiDF-3188RA 88 9 Hi DF-3290-9 90 9 HiDF-3197RA 97 8E,9 Hi DF-3099-9 99 8E,9 HiDF-3700RA 100 8E,9 Hi DF-3702-9 102 8E,9~ DS-9403 103 8E,9 HiDF-3103-9 103 8E,9 HiDF-3605RA 105 7E,8L EXP-10707 107 7E,8L HiDF-3808RA 108 7E,8L Hi DF-3510SSX 110 7E,8L DS-9513 113 7L EXP-11213 113 7LDYNAGRO ~ D35SS58 95 9 ~ D37SS60 97 9~ D41SS71 101 8E D47SS23 107 8L D49VC39 109 7E,8L D50SS43 110 7E,8L
BRAND / HYBRID RM TABLE GOLDEN HARVEST ~ G90Y04-3110A 92 9~ G95D32-3110 95 9~ G01P52-3122A 101 9~ G03C84-3010 103 8E G05T82-3122 105 8L G07V88-3000GT 107 8L~ G07B39-3122A 109 8L~ G09E98-3122 109 7E G10T63-3000GT 110 7E G12W66-3122 112 7LGREAT LAKES ~ 4250STXRIB 92 10~ 4548STXRIB 95 9,10~ 4879STXRIB 98 9,10~ 5283STXRIB 102 8E,9~ 5824STXRIB 108 7E,8L~ 5944STXRIB 109 7E,8L 6185STXRIB 111 7LINTEGRA 4759R 97 9,10 5209GSS 102 9,10 6011GSS 110 7E,8L 6589VT2P 115 7LLEGACY SEEDS L-4424 GENSS 101 8E L-5350 3122 104 8E L-6334 3000GT 107 8LM&W SEEDS ~ 47J66 94 8E 46K79 98 8E~ 45A36 101 7E,8E~ 44D81 108 7E,8LMASTERS CHOICE MCT-3891 89 9 MCT-4572 95 8E MCT-4632 96 8E,9 MCT-5371 103 7E,8E,9 MCT-5663 106 7E MCT-6153 111 7L MCT-6363 113 7LNK Brand ~ N27P-3110A 92 9~ N35T-3110 95 9~ N45P-3122A 101 9 N53W-3122 105 8L N61P-3000GT Brand 105 8L~ N63R-3122 109 7E~ N59B-3122A 109 7E
BRAND / HYBRID RM TABLE NuTech/G2 GENETICS ~ 5F-196™ 96 10~ 5F-701™ 101 9,10 5H-502™ 102 9~ 5F-504™ 104 9~ 5H-806™ 106 8L~ 5F-906™ 106 8L,9~ 5F-308™ 108 8L 5F-709™ 109 8L 5F-510™ 110 7E,8L 5F-811™ 111 7L 5F-713™ 113 7LRENK ~ RK595SSTX 99 8E RK629VT3P 101 8E~ RK717SSTX 105 8L~ RK776SSTX 107 8L 6-798VT2P 109 8L~ RK810SSTX 110 8LSEED CONSULTANTS ~ SC 10AGT96™ 109 7E SCS 1125YHR™ 113 7L SC 11AQ15™ 114 7LSTEYER ~ 9203 VT2PRORIBC 92 8E 9801 GT 98 8E 10303 GENSSRIBC 103 7E,8E 10404 VIP3122 104 7E,8E~ 10805 VT2PRORIBC 108 7ET. A. SEEDS TA736-22DPRIB 113 7L TA780-13VPRIB 116 7LVIKING 42-92 92 7E,8E O.58-98GS 98 8E O.51-04GS 104 8E 42-08 107 7E,8L 53-10GS 110 7L,8LWELLMAN W2615DP 113 7L
~ Denotes hybrids that were entered into the Grain and Silage Trials.
- 32 -
TABL
E 7E
.BR
ANCH
, LEN
AWEE
& W
OOD
(OHI
O) C
OUNT
Y SI
LAGE
TRI
ALS
- EAR
LY (1
10 D
ay an
d Ea
rlier
)ZO
NE 1
2016
BRAN
D / HY
BRID
RMTR
TTR
AIT%D
MGT
/A%S
TDIVD
ADF
NDF
NDFD
CPST
RMK
/TMK
/A%D
MGT
/A%S
TDIVD
ADF
NDF
NDFD
CPST
RMK
/TMK
/AAG
RIGO
LD A6
424G
T3VIP
108
P500
1,2,3,
642
.121
.89.2
9983
.717
.234
.753
.07.0
43.1
3417
3128
345
.121
.79.8
100
83.2
17.8
35.4
52.5
6.642
.833
6832
901
BECK
5140
HR™
*10
5ES
C1,2
,4,6
43.8
20.4
8.998
84.1
15.7
32.0
50.2
7.745
.134
6430
925
53.7
19.7
10.7
*10
084
.115
.030
.948
.47.3
47.5
3466
3698
6BE
CK 56
65AM
X™*
106
ESC
1,2,3,
4,642
.721
.59.2
9784
.116
.132
.150
.38.2
45.0
3461
3192
050
.119
.710
.2*
9783
.816
.231
.448
.38.0
46.9
3441
3494
2BE
CK 58
40AM
™*
108
ESC
1,2,4,
642
.221
.69.1
9982
.518
.134
.549
.47.4
43.2
3348
3009
146
.720
.59.6
100
81.1
19.8
35.9
47.4
7.243
.032
3932
544
DAIR
YLAN
D SE
ED H
iDF-36
05RA
105
C500
1,2,3,
4,641
.120
.88.5
9980
.919
.037
.148
.37.8
39.9
3228
2829
045
.320
.09.0
9879
.919
.436
.244
.37.6
41.5
3162
2855
8DA
IRYL
AND
SEED
EXP-
1070
710
7C5
001,2
,3,4,6
39.7
21.6
8.797
80.7
21.0
39.3
50.6
7.137
.131
9528
506
42.6
22.2
9.498
81.1
18.9
36.0
47.3
7.041
.832
3632
312
DAIR
YLAN
D SE
ED H
iDF-38
08RA
108
C500
1,2,3,
4,639
.324
.29.6
*99
82.4
19.7
37.0
52.2
7.439
.333
0632
274
44.1
23.7
10.5
*10
082
.618
.735
.250
.67.2
42.1
3332
3481
7DA
IRYL
AND
SEED
Hi D
F-351
0SS X
110
C500
1,2,3,
4,638
.824
.09.3
9782
.219
.036
.250
.87.5
40.6
3315
3072
741
.423
.89.8
100
80.9
20.3
37.1
48.5
7.541
.032
1531
642
DYNA
GRO
D49V
C39
109
P500
1,241
.521
.78.9
9781
.918
.335
.749
.17.4
42.8
3300
2981
146
.720
.89.7
9980
.418
.034
.543
.37.2
43.7
3212
3117
4DY
NAGR
O D5
0SS4
311
0P5
001,2
,3,4,6
42.1
21.5
9.099
81.6
17.3
35.6
48.1
8.043
.132
8330
596
49.1
19.5
9.610
081
.616
.732
.042
.38.1
45.5
3298
3152
6GO
LDEN
HAR
VEST
G09
E98-3
122
109
C500
1,2,3,
4,640
.722
.79.2
9882
.018
.534
.748
.17.6
39.3
3247
3011
148
.422
.410
.9*
9782
.216
.633
.246
.37.3
43.4
3327
3815
6GO
LDEN
HAR
VEST
G10
T63-3
000G
T11
0C2
501,2
,3,4
41.2
24.2
10.0
**95
82.0
17.2
33.7
46.4
7.643
.333
2532
500
45.4
24.0
10.9
*96
82.2
15.9
31.0
42.7
7.347
.533
5136
377
GREA
T LAK
ES 58
24ST
XRIB
108
P500
1,2,3,
639
.721
.78.7
9883
.317
.435
.052
.17.1
41.0
3388
2951
442
.721
.09.3
9883
.019
.037
.154
.06.7
38.6
3334
3107
8GR
EAT L
AKES
5944
STXR
IB10
9P5
001,2
,3,6
42.2
20.0
8.593
84.0
16.3
32.5
50.8
7.645
.634
5730
005
45.8
19.2
9.196
84.4
16.5
31.2
50.2
7.347
.034
8429
908
INTE
GRA 6
011G
SS11
0PV
500
1,2,3,
4,641
.621
.89.1
9681
.717
.634
.146
.37.7
41.3
3265
3109
249
.022
.311
.1**
9783
.714
.930
.446
.47.8
48.4
3446
3835
7M&
W SE
EDS 4
5A36
101
P250
1,247
.016
.87.7
9782
.917
.534
.750
.87.8
43.9
3372
2654
956
.414
.78.3
9683
.218
.432
.949
.17.9
45.7
3391
2964
8M&
W SE
EDS 4
4D81
108
P250
1,244
.220
.28.7
9882
.217
.935
.049
.17.5
42.2
3326
2912
450
.518
.08.7
9882
.119
.236
.250
.47.3
42.5
3289
2873
8MA
STER
S CHO
ICE M
CT-53
7110
3C2
501
43.3
18.8
8.298
82.7
17.9
33.9
48.8
7.242
.933
6528
118
43.3
19.7
8.410
082
.417
.233
.146
.87.0
43.9
3347
2825
4MA
STER
S CHO
ICE M
CT-56
6310
6C2
501,2
,441
.020
.78.5
9583
.018
.033
.248
.67.3
44.4
3389
2993
041
.520
.88.7
9281
.916
.932
.544
.56.8
45.6
3322
3079
5NK
Bran
d N63
R-31
2210
9C2
501,2
,3,4,6
39.1
22.0
8.698
82.2
17.7
35.6
49.8
7.640
.633
1729
300
45.9
22.1
10.2
*98
83.6
16.8
33.2
50.5
7.445
.034
1334
659
NK Br
and N
59B-
3122
A10
9C2
501,2
,3,4,5
,641
.920
.58.5
9882
.717
.034
.249
.27.9
42.4
3359
2779
548
.419
.59.4
9883
.017
.233
.849
.47.7
44.3
3367
2962
2Nu
Tech
/G2 G
ENET
ICS 5
F-510
™11
0P5
001,2
,439
.422
.18.7
9883
.417
.934
.952
.48.2
42.0
3395
3062
943
.920
.69.0
9984
.016
.932
.851
.28.0
44.4
3441
3243
0SE
ED C
ONSU
LTAN
TS SC
10AG
T96™
109
P500
1,2,4
43.2
21.9
9.5*
9883
.417
.533
.750
.77.5
43.3
3408
3257
646
.921
.410
.098
82.5
17.2
33.0
47.1
7.244
.633
4835
638
STEY
ER 10
404 V
IP312
210
4C2
501,2
,441
.518
.77.8
9482
.117
.033
.446
.37.5
43.3
3333
2625
242
.119
.48.2
9681
.517
.533
.344
.47.1
43.7
3287
2698
6ST
EYER
1030
3 GEN
SSRI
BC10
3C2
501,2
,3,4
44.8
18.1
8.194
82.9
16.6
32.8
47.6
7.744
.333
8727
332
52.8
16.2
8.799
83.5
14.6
28.7
42.5
7.650
.334
4730
021
STEY
ER 10
805 V
T2PR
ORIBC
108
C250
1,242
.620
.68.7
9781
.217
.834
.345
.07.5
42.0
3253
2942
945
.619
.99.1
9878
.718
.935
.339
.57.4
41.8
3097
2963
3VIK
ING
42-92
92C2
50Co
nv.
55.6
14.3
7.796
83.2
17.7
34.1
50.5
7.743
.333
5626
226
65.5
12.0
7.896
82.8
16.9
31.5
45.3
7.547
.633
8027
490
VIKIN
G 73
-0810
7C2
50Co
nv.
45.5
18.4
8.391
82.2
16.7
33.4
46.7
7.544
.833
4128
198
52.8
18.2
9.697
84.2
15.6
30.6
48.5
7.549
.334
7633
354
AVER
AGE
42.4
20.8
8.797
.082
.517
.734
.549
.37.6
42.5
3343
2961
147
.620
.19.5
98.0
82.4
17.4
33.4
47.2
7.444
.633
4032
091
HIGH
EST
55.6
24.2
10.0
99.2
84.1
21.0
39.3
53.0
8.245
.634
6432
576
65.5
24.0
11.1
100.0
84.4
20.3
37.1
54.0
8.150
.334
8438
357
LOWE
ST38
.814
.37.7
91.1
80.7
15.7
32.0
45.0
7.037
.131
9526
226
41.4
12.0
7.892
.178
.714
.628
.739
.56.6
38.6
3097
2698
6CV
(%)
7.05.4
8.93.6
2.59.1
7.79.8
4.67.4
47
7.26.0
9.23.5
2.68.9
6.311
.74.7
6.94
8LS
D (5%
)2.0
0.80.5
2.41.4
1.11.8
3.30.2
2.194
1495
4.01.4
1.04.0
2.61.8
2.56.5
0.43.6
167
2915
2 Yea
r Ave
rages
2016
- 201
5BR
AND /
HYBR
IDRM
TRT
TRAIT
%DM
GT/A
%STD
IVDAD
FND
FND
FDCP
STR
MK/T
MK/A
%DM
GT/A
%STD
IVDAD
FND
FND
FDCP
STR
MK/T
MK/A
DAIR
YLAN
D SE
ED H
i DF-3
510S
SX11
0C5
001,2
,3,4,6
36.2
24.3
8.8*
9781
.221
.239
.752
.56.4
37.6
3233
2841
437
.524
.09.0
100
80.2
22.3
40.8
51.3
6.436
.631
5628
430
DYNA
GRO
D50S
S43
110
P500
1,2,3,
4,642
.120
.88.7
9781
.619
.136
.749
.56.8
41.4
3288
2823
445
.221
.49.6
*10
082
.017
.734
.447
.47.0
43.8
3320
3183
1GO
LDEN
HAR
VEST
G10
T63-3
000G
T11
0C2
501,2
,3,4
42.2
22.0
9.2**
9482
.018
.135
.248
.56.5
43.2
3324
3058
343
.222
.89.9
**95
81.4
18.3
35.3
47.0
6.343
.332
8232
414
NuTe
ch/G
2 GEN
ETIC
S 5F-5
10™
110
P500
1,2,4
40.3
20.5
8.397
83.7
17.3
34.8
53.2
6.942
.034
2829
099
42.7
20.8
9.099
83.4
17.2
34.1
51.3
7.043
.534
0630
822
AVER
AGE
40.2
21.9
8.796
.482
.118
.936
.650
.96.6
41.0
3318
2908
342
.122
.39.4
98.6
81.8
18.9
36.2
49.2
6.741
.832
9130
874
HIGH
EST
42.2
24.3
9.297
.383
.721
.239
.753
.26.9
43.2
3428
3058
345
.224
.09.9
100.0
83.4
22.3
40.8
51.3
7.043
.834
0632
414
LOWE
ST36
.220
.58.3
94.5
81.2
17.3
34.8
48.5
6.437
.632
3328
234
37.5
20.8
9.095
.280
.217
.234
.147
.06.3
36.6
3156
2843
0CV
(%)
6.85.8
9.04.0
2.49.5
7.98.8
5.07.4
47
7.16.6
9.24.1
2.710
.27.5
10.5
5.37.0
47
LSD
(5%)
1.50.6
0.42.1
1.10.9
1.52.3
0.21.7
7311
332.7
1.10.7
3.31.8
1.52.1
4.20.3
2.612
119
66
MILK
2006
YIELD
YIELD
% QU
ALITY
DT/A
DT/A
YIELD
% QU
ALITY
MILK
2006
DT/A
Early
- TRIA
L AVE
RAGE
Early
- TRIA
L AVE
RAGE
Bran
ch - E
arly
% QU
ALITY
MILK
2006
DT/A
YIELD
% QU
ALITY
MILK
2006
Bran
ch - E
arly
- 33 -
2016
BRAN
D / H
YBRI
DRM
TRT
TRAI
T%D
MGT
/A%S
TDIVD
ADF
NDF
NDFD
CPST
RMK
/TMK
/A%D
MGT
/A%S
TDIVD
ADF
NDF
NDFD
CPST
RMK
/TMK
/AAG
RIGO
LD A6
424G
T3VIP
108
P500
1,2,3,
641
.720
.98.7
100
84.4
16.1
33.5
53.6
7.344
.234
7430
200
39.5
22.8
9.0**
9883
.417
.835
.252
.87.1
42.3
3408
3074
9BE
CK 51
40HR
™*
105
ESC
1,2,4,
639
.819
.77.8
9982
.916
.633
.749
.47.9
42.6
3379
2637
837
.822
.08.3
*96
85.2
15.6
31.4
52.8
7.945
.335
4729
411
BECK
5665
AMX™
*10
6ES
C1,2
,3,4,6
41.9
22.4
9.4*
9884
.615
.331
.751
.48.7
44.8
3497
3282
736
.222
.48.1
9683
.816
.733
.351
.28.1
43.5
3445
2799
0BE
CK 58
40AM
™*
108
ESC
1,2,4,
645
.120
.79.4
*10
083
.717
.133
.751
.57.7
43.8
3427
2996
734
.823
.68.2
9882
.717
.534
.149
.37.5
42.7
3378
2776
1DA
IRYL
AND
SEED
HiDF
-3605
RA10
5C5
001,2
,3,4,6
41.8
20.6
8.610
081
.517
.236
.048
.47.9
40.8
3271
2934
436
.321
.87.9
9881
.420
.339
.052
.27.9
37.5
3250
2696
9DA
IRYL
AND
SEED
EXP-
1070
710
7C5
001,2
,3,4,6
42.0
21.1
9.4*
9981
.021
.340
.452
.97.3
35.1
3201
2999
234
.421
.47.4
9379
.922
.841
.551
.77.0
34.4
3147
2321
5DA
IRYL
AND
SEED
HiDF
-3808
RA10
8C5
001,2
,3,4,6
39.8
24.9
10.1
*10
082
.520
.037
.152
.67.6
36.3
3289
3333
534
.124
.28.2
9682
.120
.538
.553
.47.5
39.7
3298
2866
9DA
IRYL
AND
SEED
Hi D
F-351
0SS X
110
C500
1,2,3,
4,640
.622
.89.3
*98
81.9
18.5
36.2
50.0
7.539
.832
9830
581
34.4
25.4
8.7*
9483
.818
.135
.354
.07.5
41.0
3430
2995
9DY
NAGR
O D4
9VC3
910
9P5
001,2
39.9
22.5
8.910
082
.917
.935
.751
.97.5
40.8
3358
2981
938
.121
.78.3
*93
82.3
19.1
36.9
52.1
7.444
.033
2928
442
DYNA
GRO
D50S
S43
110
P500
1,2,3,
4,639
.622
.69.0
100
81.9
16.1
38.3
52.6
8.244
.032
6932
605
37.5
22.5
8.4*
9681
.518
.936
.649
.57.7
39.7
3283
2765
8GO
LDEN
HAR
VEST
G09
E98-3
122
109
C500
1,2,3,
4,637
.223
.28.6
9981
.120
.836
.247
.67.5
33.7
3039
2615
636
.522
.48.2
9882
.818
.134
.750
.37.9
40.7
3375
2602
2GO
LDEN
HAR
VEST
G10
T63-3
000G
T11
0C2
501,2
,3,4
41.4
24.6
10.2
**95
81.3
17.7
34.9
46.5
7.641
.532
7631
372
36.9
24.1
8.9*
9682
.418
.035
.250
.07.8
41.0
3349
2975
1GR
EAT L
AKES
5824
STXR
IB10
8P5
001,2
,3,6
40.2
22.5
9.010
083
.415
.933
.850
.77.1
42.8
3408
3077
936
.221
.67.8
9683
.517
.234
.251
.67.5
41.6
3422
2668
4GR
EAT L
AKES
5944
STXR
I B10
9P5
001,2
,3,6
44.2
19.3
8.595
84.4
15.3
31.6
50.5
7.748
.334
8631
290
36.5
21.5
7.889
83.3
17.1
34.7
51.8
7.941
.534
0228
816
INTE
GRA 6
011G
SS11
0PV
500
1,2,3,
4,639
.622
.18.7
9881
.116
.634
.344
.77.8
41.4
3264
3019
836
.120
.97.5
9480
.421
.437
.647
.77.5
34.1
3085
2472
1M&
W SE
EDS 4
5A36
101
P250
1,248
.816
.48.0
100
83.5
16.6
34.2
51.7
7.444
.334
1127
212
35.9
19.3
6.995
82.1
17.6
36.9
51.6
8.041
.833
1422
788
M&W
SEED
S 44D
8110
8P2
501,2
42.9
21.4
9.198
82.7
16.7
33.2
47.7
7.544
.133
7030
835
39.3
21.3
8.4*
9782
.017
.935
.749
.37.8
40.0
3317
2779
9MA
STER
S CHO
ICE M
CT-53
7110
3C2
501
45.5
18.4
8.710
082
.618
.234
.349
.17.3
42.4
3357
2903
341
.118
.47.6
9383
.018
.234
.350
.47.4
42.4
3392
2706
5MA
STER
S CHO
ICE M
CT-56
6310
6C2
501,2
,443
.719
.88.7
9882
.919
.333
.348
.67.3
44.2
3386
3107
837
.721
.48.1
9684
.117
.833
.752
.77.8
43.4
3459
2791
8NK
Bran
d N63
R-31
2210
9C2
501,2
,3,4,6
36.5
21.6
7.910
081
.418
.137
.750
.47.6
38.5
3250
2736
835
.022
.57.9
9681
.518
.335
.948
.57.8
38.4
3290
2587
2NK
Bran
d N59
B-31
22A
109
C250
1,2,3,
4,5,6
43.1
19.0
8.210
082
.817
.034
.249
.67.9
41.9
3369
2749
834
.323
.17.9
9782
.216
.834
.648
.68.1
41.1
3340
2626
6Nu
Tech
/G2 G
ENET
ICS 5
F-510
™11
0P5
001,2
,439
.323
.49.2
*10
083
.018
.235
.552
.18.4
43.3
3364
3309
234
.922
.47.8
9683
.218
.836
.453
.88.3
38.2
3381
2636
6SE
ED C
ONSU
LTAN
TS SC
10AG
T96™
109
P500
1,2,4
44.2
21.4
9.8*
100
83.3
15.8
32.0
47.6
8.044
.834
1133
465
38.6
22.8
8.8*
9684
.619
.436
.257
.37.5
40.3
3465
2862
6ST
EYER
1040
4 VIP3
122
104
C250
1,2,4
43.7
17.5
7.696
82.3
15.7
32.2
45.0
7.745
.533
5826
710
38.6
19.4
7.590
82.4
17.7
34.8
49.6
7.740
.733
5425
058
STEY
ER 10
303 G
ENSS
RIBC
103
C250
1,2,3,
444
.318
.08.0
9682
.716
.833
.748
.57.4
43.0
3366
2678
637
.420
.17.5
8982
.618
.336
.151
.88.0
39.7
3348
2518
9ST
EYER
1080
5 VT2
PROR
IB C10
8C2
501,2
45.0
20.3
9.110
082
.414
.931
.643
.97.5
45.9
3364
3203
837
.321
.68.1
9482
.519
.536
.151
.57.7
38.4
3299
2661
5VIK
ING
42-92
92C2
50Co
nv.
57.6
13.4
7.798
81.3
20.9
39.3
52.2
7.839
.132
2723
558
43.9
17.5
7.692
85.5
15.4
31.6
54.0
7.843
.434
6127
632
VIKIN
G 73
-0810
7C2
50Co
nv.
42.4
17.7
7.381
81.0
17.0
34.3
44.4
7.643
.332
5923
640
41.2
19.3
7.995
81.4
17.5
35.3
47.3
7.541
.832
8727
601
AVER
AGE
42.6
20.6
8.798
.182
.517
.434
.749
.57.7
42.1
3337
2954
137
.221
.78.0
94.9
82.7
18.3
35.6
51.3
7.740
.633
5227
200
HIGH
EST
57.6
24.9
10.2
100.0
84.6
21.3
40.4
53.6
8.748
.334
9733
465
43.9
25.4
9.098
.185
.522
.841
.557
.38.3
45.3
3547
3074
9LO
WEST
36.5
13.4
7.380
.781
.014
.931
.643
.97.1
33.7
3039
2355
834
.117
.56.9
89.1
79.9
15.4
31.4
47.3
7.034
.130
8522
788
CV (%
)6.9
6.59.8
4.42.5
10.3
8.710
.24.9
8.54
86.5
3.27.0
2.92.2
8.17.3
7.44.3
7.04
7LS
D (5%
)3.5
1.61.0
5.02.5
2.13.6
5.90.4
4.217
429
012.9
0.80.7
3.22.1
1.73.0
4.50.4
3.314
822
01
2 Yea
r Ave
rages
2016
- 201
5BR
AND
/ HYB
RID
RMTR
TTR
AIT
%DM
GT/A
%STD
IVDAD
FND
FND
FDCP
STR
MK/T
MK/A
%DM
GT/A
%STD
IVDAD
FND
FND
FDCP
STR
MK/T
MK/A
DAIR
YLAN
D SE
ED H
i DF-3
510S
SX11
0C5
001,2
,3,4,6
34.9
24.6
8.6**
9582
.120
.038
.753
.76.4
38.6
3311
2839
8DY
NAGR
O D5
0SS4
311
0P5
001,2
,3,4,6
39.0
20.2
7.894
81.2
20.4
38.9
51.5
6.638
.932
5524
638
GOLD
EN H
ARVE
ST G
10T6
3-300
0GT
110
C250
1,2,3,
441
.121
.18.5
*94
82.5
17.9
35.0
50.0
6.743
.233
6728
753
NuTe
ch/G
2 GEN
ETIC
S 5F-5
10™
110
P500
1,2,4
37.9
20.2
7.694
84.0
17.5
35.6
55.2
6.840
.634
5027
376
AVER
AGE
38.2
21.5
8.194
.382
.518
.937
.152
.66.6
40.3
3346
2729
1HI
GHES
T41
.124
.68.6
94.8
84.0
20.4
38.9
55.2
6.843
.234
5028
753
LOWE
ST34
.920
.27.6
93.7
81.2
17.5
35.0
50.0
6.438
.632
5524
638
CV (%
)6.1
4.78.2
3.82.1
8.57.7
6.04.7
7.34
7LS
D (5%
)1.9
0.80.5
3.01.4
1.32.3
2.60.3
2.510
015
63
** H
ighes
t Yiel
ding H
ybrid
* N
ot Sig
nifica
ntly D
ifferen
t from
High
est Y
ieldin
g Hyb
rid
DT/A
DT/A
YIELD
% QU
ALITY
% QU
ALITY
MILK
2006
MILK
2006
YIELD
Lena
wee -
Early
Wood
- Earl
y
YIELD
% QU
ALITY
MILK
2006
DT/A
DT/A
YIELD
% QU
ALITY
MILK
2006
Lena
wee -
Early
Wood
- Earl
y
- 34 -
TABL
E 7L
.BR
ANCH
, LEN
AWEE
& W
OOD
(OHI
O) C
OUNT
Y SI
LAGE
TRI
ALS
- LAT
E (11
1 Day
and
Late
r)ZO
NE 1
2016
BRAN
D / HY
BRID
RMTR
TTR
AIT%D
MGT
/A%S
TDIVD
ADF
NDF
NDFD
CPST
RMK
/TMK
/A%D
MGT
/A%S
TDIVD
ADF
NDF
NDFD
CPST
RMK
/TMK
/AAG
RIGOL
D A655
9STX
RIB113
P500
1,2,3,4
38.3
21.6
8.398
80.7
18.8
37.7
48.5
7.639.
0319
2267
1447.
219.
69.3
9882.
617.
835.
450.
77.6
45.4
3342
30933
AGRIG
OLD A
6517V
T3PR
IB113
P500
1,2,3
38.2
22.5
8.596
81.6
20.6
38.6
52.2
7.537.
9325
4274
0043.
721.
89.5
9382.
220.
037.
352.
17.2
40.5
3296
29522
BECK
6158A
M™*
111ES
C1,2
,4,639.
921.
98.7
9982.
118.
435.
649.
77.1
41.6
3317
28906
42.5
20.5
8.6100
80.5
19.8
36.6
46.7
6.940.
9320
9274
40BE
CK 63
65AM™
*113
ESC
1,2,4,6
37.5
23.9
9.097
82.3
18.8
36.5
51.5
8.138.
3331
8298
7343.
922.
910.
2*94
82.7
19.7
37.2
53.4
7.636.
7332
6323
74DA
IRYLA
ND SE
ED DS
-951 3
113C5
001,2
,3,4,6
42.0
23.2
9.8**
9882.
918.
835.
351.
77.5
42.0
3369
34181
48.3
22.7
11.0*
9782.
919.
135.
551.
87.4
42.1
3357
39268
DAIRY
LAND
SEED
EXP-1
1213
113C5
001,2
,3,4,6
35.1
26.4
9.3*
9780.
021.
740.
951.
07.1
34.1
3118
30233
42.2
26.6
11.2*
*99
81.1
19.7
37.0
48.9
7.140.
0324
1363
88GO
LDEN
HARV
EST G
12W66-
3122
112C5
001,2
,3,4,6
39.7
22.3
8.997
82.1
18.1
35.6
49.7
7.341.
2331
7295
4542.
721.
79.4
9581.
917.
833.
746.
46.7
43.6
3323
31284
GREA
T LAK
ES 61
85STX
RI B111
P500
1,2,3,6
39.5
22.2
8.797
83.3
16.6
33.9
50.8
7.044.
0340
8305
2943.
820.
99.2
9683.
018.
035.
451.
76.6
45.4
3365
30801
INTEG
RA 65
89VT2
P115
A250
1,237.
622.
28.4
9779.
920.
438.
447.
67.8
35.7
3102
26390
41.7
20.9
8.999
80.2
18.7
35.5
44.0
7.737.
0308
1285
45MA
STER
S CHO
ICE MC
T-6153
111C2
501,2
,439.
922.
58.8
8981.
919.
736.
249.
77.6
41.9
3296
29244
49.7
21.4
10.6*
9481.
520.
333.
144.
27.5
44.8
3298
34813
MAST
ERS C
HOICE
MCT-6
363113
C250
1,2,4
40.7
23.3
9.4*
9683.
117.
133.
248.
87.4
43.0
3377
31884
45.3
21.7
9.897
83.4
14.9
30.2
44.8
7.345.
2337
1350
62Nu
Tech/
G2 GE
NETIC
S 5F-8
11™111
P500
1,2,4
39.4
23.7
9.4*
9881.
418.
034.
746.
47.4
40.6
3265
30663
45.9
21.8
10.0
9881.
317.
634.
345.
57.1
41.9
3278
32915
NuTe
ch/G2
GENE
TICS 5
F-713™
113P5
001,2
,437.
724.
49.1
9783.
616.
733.
250.
68.0
42.2
3428
31649
43.6
21.8
9.495
83.9
17.5
33.9
52.5
7.441.
9343
4336
57SE
ED CO
NSUL
TANT
S SCS
1125Y
HR™
113P5
001,2
,437.
624.
49.2
9883.
616.
933.
250.
68.0
41.9
3428
31450
40.2
22.8
9.297
82.9
18.0
34.8
50.9
7.740.
5336
6307
73SE
ED CO
NSUL
TANT
S SC 1
1AQ1
5™114
P500
1,2,3,4
38.9
23.3
9.199
82.8
17.2
33.4
48.4
7.542.
8337
9300
7743.
522.
79.9
10082.
017.
133.
045.
37.3
43.0
3327
33067
T. A.
SEED
S TA7
36-22D
PRI B
113C2
501,2
40.6
22.8
9.198
80.6
19.5
37.4
48.0
7.539.
8321
2292
3446.
221.
19.4
10080.
621.
439.
350.
47.3
38.7
3182
29904
T. A.
SEED
S TA7
80-13V
PRI B
116C2
501,2
,335.
924.
58.8
9881.
719.
536.
850.
27.1
39.2
3282
28871
37.4
23.0
8.697
80.3
21.0
38.7
49.0
6.837.
2317
9273
54WE
LLMAN
W261
5DP
113EN
C1,2
42.7
22.6
9.6*
9281.
917.
135.
048.
37.5
42.2
3312
33210
48.5
21.0
10.2*
8783.
516.
333.
150.
27.3
46.0
3419
36331
VIKING
53-10
GS110
C250
Conv.
39.6
21.3
8.495
81.5
18.7
38.6
51.7
7.541.
1324
9282
7045.
422.
110.
095
83.0
15.9
33.2
48.8
7.545.
5338
8349
21AV
ERAG
E39.
023.
19.0
96.6
82.0
18.6
36.0
49.8
7.540.
5329
6299
1244.
321.
99.7
96.6
82.1
18.4
35.1
48.8
7.341.
9330
4323
87HIG
HES T
42.7
26.4
9.899.
083.
621.
740.
952.
28.1
44.0
3428
34181
49.7
26.6
11.2
100.0
83.9
21.4
39.3
53.4
7.746.
0343
4392
68LO
WEST
35.1
21.3
8.389.
479.
916.
633.
246.
47.0
34.1
3102
26390
37.4
19.6
8.687.
480.
214.
930.
244.
06.6
36.7
3081
27354
CV (%
)7.0
4.78.4
4.32.4
9.67.1
8.35.0
7.74
76.3
4.88.4
5.92.4
9.36.6
9.35.3
7.64
7LS
D (5%
)1.8
0.70.5
2.81.3
1.21.7
2.80.3
2.191
1400
3.31.2
1.06.8
2.32.0
2.75.4
0.53.8
169266
1
2 Year
Avera
ges 2
016 - 2
015BR
AND /
HYBR
I DRM
TRT
TRAIT
%DM
GT/A
%STD
IVDAD
FND
FND
FDCP
STR
MK/T
MK/A
%DM
GT/A
%STD
IVDAD
FND
FND
FDCP
STR
MK/T
MK/A
AGRIG
OLD A
6559S
TXRIB
113P5
001,2
,3,440.
720.
38.4
**96
81.4
18.9
37.8
50.7
6.939.
6326
7271
9243.
021.
19.3
*98
81.6
19.2
37.6
51.0
6.741.
8327
8306
00GR
EAT L
AKES
6185S
TXRIB
111P5
001,2
,3,641.
320.
58.4
**95
83.6
16.8
34.3
52.1
6.343.
8343
8299
3242.
120.
88.6
9382.
717.
735.
351.
06.1
43.8
3367
29876
MAST
ERS C
HOICE
MCT-6
15 3111
C250
1,2,4
42.2
20.2
8.4**
9082.
019.
837.
551.
86.8
41.4
3310
28011
46.3
21.2
9.8**
9380.
621.
437.
547.
96.5
41.2
3224
32342
NuTe
ch/G2
GENE
TICS 5
F-713™
113P5
001,2
,439.
121.
68.3
*94
83.4
17.5
35.1
52.6
7.141.
5341
9290
3241.
322.
09.0
9482.
918.
736.
152.
66.6
40.6
3371
32004
AVER
AGE
40.9
20.7
8.493.
982.
618.
236.
251.
86.8
41.6
3358
28542
43.2
21.3
9.294.
482.
019.
236.
650.
66.5
41.9
3310
31205
HIGHE
ST42.
221.
68.4
96.2
83.6
19.8
37.8
52.6
7.143.
8343
8299
3246.
322.
09.8
97.6
82.9
21.4
37.6
52.6
6.743.
8337
1323
42LO
WEST
39.1
20.2
8.390.
581.
416.
834.
350.
76.3
39.6
3267
27192
41.3
20.8
8.692.
880.
617.
735.
347.
96.1
40.6
3224
29876
CV (%
)40.
820.
68.3
93.9
82.6
18.2
36.2
51.8
6.841.
5335
8285
256.6
5.98.8
6.72.4
8.76.3
9.05.4
7.44
7LS
D (5%
)42.
121.
68.4
96.2
83.6
19.7
37.8
52.6
7.143.
5343
8298
642.4
1.10.7
5.31.6
1.41.9
3.70.3
2.6112
1863
Late
- TRIA
L AVE
RAG E
Branc
h - La
te
DT/A
DT/A
YIELD
% QU
ALITY
MILK 2
006YIE
LD%
QUAL
ITYMIL
K 2006
MILK 2
006La
te - T
RIAL A
VERA
GEBra
nch -
Late
YIELD
% QU
ALITY
DT/A
DT/A
MILK 2
006YIE
LD%
QUAL
ITY
- 35 -
2016
BRAN
D / HY
BRID
RMTR
TTR
AIT%D
MGT
/A%S
TDIVD
ADF
NDF
NDFD
CPST
RMK
/TMK
/A%D
MGT
/A%S
TDIVD
ADF
NDF
NDFD
CPST
RMK
/TMK
/AAG
RIGOL
D A655
9STX
RIB113
P500
1,2,3,4
34.7
22.3
8.099
81.0
16.5
33.9
44.0
7.443.
2326
4278
8833.
123.
17.6
9678.
522.
143.
750.
87.8
28.5
2971
21322
AGRIG
OLD A
6517V
T3PR
IB113
P500
1,2,3
39.0
22.1
8.699
81.2
21.7
41.1
54.1
7.735.
0320
0281
4431.
923.
67.5
9481.
420.
137.
550.
57.5
38.3
3268
24534
BECK
6158A
M™*
111ES
C1,2
,4,640.
821.
99.2
9982.
217.
434.
748.
77.3
43.2
3331
30551
36.3
23.4
8.4*
9883.
518.
035.
653.
67.2
40.7
3411
28726
BECK
6365A
M™*
113ES
C1,2
,4,635.
424.
78.7
10081.
818.
836.
850.
58.3
39.0
3283
30529
33.2
24.1
8.097
82.5
18.1
35.5
50.6
8.239.
1334
6267
15DA
IRYLA
ND SE
ED DS
-9513
113C5
001,2
,3,4,6
41.9
23.0
9.8*
10083.
918.
334.
152.
77.8
42.8
3435
34666
35.9
24.1
8.6*
9682.
019.
036.
350.
67.4
41.1
3314
28609
DAIRY
LAND
SEED
EXP-1
1213
113C5
001,2
,3,4,6
34.4
27.5
9.498
81.0
19.9
40.3
52.7
7.336.
3320
1322
3328.
625.
17.2
9277.
925.
445.
451.
47.0
25.9
2912
22077
GOLD
EN HA
RVES
T G12W
66-312
2112
C500
1,2,3,4
,638.
922.
08.6
9881.
319.
337.
349.
87.4
38.7
3251
27838
37.7
23.2
8.7*
9883.
117.
136.
052.
87.9
41.2
3377
29513
GREA
T LAK
ES 61
85STX
RIB111
P500
1,2,3,6
37.3
23.5
8.898
83.1
15.3
32.7
48.4
7.144.
8340
4321
4237.
322.
28.3
*97
84.0
16.5
33.6
52.2
7.441.
9345
5286
44INT
EGRA
6589V
T2P
115A2
501,2
36.1
23.8
8.6100
79.2
22.7
40.2
48.1
7.832.
9303
7259
9435.
022.
17.7
9280.
420.
039.
750.
78.0
37.3
3188
24632
MAST
ERS C
HOICE
MCT-6
153111
C250
1,2,4
35.0
23.2
7.889
81.7
20.4
38.9
53.0
7.541.
6325
7263
9734.
922.
88.0
8682.
418.
636.
651.
97.9
39.4
3334
26522
MAST
ERS C
HOICE
MCT-6
363113
C250
1,2,4
39.1
24.8
9.7*
9482.
119.
435.
549.
37.3
41.8
3314
30374
37.6
23.4
8.8*
9583.
916.
933.
952.
47.6
41.9
3446
30216
NuTe
ch/G2
GENE
TICS 5
F-811™
111P5
001,2
,436.
025.
29.3
9981.
117.
635.
346.
57.5
41.0
3260
30146
36.3
24.2
8.9**
9881.
818.
934.
547.
37.7
39.0
3258
28927
NuTe
ch/G2
GENE
TICS 5
F-713™
113P5
001,2
,435.
926.
99.6
10083.
315.
631.
747.
18.2
44.3
3417
32853
33.7
24.6
8.3*
9783.
717.
134.
152.
28.4
40.5
3433
28438
SEED
CONS
ULTA
NTS S
CS 11
25YHR
™113
P500
1,2,4
39.1
26.3
10.3*
10084.
614.
931.
050.
48.0
44.5
3507
36041
33.5
24.1
8.197
83.3
17.8
33.8
50.7
8.340.
8341
1275
37SE
ED CO
NSUL
TANT
S SC 1
1AQ1
5™114
P500
1,2,3,4
37.2
23.9
8.9100
82.1
17.9
34.6
48.2
7.442.
3332
7278
2436.
123.
38.4
*97
84.3
16.7
32.5
51.8
7.943.
0348
4293
40T.
A. SE
EDS T
A736-
22DPR
IB113
C250
VT2P
39.7
24.8
9.8*
9980.
617.
334.
443.
57.2
42.9
3239
31847
35.9
22.4
8.194
80.7
19.9
38.6
50.1
8.038.
0321
4259
51T.
A. SE
EDS T
A780-
13VPR
IB116
C250
VT3P
35.4
25.7
9.1100
81.8
18.7
36.5
50.1
7.139.
6328
8299
0135.
024.
98.7
*98
82.9
18.8
35.2
51.4
7.440.
8337
9293
57WE
LLMAN
W261
5DP
113EN
C1,2
44.2
24.2
10.7*
*99
81.9
16.3
34.8
48.0
7.941.
6330
9353
8335.
522.
58.0
9080.
318.
737.
046.
77.3
39.1
3207
27917
VIKING
53-10
GS110
C250
Conv.
38.7
20.4
7.896
80.8
18.5
42.4
54.7
7.541.
4316
5261
9334.
621.
57.4
9480.
621.
740.
151.
67.5
36.4
3193
23694
AVER
AGE
37.8
24.0
9.198.
281.
818.
236.
149.
57.6
40.9
3289
30365
34.8
23.4
8.195.
082.
019.
036.
851.
07.7
38.6
3295
26983
HIGHE
ST44.
227.
510.
7100
.084.
622.
742.
454.
78.3
44.8
3507
36041
37.7
25.1
8.998.
384.
325.
445.
453.
68.4
43.0
3484
30216
LOWE
ST34.
420.
47.8
88.8
79.2
14.9
31.0
43.5
7.132.
9303
7259
9428.
621.
57.2
85.7
77.9
16.5
32.5
46.7
7.025.
9291
2213
22CV
(%)
8.15.5
9.53.0
2.610.
88.6
9.05.2
8.04
75.8
3.56.9
3.22.2
8.67.2
6.64.7
7.24
8LS
D (5%
)3.6
1.61.0
3.52.5
2.33.7
5.30.5
3.9162
2620
2.41.0
0.73.6
2.22.0
3.14.0
0.43.3
146242
6
2 Year
Avera
ges 20
16 - 20
15BR
AND /
HYBR
IDRM
TRT
TRAIT
%DM
GT/A
%STD
IVDAD
FND
FND
FDCP
STR
MK/T
MK/A
%DM
GT/A
%STD
IVDAD
FND
FND
FDCP
STR
MK/T
MK/A
AGRIG
OLD A
6559S
TXRIB
113P5
001,2
,3,441.
520.
88.7
*100
82.1
16.7
34.5
48.1
7.543.
0334
7299
3237.
719.
17.1
9180.
620.
841.
253.
06.6
34.0
3175
21044
GREA
T LAK
ES 61
85STX
RIB111
P500
1,2,3,6
42.3
21.2
8.8**
9884.
115.
532.
951.
77.0
44.9
3478
32800
39.6
19.5
7.7**
9384.
017.
134.
753.
76.0
42.5
3467
27121
MAST
ERS C
HOICE
MCT-6
153111
C250
1,2,4
41.1
20.3
8.0*
9482.
519.
738.
454.
47.3
41.2
3332
27183
39.2
19.2
7.4*
8482.
718.
436.
752.
96.6
41.8
3374
24507
NuTe
ch/G2
GENE
TICS 5
F-713™
113P5
001,2
,439.
121.
88.3
*98
82.8
17.3
35.5
51.0
7.940.
8337
5279
5337.
021.
17.7
**91
84.6
16.6
33.6
54.2
6.943.
1351
0271
39AV
ERAG
E41.
021.
08.4
97.7
82.9
17.3
35.3
51.3
7.442.
5338
3294
6738.
419.
77.5
89.7
83.0
18.2
36.6
53.5
6.540.
4338
2249
53HIG
HEST
42.3
21.8
8.899.
684.
119.
738.
454.
47.9
44.9
3478
32800
39.6
21.1
7.792.
784.
620.
841.
254.
26.9
43.1
3510
27139
LOWE
ST39.
120.
38.0
94.3
82.1
15.5
32.9
48.1
7.040.
8333
2271
8337.
019.
17.1
83.9
80.6
16.6
33.6
52.9
6.034.
0317
5210
44CV
(%)
7.66.1
10.1
2.62.3
10.0
7.97.4
4.77.5
47
5.94.6
7.44.7
2.08.5
7.15.7
4.87.5
47
LSD (
5%)
2.51.2
0.82.2
1.51.5
2.43.1
0.32.6
100177
71.8
0.90.5
3.71.4
1.32.2
2.50.3
2.597
1600
** Hi
ghest Y
ielding
Hybrid
* No
t Sign
ificant
ly Diffe
rent fr
om Hi
ghest Y
ielding
Hybrid
Lenaw
ee - L
ateWo
od - L
ateYIE
LD% Q
UALIT
YMIL
K 2006
YIELD
% QUA
LITY
MILK 2
006DT
/ADT
/A
Lenaw
ee - L
ateWo
od - L
ateYIE
LD% Q
UALIT
YMIL
K 2006
YIELD
% QUA
LITY
MILK 2
006DT
/ADT
/A
- 36 -
TABL
E 8E
.HU
RON,
INGH
AM &
OTT
AWA
COUN
TY S
ILAG
E TR
IALS
- EA
RLY
(104
Day
and
Earli
er)
ZONE
2 - 3
2016
BRAN
D / HY
BRID
RMTR
TTR
AIT%D
MGT
/A%S
TDIVD
ADF
NDF
NDFD
CPST
RMK
/TMK
/A%D
MGT
/A%S
TDIVD
ADF
NDF
NDFD
CPST
RMK
/TMK
/AAG
RIGOL
D A62
67ST
XRIB
102
P500
1,2,3,
442
.621
.99.3
100
82.7
17.7
34.7
49.9
6.842
.533
7231
428
43.1
20.5
8.8*
9983
.018
.437
.254
.26.4
40.0
3388
2995
6AG
RIGOL
D A63
55ST
XRIB
103
P500
1,2,3,
440
.522
.89.2
9883
.416
.132
.849
.16.6
45.1
3431
3271
136
.920
.87.7
9682
.018
.237
.652
.36.2
39.5
3332
2685
6BE
CK 52
34AM
X™*
102
ESC
1,2,3,
4,643
.622
.29.7
*97
83.9
17.4
34.0
52.5
6.543
.834
5132
688
43.7
20.5
8.9*
9784
.218
.936
.857
.16.1
40.5
3466
2906
6BE
CK 54
60AM
™*10
4ES
C1,2
,4,6
40.1
23.1
9.210
084
.017
.033
.051
.57.1
44.9
3466
3173
540
.120
.38.1
9983
.818
.135
.253
.96.4
42.1
3451
2809
0CR
OPLA
N 409
9SS/R
IB99
A500
1,2,3,
4,644
.122
.29.7
*10
083
.118
.335
.852
.77.0
41.6
3386
3265
847
.020
.39.5
**10
083
.619
.638
.657
.56.8
38.7
3410
3033
9CR
OPLA
N S41
00VT
3P/RI
B10
0A2
501,2
,337
.422
.78.8
9881
.920
.539
.554
.16.6
35.4
3266
2875
936
.520
.77.6
9682
.220
.340
.055
.55.9
34.6
3279
2482
2CR
OPLA
N 481
9 300
0/GT
101
A250
1,2,3,
442
.521
.99.1
9883
.418
.736
.154
.07.1
41.1
3399
3072
739
.521
.48.4
9783
.019
.638
.355
.56.9
38.3
3378
2832
4CR
OPLA
N 541
5SS/R
IB10
4A5
001,2
,3,6
36.3
24.5
9.099
80.2
19.9
38.2
47.9
6.639
.731
9629
443
38.3
21.5
8.299
80.6
22.2
42.0
53.8
6.135
.832
0826
330
DAIRY
LAND
SEED
HiDF
-3197
RA97
C500
1,2,3,
4,643
.718
.28.1
9983
.717
.634
.452
.47.1
43.5
3432
2795
543
.517
.87.6
9983
.918
.036
.055
.36.6
41.8
3454
2628
9DA
IRYLA
ND SE
ED Hi
DF-30
99-9
99C5
001,2
,3,4,6
40.6
23.5
9.5*
9982
.218
.536
.451
.07.1
41.4
3329
3062
443
.220
.99.0
*99
81.5
20.2
39.3
52.8
6.538
.832
8329
671
DAIRY
LAND
SEED
HiDF
-3700
RA10
0C5
001,2
,3,4,6
39.5
22.0
8.699
82.7
18.3
35.8
51.7
6.841
.033
6429
320
42.0
19.0
8.010
083
.716
.934
.953
.26.6
42.1
3451
2753
6DA
IRYLA
ND SE
ED Hi
DF-37
02-9
102
C500
1,2,3,
436
.323
.58.5
9782
.820
.238
.154
.96.9
39.6
3343
2866
136
.621
.77.9
9783
.419
.938
.256
.66.4
38.2
3404
2691
2DA
IRYLA
ND SE
ED DS
-9403
103
C500
1,2,3,
4,644
.620
.39.0
9983
.317
.434
.451
.67.1
44.0
3411
3059
046
.917
.98.4
9884
.317
.333
.953
.96.4
44.6
3497
2933
7DA
IRYLA
ND SE
ED Hi
DF-31
03-9
103
C500
1,2,3,
4,637
.523
.78.9
9881
.518
.335
.748
.17.2
43.2
3290
3082
843
.521
.79.5
**97
82.5
17.4
35.3
50.3
6.942
.733
7431
895
DYNA
GRO
D41S
S71
101
P500
1,2,3,
4,639
.821
.38.7
9782
.619
.537
.753
.57.4
37.9
3327
2942
239
.220
.27.9
9481
.622
.843
.457
.66.9
32.2
3245
2755
8GO
LDEN
HARV
EST G
03C8
4-301
010
3C2
501,2
,447
.020
.19.5
*98
83.6
16.5
33.6
51.0
7.344
.534
3432
519
47.9
17.1
8.299
83.8
17.0
34.8
53.4
6.643
.834
5628
270
GREA
T LAK
ES 52
83ST
XRIB
102
P500
1,2,3,
641
.522
.19.0
9881
.819
.537
.551
.47.0
40.0
3292
2974
239
.719
.37.4
9582
.419
.237
.152
.56.6
42.0
3352
2489
3LE
GACY
SEED
S L-44
24 G
ENSS
101
P500
1,2,3,
4,541
.522
.89.4
*97
82.8
18.9
35.4
51.4
7.140
.233
3131
983
41.6
20.7
8.696
84.1
17.8
35.1
54.7
7.142
.234
7229
894
LEGA
CY SE
EDS L
-5350
3122
104
C250
1,2,3,
4,538
.521
.68.0
9680
.319
.838
.848
.96.6
34.1
3178
2596
038
.419
.17.1
9380
.821
.142
.955
.25.6
31.7
3210
2274
5M&
W SE
EDS 4
7J66
94P2
501,2
49.5
18.6
9.299
83.4
17.3
34.1
51.2
7.044
.734
1731
355
48.3
18.1
8.710
083
.917
.734
.152
.76.7
44.4
3469
3034
1M&
W SE
EDS 4
6K79
98P2
501,2
,4,6
42.1
16.7
7.295
83.3
19.2
35.9
53.9
8.240
.233
9125
152
47.2
18.1
8.589
86.1
15.7
31.7
56.1
7.846
.536
1430
722
M&W
SEED
S 45A
3610
1P2
501,2
48.4
18.4
9.199
84.1
15.3
33.4
52.3
7.046
.834
6331
009
47.7
19.1
9.2*
9884
.913
.834
.255
.86.6
49.2
3528
3140
1MA
STER
S CHO
ICE M
CT-45
7295
C250
1,2,3,
4,646
.319
.68.9
9683
.016
.633
.248
.37.5
45.3
3400
3045
048
.717
.18.3
9681
.820
.539
.053
.36.8
40.8
3303
2747
2MA
STER
S CHO
ICE M
CT-46
3296
C250
1,2,3,
4,644
.817
.88.1
9784
.516
.231
.951
.47.6
45.0
3495
2816
746
.317
.88.2
9885
.115
.131
.552
.67.1
45.0
3538
2892
7MA
STER
S CHO
ICE M
CT-53
7110
3C2
501
42.8
21.7
9.399
83.7
15.7
32.9
50.1
6.544
.234
3231
082
42.8
21.0
9.2*
100
84.6
15.4
34.7
55.7
5.745
.135
1030
570
RENK
RK59
5SST
X99
P500
1,2,3,
4,639
.623
.19.2
9982
.217
.834
.348
.27.3
42.4
3349
3125
236
.419
.97.6
9881
.618
.135
.748
.66.8
40.5
3321
2519
3RE
NK RK
629V
T3P
101
P250
1,2,3
38.2
22.9
8.798
82.5
17.1
34.2
48.8
7.142
.733
6431
030
40.0
21.2
8.596
83.2
15.7
33.2
49.1
6.644
.134
2830
806
STEY
ER 92
03 VT
2PRO
RIBC
92C2
501,2
45.2
19.3
8.794
82.8
17.8
35.5
51.5
7.042
.233
7229
777
44.7
18.4
8.390
83.1
17.9
36.1
53.0
6.641
.434
0228
147
STEY
ER 98
01 G
T98
C250
146
.320
.29.4
*98
82.0
18.2
35.8
49.7
7.041
.333
1931
028
48.9
17.8
8.796
83.3
17.0
34.5
51.4
6.643
.634
2729
783
STEY
ER 10
404 V
IP312
210
4C2
501,2
,439
.521
.28.4
9682
.517
.837
.252
.77.0
40.5
3334
2790
539
.219
.17.6
9682
.517
.540
.957
.26.0
41.6
3325
2689
7ST
EYER
1030
3 GEN
SSRIB
C10
3C2
501,2
,3,4
42.5
23.5
10.0
**98
83.0
17.4
34.1
49.9
6.944
.633
9632
944
40.0
22.3
8.9*
9782
.718
.636
.752
.86.6
44.6
3376
2922
7VIK
ING 42
-9292
C250
Conv
.48
.918
.69.1
9683
.717
.234
.252
.37.1
44.8
3435
3205
348
.518
.89.1
*97
83.9
17.4
35.3
54.4
6.743
.434
6031
348
VIKING
O.58
-98GS
98C2
50Co
nv.
50.3
18.5
9.392
83.5
16.7
33.8
51.2
7.044
.134
2931
597
49.7
16.8
8.392
84.8
16.6
34.8
56.4
6.643
.835
1729
190
VIKING
O.51
-04GS
104
C250
Conv
.43
.022
.49.7
*99
83.5
16.8
34.0
51.6
6.943
.834
2833
709
43.8
19.7
8.798
83.8
17.0
34.7
53.1
6.343
.534
5731
375
AVER
AGE
42.5
21.3
9.097
.782
.917
.935
.251
.27.0
42.2
3374
3047
842
.919
.68.4
96.7
83.2
18.1
36.6
54.0
6.541
.434
0528
535
HIGHE
ST50
.324
.510
.010
0.084
.520
.539
.554
.98.2
46.8
3495
3370
949
.722
.39.5
100.0
86.1
22.8
43.4
57.6
7.849
.236
1431
895
LOWE
ST36
.316
.77.2
92.2
80.2
15.3
31.9
47.9
6.534
.131
7825
152
36.4
16.8
7.189
.380
.613
.831
.548
.65.6
31.7
3208
2274
5CV
(%)
6.66.7
9.23.8
2.310
.36.9
8.85.1
7.94
75.3
5.87.1
4.82.2
8.97.0
7.25.4
7.14
6LS
D (5%
)1.9
1.00.6
2.51.3
1.21.6
3.00.2
2.285
1394
2.71.3
0.75.5
2.21.9
3.04.6
0.43.4
143
2127
Early
- TRIA
L AVE
RAGE
Huron
- Earl
y
DT/A
DT/A
YIELD
% QU
ALITY
MILK
2006
YIELD
% QU
ALITY
MILK
2006
- 37 -
2016
BRAN
D / HY
BRID
RMTR
TTR
AIT%D
MGT
/A%S
TDIVD
ADF
NDF
NDFD
CPST
RMK
/TMK
/A%D
MGT
/A%S
TDIVD
ADF
NDF
NDFD
CPST
RMK
/TMK
/AAG
RIGOL
D A626
7STX
RIB102
P500
1,2,3,4
42.7
19.6
8.4100
83.7
14.9
31.0
47.5
6.946.
4346
4291
3342.
125.
510.
8100
81.4
19.8
35.9
48.0
7.241.
2326
4351
96AG
RIGOL
D A635
5STX
RIB103
P500
1,2,3,4
43.4
21.0
9.1*
9984.
914.
630.
049.
76.5
48.7
3547
32262
41.4
26.7
11.0*
10083.
115.
430.
945.
47.0
47.3
3413
39016
BECK
5234A
MX™*
102ES
C1,2
,3,4,6
44.4
19.9
8.8*
9684.
914.
930.
750.
76.7
47.6
3539
31256
42.6
26.0
11.3*
9882.
618.
334.
749.
86.6
43.2
3347
37743
BECK
5460A
M™*
104ES
C1,2
,4,642.
022.
09.2
*100
85.3
14.7
30.4
51.5
7.148.
1356
4328
6238.
127.
110.
199
83.0
18.3
33.4
49.0
7.744.
7338
4342
54CR
OPLA
N 4099
SS/RI
B99
A500
1,2,3,4
,644.
521.
69.4
*100
83.9
16.7
33.7
52.3
6.943.
9345
3325
2340.
924.
710.
1100
81.8
18.5
35.2
48.3
7.442.
3329
5351
10CR
OPLA
N S410
0VT3
P/RIB
100A2
501,2
,340.
220.
78.3
10083.
417.
835.
753.
56.7
39.5
3404
28359
35.5
26.7
10.6
9880.
123.
542.
753.
47.3
32.0
3114
33097
CROP
LAN 4
819 30
00/GT
101A2
501,2
,3,447.
520.
19.3
*98
84.2
16.5
33.0
52.0
6.844.
6347
6322
1740.
624.
19.8
10083.
019.
937.
254.
47.6
40.4
3343
31641
CROP
LAN 5
415SS
/RIB
104A5
001,2
,3,636.
822.
88.4
9980.
318.
636.
546.
06.5
41.2
3213
29282
34.0
29.4
10.3
9979.
819.
136.
144.
07.2
42.1
3168
32716
DAIRY
LAND
SEED
HiDF
-3197R
A97
C500
1,2,3,4
,649.
718.
08.9
*100
84.2
17.8
34.1
53.6
7.243.
2346
3308
1838.
118.
87.9
9782.
917.
233.
048.
37.7
45.6
3379
26758
DAIRY
LAND
SEED
Hi DF
-3099-
999
C500
1,2,3,4
,639.
620.
78.2
9982.
816.
635.
151.
06.8
42.3
3374
27625
39.2
28.9
11.3*
10082.
418.
734.
749.
17.9
43.0
3330
34575
DAIRY
LAND
SEED
HiDF
-3700R
A100
C500
1,2,3,4
,640.
620.
98.5
10082.
918.
236.
853.
46.6
39.6
3362
30064
35.9
26.0
9.398
81.6
19.8
35.7
48.4
7.141.
3327
8303
59DA
IRYLA
ND SE
ED Hi
DF-37
02-9
102C5
001,2
,3,438.
821.
38.3
9684.
117.
534.
854.
36.7
42.1
3454
29930
33.5
27.6
9.298
80.9
23.1
41.4
53.8
7.538.
6317
2291
43DA
IRYLA
ND SE
ED DS
-9403
103C5
001,2
,3,4,6
43.4
19.0
8.1100
84.3
14.9
31.7
50.4
7.045.
6349
1282
7443.
524.
110.
5100
81.4
20.1
37.5
50.4
7.841.
7324
5341
60DA
IRYLA
ND SE
ED Hi
DF-31
03-9
103C5
001,2
,3,4,6
32.5
22.6
7.498
81.1
16.8
33.5
43.6
6.844.
5328
2264
0736.
526.
89.9
9981.
020.
738.
450.
67.9
42.4
3214
34183
DYNA
GRO D
41SS7
1101
P500
1,2,3,4
,641.
420.
88.8
*99
84.2
17.9
35.1
55.0
7.241.
6345
6305
1838.
822.
79.2
9882.
117.
834.
548.
08.0
40.1
3281
30190
GOLD
EN HA
RVES
T G03C
84-301
0103
C250
1,2,4
46.5
19.1
8.8*
9684.
215.
131.
850.
27.4
46.1
3486
30582
46.6
24.3
11.5*
10082.
817.
634.
149.
57.9
43.7
3361
38706
GREA
T LAK
ES 52
83STX
RIB102
P500
1,2,3,6
40.9
20.7
8.199
81.1
20.3
38.9
51.6
6.836.
8324
1263
8443.
926.
311.
6*99
81.8
19.0
36.5
50.2
7.441.
2328
3379
51LE
GACY
SEED
S L-44
24 GE
NSS
101P5
001,2
,3,4,5
43.0
20.0
8.696
82.7
19.5
34.1
49.1
7.038.
8326
0302
2239.
827.
711.
0*100
81.6
19.5
37.1
50.3
7.439.
6326
1358
32LE
GACY
SEED
S L-53
50 312
2104
C250
1,2,3,4
,541.
820.
78.5
9780.
518.
336.
346.
26.9
33.9
3175
26679
35.4
25.1
8.597
79.6
20.1
37.3
45.4
7.236.
7314
828
456M&
W SE
EDS 4
7J66
94P2
501,2
51.4
18.2
9.1*
9984.
016.
434.
453.
27.0
45.0
3448
31508
48.9
19.6
9.7100
82.3
17.8
34.0
47.7
7.244.
8333
4322
16M&
W SE
EDS 4
6K79
98P2
501,2
,4,645.
717.
78.1
9785.
016.
032.
653.
97.6
44.9
3526
28579
33.5
14.2
5.097
79.0
25.8
43.4
51.6
9.429.
3303
4161
56M&
W SE
EDS 4
5A36
101P2
501,2
50.2
16.8
8.4100
85.8
13.8
29.7
52.1
7.148.
3360
1302
8747.
419.
39.6
9981.
418.
436.
549.
07.4
42.9
3260
31340
MAST
ERS C
HOICE
MCT-4
57295
C250
1,2,3,4
,647.
019.
18.7
9583.
615.
331.
748.
27.5
46.0
3449
30135
43.2
22.6
9.897
83.6
14.1
29.1
43.3
8.249.
1344
9337
42MA
STER
S CHO
ICE MC
T-4632
96C2
501,2
,3,4,6
48.2
16.9
8.197
85.4
16.1
32.3
54.7
7.245.
1355
3288
8640.
018.
87.8
9583.
017.
432.
047.
08.6
44.9
3393
26689
MAST
ERS C
HOICE
MCT-5
371103
C250
144.
419.
18.5
9884.
314.
630.
748.
76.9
44.7
3455
30670
41.2
24.9
10.3
9982.
117.
133.
246.
17.1
42.9
3331
32006
RENK
RK595
SSTX
99P5
001,2
,3,4,6
44.4
19.8
8.8*
10083.
517.
332.
649.
47.0
44.6
3435
31443
38.0
29.7
11.3*
10081.
717.
934.
546.
78.0
42.3
3291
37120
RENK
RK629
VT3P
101P2
501,2
,338.
820.
98.1
10083.
416.
233.
149.
77.5
43.6
3423
29403
35.8
26.6
9.599
81.1
19.5
36.3
47.7
7.440.
5323
9328
82ST
EYER
9203
VT2P
RORIB
C92
C250
1,247.
219.
49.1
*97
83.2
17.3
34.7
51.5
6.943.
2340
3310
1343.
520.
28.8
9482.
218.
435.
750.
07.4
42.0
3310
30172
STEY
ER 98
01 GT
98C2
501
44.7
20.6
9.2*
10081.
417.
635.
247.
27.0
41.9
3289
30279
45.3
22.2
10.2
9981.
320.
237.
750.
47.4
38.5
3240
33022
STEY
ER 10
404 VI
P3122
104C2
501,2
,442.
219.
98.4
9684.
117.
234.
653.
97.5
40.8
3451
27527
37.0
24.7
9.197
80.8
18.7
36.2
47.0
7.739.
2322
6292
92ST
EYER
10303
GENS
SRIBC
103C2
501,2
,3,443.
420.
48.8
*97
83.9
17.8
33.9
52.3
6.843.
5345
1285
3544.
127.
912.
2**
9982.
415.
831.
744.
47.2
45.8
3360
41070
VIKING
42-92
92C2
50Co
nv.51.
917.
39.0
*96
84.7
15.4
32.1
52.3
7.245.
7351
5314
9246.
419.
79.2
9682.
418.
735.
250.
17.5
45.2
3330
33320
VIKING
O.58-
98GS
98C2
50Co
nv.53.
215.
88.2
9384.
916.
232.
353.
17.0
45.6
3523
28774
47.9
22.9
11.4*
9280.
917.
334.
244.
17.5
42.9
3248
36826
VIKING
O.51-
04GS
104C2
50Co
nv.47.
120.
09.7
**100
85.1
15.8
32.7
54.5
6.946.
2353
3328
2938.
027.
510.
699
81.7
17.8
34.7
47.3
7.541.
7329
3369
23AV
ERAG
E44.
119.
88.6
98.2
83.7
16.6
33.4
51.1
7.043.
6343
4299
0540.
524.
49.9
98.3
81.7
18.9
35.6
48.5
7.641.
7328
3329
96HIG
HEST
53.2
22.8
9.7100
.085.
820.
338.
955.
07.6
48.7
3601
32862
48.9
29.7
12.2
100.0
83.6
25.8
43.4
54.4
9.449.
1344
9410
70LO
WEST
32.5
15.8
7.492.
780.
313.
829.
743.
66.5
33.9
3175
26384
33.5
14.2
5.091.
979.
014.
129.
143.
36.6
29.3
3034
16156
CV (%
)6.5
6.78.6
3.42.3
9.87.1
9.24.8
7.34
77.2
7.09.9
3.12.5
10.8
7.810.
04.8
8.74
7LS
D (5%
)3.4
1.60.9
4.02.2
1.92.8
5.50.4
3.7147
2435
3.42.0
1.23.5
2.42.4
3.35.7
0.44.3
156288
7
** Hi
ghest Y
ielding
Hybrid
* No
t Sign
ificant
ly Diffe
rent fr
om Hi
ghest Y
ielding
Hybrid
Ingha
m - E
arly
Ottaw
a - Ea
rlyYIE
LD%
QUAL
ITYMIL
K 2006
YIELD
% QU
ALITY
MILK 2
006DT
/ADT
/A
-2 Y
ear A
vera
ges
Cont
inue
d O
n Pa
ge 4
0.
- 38 -
TABL
E 8L
.HU
RON,
INGH
AM &
OTT
AWA
COUN
TY S
ILAG
E TR
IALS
- LA
TE (1
05 D
ay an
d La
ter)
ZONE
2 - 3
2016
BRAN
D / HY
BRID
RMTR
TTR
AIT%D
MGT
/A%S
TDIVD
ADF
NDF
NDFD
CPST
RMK
/TMK
/A%D
MGT
/A%S
TDIVD
ADF
NDF
NDFD
CPST
RMK
/TMK
/AAG
RIGOL
D A642
4GT3
VIP108
P500
1,2,3,6
40.1
23.7
9.798
84.3
19.3
36.8
57.1
6.439.
5344
2336
8238.
721.
38.3
9684.
219.
938.
959.
45.7
36.2
3447
28692
BECK
5140H
R™*
105ES
C1,2
,4,642.
522.
79.3
9883.
717.
934.
252.
26.8
42.4
3434
31809
42.3
20.6
8.399
84.1
18.4
36.0
55.6
6.540.
0346
2286
30BE
CK 56
65AMX
™*106
ESC
1,2,3,4
,642.
225.
210.
297
84.7
15.1
30.8
50.4
7.446.
5352
6357
7543.
619.
68.2
9985.
116.
032.
353.
86.8
45.1
3554
28969
BECK
5840A
M™*
108ES
C1,2
,4,639.
425.
99.9
9784.
117.
633.
953.
16.7
43.8
3464
34598
38.3
21.8
8.3100
84.3
17.5
34.5
54.5
6.141.
9349
2290
17DA
IRYLA
ND SE
ED Hi
DF-36
05RA
105C5
001,2
,3,4,6
41.2
24.7
10.0
9682.
517.
434.
849.
77.2
41.7
3358
32821
42.3
22.8
9.596
82.7
17.0
35.1
50.6
6.442.
3339
1321
43DA
IRYLA
ND SE
ED EX
P-1070
7107
C500
1,2,3,4
,637.
224.
59.0
9479.
420.
840.
048.
56.5
36.2
3196
29040
38.9
21.8
8.493
82.3
19.9
38.3
53.7
5.538.
3334
3281
65DA
IRYLA
ND SE
ED Hi
DF-38
08RA
108C5
001,2
,3,4,6
38.7
26.1
9.995
82.9
18.7
36.4
53.1
6.738.
9336
1344
5842.
121.
89.2
9884.
119.
036.
255.
95.8
40.4
3464
33620
DAIRY
LAND
SEED
Hi DF
-3510S
S X110
C500
1,2,3,4
,634.
726.
79.4
9780.
022.
543.
053.
26.1
34.3
3172
29833
34.2
25.2
8.894
78.4
23.7
49.6
56.5
5.028.
4312
1274
44DY
NAGR
O D47S
S23
107P5
001,2
,3,4,6
43.4
22.0
9.499
84.4
15.3
32.1
51.2
7.045.
0349
4327
2842.
820.
48.8
9884.
716.
333.
454.
16.5
43.3
3520
31020
DYNA
GRO D
49VC3
9109
P500
1,238.
325.
19.3
9881.
518.
036.
749.
46.7
41.0
3283
30973
36.5
21.1
7.698
81.6
18.9
38.9
52.8
6.139.
0329
7259
29DY
NAGR
O D50S
S43
110P5
001,2
,3,4,6
41.0
26.2
10.5*
9982.
717.
835.
050.
47.1
42.2
3368
35268
40.7
21.8
8.699
82.1
19.5
38.3
53.2
6.437.
9332
9285
11GO
LDEN
HARV
EST G
05T82-
3122
105C2
501,2
,3,4,6
41.9
22.4
9.3100
82.3
18.8
33.8
47.4
6.842.
7335
6318
7042.
221.
18.9
9982.
218.
836.
951.
65.9
38.7
3347
29878
GOLD
EN HA
RVES
T G07V
88-300
0G107
C250
1,2,3,4
39.6
23.8
9.398
82.4
19.1
36.5
51.7
6.641.
3334
1315
6540.
121.
28.5
9983.
219.
737.
855.
56.2
40.0
3400
28878
GOLD
EN HA
RVES
T G07B
39-312
2 A109
C500
1,2,3,4
,5,638.
624.
09.3
9982.
618.
335.
250.
57.0
40.7
3361
31653
43.0
21.8
9.497
83.1
19.1
36.0
53.1
6.239.
7341
1320
07GR
EAT L
AKES
5824S
TXRIB
108P5
001,2
,3,638.
726.
09.9
9783.
816.
133.
651.
66.8
42.7
3447
34108
39.0
22.9
8.998
84.2
17.3
35.6
55.5
6.339.
8347
3309
48GR
EAT L
AKES
5944S
TXRI B
109P5
001,2
,3,641.
824.
510.
393
84.1
15.2
31.0
48.4
6.845.
7348
1358
7041.
221.
38.8
9084.
217.
134.
453.
96.1
42.2
3486
30544
INTEG
RA 60
11GSS
110PV
5001,2
,3,4,6
41.4
23.9
9.795
82.2
17.3
34.3
47.7
6.941.
8333
7329
4639.
421.
28.3
9280.
619.
739.
050.
25.8
37.0
3239
28632
LEGA
CY SE
EDS L
-6334
3000G
T107
C250
1,2,3,4
,541.
623.
79.9
9884.
818.
034.
455.
86.5
41.8
3501
33641
40.9
20.3
8.395
85.1
18.5
36.4
58.9
5.939.
3351
9292
49M&
W SE
EDS 4
4D81
108P2
501,2
42.2
24.4
10.1
9883.
815.
932.
850.
26.8
46.1
3449
36204
42.9
23.2
10.0
9783.
916.
333.
652.
16.2
43.4
3476
37013
NK Br
and N5
3W-31
22105
C250
1,2,3,4
,641.
823.
49.5
9583.
118.
133.
850.
07.0
42.4
3407
32214
40.9
20.8
8.598
82.6
19.9
35.9
51.5
6.339.
9337
7285
13NK
Brand
N61P
-3000G
T Bran
d105
C250
1,2,3,4
39.7
24.1
9.498
81.6
18.2
35.2
47.5
6.441.
7336
1315
4739.
323.
09.0
9982.
519.
639.
055.
25.8
37.0
3350
30257
NuTe
ch/G2
GENE
TICS 5
H-806™
106P5
001,2
,439.
023.
69.2
9583.
617.
834.
552.
47.0
41.5
3393
31101
38.3
21.1
8.192
84.1
16.5
33.6
52.5
6.340.
8338
5291
04Nu
Tech/
G2 GE
NETIC
S 5F-9
06™106
P500
1,2,4
41.1
26.0
10.5*
9684.
616.
032.
352.
37.2
44.7
3505
37404
39.7
21.6
8.495
84.3
18.1
34.8
54.9
6.442.
0349
0291
83Nu
Tech/
G2 GE
NETIC
S 5F-3
08™108
P500
1,2,4
39.9
25.2
10.1
9884.
516.
533.
553.
86.9
43.2
3491
36108
40.8
23.0
9.399
84.6
19.0
35.0
55.8
6.041.
6350
4326
21Nu
Tech/
G2 GE
NETIC
S 5F-7
09™109
P500
1,2,4
43.2
24.1
10.4*
9884.
115.
031.
048.
47.2
46.2
3485
37732
43.6
20.3
8.797
84.0
16.1
33.3
51.7
6.643.
4348
0318
72Nu
Tech/
G2 GE
NETIC
S 5F-5
10™110
P500
1,2,4
37.8
26.2
9.799
83.4
17.6
35.5
53.2
7.240.
3336
2339
7237.
621.
68.1
10083.
918.
436.
555.
76.5
35.3
3311
28245
RENK
RK717
SST X
105P5
001,2
,3,4,6
49.8
19.6
9.998
83.6
16.5
34.1
51.5
7.044.
9342
8338
4544.
817.
17.7
9983.
718.
135.
954.
56.2
41.6
3445
26589
RENK
RK776
SST X
107P5
001,2
,3,4,6
39.5
24.9
9.997
81.7
18.5
38.1
51.6
6.837.
9328
0315
1737.
621.
28.0
9782.
018.
640.
555.
65.7
34.8
3306
26402
RENK
RK810
SST X
110P5
001,2
,3,4,6
39.4
24.5
9.799
82.9
16.8
34.2
50.0
6.642.
1339
2320
1540.
122.
19.0
9782.
817.
935.
851.
85.9
40.4
3391
30548
RENK
6-798
VT2P
109P2
501,2
41.6
25.5
11.0*
*93
82.4
17.5
35.2
49.7
7.040.
9334
8363
1745.
123.
311.
9**
8883.
018.
537.
454.
46.3
38.2
3389
40160
VIKING
42-08
107C2
50Co
nv.45.
517.
37.8
7282.
219.
236.
751.
47.2
40.0
3319
26633
46.6
20.9
9.892
83.5
17.1
34.7
52.4
6.042.
3344
2336
07VIK
ING 53
-10GS
110C2
50Co
nv.38.
520.
68.0
8982.
517.
934.
749.
46.9
43.0
3344
27373
41.4
21.7
9.098
84.0
18.5
36.5
56.1
6.444.
6345
6309
76AV
ERAG
E40.
724.
19.7
96.2
83.0
17.6
34.8
51.0
6.842.
0339
0330
1940.
821.
58.8
96.5
83.3
18.4
36.5
54.1
6.139.
8340
9302
30HIG
HEST
49.8
26.7
11.0
99.7
84.8
22.5
43.0
57.1
7.446.
5352
6377
3246.
625.
211.
999.
785.
123.
749.
659.
46.8
45.1
3554
40160
LOWE
ST34.
717.
37.8
72.4
79.4
15.0
30.8
47.4
6.134.
3317
2266
3334.
217.
17.6
87.6
78.4
16.0
32.3
50.2
5.028.
4312
1259
29CV
(%)
6.76.8
9.55.0
2.710.
97.8
10.1
5.78.6
47
6.17.1
9.04.2
2.18.8
7.76.7
6.88.3
47
LSD (
5%)
1.81.1
0.63.2
1.51.3
1.83.5
0.32.4
94156
52.9
1.80.9
4.82.1
1.93.3
4.30.5
3.9151
2501
Late -
TRIAL
AVER
AGE
Huron
- Late
DT/A
DT/A
YIELD
% QUA
LITY
MILK 2
006YIE
LD% Q
UALIT
YMIL
K 2006
- 39 -
2016
BRAN
D / HY
BRID
RMTR
TTR
AIT%D
MGT
/A%S
TDIVD
ADF
NDF
NDFD
CPST
RMK
/TMK
/A%D
MGT
/A%S
TDIVD
ADF
NDF
NDFD
CPST
RMK
/TMK
/AAG
RIGOL
D A642
4GT3
VIP108
P500
1,2,3,6
44.7
21.5
9.6*
9985.
616.
132.
155.
26.6
45.3
3565
35801
36.9
28.3
11.0
9982.
921.
939.
456.
66.9
37.1
3315
36552
BECK
5140H
R™*
105ES
C1,2
,4,646.
517.
47.8
9784.
816.
330.
950.
76.8
46.5
3524
27601
38.8
30.1
11.8
9982.
219.
235.
850.
27.2
40.7
3315
39196
BECK
5665A
MX™*
106ES
C1,2
,3,4,6
43.0
21.7
9.393
85.3
14.4
29.5
50.1
7.248.
1356
5330
8440.
134.
313.
1*100
83.9
15.0
30.7
47.3
8.446.
5345
8452
71BE
CK 58
40AM™
*108
ESC
1,2,4,6
42.1
19.5
8.291
83.8
18.5
34.4
52.7
6.743.
7343
1293
3337.
936.
413.
1*100
84.3
17.0
32.9
52.3
7.445.
9346
9454
45DA
IRYLA
ND SE
ED Hi
DF-36
05RA
105C5
001,2
,3,4,6
43.3
20.5
8.991
84.0
14.9
30.9
48.0
7.147.
1347
5307
8038.
031.
011.
7100
80.9
20.4
38.5
50.5
8.135.
7320
9355
39DA
IRYLA
ND SE
ED EX
P-1070
7107
C500
1,2,3,4
,638.
819.
17.5
9078.
819.
237.
643.
46.7
38.9
3297
24853
33.9
32.7
11.1
9977.
323.
244.
148.
57.2
31.5
2948
34101
DAIRY
LAND
SEED
HiDF
-3808R
A108
C500
1,2,3,4
,642.
822.
39.7
*89
84.8
17.1
35.9
57.5
6.844.
7347
2338
0331.
434.
110.
999
79.8
20.0
37.3
45.9
7.631.
6314
8359
51DA
IRYLA
ND SE
ED Hi
DF-35
10SS X
110C5
001,2
,3,4,6
35.4
23.5
8.6100
82.4
20.3
37.3
52.7
6.539.
3332
0284
9034.
731.
510.
998
79.1
23.6
42.1
50.4
6.835.
4307
4335
65DY
NAGR
O D47S
S23
107P5
001,2
,3,4,6
47.4
19.3
8.899
85.0
13.0
29.9
49.9
7.347.
7354
6312
8139.
926.
310.
5100
83.4
16.6
32.9
49.6
7.244.
2341
6358
82DY
NAGR
O D49V
C39
109P5
001,2
42.7
20.5
8.597
81.7
17.4
36.7
50.3
6.542.
1329
1278
4735.
933.
612.
0100
81.1
17.6
34.5
45.3
7.641.
9326
2391
43DY
NAGR
O D50S
S43
110P5
001,2
,3,4,6
44.1
22.7
9.9*
9784.
515.
932.
552.
47.2
46.2
3493
34633
38.2
34.1
13.0*
9981.
417.
934.
345.
67.6
42.6
3282
42661
GOLD
EN HA
RVES
T G05T
82-312
2105
C250
1,2,3,4
,643.
318.
27.8
10081.
421.
232.
142.
36.9
45.7
3306
25764
40.3
27.8
11.3
10083.
316.
332.
448.
57.6
43.7
3415
39970
GOLD
EN HA
RVES
T G07V
88-300
0G107
C250
1,2,3,4
41.8
19.5
8.198
82.3
19.9
36.7
51.8
6.539.
6332
6285
3936.
830.
611.
399
81.7
17.7
35.0
47.9
7.244.
2329
7372
80GO
LDEN
HARV
EST G
07B39-
3122A
109C5
001,2
,3,4,5,6
38.4
20.0
7.999
82.9
19.1
36.8
53.5
7.138.
8335
4264
0134.
330.
310.
5100
81.9
16.8
32.9
44.9
7.743.
6332
0365
52GR
EAT L
AKES
5824S
TXRIB
108P5
001,2
,3,642.
222.
39.3
9483.
514.
230.
746.
36.8
47.0
3448
32044
35.0
33.0
11.5
9983.
816.
834.
553.
07.3
41.3
3421
39331
GREA
T LAK
ES 59
44STX
RIB109
P500
1,2,3,6
42.7
19.3
8.591
84.0
14.4
29.7
46.1
6.948.
3348
4296
9941.
532.
913.
6**
9884.
114.
229.
045.
37.4
46.8
3472
47368
INTEG
RA 60
11GSS
110PV
5001,2
,3,4,6
45.1
18.1
7.896
84.1
14.0
29.8
46.3
7.346.
1346
5271
6239.
932.
613.
0*98
81.8
18.1
34.1
46.7
7.842.
1330
8430
44LE
GACY
SEED
S L-63
34 300
0GT
107C2
501,2
,3,4,5
45.6
21.3
9.5*
9986.
016.
031.
155.
16.2
46.6
3600
34330
38.1
29.6
11.7
10083.
419.
435.
753.
47.3
39.5
3383
37345
M&W
SEED
S 44D
81108
P250
1,245.
419.
68.9
9784.
912.
728.
246.
56.5
51.0
3555
33790
38.4
30.3
11.4
10082.
418.
836.
751.
97.7
43.9
3316
37808
NK Br
and N5
3W-31
22105
C250
1,2,3,4
,646.
718.
48.5
8984.
116.
631.
949.
96.8
44.9
3472
29409
37.8
31.1
11.5
10082.
817.
833.
548.
77.9
42.4
3374
38721
NK Br
and N6
1P-30
00GT B
rand
105C2
501,2
,3,441.
821.
48.7
9680.
517.
633.
642.
16.4
43.5
3416
29866
38.0
28.1
10.4
10081.
817.
533.
145.
27.0
44.5
3317
34517
NuTe
ch/G2
GENE
TICS 5
H-806™
106P5
001,2
,443.
519.
78.6
9585.
414.
630.
051.
17.4
46.8
3567
30522
35.1
30.2
10.9
9881.
522.
339.
953.
67.2
36.8
3229
33678
NuTe
ch/G2
GENE
TICS 5
F-906™
106P5
001,2
,444.
822.
710.
2**
9486.
712.
128.
052.
57.2
50.1
3666
37370
38.7
33.6
13.0*
9982.
717.
934.
349.
58.0
42.0
3358
45659
NuTe
ch/G2
GENE
TICS 5
F-308™
108P5
001,2
,440.
120.
38.2
9685.
414.
932.
254.
66.9
44.6
3548
29174
38.9
32.4
12.6*
10083.
615.
733.
551.
17.7
43.5
3421
46530
NuTe
ch/G2
GENE
TICS 5
F-709™
109P5
001,2
,444.
920.
99.6
*99
84.7
13.8
28.6
46.3
7.449.
0353
1339
3541.
231.
212.
8*99
83.7
15.3
31.0
47.2
7.646.
3344
4473
89Nu
Tech/
G2 GE
NETIC
S 5F-5
10™110
P500
1,2,4
38.4
24.2
8.898
82.8
17.1
36.4
52.7
7.542.
4335
1293
8637.
432.
912.
3*100
83.7
17.2
33.6
51.4
7.743.
2342
4442
86RE
NK RK
717SS
TX105
P500
1,2,3,4
,651.
616.
58.6
9684.
014.
634.
052.
77.0
48.3
3445
29591
53.0
25.3
13.4*
10083.
017.
032.
447.
37.9
44.9
3394
45356
RENK
RK776
SSTX
107P5
001,2
,3,4,6
41.8
18.8
8.496
80.0
21.7
41.1
51.4
7.034.
8314
5249
5839.
034.
713.
5*100
83.0
15.2
32.7
47.9
7.844.
2339
0431
91RE
NK RK
810SS
TX110
P500
1,2,3,4
,640.
821.
48.8
9984.
315.
231.
449.
86.8
45.5
3489
30795
37.5
30.2
11.4
10081.
817.
435.
448.
57.0
40.5
3297
34703
RENK
6-798
VT2P
109P2
501,2
40.5
21.8
8.892
82.5
17.6
35.0
50.1
7.141.
0335
0307
4339.
331.
612.
4*98
81.6
16.3
33.2
44.8
7.743.
4330
4380
49VIK
ING 42
-08107
C250
Conv.
46.1
12.0
5.447
81.5
20.4
39.3
53.0
8.236.
2324
4179
9343.
919.
08.3
7981.
520.
136.
248.
97.5
41.6
3271
28300
VIKING
53-10
GS110
C250
Conv.
38.3
20.2
7.681
81.8
16.5
33.5
45.6
6.944.
0331
8253
3035.
819.
97.5
8981.
718.
734.
346.
47.4
40.6
3259
25813
AVER
AGE
42.9
20.1
8.693.
583.
516.
533.
050.
16.9
44.5
3439
29822
38.3
30.6
11.7
98.4
82.2
18.1
34.9
48.9
7.541.
6332
2390
06HIG
HEST
51.6
24.2
10.2
100.0
86.7
21.7
41.1
57.5
8.251.
0366
6373
7053.
036.
413.
6100
.084.
323.
644.
156.
68.4
46.8
3472
47389
LOWE
ST35.
412.
05.4
46.6
78.8
12.1
28.0
42.1
6.234.
8314
5179
9331.
419.
07.5
78.7
77.3
14.2
29.0
44.8
6.831.
5294
8258
13CV
(%)
6.26.5
7.55.8
3.312.
19.3
13.8
5.38.4
58
7.36.3
9.74.9
2.511.
78.7
8.85.0
8.94
8LS
D (5%
)3.2
1.50.8
6.43.2
2.43.6
8.10.4
4.4182
2680
3.32.3
1.35.7
2.42.5
3.65.1
0.44.4
161351
3
** Hi
ghest Y
ielding
Hybrid
* No
t Sign
ificant
ly Diffe
rent fr
om Hi
ghest Y
ielding
Hybrid
Ingha
m - L
ateOtt
awa -
Late
YIELD
% QU
ALITY
MILK 2
006YIE
LD%
QUAL
ITYMIL
K 2006
DT/A
DT/A
-2 Y
ear A
vera
ges
Cont
inue
d O
n Pa
ge 4
1.
- 40 -
2 Year
Avera
ges 2
016 - 2
015BR
AND /
HYBR
IDRM
TRT
TRAIT
%DM
GT/A
%STD
IVDAD
FND
FND
FDCP
STR
MK/T
MK/A
%DM
GT/A
%STD
IVDAD
FND
FND
FDCP
STR
MK/T
MK/A
CROP
LAN 4
099SS
/RIB
99A5
001,2
,3,4,6
42.2
24.2
10.0*
*100
82.8
18.7
37.0
53.2
7.040.
4334
5337
9745.
122.
410.
0**
10082.
520.
439.
856.
26.7
38.4
3318
32230
CROP
LAN 5
415SS
/RIB
104A5
001,2
,3,637.
526.
19.8
*99
81.0
19.9
38.1
49.8
6.639.
8323
7316
8040.
524.
19.6
*99
81.3
20.5
38.9
51.8
6.338.
9324
7312
00DA
IRYLA
ND SE
ED Hi
DF-30
99-9
99C5
001,2
,3,4,6
38.9
25.9
9.9*
9881.
718.
336.
048.
97.1
41.6
3297
32654
40.8
23.5
9.5*
9981.
418.
035.
647.
26.5
42.7
3291
32709
DAIRY
LAND
SEED
Hi DF
-3702-
9102
C500
1,2,3,4
35.4
25.8
9.096
82.6
20.1
38.1
54.3
6.839.
6333
3305
3636.
824.
89.1
9882.
620.
138.
655.
06.4
39.0
3340
30316
GREA
T LAK
ES 52
83STX
RIB102
P500
1,2,3,6
40.6
24.4
9.9*
9782.
018.
436.
250.
26.9
41.1
3318
32317
39.5
21.8
8.597
82.3
18.2
35.8
50.5
6.642.
6334
8283
92LE
GACY
SEED
S L-44
24 GE
NSS
101P5
001,2
,3,4,5
40.0
24.6
9.7*
9782.
118.
736.
851.
47.1
40.1
3298
32676
40.9
23.5
9.6*
9882.
918.
536.
252.
76.9
41.7
3374
32246
M&W
SEED
S 47J6
694
P250
1,246.
420.
39.3
9982.
517.
734.
849.
87.0
43.7
3359
32105
46.7
20.3
9.4*
10081.
319.
136.
148.
56.7
41.7
3285
31500
MAST
ERS C
HOICE
MCT-5
371103
C250
140.
123.
89.5
9582.
617.
234.
649.
76.7
42.4
3361
31966
42.4
23.1
9.9*
9983.
416.
033.
950.
96.0
44.7
3430
34605
RENK
RK629
VT3P
101P2
501,2
,338.
224.
79.3
9482.
717.
134.
750.
17.2
42.3
3368
31653
39.9
23.9
9.5*
9683.
316.
434.
050.
76.7
43.6
3416
33438
STEY
ER 92
03 VT
2PRO
RIBC
92C2
501,2
44.4
20.3
8.995
82.6
17.8
35.8
51.5
6.942.
6335
8299
2346.
119.
18.8
9582.
917.
936.
052.
36.6
42.7
3376
28897
STEY
ER 98
01 GT
98C2
501
44.9
21.6
9.6*
9881.
419.
337.
550.
46.9
40.1
3272
31351
47.7
20.5
9.8*
9882.
118.
536.
851.
26.6
41.9
3322
32497
AVER
AGE
40.8
23.8
9.597.
382.
218.
536.
350.
96.9
41.2
3322
31878
42.4
22.5
9.498.
182.
418.
536.
551.
56.5
41.6
3341
31639
HIGHE
ST46.
426.
110.
099.
882.
820.
138.
154.
37.2
43.7
3368
33797
47.7
24.8
10.0
99.9
83.4
20.5
39.8
56.2
6.944.
7343
0346
05LO
WEST
35.4
20.3
8.994.
381.
017.
134.
648.
96.6
39.6
3237
29923
36.8
19.1
8.595.
081.
316.
033.
947.
26.0
38.4
3247
28392
CV (%
)6.6
8.49.9
4.52.4
10.3
6.98.4
5.67.6
47
6.06.7
8.64.2
2.39.2
6.48.3
5.77.2
47
LSD (
5%)
1.30.9
0.42.1
0.90.9
1.22.1
0.21.5
62106
22.1
1.20.6
3.31.6
1.41.9
3.60.3
2.5105
1803
DT/A
DT/A
MILK 2
006YIE
LD%
QUAL
ITYMIL
K 2006
Early
- TRIA
L AVE
RAGE
Huron
- Earl
yYIE
LD%
QUAL
ITY
ZONE
2 - 3
TABL
E 8E
- Co
ntin
ued
from
pag
e 37.
2 Year
Avera
ges 2
016 - 2
015BR
AND /
HYBR
IDRM
TRT
TRAIT
%DM
GT/A
%STD
IVDAD
FND
FND
FDCP
STR
MK/T
MK/A
%DM
GT/A
%STD
IVDAD
FND
FND
FDCP
STR
MK/T
MK/A
CROP
LAN 4
099SS
/RIB
99A5
001,2
,3,4,6
40.3
24.4
9.4100
83.3
18.6
36.4
54.1
6.941.
6339
7319
7641.
225.
910.
7*100
82.4
17.1
34.8
49.4
7.541.
3332
1371
84CR
OPLA
N 5415
SS/RI
B104
A500
1,2,3,6
36.1
25.1
9.099
81.0
20.0
38.9
51.0
6.338.
9324
3293
9136.
129.
210.
7*100
80.6
19.1
36.4
46.7
7.441.
6322
1344
48DA
IRYLA
ND SE
ED Hi
DF-30
99-9
99C5
001,2
,3,4,6
38.1
25.1
9.496
83.0
16.5
34.7
50.8
6.942.
3338
2317
9237.
729.
010.
9**
10080.
820.
437.
748.
97.9
39.8
3216
33460
DAIRY
LAND
SEED
Hi DF
-3702-
9102
C500
1,2,3,4
36.1
24.3
8.598
83.3
18.8
36.7
54.4
6.640.
5339
4303
6533.
428.
49.5
9281.
921.
539.
053.
67.5
39.1
3264
30926
GREA
T LAK
ES 52
83STX
RIB102
P500
1,2,3,6
41.7
24.3
10.3*
*98
81.7
18.6
36.8
50.3
6.639.
9330
2326
2740.
527.
210.
9**
9782.
018.
636.
049.
97.5
40.7
3304
35932
LEGA
CY SE
EDS L
-4424
GENS
S101
P500
1,2,3,4
,540.
623.
59.2
9882.
119.
236.
751.
06.8
38.6
3266
31161
38.7
26.8
10.4*
9481.
418.
537.
650.
67.5
39.9
3253
34619
M&W
SEED
S 47J6
694
P250
1,247.
319.
28.9
9984.
315.
332.
952.
27.0
46.5
3485
31994
45.2
21.4
9.699
81.9
18.8
35.4
48.7
7.443.
0330
7328
21MA
STER
S CHO
ICE MC
T-5371
103C2
501
39.8
23.5
9.298
82.6
16.9
35.2
50.3
6.841.
2334
6312
8838.
024.
89.4
8881.
818.
734.
947.
97.3
41.4
3308
30005
RENK
RK629
VT3P
101P2
501,2
,338.
524.
69.1
9783.
616.
133.
550.
97.3
43.0
3425
30677
36.0
25.6
9.290
81.4
18.7
36.5
48.8
7.640.
4326
3308
45ST
EYER
9203
VT2P
RORIB
C92
C250
1,245.
820.
59.3
9883.
916.
433.
952.
36.8
44.9
3454
32068
41.4
21.2
8.792
81.2
19.2
37.5
49.9
7.540.
3324
5288
05ST
EYER
9801
GT98
C250
141.
723.
09.3
10081.
119.
337.
549.
47.0
39.9
3258
30181
45.4
21.2
9.798
81.2
20.1
38.2
50.6
7.338.
5323
5313
75AV
ERAG
E40.
523.
49.2
98.3
82.7
17.8
35.7
51.5
6.841.
6335
9312
2939.
425.
510.
095.
481.
519.
236.
749.
57.5
40.5
3267
32766
HIGHE
ST47.
325.
110.
3100
.084.
320.
038.
954.
47.3
46.5
3485
32627
45.4
29.2
10.9
99.9
82.4
21.5
39.0
53.6
7.943.
0332
1371
84LO
WEST
36.1
19.2
8.596.
281.
015.
332.
949.
46.3
38.6
3243
29391
33.4
21.2
8.788.
280.
617.
134.
846.
77.3
38.5
3216
28805
CV (%
)6.4
10.7
10.7
3.62.4
10.0
7.38.3
5.97.5
47
7.16.7
9.25.5
2.510.
77.7
8.75.2
7.94
7LS
D (5%
)2.3
1.90.8
2.91.6
1.42.1
3.50.3
2.7109
1815
2.31.4
0.84.4
1.71.7
2.33.5
0.32.7
110198
8
** Hi
ghest Y
ielding
Hybrid
* No
t Sign
ificant
ly Diffe
rent fr
om Hi
ghest Y
ielding
Hybrid
DT/A
DT/A
Ingha
m - E
arly
Ottaw
a - Ea
rlyYIE
LD%
QUAL
ITYMIL
K 2006
YIELD
% QU
ALITY
MILK 2
006
HURO
N, IN
GHAM
& O
TTAW
A CO
UNTY
SIL
AGE
TRIA
LS -
EARL
Y (1
04 D
ay an
d Ea
rlier
)
- 41 -
2 Yea
r Ave
rages
2016
- 201
5BR
AND
/ HYB
RID
RMTR
TTR
AIT
%DM
GT/A
%STD
IVDAD
FND
FND
FDCP
STR
MK/T
MK/A
%DM
GT/A
%STD
IVDAD
FND
FND
FDCP
STR
MK/T
MK/A
DAIR
YLAN
D SE
ED H
i DF-
3510
SSX
110
C500
1,2,3,
4,634
.029
.910
.2*
9780
.621
.840
.652
.16.3
36.3
3216
3270
434
.728
.810
.1**
9779
.521
.743
.652
.55.8
34.0
3171
3112
5DY
NAGR
O D5
0SS4
311
0P5
001,2
,3,4,6
39.1
27.2
10.5
**98
81.6
19.4
37.2
50.5
6.940
.432
8634
266
39.4
23.9
9.297
81.9
19.4
37.9
52.1
6.739
.033
0530
542
GOLD
EN H
ARVE
ST G
05T8
2-312
210
5C2
501,2
,3,4,6
39.9
24.3
9.597
81.5
19.5
36.2
48.7
6.740
.132
8931
467
41.0
24.0
9.5*
9581
.418
.937
.049
.76.2
39.2
3287
3116
8GO
LDEN
HAR
VEST
G07
V88-3
000G
107
C250
1,2,3,
438
.724
.99.5
9381
.720
.037
.651
.36.5
40.1
3288
3125
439
.722
.38.9
8982
.220
.238
.053
.26.2
39.9
3325
2938
4NK
Bran
d N53
W-31
2210
5C2
501,2
,3,4,6
40.0
25.0
9.895
82.5
18.2
34.9
49.9
6.941
.733
6133
231
40.8
23.4
9.5*
9882
.219
.135
.950
.66.4
41.0
3345
3160
9NK
Bran
d N61
P-30
00GT
Bran
d10
5C2
501,2
,3,4
38.9
24.8
9.595
82.2
18.7
35.5
49.6
6.541
.633
5832
131
38.8
23.9
9.399
82.2
19.6
38.0
53.1
6.139
.333
2630
799
NuTe
ch/G
2 GEN
ETIC
S 5H
-806™
106
P500
1,2,4
37.7
26.2
9.897
82.8
18.7
35.9
52.1
6.940
.633
5332
947
38.9
24.8
9.7*
9684
.116
.533
.552
.46.7
42.7
3423
3406
3Nu
Tech
/G2 G
ENET
ICS
5F-70
9™10
9P5
001,2
,438
.626
.710
.1*
9982
.517
.534
.348
.97.0
42.4
3364
3497
240
.824
.39.7
*98
83.7
16.6
33.8
51.6
6.943
.034
4634
230
RENK
RK7
76SS
TX10
7P5
001,2
,3,4,6
38.4
25.7
10.0
9881
.419
.038
.351
.36.8
38.3
3263
3203
038
.523
.39.0
9981
.618
.338
.952
.56.3
37.8
3279
2945
6RE
NK R
K810
SSTX
110
P500
1,2,3,
4,638
.226
.110
.099
82.4
17.3
34.9
49.6
6.641
.533
5332
872
38.8
24.8
9.6*
9982
.018
.236
.250
.36.3
39.1
3318
3195
4AV
ERAG
E38
.426
.19.9
96.9
81.9
19.0
36.5
50.4
6.740
.333
1332
788
39.1
24.4
9.496
.682
.118
.937
.351
.86.3
39.5
3322
3143
3HI
GHES
T40
.029
.910
.599
.382
.821
.840
.652
.17.0
42.4
3364
3497
241
.028
.810
.198
.784
.121
.743
.653
.26.9
43.0
3446
3423
0LO
WES
T34
.024
.39.5
93.4
80.6
17.3
34.3
48.7
6.336
.332
1631
254
34.7
22.3
8.989
.579
.516
.533
.549
.75.8
34.0
3171
2938
4CV
(%)
6.66.8
8.85.8
2.711
.57.9
9.35.8
8.44
75.8
6.78.0
7.32.5
10.0
8.27.5
6.28.0
47
LSD
(5%)
1.20.8
0.42.7
1.01.0
1.32.2
0.21.6
7011
281.9
1.30.6
5.91.7
1.52.5
3.30.3
2.612
318
35
DT/A
DT/A
MILK
2006
YIELD
% QU
ALITY
MILK
2006
Late
- TRI
AL A
VERA
G EHu
ron -
Late
YIELD
% QU
ALITY
HURO
N, IN
GHAM
& O
TTAW
A CO
UNTY
SIL
AGE
TRIA
LS -
LATE
(105
Day
and
Late
r)ZO
NE 2
- 3TA
BLE
8L -
Cont
inue
d fro
m p
age 3
9.
2 Yea
r Ave
rages
2016
- 201
5BR
AND /
HYBR
IDRM
TRT
TRAIT
%DM
GT/A
%STD
IVDAD
FND
FND
FDCP
STR
MK/T
MK/A
%DM
GT/A
%STD
IVDAD
FND
FND
FDCP
STR
MK/T
MK/A
DAIRY
LAND
SEED
Hi DF
-3510
SSX
110
C500
1,2,3,
4,633
.927
.59.4
100
81.5
21.9
39.2
52.9
6.137
.532
6131
443
33.3
33.2
11.0
9580
.921
.839
.050
.97.0
37.5
3216
3554
6DY
NAGR
O D50
SS43
110
P500
1,2,3,
4,642
.624
.410
.3**
9882
.717
.935
.851
.86.4
42.8
3365
3472
435
.433
.411
.9**
9980
.120
.937
.847
.47.6
39.5
3187
3753
4GO
LDEN
HARV
EST G
05T8
2-312
210
5C2
501,2
,3,4,6
41.3
20.9
8.510
080
.621
.436
.346
.26.4
41.0
3233
2752
737
.327
.810
.496
82.5
18.1
35.3
50.3
7.640
.033
4835
708
GOLD
EN HA
RVES
T G07
V88-3
000G
107
C250
1,2,3,
440
.422
.58.9
9581
.620
.537
.751
.36.2
38.9
3281
2891
436
.230
.010
.995
81.2
19.5
37.0
49.3
7.241
.632
5935
464
NK Br
and N
53W-
3122
105
C250
1,2,3,
4,642
.121
.89.0
9482
.517
.734
.348
.96.6
42.8
3362
3130
337
.229
.710
.995
82.9
17.9
34.5
50.3
7.741
.233
7636
781
NK Br
and N
61P-3
000G
T Bran
d10
5C2
501,2
,3,4
40.5
23.4
9.394
82.4
17.6
33.9
47.9
6.443
.534
4231
506
37.5
27.2
10.0
9182
.018
.834
.447
.77.0
42.0
3306
3408
7Nu
Tech/
G2 GE
NETIC
S 5H-8
06™
106
P500
1,2,4
39.8
23.5
9.298
83.6
17.2
33.6
51.0
6.943
.234
3331
623
34.4
30.2
10.6
9980
.922
.540
.552
.87.1
36.0
3203
3315
5Nu
Tech/
G2 GE
NETIC
S 5F-7
09™
109
P500
1,2,4
39.0
24.7
9.599
81.8
17.3
33.6
45.9
6.643
.333
3031
672
36.1
31.0
11.2
*99
82.0
18.5
35.7
49.2
7.541
.133
1539
013
RENK
RK77
6SST
X10
7P5
001,2
,3,4,6
40.8
22.4
9.598
80.8
21.2
40.1
52.2
6.536
.832
0930
044
35.9
31.5
11.4
*97
81.8
17.6
35.9
49.2
7.740
.433
0236
591
RENK
RK81
0SST
X11
0P5
001,2
,3,4,6
38.6
23.4
9.099
83.4
16.5
33.4
50.3
6.343
.734
2830
940
37.2
30.3
11.2
*10
081
.917
.135
.148
.37.1
41.5
3314
3572
3AV
ERAG
E39
.923
.59.3
97.5
82.1
18.9
35.8
49.8
6.541
.433
3430
970
36.1
30.4
10.9
96.5
81.6
19.2
36.5
49.5
7.440
.132
8335
960
HIGHE
ST42
.627
.510
.310
0.083
.621
.940
.152
.96.9
43.7
3442
3472
437
.533
.411
.999
.982
.922
.540
.552
.87.7
42.0
3376
3901
3LO
WEST
33.9
20.9
8.593
.780
.616
.533
.445
.96.1
36.8
3209
2752
733
.327
.210
.090
.980
.117
.134
.447
.47.0
36.0
3187
3315
5CV
(%)
6.47.3
8.64.3
2.911
.38.5
11.4
6.58.0
48
6.96.2
8.45.5
2.611
.88.2
8.64.8
8.44
7LS
D (5%
)2.2
1.30.6
3.32.0
1.62.4
4.70.4
2.912
319
912.1
1.60.8
4.41.7
1.82.4
3.50.3
2.911
922
98
** Hi
ghest
Yield
ing Hy
brid
* No
t Sign
ifican
tly Dif
feren
t from
High
est Yi
elding
Hybri
d
DT/A
DT/A
Ingha
m - L
ateOt
tawa -
Late
YIELD
% QU
ALITY
MILK
2006
YIELD
% QU
ALITY
MILK
2006
- 42 -
TABL
E 9.
IOSC
O, M
ENOM
INEE
(LAT
E) &
OSC
EOLA
COU
NTY
SILA
GE T
RIAL
S (1
05 D
ay an
d Ea
rlier
)ZO
NE 4
2016
BRAN
D / HY
BRI D
RMTR
TTR
AIT%D
MGT
/A%S
TDIVD
ADF
NDF
NDFD
CPST
RMK
/TMK
/A%D
MGT
/A%S
TDIVD
ADF
NDF
NDFD
CPST
RMK
/TMK
/ADA
IRYLA
ND SE
ED Hi
DF-31
88RA
88C5
001,2
,3,4,6
51.5
17.8
9.098
83.1
30.2
28.5
43.7
8.543.
8339
7310
8042.
222.
49.4
9784.
851.
415.
331.
48.5
42.9
3520
33236
DAIRY
LAND
SEED
Hi DF
-3290-
990
C500
1,2,3,4
44.3
19.5
8.598
82.0
30.2
30.2
42.6
8.142.
1332
0284
2240.
326.
210.
6**
9784.
650.
015.
930.
98.5
44.2
3513
37057
DAIRY
LAND
SEED
HiDF
-3197R
A97
C500
1,2,3,4
,642.
023.
19.4
10081.
932.
030.
643.
77.9
40.8
3304
30304
33.2
27.2
9.1100
84.2
53.9
17.5
34.4
8.339.
8345
7314
81DA
IRYLA
ND SE
ED Hi
DF-30
99-9
99C5
001,2
,3,4,6
39.4
25.9
10.1*
9981.
829.
830.
043.
88.0
41.6
3299
32185
36.1
28.6
10.1*
9782.
852.
718.
636.
28.6
39.7
3361
33936
DAIRY
LAND
SEED
HiDF
-3700R
A100
C500
1,2,3,4
,636.
723.
98.7
9781.
730.
930.
543.
77.2
40.4
3294
28616
32.2
27.8
9.095
83.2
49.9
16.7
33.5
7.540.
6341
3327
70DA
IRYLA
ND SE
ED Hi
DF-37
02-9
102C5
001,2
,3,436.
327.
19.7
*97
83.7
31.9
30.0
46.2
7.739.
9342
1332
7632.
629.
69.7
*92
85.8
56.0
16.2
32.3
8.341.
5357
3345
38DA
IRYLA
ND SE
ED DS
-9403
103C5
001,2
,3,4,6
38.9
23.4
8.998
82.4
30.8
30.2
45.3
7.939.
8337
3303
3334.
227.
39.4
9783.
754.
318.
035.
68.1
37.4
3421
32256
DAIRY
LAND
SEED
HiDF
-3103-
9103
C500
1,2,3,4
,637.
827.
710.
3**
9981.
630.
230.
543.
97.9
39.8
3281
33234
31.6
32.6
10.5*
10082.
651.
818.
536.
18.4
38.2
3350
35012
DYNA
GRO D
35SS5
895
P500
1,2,3,4
,643.
721.
89.3
9883.
926.
726.
944.
87.8
45.3
3456
32106
39.3
26.4
10.1*
10083.
549.
015.
732.
37.9
43.1
3439
34601
DYNA
GRO D
37SS6
097
P500
1,2,3,4
,641.
122.
89.4
9983.
130.
229.
845.
67.8
41.2
3382
31501
32.9
26.4
8.999
84.2
52.4
17.0
33.3
7.941.
6346
9307
31GO
LDEN
HARV
EST G
90Y04-
3110A
92C2
501,2
,4,5,6
40.7
22.7
9.098
81.3
30.9
32.3
46.1
8.436.
6324
1300
4736.
028.
110.
3*97
81.9
49.7
17.8
35.9
8.636.
7331
2340
47GO
LDEN
HARV
EST G
95D32-
3110
95C2
501,2
,4,640.
223.
09.4
9979.
929.
031.
341.
17.4
37.2
3153
29931
39.0
27.6
10.6*
*99
82.2
43.4
15.5
31.5
8.043.
0336
4354
72GO
LDEN
HARV
EST G
01P52-
3122A
101C2
501,2
,3,4,5,6
37.5
23.8
8.899
81.6
29.8
30.9
45.2
8.037.
8328
1296
7832.
927.
59.1
9882.
348.
717.
234.
58.3
38.0
3346
32521
GREA
T LAK
ES 45
48STX
RIB95
P500
1,2,3,6
44.7
22.1
9.699
83.1
28.7
28.4
45.3
7.842.
2339
6333
1533.
926.
79.1
9982.
752.
919.
236.
77.9
37.6
3353
32359
GREA
T LAK
ES 48
79STX
RIB98
P500
1,2,3,6
40.6
24.3
9.699
83.7
28.0
27.8
45.3
7.942.
1341
5326
3833.
428.
29.4
10083.
151.
518.
834.
98.1
36.9
3318
30985
GREA
T LAK
ES 52
83STX
RIB102
P500
1,2,3,6
39.9
25.8
10.0*
9982.
728.
829.
845.
07.6
41.4
3366
33764
33.1
30.0
9.9*
10083.
649.
717.
032.
67.9
41.6
3442
36402
INTEG
RA 47
59R97
A250
135.
824.
48.6
9980.
532.
734.
846.
87.5
32.9
3143
27706
33.3
31.1
10.1*
9982.
552.
018.
536.
67.9
38.1
3340
33854
INTEG
RA 52
09GSS
102PV
50 01,2
,3,639.
326.
410.
2*96
82.4
29.8
30.3
46.3
7.540.
0333
5340
1931.
733.
510.
3*92
82.7
52.8
18.6
36.7
7.536.
3335
0345
82MA
STER
S CHO
ICE MC
T-3891
89C2
501
52.0
17.7
8.9100
81.9
29.4
29.9
44.1
8.042.
0330
9293
3646.
522.
010.
4*100
83.4
49.6
15.2
33.0
8.342.
7342
5354
66MA
STER
S CHO
ICE MC
T-4632
96C2
501,2
,4,640.
922.
19.0
9983.
330.
029.
847.
28.5
39.6
3356
30085
35.5
26.4
9.3100
83.4
53.0
18.2
35.3
8.338.
6340
4317
22MA
STER
S CHO
ICE MC
T-5371
103C2
501
38.5
25.4
9.7*
9883.
629.
828.
344.
97.6
40.4
3405
33704
34.9
28.5
10.0*
9984.
454.
217.
434.
17.9
36.7
3407
33847
NK Br
and N2
7P-31
10A92
C250
1,2,4,5
,638.
622.
88.6
10081.
131.
532.
545.
28.5
39.9
3234
28736
34.0
27.2
9.2100
83.3
49.4
15.7
33.1
9.240.
1341
2332
41NK
Brand
N35T-
3110
95C2
501,2
,4,640.
421.
88.6
9980.
030.
432.
743.
27.4
39.1
3174
27558
36.3
26.7
9.8*
9981.
847.
618.
234.
87.7
39.4
3318
31061
NK Br
and N4
5P-31
22A101
C250
1,2,3,4
,5,637.
924.
59.2
9982.
430.
631.
547.
48.1
36.1
3315
29995
34.7
27.4
9.599
82.7
51.9
18.5
35.9
8.135.
9334
7317
87Nu
Tech 5
N-800™
100P5
001,2
,3,438.
026.
09.6
9980.
133.
435.
848.
17.3
33.2
3141
30796
31.1
31.5
9.8*
9881.
554.
221.
340.
57.8
32.1
3242
31755
NuTec
h 5N-4
06™105
P500
1,2,3,4
34.1
29.7
10.0*
9881.
228.
730.
544.
27.9
38.0
3260
32153
28.1
32.5
9.194
81.3
51.1
20.1
38.3
7.834.
3325
6295
66Nu
Tech/G
2 GEN
ETICS
5F-70
1™101
P500
1,2,4
40.5
22.8
9.099
84.1
31.0
29.7
48.1
7.243.
7344
2314
4631.
928.
69.2
9984.
254.
518.
134.
77.3
40.4
3460
33175
NuTec
h/G2 G
ENET
ICS 5H
-502™
102P5
001,2
,435.
926.
49.5
9482.
528.
830.
046.
07.7
39.4
3327
30722
34.1
29.1
9.9*
10082.
350.
618.
735.
97.8
35.3
3284
30477
NuTec
h/G2 G
ENET
ICS 5F
-504™
104P5
001,2
,437.
026.
59.6
9982.
830.
429.
946.
07.6
39.5
3355
31522
31.6
30.5
9.7*
9983.
252.
818.
635.
67.9
38.0
3392
32729
NuTec
h/G2 G
ENET
ICS 5F
-906™
106P5
001,2
,434.
628.
49.8
*97
82.7
29.1
29.3
44.3
8.140.
1336
3340
9630.
631.
09.5
9783.
751.
317.
133.
48.6
39.7
3439
34161
AVER
AGE
40.0
24.0
9.398.
482.
230.
130.
445.
17.8
39.9
3318
31077
34.6
28.3
9.798.
183.
251.
417.
634.
78.1
39.0
3391
33161
HIGHE
ST52.
029.
710.
399.
884.
133.
435.
848.
18.5
45.3
3456
34096
46.5
33.5
10.6
100.0
85.8
56.0
21.3
40.5
9.244.
2357
3370
57LO
WEST
34.1
17.7
8.594.
279.
926.
726.
941.
17.2
32.9
3141
27558
28.1
22.0
8.992.
181.
343.
415.
230.
97.3
32.1
3242
29566
CV (%
)7.4
6.09.5
3.12.7
11.8
8.38.6
5.09.6
47
7.34.7
9.04.1
1.96.6
8.56.5
4.67.6
37
LSD (
5%)
2.01.0
0.62.0
1.51.5
2.03.0
0.32.6
97138
43.0
1.61.0
4.81.8
4.01.8
2.70.4
3.5125
2833
DT/A
DT/A
YIELD
% QUA
LITY
MILK 2
006YIE
LD% Q
UALIT
YMIL
K 2006
TRIAL
AVER
AGE
Iosco
- 43 -
2016
BRAN
D / HY
BRI D
RMTR
TTR
AIT%D
MGT
/A%S
TDIVD
ADF
NDF
NDFD
CPST
RMK
/TMK
/A%D
MGT
/A%S
TDIVD
ADF
NDF
NDFD
CPST
RMK
/TMK
/ADA
IRYLA
ND SE
ED Hi
DF-31
88RA
88C5
001,2
,3,4,6
63.0
14.0
9.297
78.6
26.7
40.1
46.5
8.340.
4306
5296
5549.
317.
18.4
10086.
012.
630.
053.
38.8
48.1
3605
30348
DAIRY
LAND
SEED
Hi DF
-3290-
990
C500
1,2,3,4
57.1
15.4
9.199
80.0
22.5
40.1
50.0
7.840.
4314
7287
1135.
516.
95.9
9981.
618.
034.
646.
88.0
41.8
3301
19497
DAIRY
LAND
SEED
HiDF
-3197R
A97
C500
1,2,3,4
,651.
319.
09.7
9978.
124.
539.
845.
07.5
39.7
3042
27137
41.5
23.2
9.5*
10083.
517.
734.
451.
98.0
43.0
3414
32292
DAIRY
LAND
SEED
Hi DF
-3099-
999
C500
1,2,3,4
,646.
923.
811.
2*98
80.4
19.5
36.9
47.0
7.643.
0320
6327
6735.
225.
39.0
10082.
117.
434.
548.
17.8
42.0
3331
29851
DAIRY
LAND
SEED
HiDF
-3700R
A100
C500
1,2,3,4
,644.
620.
49.1
9679.
825.
137.
646.
16.8
41.3
3160
26653
33.3
23.4
8.0100
82.1
17.7
37.1
51.5
7.139.
3330
9264
23DA
IRYLA
ND SE
ED Hi
DF-37
02-9
102C5
001,2
,3,441.
026.
310.
8*99
82.4
19.7
37.2
52.7
7.339.
6331
8357
5935.
325.
48.8
10083.
020.
036.
653.
77.5
38.7
3371
29532
DAIRY
LAND
SEED
DS-94
03103
C500
1,2,3,4
,645.
120.
59.2
9778.
123.
342.
048.
17.6
36.5
3132
29786
37.3
22.3
8.1100
85.4
14.9
30.6
52.2
8.245.
5356
5289
56DA
IRYLA
ND SE
ED Hi
DF-31
03-9
103C5
001,2
,3,4,6
45.1
24.4
11.0*
9879.
922.
640.
450.
17.3
36.6
3139
34466
36.6
26.1
9.5*
10082.
216.
332.
745.
67.9
44.7
3354
30225
DYNA
GRO D
35SS5
895
P500
1,2,3,4
,648.
718.
79.1
9583.
116.
133.
449.
37.5
46.9
3395
30787
43.2
20.3
8.7100
85.1
14.9
31.7
52.8
7.946.
0353
5309
30DY
NAGR
O D37S
S60
97P5
001,2
,3,4,6
50.0
19.3
10.1
9879.
523.
041.
850.
77.3
35.6
3102
32660
40.3
22.5
9.1*
10085.
615.
430.
652.
98.1
46.4
3576
31113
GOLD
EN HA
RVES
T G90Y
04-311
0A92
C250
1,2,4,5
,648.
018.
68.8
9778.
326.
546.
853.
67.6
30.3
2974
28214
38.1
21.3
8.1100
83.6
16.5
32.2
49.0
8.942.
9343
6278
80GO
LDEN
HARV
EST G
95D32-
3110
95C2
501,2
,4,645.
719.
39.1
9874.
525.
545.
143.
26.8
26.9
2729
25574
36.0
22.1
8.5100
82.9
18.0
33.3
48.6
7.641.
7336
6287
47GO
LDEN
HARV
EST G
01P52-
3122A
101C2
501,2
,3,4,5,6
42.3
21.4
9.098
79.5
22.5
39.8
48.6
7.637.
0312
2281
5537.
322.
58.4
10083.
018.
335.
852.
58.1
38.5
3375
28357
GREA
T LAK
ES 45
48STX
RIB95
P500
1,2,3,6
60.4
17.7
11.1*
10082.
816.
632.
747.
47.4
45.6
3387
37474
39.9
22.0
8.7100
83.9
16.6
33.5
51.7
8.143.
4344
6301
13GR
EAT L
AKES
4879S
TXRIB
98P5
001,2
,3,650.
220.
910.
4*97
84.1
14.8
30.8
48.2
7.647.
2347
6360
2238.
323.
78.9
10084.
017.
634.
053.
07.9
42.1
3453
30909
GREA
T LAK
ES 52
83STX
RIB102
P500
1,2,3,6
51.4
21.9
11.4*
9780.
920.
438.
650.
47.3
40.5
3217
34884
35.2
25.6
8.7100
83.8
16.3
33.9
52.0
7.742.
1343
7300
07INT
EGRA
4759R
97A2
501
41.7
19.4
8.497
79.1
24.8
45.1
53.7
7.531.
4304
2255
7832.
522.
67.4
10079.
821.
540.
850.
27.0
29.0
3047
23687
INTEG
RA 52
09GSS
102PV
50 01,2
,3,645.
521.
510.
397
80.9
21.2
40.1
52.2
7.140.
0319
9327
7840.
724.
110.
1**
10083.
815.
632.
349.
97.8
43.8
3455
34697
MAST
ERS C
HOICE
MCT-3
89189
C250
167.
014.
19.1
9978.
821.
239.
145.
87.6
41.4
3091
26153
42.5
16.9
7.3100
83.6
17.3
35.3
53.4
8.241.
8341
0263
88MA
STER
S CHO
ICE MC
T-4632
96C2
501,2
,4,646.
918.
79.1
9783.
717.
136.
254.
98.2
44.7
3399
30944
40.3
21.2
8.5100
82.9
19.7
35.1
51.4
9.035.
6326
5275
89MA
STER
S CHO
ICE MC
T-5371
103C2
501
42.2
23.3
9.896
82.7
17.7
34.6
49.8
7.342.
8336
1348
7238.
524.
49.4
*100
83.8
17.4
33.0
50.8
7.441.
7344
8323
91NK
Brand
N27P
-3110A
92C2
501,2
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43.2
19.4
8.5100
78.8
24.1
42.3
49.9
8.042.
5305
6260
2038.
821.
67.9
9981.
321.
039.
552.
68.3
37.3
3236
26946
NK Br
and N3
5T-31
1095
C250
1,2,4,6
46.5
18.0
8.297
76.4
26.8
46.4
49.2
7.234.
0288
0235
7738.
420.
67.9
10081.
816.
833.
545.
67.2
43.8
3325
28035
NK Br
and N4
5P-31
22A101
C250
1,2,3,4
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022.
59.3
9881.
121.
940.
753.
67.8
34.4
3204
29661
37.9
23.6
8.9100
83.3
18.0
35.4
52.9
8.437.
9339
4285
36Nu
Tech
5N-80
0™100
P500
1,2,3,4
49.7
20.8
10.3
9979.
025.
146.
154.
46.8
31.9
3025
31174
33.1
25.6
8.8100
79.8
20.9
39.8
49.4
7.335.
6315
5294
58Nu
Tech
5N-40
6™105
P500
1,2,3,4
39.2
29.2
11.5*
*99
80.9
18.0
35.6
46.2
7.840.
4324
1371
1335.
027.
49.6
*100
81.4
17.0
35.9
48.2
8.239.
2328
1297
79Nu
Tech/
G2 GE
NETIC
S 5F-7
01™101
P500
1,2,4
47.8
18.2
8.898
82.6
21.9
39.6
56.1
7.044.
0330
4291
2441.
921.
69.0
10085.
416.
631.
353.
47.5
46.6
3562
32037
NuTe
ch/G2
GENE
TICS 5
H-502™
102P5
001,2
,438.
825.
59.9
8883.
317.
734.
551.
57.7
43.0
3395
31967
34.7
24.7
8.694
81.9
18.0
36.7
50.6
7.740.
0330
0297
21Nu
Tech/
G2 GE
NETIC
S 5F-5
04™104
P500
1,2,4
43.4
21.5
9.399
81.5
20.0
36.7
49.7
7.338.
3323
7299
6035.
927.
39.8
*99
83.8
18.5
34.3
52.7
7.542.
0343
7318
78Nu
Tech/
G2 GE
NETIC
S 5F-9
06™106
P500
1,2,4
37.7
27.7
10.4*
9880.
120.
437.
847.
37.4
38.5
3176
33394
35.4
26.7
9.5*
9884.
315.
732.
952.
28.4
42.3
3474
34734
AVER
AGE
47.4
20.7
9.797.
680.
321.
639.
349.
77.5
39.2
3174
30701
37.9
22.9
8.699.
783.
117.
434.
451.
07.9
41.4
3389
29369
HIGHE
ST67.
029.
211.
5100
.084.
126.
846.
856.
18.3
47.2
3476
37474
49.3
27.4
10.1
100.0
86.0
21.5
40.8
53.7
9.048.
1360
5347
34LO
WEST
37.7
14.0
8.288.
274.
514.
830.
843.
26.8
26.9
2729
23577
32.5
16.9
5.994.
479.
812.
630.
045.
67.0
29.0
3047
19497
CV (%
)7.2
6.79.4
3.23.6
14.4
9.411.
25.0
12.1
66
6.86.5
9.31.1
2.39.9
8.47.6
5.48.8
46
LSD (
5%)
4.01.6
1.13.6
3.43.7
4.36.5
0.45.6
218227
33.1
1.81.0
1.32.2
2.03.4
4.60.5
4.3158
2188
** Hi
ghest Y
ielding
Hybrid
* No
t Sign
ificant
ly Diffe
rent fr
om Hi
ghest Y
ielding
Hybrid
DT/A
DT/A
Meno
mine
e - La
teOs
ceola
YIELD
% QU
ALITY
MILK 2
006YIE
LD%
QUAL
ITYMIL
K 2006
-2 Y
ear A
vera
ges
Cont
inue
d O
n Pa
ge 4
6.
- 44 -
TABL
E 10
.AL
GER,
DEL
TA &
MEN
OMIN
EE (E
ARLY
) COU
NTY
SILA
GE T
RIAL
S (1
02 D
ay an
d Ea
rlier
)ZO
NE 5
2016
BRAN
D / HY
BRI D
RMTR
TTR
AIT%D
MGT
/A%S
TDIVD
ADF
NDF
NDFD
CPST
RMK
/TMK
/A%D
MGT
/A%S
TDIVD
ADF
NDF
NDFD
CPST
RMK
/TMK
/AGR
EAT L
AKES
4250
STXR
IB92
P500
1,2,3,
637
.520
.97.5
*97
81.7
20.3
38.0
51.5
7.838
.832
7825
351
26.1
24.7
6.498
83.4
20.0
37.5
55.7
8.035
.233
8122
968
GREA
T LAK
ES 45
48ST
XRIB
95P5
001,2
,3,6
35.6
22.5
7.299
81.6
19.7
37.4
50.6
7.538
.432
8424
004
22.1
27.4
6.099
82.0
22.0
40.7
55.9
7.330
.832
7119
530
GREA
T LAK
ES 48
79ST
XRIB
98P5
001,2
,3,6
32.1
24.9
7.7*
9781
.921
.439
.854
.57.1
35.3
3283
2517
123
.229
.36.6
9682
.422
.041
.557
.57.0
29.9
3290
2158
2INT
EGRA
4759
R97
A250
131
.025
.57.6
*98
80.5
23.4
43.5
55.1
6.931
.131
7923
836
23.0
32.6
7.5**
9979
.525
.146
.255
.77.0
26.3
3126
2224
6INT
EGRA
5209
GSS
102P
V50 0
1,2,3,
631
.226
.07.8
*97
81.4
22.1
41.6
55.0
7.131
.731
8625
541
21.7
28.5
6.296
80.3
25.1
46.0
57.2
6.923
.629
8818
473
MYCO
GEN 2
V357
93C5
001,2
,3,4,6
39.8
19.6
7.4*
9882
.019
.236
.750
.97.8
40.2
3326
2497
026
.525
.26.7
9982
.120
.739
.554
.67.5
35.5
3330
2230
3Nu
Tech
X5V-9
901™
99P5
001,2
,3,4,1
437
.422
.07.7
*98
82.5
20.0
39.4
55.5
7.536
.233
2825
879
24.7
27.0
6.797
83.5
20.6
39.6
58.3
7.633
.034
1021
352
NuTe
ch/G
2 GEN
ETICS
5F-19
6™96
P500
1,2,4
35.7
22.6
7.9**
9982
.919
.436
.953
.47.2
39.3
3378
2720
726
.226
.06.8
*10
082
.619
.638
.554
.97.0
38.0
3374
2453
9Nu
Tech
/G2 G
ENET
ICS 5F
-701™
101
P500
1,2,4
33.7
24.1
7.7*
9983
.319
.737
.054
.47.3
38.7
3400
2646
023
.128
.66.6
9782
.223
.142
.157
.87.2
30.8
3315
2195
6AV
ERAG
E34
.923
.17.6
98.1
82.0
20.6
38.9
53.4
7.436
.732
9425
380
24.1
27.7
6.697
.882
.022
.041
.356
.47.3
31.4
3276
2166
1HIG
HEST
39.8
26.0
7.999
.483
.323
.443
.555
.57.8
40.2
3400
2720
726
.532
.67.5
99.7
83.5
25.1
46.2
58.3
8.038
.034
1024
539
LOWE
ST31
.019
.67.2
97.0
80.5
19.2
36.7
50.6
6.931
.131
7923
836
21.7
24.7
6.095
.579
.519
.637
.554
.66.9
23.6
2988
1847
3CV
(%)
8.06.2
12.6
2.82.3
10.1
6.77.3
5.28.1
47
6.45.0
9.22.9
1.77.2
6.12.7
4.97.4
36
LSD (
5%)
1.91.0
0.61.8
1.31.4
1.82.7
0.32.0
8511
751.9
1.70.7
3.41.7
1.93.1
1.80.4
2.812
215
84
2 Yea
r Ave
rages
2016
- 201
5BR
AND /
HYBR
I DRM
TRT
TRAIT
%DM
GT/A
%STD
IVDAD
FND
FND
FDCP
STR
MK/T
MK/A
%DM
GT/A
%STD
IVDAD
FND
FND
FDCP
STR
MK/T
MK/A
GREA
T LAK
ES 45
48ST
XRIB
95P5
001,2
,3,6
33.4
23.4
7.4*
9782
.518
.937
.553
.17.5
37.5
3309
2492
526
.523
.96.0
*94
83.6
19.9
38.9
57.9
7.331
.332
7519
704
GREA
T LAK
ES 48
79ST
XRIB
98P5
001,2
,3,6
30.8
25.3
7.6**
9682
.720
.439
.856
.47.1
34.9
3340
2553
325
.325
.86.3
**91
83.2
21.3
41.4
59.4
7.129
.933
4821
602
NuTe
ch/G
2 GEN
ETICS
5F-19
6™96
P500
1,2,4
34.2
21.9
7.4*
8783
.119
.037
.755
.37.3
38.7
3402
2593
929
.219
.75.6
7083
.818
.437
.857
.17.2
37.4
3462
2079
8AV
ERAG
E32
.823
.57.5
93.4
82.8
19.5
38.3
54.9
7.337
.033
5025
465
27.0
23.1
6.085
.183
.519
.939
.458
.17.2
32.8
3361
2070
1HIG
HEST
34.2
25.3
7.697
.383
.120
.439
.856
.47.5
38.7
3402
2593
929
.225
.86.3
94.4
83.8
21.3
41.4
59.4
7.337
.434
6221
602
LOWE
ST30
.821
.97.4
86.8
82.5
18.9
37.5
53.1
7.134
.933
0924
925
25.3
19.7
5.670
.283
.218
.437
.857
.17.1
29.9
3275
1970
4CV
(%)
7.16.5
11.0
9.72.3
9.36.8
6.95.1
7.64
75.9
6.410
.012
.41.8
7.36.7
3.35.3
7.44
7LS
D (5%
)1.1
0.70.4
4.40.9
0.91.3
1.80.2
1.362
900
1.31.4
0.59.5
1.21.3
2.31.6
0.32.0
9813
04
DT/A
DT/A
MILK
2006
YIELD
% QU
ALITY
MILK
2006
TRIAL
AVER
AGE
Alger
YIELD
% QU
ALITY
DT/A
DT/A
YIELD
% QU
ALITY
MILK
2006
YIELD
% QU
ALITY
MILK
2006
TRIAL
AVER
AGE
Alger
- 45 -
2016
BRAN
D / HY
BRI D
RMTR
TTR
AIT%D
MGT
/A%S
TDIVD
ADF
NDF
NDFD
CPST
RMK
/TMK
/A%D
MGT
/A%S
TDIVD
ADF
NDF
NDFD
CPST
RMK
/TMK
/AGR
EAT L
AKES
4250
STXR
IB92
P500
1,2,3,
633
.720
.87.0
*97
83.3
16.3
32.2
47.8
7.645
.034
3224
121
52.7
17.1
9.0*
9778
.324
.544
.451
.28.0
36.3
3021
2896
5GR
EAT L
AKES
4548
STXR
IB95
P500
1,2,3,
631
.923
.07.3
*10
081
.818
.335
.248
.37.4
40.7
3322
2583
952
.917
.28.2
*98
81.1
18.9
36.1
47.6
7.843
.932
6026
643
GREA
T LAK
ES 48
79ST
XRIB
98P5
001,2
,3,6
31.4
24.6
7.7*
9782
.321
.338
.754
.26.7
36.4
3322
2549
141
.921
.08.8
*99
81.2
21.0
39.3
52.0
7.539
.632
3728
439
INTEG
RA 47
59R
97A2
501
29.6
22.6
6.799
82.0
21.7
40.7
55.7
6.833
.732
8520
574
40.6
21.5
8.7*
9680
.023
.443
.654
.07.1
33.2
3125
2868
8INT
EGRA
5209
GSS
102P
V50 0
1,2,3,
627
.227
.97.5
*99
81.2
22.7
42.5
55.8
7.031
.632
2124
023
44.7
21.5
9.6*
9682
.618
.436
.452
.17.4
39.8
3350
3412
8MY
COGE
N 2V3
5793
C500
1,2,3,
4,638
.219
.47.4
*99
83.6
17.0
34.1
51.9
7.542
.134
3925
943
54.6
14.1
8.1*
9780
.319
.936
.546
.28.5
43.1
3210
2666
4Nu
Tech
X5V-9
901™
99P5
001,2
,3,4,1
432
.121
.56.8
9883
.917
.635
.855
.07.0
40.2
3445
2344
355
.517
.69.7
**99
80.0
21.9
42.9
53.4
7.935
.531
3132
843
NuTe
ch/G
2 GEN
ETICS
5F-19
6™96
P500
1,2,4
35.9
21.9
7.9**
100
82.4
19.9
36.4
51.4
7.139
.433
4725
073
45.1
20.0
8.9*
9983
.618
.735
.754
.07.6
40.6
3412
3200
8Nu
Tech
/G2 G
ENET
ICS 5F
-701™
101
P500
1,2,4
31.4
24.1
7.6*
100
83.1
20.5
38.1
55.4
7.136
.933
7126
238
46.5
19.5
8.9*
9984
.615
.630
.950
.07.6
48.6
3514
3118
5AV
ERAG
E32
.422
.87.3
98.8
82.6
19.5
37.1
52.8
7.138
.433
5424
527
48.3
18.8
8.997
.781
.320
.238
.451
.27.7
40.1
3251
2995
1HIG
HEST
38.2
27.9
7.910
0.083
.922
.742
.555
.87.6
45.0
3445
2623
855
.521
.59.7
98.9
84.6
24.5
44.4
54.0
8.548
.635
1434
128
LOWE
ST27
.219
.46.7
96.6
81.2
16.3
32.2
47.8
6.731
.632
2120
574
40.6
14.1
8.195
.878
.315
.630
.946
.27.1
33.2
3021
2664
3CV
(%)
7.06.4
11.0
1.72.3
9.56.9
8.95.2
8.34
107.6
7.315
.43.4
2.712
.57.1
9.15.1
8.04
7LS
D (5%
)2.8
1.81.0
2.02.3
2.33.1
5.70.5
3.915
229
244.6
1.71.7
4.12.7
3.13.3
5.60.5
4.017
525
62
2 Yea
r Ave
rages
2016
- 201
5BR
AND /
HYBR
I DRM
TRT
TRAIT
%DM
GT/A
%STD
IVDAD
FND
FND
FDCP
STR
MK/T
MK/A
%DM
GT/A
%STD
IVDAD
FND
FND
FDCP
STR
MK/T
MK/A
GREA
T LAK
ES 45
48ST
XRIB
95P5
001,2
,3,6
31.0
24.3
7.5*
9982
.618
.136
.752
.57.5
39.1
3374
2613
242
.921
.98.5
*99
81.3
18.7
36.7
49.1
7.742
.132
7928
938
GREA
T LAK
ES 48
79ST
XRIB
98P5
001,2
,3,6
29.9
25.8
7.7*
9883
.119
.738
.856
.47.0
36.2
3388
2606
237
.124
.28.8
**99
81.7
20.3
39.2
53.4
7.338
.532
8428
934
NuTe
ch/G
2 GEN
ETICS
5F-19
6™96
P500
1,2,4
33.9
23.7
8.0**
9782
.819
.437
.754
.37.0
38.3
3382
2726
639
.522
.28.6
*93
82.8
19.2
37.7
54.4
7.640
.333
6229
754
AVER
AGE
31.6
24.6
7.798
.182
.819
.137
.754
.47.2
37.9
3381
2648
639
.822
.88.6
97.1
82.0
19.4
37.9
52.3
7.540
.333
0829
209
HIGHE
ST33
.925
.88.0
99.0
83.1
19.7
38.8
56.4
7.539
.133
8827
266
42.9
24.2
8.899
.482
.820
.339
.254
.47.7
42.1
3362
2975
4LO
WEST
29.9
23.7
7.597
.082
.618
.136
.752
.57.0
36.2
3374
2606
237
.121
.98.5
93.3
81.3
18.7
36.7
49.1
7.338
.532
7928
934
CV (%
)6.6
5.69.8
2.82.3
8.86.9
8.04.7
7.24
97.0
7.412
.23.3
2.611
.16.9
8.64.9
7.94
7LS
D (5%
)1.8
1.10.6
2.31.6
1.42.2
3.60.3
2.311
019
572.6
1.30.9
2.71.8
1.92.2
3.70.3
2.711
818
73
** Hi
ghes
t Yield
ing Hy
brid
* No
t Sign
ifican
tly Dif
feren
t from
High
est Y
ielding
Hybri
d
DT/A
DT/A
DT/A
DT/A
Delta
Meno
mine
e - Ea
rlyYIE
LD%
QUAL
ITYMI
LK 20
06YIE
LD%
QUAL
ITYMI
LK 20
06
Delta
Meno
mine
e - Ea
rlyYIE
LD%
QUAL
ITYMI
LK 20
06YIE
LD%
QUAL
ITYMI
LK 20
06
- 46 -
2 Yea
r Ave
rages
2016
- 201
5BR
AND /
HYBR
I DRM
TRT
TRAIT
%DM
GT/A
%STD
IVDAD
FND
FND
FDCP
STR
MK/T
MK/A
%DM
GT/A
%STD
IVDAD
FND
FND
FDCP
STR
MK/T
MK/A
DAIRY
LAND
SEED
Hi DF
-3099
-999
C500
1,2,3,
4,633
.026
.68.8
*95
82.5
35.5
27.7
44.2
8.837
.833
4929
466
31.9
26.7
8.6*
9782
.853
.318
.836
.99.8
37.2
3368
2879
3DA
IRYLA
ND SE
ED Hi
DF-37
02-9
102
C500
1,2,3,
430
.726
.48.1
9384
.238
.728
.045
.38.5
37.2
3458
2855
829
.326
.57.9
9485
.357
.517
.634
.69.6
38.9
3541
2836
4DY
NAGR
O D3
7SS6
097
P500
1,2,3,
4,635
.422
.58.0
8985
.036
.024
.944
.08.4
42.1
3536
2956
731
.523
.67.6
100
85.1
55.7
16.6
33.6
8.940
.835
3827
548
GOLD
EN HA
RVES
T G95
D32-3
110
95C2
501,2
,4,6
35.3
24.4
8.6*
100
82.9
33.6
25.5
40.4
7.939
.733
4729
038
35.3
24.4
8.3*
100
83.8
48.6
15.3
31.5
8.640
.533
9627
992
GREA
T LAK
ES 45
48ST
XRIB
95P5
001,2
,3,6
35.6
23.7
8.4*
9884
.136
.326
.344
.58.0
38.4
3417
2884
833
.124
.18.0
9984
.355
.417
.635
.18.5
37.0
3414
2804
3GR
EAT L
AKES
4879
STXR
IB98
P500
1,2,3,
634
.725
.18.7
*97
84.2
36.6
26.9
44.4
8.138
.834
5229
778
32.3
25.8
8.3*
100
84.7
55.2
17.7
34.2
8.737
.934
6928
663
GREA
T LAK
ES 52
83ST
XRIB
102
P500
1,2,3,
633
.526
.98.9
**99
84.5
35.5
25.6
43.7
8.040
.535
0131
523
31.6
28.0
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9282
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2924
629
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360
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2 GEN
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3356
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34.0
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2928
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9216
28
MILK
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TRIAL
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2006
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LAND
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2930
139
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LAND
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32.2
26.4
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35.6
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1,2,3,
4,639
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3331
585
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7631
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and N
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131
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2 GEN
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7230
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AGE
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24.2
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.117
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39.7
3386
2985
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28.5
9.110
0.085
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43.5
3533
3158
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.181
.416
.233
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35.6
3217
2613
7CV
(%)
6.58.4
10.2
11.4
2.29.6
7.86.7
4.78.4
47
LSD (
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2.01.6
0.79.1
1.51.4
2.32.9
0.32.8
107
1819
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ghes
t Yield
ing Hy
brid
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ielding
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mine
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YIELD
% QU
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MILK
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YIELD
% QU
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MILK
2006
DT/A
DT/A
TABL
E 9 -
Con
tinue
d fro
m p
age4
3.IO
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LA C
OUNT
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TRI
ALS
(105
Day
and
Earli
er)
ZONE
4
- 47 -- 47 -- 47 -
2016FUNGICIDE EFFECTS ON MICHIGAN CORN PERFORMANCE
A.M. Byrne and M.I. ChilversDepartment of Plant, Soil, and Microbial Sciences
Michigan State University
Plots were established at the Michigan State University Agronomy Farm, East Lansing, MI. Corn variety ‘P9807R’ was planted on 19 May with 30 in row spacing and the experimental design was a randomized complete block. Plots were four rows wide and 22 ft long, with 3 ft alleys between plots. Fertilizer was added on two occasions: 12 Gal/A of 16% N at planting and 45 Gal/A of 45% N was side dressed on 12 Jun. Plots with stand counts higher than the desired population (34,848) were thinned on 1 Jul. Northern leaf blight (NLB) inoculum was applied to all plots on 15 Jun, by evenly spreading 92.5 lb of infested sorghum grain over the fi eld. There were a total of 10 treatments and fi ve replicates; fungicides were applied on 16 Jun (V5), 22 Jun (V6), 20 Jul (R1), 25 Jul (R1, timed for western bean cutworm control), and 4 Aug (R2). No irrigation was provided. Fungicides were applied with a hand-held spray boom pressurized with CO2 at 40 psi. The boom consisted of six nozzles (Teejet 11001VS) spaced 20 in apart and was calibrated to apply 15 gal/A. Gray leaf spot (GLS) and NLB severities were determined by estimating the percent leaf area with lesions on the ear leaf and ear leaf +1 from 10 plants in the
DIXz values Plant stage Ear Leaf Ear Leaf +1 Yield Treatment, rate/A (date) NLBy GLS NLB GLS (bu/A) Non-treated 30.0 a 0.9 ab 33.9 a 0.9 200.96 Aproach Prima 2.34 SC, 6.8 fl oz R1 (20 Jul) 17.3 ab 0.9 ab 16.0 a-d 1.0 209.80 Aproach Prima 2.34 SC, 6.8 fl oz Aproach 2.08 SC, 6 fl oz + Tilt 3.6 EC, 3 fl oz
R1 (20 Jul)
R2 (4 Aug) 9.1 cd 0.9 ab 7.2 ef 0.9 209.38 Hero 1.24 SC, 6.4 fl oz + Preemptor 3.22 SC, 5 fl ozx R1 (20 Jul) 10.2 cd 1.0 a 10.5 b-e 1.0 208.96 Hero 1.24 SC, 6.4 fl oz + Preemptor 3.22 SC, 5 fl ozx R1 (25 Jul) 6.8 d 0.9 ab 4.3 f 0.9 204.42 Stratego YLD 4.18 SC, 2 fl oz V6 (22 Jun) 29.9 a 0.9 ab 32.7 a 0.9 213.18 Stratego YLD 4.18 SC, 4 fl oz R1 (20 Jul) 16.6 bc 0.8 bc 20.1 ab 0.8 216.88 Stratego YLD 4.18 SC, 2 fl ozStratego YLD 4.18 SC, 4 fl oz
V6 (22 Jun) R1 (20 Jul) 14.7 bc 0.8 c 18.0 abc 0.8 206.00
Trivapro 2.2 SE, 14.5 fl ozx V5 (16 Jun) & R1 (20 Jul) 9.4 cd 0.8 abc 9.8 def 0.9 211.28 Zolera FX 3.34 SC, 5 fl oz R1 (20 Jul) 15.3 bc 0.7 c 9.3 c-f 0.8 193.26 P-value <0.0001 0.0080 <0.0001 0.1396 0.4339 z Disease indexy Column numbers followed by the different letters are significantly different at P=0.05, as determined by least square means comparison.x Treatments applied with Induce at 0.25% v/v.
center two rows (fi ve from each row) for each plot on 12 Sep. A disease index (DIX) that accounted for both severity (DS) and incidence (DI) was calculated for each disease: DIX = DI*(DS/100). The center two rows of each plot were harvested on 21 Oct. Yields were adjusted to 15.5% moisture. Data were analyzed using SAS 9.3 PROC MIXED method (SAS Institute, Cary, NC).
NLB pressure was high, while GLS incidence was very low. All treatments, except the single application of Aproach Prima at R1 and the low rate of Stratego YLD at V6, resulted in signifi cantly lower DIX scores for NLB on the ear leaf, compared to the non-treated. Results were similar for the ear leaf +1, except that none of the Stratego YLD treatments signifi cantly reduced DIX values. For GLS, both the double application of Stratego YLD and the Zolera FX treatments signifi cantly reduced DIX scores, compared to the non-treated. There were no signifi cant differences noted for GLS on the ear leaf +1 ratings. Similar to previous years, despite some disease suppression, no products resulted in signifi cantly higher yields, compared to the non-treated.
Introduction
THANK YOU TO OUR FARM COOPERATORS:ZONE 1
Baker-Ladd Farms, Blaine Baker, ClaytonGeorge Brossman, Vandalia
Kyle Huff, ColdwaterOSU NW Experiment Station, Matt Davis &
Richard Minyo Hoytville, OhioMatthew Talladay, Milan
ZONE 2Fred Gross Farms
Peggy Gross & Dick Birchmeier, New LothrupJorgensens Farm Elevator
Jerry Jorgensen & Mike Turner, WilliamstonEadie Farms
Arden Eadie, ConklinMSU Agronomy Farm, Mike Particka, East Lansing
Jim & John Schipper, MartinZONE 3
Karnatzs Farms, Scott KarnatzsRobert Oshe & Jacob Zwagerman, CusterWil-le Farms, Ron & Ed McCrea, Bad Axe
ZONE 4/5VanDrese Farms, Cornell
Johnson Dairy Farm, Dave Johnson, DaggettRobert Lee, Marion
Jeremy & Tim Beebe, WhittmoreBahrman Potato Farm, Daniel & David Bahrman
THANK YOU TO THOSE WHO HELPED:Chris Kapp
Kaitlin FlemingJeremiah Hartsel Andrew Bahrman
Matthew McMoodyNicholas Wanczyk
Mason SitarKevin Quiros Martinez
Romain Krudup
MSU is an affi rmative-action, equal-opportunity employer, committed to achieving excellence through a diverse workforce and inclusive culture that encourages all people to reach their full potential. Michigan State University Extension programs and materials are open to all without regard to race, color, national origin, gender, gender identity, religion, age, height, weight, disability, political beliefs, sexual orientation, marital status, family status or veteran status. Issued in furtherance of MSU Extension work, acts of May 8 and June 30, 1914, in cooperation with the U.S. Department of Agriculture. Jeff Dwyer, Director, MSU Extension, East Lansing, MI 48824. This information is for educational purposes only. Reference to commercial products or trade names does not imply endorsement by MSU Extension or bias against those not mentioned. This bulletin becomes public property upon publication and may be reprinted verbatim as a separate or within another publication with credit to MSU. Reprinting cannot be used to advertise a commercial product or company.
Weather
Zone 1 Grain Early - 107 Day and Earlier
Zone 1 Grain Late - 108 Day and Later
Zone 2 Grain Early - 101 Day and Earlier
Zone 2 Grain Late - 102 Day and Later
Zone 3 Grain Early - 97 Day and Earlier
Zone 3 Grain Late - 98 Day and Later
Zone 4 Grain - 80-96 Day
Zone 5 Grain - 93 Day and Earlier
Conventional - 101 Day and Earlier
Conventional - 102 Day and Later
Corn Grain Agronomics
Corn Grain Hybrid Index
Corn Silage Performance Trials
Corn Silage Agronomics
Zone 1 Silage Early - 110 Day and Earlier
Zone 1 Silage Late - 111 Day and Later
Zone 2 - 3 Silage Early - 104 Day and Earlier
Zone 2- 3 Silage Late - 105 Day and Later
Zone 4 Silage - 88-105 Day
Zone 5 Silage - 90-102 Day
Company Index
Corn Silage Hybrid Index
Corn Grain Performance Trials