Post on 11-Apr-2022
NREM 301Forest Ecology & Soils
Day 15 – October 7, 2008
1. Review Quiz2. Tree & Stand Growth3. Lab today – Tree & Stand Growth (Reactor Woods)4. Soper’s Mill Cross-section Due Thursday4. Take Home Test next Tuesday
Provide definitions for the following terms:a) Horizontal stratification – variation in clipsrot along a
horizontal transectb) Ecosystem forming factors – Clipsrot – spell out each
one and include s.c) Conservation easement – constraints placed on land to
protect against future development – stay with the deed, not owner.
d) Elluviation – loss of clay and some minerals by leaching – process involved in E horizon development
e) Soil biosequence – changes in soils due to changes in vegetation or Cliprot – O. Other factors like r (topography) held constant.
f) Gravitational water – water held in macropores in the soil for a short period after a rain event – water that drains in response to gravity because of the large size of the macropores it is in – usually soils drained after rain in 24-48 hours – moves to fast to be of use to plants
Vertical & Horizontal Stratification
Vertical Stratification – various canopies in forest
Horizontal Stratificationlake, floating plant mat, forest
Gravitational Water – pulled down through macropores by gravity – not of much use to plants – not around long.
Field Capacity – water held against gravity by forces of tension (cohesion/adhesion) – readily accessible to plants
Available Water – roots can produce enough tension to pull water away from soil particles – water enters plant
Wilting Point – tension at which water is held so tightly that plants cannot pull it out of soil
Kinds of Soil Water
Page 17
Individual - 2 This stream is:a) Autochthonous or Allochthonous
inputs of carbonb) Heterotrophic or Autotrophicc) Why – Give examples to support
your answer.d) Is embeddeness a problem – why
or why not? (Not in picture)
River Continuum ConceptHeterotrophic/Allochthonous
Autotrophic/Autochthonous
Individual 3For each structural element below identifya soil horizon where it is most likely to be found
AB
C D
B horizons
E Horizon A Horizon
Diagram a stream showing the following parts:
2 pools2 rifflesAt least 1 point barAt least 1 runThe Thalweg through the whole diagram
Group 1
Meandered Reach
Straight ReachRun
Roots on this big tree are more exposed on the uphill or downhill side? Why?
What Slope Position are They On?What positions are above & below this one?
What major species of trees would you expect to see on this N-facing slope?On a S-facing slope?
Parent Material on this summit is?How does soil depth here compare to that on a back slope & footslope?
Group 2Soper’sMill Sitea
b
c d
More exposed downhill side because of sediment deposition on the uphill side and erosion on the downhill side.
S-facing: red oak, white oak, hickory, ironwoodN-facing: sugar or black maple, basswood, ash, hackberryNeed 2 on each slope.
Backslope, shoulder above, foot below
Glacial tillSoil deeper on summit than backslope – summit deeper than or equal too footslope – with more developed horizons
Identify the Soils You Would Expect At Each Number By Name
12
5 6
78
9 10 11
1243
ConcentricDepression
Elongated Depression
Group 3Central IowaDoolittle, Reactor WoodsSkunk River Greenbelt
Har
ps
Oko
boji
Stor
den
Web
ster
/Can
iste
ao
Cla
rion
or N
icol
let
Hay
den
Stor
den
Terr
ill Coland Spillville
Hanlon
Soil Landscape Model for Central Iowa
Coland-Spillville-ZookAssociation
Hayden-Lester-StordenAssociation
Clarion-Webster-NicolletAssociation
Upland Soils – Clarion-Webster-Nicollet Association
Note: Parent materials – glacial till or local alluviumUpland depressional soil sequence from center out –
Okoboji 6, Harps 95, Canisteo 507Webster 107 - depressional, non-circular soil
Best drained soils – Clarion 138 & Storden 62 but Storden is erodedNicollet – somewhat poorly drained
Upland Hillslope Soils – Hayden-Lester-Storden Association
Parent Materials – Glacial Till, Colluvium, Alluvium, Bedrock
Lester – summit, shoulder, well-drained, loam, formed under savanna vegetation
Hayden – shoulder, upper back slope, well-drained loam, formed under forest
Storden – back slope, shallow loam, well-drained, formed under forestTerril – foot slope, well-drained loam, formed under forest
Coland – foot slope, poorly drainedClay loam along small creeks
Flood Plain Soils Along the Skunk River
Coland-Spillville-Zook Soil Association Flood Plain-Toe Slope
Parent Material –Alluvium
Spillville – blackLoam, moderatelyWell drained
Coland – blackClay loam, poorlydrained
Zook – blackSilty clay loam,Poorly drained
Hanlon – natural levee, sandy loamWadena & Biscay minor soils
What Plant Communities Marched Through Iowa Since The Retreat of the Last Glacier? Why?
Why are Savanna Often Found on Shoulders, Deciduous Forests on Back, Foot & Toe Slopes, & Conifers Nowhere?
Team Activity
2,500,000 to 500,000 years300,000 – 130,000 years30,000 – 10,500 years Glacial Changes Over Time – EcosystemsChanged Also
Use Figure 3.5 in the text to describe the major plant communities that have existed in Iowa over the past 18,000 years
Page 49
X X
XX
10,500 – 30,000 ybp500,000 – 2,500,000 ybp 130,000 – 300,000 ybp
What sequence of plant communities preceded the Soper’s Mill Deciduous forest that we visited since the most recent glaciation?
TundraBoreal ForestMixed Conifer/DeciduousEastern DeciduousSavannaTall Grass Prairie/Savanna? Climate Change2030 – temp + 5 F precip + 1”2095 – temp + 12 F precip + 20”
Des Moines Register 10-05-08
1
2
3456
78
11
12
7 9
10
MatchBiome Name
With MapNumber
Coastal Plain Conifers
Tall Grass Prairie
Central Valley
Mountain conifers &Semi-arid shrubland
Tundra
Short Grass Prairie
Great Basin Desert
Intermountain Grassland
Mixed Prairie
Boreal
Pacific Coast Conifer Forest
Eastern Deciduous
Team Activity
Biomes:
1 Tundra
2 Boreal
3 Eastern Deciduous
4 Tall Grass Prairie
5 Mixed Prairie
6 Short Grass Prairie
7 Mountain conifers &Semi-arid shrubland
8 Great Basin Desert
9 Intermountain Grassland
10 Central Valley
11 Pacific Coast Conifer Forest
12 Coastal Plain Conifers
1
2
3456
78
11
12
7 9
10
Tree & Stand Growth
Please look at Reactor Woods Lab Handout
Each team has been assigned 1 or 2 topics to describe
Take a large sheet of paper and markers and prepare to present your information to a “Master Woodland Managers” workshop.
Workshops are offered to private citizens who want to learn more about trees and managing forests. Give 30 hrs of volunteer labor after finishing. Offered by ISU Extension.
Make diagrams large enough for all to see – you will present the information to the class (workshop attendees).
This is an Interpretation Exercise
Group 1 - #’s 1 & 2 Group 2- # 3 & 4
Group 3 - # 5 Group 4- # 6
Group 5 - # 7 Group 6 - # 8
Group 7 - # 9 Group 8 – # 10
Group 9 - # 11 Group 10 - # 12 & 13