Bhasin Wednesday - Washington State University
Transcript of Bhasin Wednesday - Washington State University
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Fine-Tuning Organic Nitrogen Fertilizer Sources, Rates, and Cut-Off Times in Organic Highbush Blueberry
Amit Bhasin, M.S StudentIrrigated Agricultural Research and Extension Center (IAREC)
Prosser, WA
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Washington Leads in Organic Blueberry Production
Washington State is the largest national producer of organic highbush blueberries
~ 46% of nation’s organic production~ $38 million estimated value
Source: USDA-NASS, 2017
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Background - Why Eastern Washington?
• 75% of WA’s organic blueberry acreage • Unique soil and climatic conditions within the PNW• Little research on nutrient management• Recommendations from other states (e.g. Oregon) may not be
applicable
Source: Brady et al., 2015; Dancer et al., 1973; Hart et al., 2006
Variable Requirements for
blueberry
Native soil conditions in
eastern Washington
pH 4.0-5.5 7.5-8.3
Organic matter High (3-5%) Low (<1%)
Predominate form of nitrogen NH4-N NO3-N
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• Blueberry cultivars respond differently to organic fertilizer nitrogen (N) sources
• ‘Duke’ performed better with fish emulsion, while ‘Liberty’ performed better with feather meal
• In western Oregon, higher yields have been associated with lower N fertilizer rates
• Little research on nutrient management in eastern WA
Source: Larco et al., 2013 Photos: Lisa DeVetter
Background – Fertilizer Source and Rate
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• Climactic conditions in eastern Washington are unique for blueberry
• There may be a benefit to post-harvest applications of fertilizer N in early-fruiting cultivars
Potential Benefits: • Post-harvest N application may encourage lateral shoot growth
and provide additional fruiting wood for the following season• Contribute to N storage pool in plant• Bañados et al. (2012) showed late-season N application increased
dry weight allocation and N concentrations in leaves and shoots Potential drawback :• N applied too late can reduce fruit bud set and/or delay
acclimation
Background - Nitrogen Timing
Source: Bañados et al., 2012; Throop and Hanson, 1997 Photos: Lisa DeVetter
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Objectives
Experiment #1 – Source and Rate • Evaluate the impacts of commercially available organic N fertilizer
sources applied at low, medium, and high rates on blueberry plant growth, development, yield, and soil characteristics
Experiment #2 – Timing of N Cut-Off• Study the impacts of post-harvest N fertilization on plant growth,
yield, fruit bud set, and cold hardiness in an early-fruiting cultivar
Both experiments conducted in eastern Washington
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1. WISErgTM (3-2-2)
2. Blood Meal (14-0-0)
3. True® Fish Emulsion (4-0-2)
4. Combo (40% Blood meal + 60% WISErg)
Approach - Experiment 1 (Source and Rate)
4 N sources each applied @ 3 different ratesRates
• 50 lbs N/acre
• 100 lbs N/acre
• 150 lbs N/acre
ProPhos and ProK fertilizers were applied across all plots to maintain uniform P and K rates throughout
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• Split-Plot Design• Main plot factor - fertilizer source• Sub-plot factor - rate
• 12 plants/plot
• Each block was replicated 4 times
• Orientation: N - S
• Experiment size: 0.2 acres
Plot Design – Experiment 1 (Source and Rate)
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Approach – Experiment 1 (Source and Rate)
• Fertilizer applications began at ~5 to 10% bloom (19 April and continued to 2 July 2018)
• Blood meal applied twice in the season
• Blood meal applied with four parts water (1:4)
• Liquid fertilizers (TRUE 402, WISErg, Combo) applied every two weeks
• All fertilizers were applied around the crown of the plants
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• Lateral shoot length
• Production of suckers and whips
• Unmanned aerial vehicles (i.e., drones)
• Crop density• Canopy cover• NDVI / GNDVI – to estimate nitrogen levels
Data Collection – Vegetative Growth
Suckers
Whips
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Data Collection – Other Plant Variables
• Yield • Average berry mass• Fruit firmness using a FirmTech 2• Soluble solid content (°Brix)• Titratable acidity
Photos: Lisa DeVetter
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Estimating Nitrogen Availability
• PRS (Plant Root Stimulators) – NH4-N, NO3-N
• Temperature probes
• Soil moisture probes
Western Ag Innovations®
Data Collection- Experiment 1 Only
METER Group®HOBOTM
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Preliminary Results
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02468
1012141618
lbs/
bu
sh
Fertilizer Source
Results – Experiment 1 (Nitrogen Source and Rate)
Average Yield
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0.00
0.50
1.00
1.50
2.00
2.50
3.00
June July August September
Inch
es
Month
B. Meal 50 LBS N
B. meal 100 LBS N
B. Meal 150 LBS N
WISErg 50 LBS N
WISErg 100 LBS N
WISErg 150 LBS N
True 50 LBS N
True 100 LBS N
True 150 LBS N
Combo 50 LBS N
Combo 100 LBS N
Combo 150 LBS N
Cumulative Shoot Length
Results – Experiment 1 (Nitrogen Source and Rate)
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Treatment
Nitrogen %
50 LBS/acre 100 LBS/acre N 150 LBS/acre N
Blood Meal 1.45 1.53 1.51
WISErg (2-0-2) 1.47 1.53 1.61
True (4-0-2) 1.47 1.53 1.56
Combo 1.51 1.51 1.61
Leaf Tissue Analysis
Results – Experiment 1 (Nitrogen Source and Rate)
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0
0.5
1
1.5
2
2.5
3G
ram
s/b
erry
Fertilizer source
Results – Experiment 1 (Nitrogen Source and Rate)
Average Berry Weight
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0
25
50
75
100
125
150
175
200g.
mm
-1
Fertilizer Source
Average Berry Firmness
Results – Experiment 1 (Nitrogen Source and Rate)
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Approach – Experiment 2 (Nitrogen Timing)
• 4 treatments applied @ 125 lbs N/acre • Fertilizer source was WISErg (3-2-0)• Fertilizer applied weekly from 17 April to 22 Aug. 2018
Treatments1. Control (100% of N applied pre-harvest; standard grower practice)2. 80/20 (80% pre-harvest, remaining 20% post-harvest)3. 70/30 (70% pre-harvest, remaining 30% post-harvest) 4. 60/40 (60% of N pre-harvest and remaining 40% post-harvest)
Photos: Lisa DeVetter
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• Randomized complete block design
• 16 plants/plot
• Each block was replicated 4 times
• Orientation: S-N
• Experiment size: 0.05 acres
Plot Design – Experiment 2 (Nitrogen Timing)
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• Lateral shoot length
• Production of suckers and whips
• Unmanned Aerial Vehicles (i.e., drones)
• Crop Density• Canopy Cover• NDVI / GNDVI – to estimate nitrogen levels
Data Collection – Vegetative Growth
Suckers
Whips
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Data Collection – Other Plant Variables
• Yield • Average berry mass• Fruit firmness using a FirmTech 2• Soluble solid content (°Brix)• Titratable acidity
• Fruit bud set (N-Cut off only)• Cold hardiness (measured
monthly in October, November, and December) (N-Cut off only)
Photos: Lisa DeVetter
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Preliminary Results
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Treatment No. whips/bush Yield (lbs/bush)
Average berry mass
(g/berry)Firmness (g/mm
of deflection)
100/0 (Control) 7 32.3 1.8 196.8 abz
80/20 7 27.2 1.8 191.7 b
70/30 7 33.6 1.7 200.3 ab
60/40 7 35.1 1.7 206.2 a
P-value NSz NS NS 0.0143zNS denotes means within a column are not statistically significant due to treatment at α = 0.05.
Results – Experiment 2 (Nitrogen Timing)
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0
0.1
0.2
0.3
0.4
0.5
0.6
JUNE JULY AUGUST SEPTEMBER
INC
HES
Month
80/20 Control 70/30 60/40
Cumulative Shoot Length
Results – Experiment 2 (Nitrogen Timing)
zNS denotes not statistically significant at α = 0.05.
NS
NSNS
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zNS denotes means within a column are not statistically significant due to treatment at α = 0.05.
Leaf Tissue Analysis
Results – Experiment 2 (Nitrogen Timing)
Treatment Nitrogen%
100/0 Control 1.5
80/20 1.5
70/30 1.5
60/40 1.5
P-value NS
TreatmentYield
(lbs/bush)
100/0 (Control) 32.3
80/20 27.2
70/30 33.6
60/40 35.1
P-value NS
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TreatmentsMean NDVI
Values
100/0 (control) 0.82
80/20 0.83
70/30 0.83
60/40 0.83
P-value NSzNS denotes means within a column are not statistically
significant due to treatment at α = 0.05.
UAV Data
Results – Experiment 2 (Nitrogen Timing)
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Conclusions and Future Work
• Few differences observed in 2018
• Perennial plants have stored nutrient reserves, so treatment responses take time
• Project is in progress - need additional data for further interpretation
• Experiments will be repeated in 2019 and shared with industry
Photos: Lisa DeVetter
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Acknowledgements
▪ Graduate Committee: Dr. Lisa Wasko DeVetter, Dr. Joan Davenport, and Dr. Gwen Hoheisel
▪ Team: Mia Blom, Yareli Cureli, Prudence Diamkatso, Lav Khot, Juan Quiros Vargas, Abhilash Chandel, Sean Watkinson, Huan Zhang, Weixin Gan, and Nadia Bostan
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1. Bañados, M.P, B.C. Strik, D.R. Bryla, and T.L. Righetti. 2012. Response of highbush blueberry to nitrogen fertilizer during field establishment I: Accumulation and allocation of fertilizer nitrogen and biomass. HortScience 47:648–655.
2. United States Department of Agriculture, National Agriculture Statistics Services (USDA-NASS). 2017. Certified Organic Survey. 5 July 2018. <https://www.nass.usda.gov/Surveys/Guide_to_NASS_Surveys/Organic_Production/index.php>.
3. Hart, J., B. Strik, L. White, and W. Yang. 2006. Nutrient management for blueberries in Oregon. Ore. State Univ. Ext. Serv. EM 8918.
4. Larco, H., B.C. Strik, D.R. Bryla, and D.M. Sullivan. 2013. Mulch and fertilizer management practices for organic production of highbush blueberry. I. Plant growth and allocation of biomass during establishment. HortScience 48:1250–1261.
5. Throop, P.A. and E.J. Hanson. 1997. Effect of application date on absorption of 15N by highbush blueberry J. Amer. Soc. Hort. Sci. 122:422-426.
6. United States Department of Agriculture, National Agriculture Statistics Services (USDA-NASS). 2017. Certified Organic Survey. 5 July 2018. <https://www.nass.usda.gov/Surveys/Guide_to_NASS_Surveys/Organic_Production/index.php>.
7. United State Department of Agriculture, Natural Resources Conservation Services (USDA-NCRS). 2017.Web Soil Survey. 14September 2018. < https://soilseries.sc.egov.usda.gov/OSD_Docs/W/WARDEN.html>.
References:
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Thank you!
Questions?For more information
Phone: 509-778-1059
email: [email protected]
SFH Website: https://smallfruits.wsu.edu/
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16.00
16.50
17.00
17.50
18.00
18.50
19.00
mm
Fertilizer Source
Berry Size
Results – Experiment 1 (Nitrogen Source and Rate)
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Line break
for Y axis.
TreatmentRates
50 lbs acre/ N 100 lbs/acre N 150lbs/acre N
Blood Meal 169.24 172.26 169.31
True Fish 155.24 177.13 172.72
WISErg 170.25 162.87 178.38
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TreatmentsRates
50 lbs acre/ N 100 lbs/acre N 150lbs/acre N
Blood Meal 169.24 172.26 169.31
True Fish 155.24 177.13 172.72
WISErg 170.25 162.87 178.38
Combo 171.44 183 175.43