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Range

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Range & Forest Ecology: Soils Components of Soil (plant s perspective) Mineral grains provides anchorage, pore space (H2O, air), & nutrients on exchange basis. – PowerPoint PPT presentation

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Title: Range


1
Range Forest Ecology Soils
What is soil? (from the latin solum meaning
floor) An independent 3-dimensional natural body
occupying the earths surface and capable of
supporting plant growth. Its properties result
from the integrated effect of climate and living
organisms acting upon parent material as
conditioned by relief over periods of time.
2
Range Forest Ecology Soils
3 Viewpoints Pedological soil is considered a
natural body emphasis is on geologic history
soil formation process (time scale of 103 to 107
years), with minor emphasis on practical
utilization. Edaphological consideration of
soil from the standpoint of higher plants
emphasis is on properties of soil as they relate
to plant production, e.g nutrient availability,
slope, aspect, moisture, texture (time scale of
100 to 102 years). Ecological consideration of
soil as a component of an ecosystem emphasis on
flows of energy, nutrient cycling dynamics,
microbial activity decomposition (time scale of
101 to 102 years).
3
Range Forest Ecology Soils
  • Components of Soil (plants perspective)
  • Mineral grains provides anchorage, pore space
    (H2O, air), nutrients on exchange basis.
  • Organic matter plant animal residues in
    various stages of decomposition, soil organism
    exudates can be source of plant nutrients
    through a microbially-mediated cycling process
    enhances water storage improves soil structure.
  • Soil water solvent medium for nutrients
    required by plants.
  • Soil air provides oxygen for cellular function
    atmospheric nitrogen for N-fixing organisms
    (atmosphere 78 N2).

4
Range Forest Ecology Soils
  • The development of soil can be thought of as
    occurring in two phases
  • Soil Genesis the weathering of rock substrates
    by
  • Mechanical forces expansion contraction due
    to thermal flux erosional forces by wind
    water plant roots can exert sufficient forces to
    cleave exfoliate rock fragments.
  • Chemical reactions many principal agent is
    percolating rain water charged with CO2 (weak
    acid solution) which affects carbonates
    (dissolution), feldspars micas (hydrolyze to
    clays release cations) biological processes
    form organic acids.

5
Range Forest Ecology Soils
  • Continued
  • Soil Formation Hans Jenny (1941) characterized
    soil formation (S) as a function of five
    independent variables climate (cl), organisms
    (o), topography (r), parent material (p), time
    (t).
  • S ƒ(cl, o, r, p, t)
  • Organism include such elements as the soil
    microbial community, litter inputs, vegetation
    type.
  • Parent material largely determines chemical
    characteristics of the derived soils.
  • ? The interaction of organisms parent material
    with climate produce a soil with characteristic
    features.
  • Jenny, H. 1941. The factors of soil formation.
    New York McGraw-Hill.

6
Range Forest Ecology Soils
Continued Parent material is the state of the
soil system at time zero for a particular set of
soil-forming environmental factors.
Rocks Minerals In Place Transported Agent Gravity Water Ice Wind Parent Materials Residual Less than ½ of earths surface Colluvial Gravity-induced Alluvial Flood plain Marine Fluctuating sea level Lacustrine Lake deposit Glacial Till, outwash Aeolian - Loess
7
Range Forest Ecology Soils
Soil Profile Development Soil formation is
largely a biochemical process, whereby
  • Organic material (plant roots, litter inputs,
    soil organisms) mixes with inorganic mineral
    fractions.
  • Microbial activity accelerates chemical
    weathering.
  • Primary/original minerals are transformed into
    secondary minerals.
  • Resulting in development of horizons with
    characteristic color, textural structural
    qualities.

8
Range Forest Ecology Soils
Soil Profile Development continued
  • Regolith Unconsolidated layer above hard,
    unweathered, bedrock
  • Solum Upper portion of the regolith that has
    been altered through biochemical and physical
    processes.  The material between the solum and
    bedrock is referred to as the C horizon.  It is
    slowly changing into solum.
  • Pedon A 3-D sampling that displays the full
    range of properties that are characteristic of a
    soil (1-10 m2).
  • Soil Profile One vertical face of a pedon. 
  • Soil Horizons Horizontal layers,
    differentiated by color or texture, described
    within a profile

9
Range Forest Ecology Soils
Soil Profile Development typical horizons
Master Horizons O Organic horizon (gt20 OM by
weight) partly or mostly decomposed OM found in
wetlands, forest litter layers provides
nutrients (nitrogen, potassium, etc.), aids soil
structure (acts to bind particles), enhances soil
moisture retention. A Mineral horizon with
accumulated OM (lt20) typically darker than
other horizons. E Zone of maximum leaching
(eluviation) loss of clays, soluble OM, Fe
oxides common in forest soils light colored. B
Mineral horizon with accumulation (illuviation)
from above usually contains most clays and
fines usually a more dense layer. C Soil
parent material, either in situ or transported
minimal weathering and biologic activity. R
Hard, unweathered bedrock.
10
Range Forest Ecology Soils
Soil Profile Development continued
  • All master horizons will not necessarily occur
    in a single soil. When they do they are normally
    found in this order
  • Master horizons can be subdivided using numbers,
    ex. A1-A2-A3

11
Range Forest Ecology Soils
O Horizon
12
Range Forest Ecology Soils
A Horizon
  1. Humus accumulation in mineral soil
  2. Darkened color

13
Range Forest Ecology Soils
E Horizon
  1. Zone of maximum eluviation loss of organic
    matter, clays, and/or Fe-oxides
  2. No humus accumulation lighter color

14
Range Forest Ecology Soils
B Horizon
1. Illuviated - accumulation of clays (silicate,
Fe Al oxides), O.M., CaCO3, ... - usually, from
above (A or E) some from sides or below 2.
Complex in highly developed soils - numerous
subdivisions, e.g. color, lime, structure, etc.
15
Range Forest Ecology Soils
C Horizon
1. Unconsolidated material 2. Little affected by
weathering processes
16
Range Forest Ecology Soils
Physical Properties Texture Structure 1)
Texture Characterization of the solid inorganic
phase of soils refers to the relative
proportions of sand, silt clay called the
soil separates constitute the fine earth
fraction (diameter lt 2 mm) of the soil.
Very Coarse Sand Coarse Sand Medium Sand Fine
Sand Very Fine Sand
Diameter (mm) 2.0 1.0 1.0 0.5 0.5 0.25 0.25
0.1 0.1 0.05 0.05 0.002 less than 0.002
Soil Separate Sand Silt Clay
17
Range Forest Ecology Soils
  • Physical Properties Texture Structure
  • 1) Texture Continued
  • Rock fragments (diameter gt 2 mm) are described
    separately on a pedon description modifiers are
    used when rock fragments occupy more than 15
    percent by volume, ex. gravelly sandy loam.
  • Organic horizons (Oi, Oe, Oa) are described
    based on the degree of decomposition (fibric,
    hemic, sapric, etc.).

18
1) Texture Continued Particle Size
Analysis 1. In the laboratory mechanical
analysis - Sands are determined by sieving - Silt
and clay is determined based on settling time
using Stoke's Law
19
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20
Texture Continued 2) Steps to determine soil
texture in the field by feel have been
developed useful for a quick dirty estimate
requires practice (see handout).
21
Range Forest Ecology Soils
Physical Properties Texture Structure 2)
Structure Soil structure is the way soil
particles aggregate together into what are called
peds. Peds come in a variety of shapes depending
on the texture, composition, and environment.
22
Range Forest Ecology Soils
  • Physical Properties
  • 2) Structure Continued
  • Agents that bind aggregates promote stability
    fungal mycelia, microbial exudates, H Ca ions,
    clays.
  • Structural stability is the capacity for the peds
    to retain their shape, i.e. absorb water not
    disintegrate.
  • Soil aeration, water movement, plant root
    penetration are greatly enhanced by good soil
    structure.

23
Range Forest Ecology Soils
Soil Chemistry Important aspect is the
relationship between the ions (i.e. nutrients)
(a) in soil solution, (b) adsorbed on charged
particles, (c) as constituents of mineral
organic fractions, which tend towards
equilibrium dynamic interaction.
24
Range Forest Ecology Soils
Nutrient Uptake by Plants
Exchangeable ions Surface adsorption
Soil Air
Soil Solution
Organic Matter Biota
Solid phases Minerals
Rainfall, Evaporation, Drainage, Addition of
Fertilizer
25
Range Forest Ecology Soils
  • Soil Chemistry
  • The availability of plant nutrients are most
    directly influenced by (1) soil pH, and (2)
    cation exchange capacity (CEC).
  • 1) Soil pH
  • Strictly, measure of the hydrogen ion
    concentration in solution -log10H H
    concentration (activity) of H
  • Neutrality is pH 7 (H OH-)
  • As acidity ? , pH ?

26
Range Forest Ecology Soils
pH range in soils
27
pH vs Availability of Nutrients
Strongly Acid
Strongly Alkaline
Med. Acid
Slightly. Acid
Very Slightly Acid
Very Slightly Alkaline
Slightly Alkaline
Med. Alkaline
Nitrogen
Phosphorus
Potassium
Sulfur
Calcium
Magnesium
Iron
Manganese
Boron
Copper and Zinc
Molybdenum
4.0 4.5 5.0 5.5 6.0 6.5
7.0 7.5 8.0 8.5 9.0
9.5 10.0
28
Range Forest Ecology Soils
Soil Chemistry 2) Cation Exchnage Capacity (CEC)
Measure of the number of negatively charged
sites on charged particles that attract
exchangeable cations (via electrostatic charge).
Mineral particle OM fraction (Humus)
29
Range Forest Ecology Soils
  • Important CEC properties
  • Size of CEC determined by soil properties
    (permanent pH-dependent charge)
  • Large quantity of nutrients can be held on CEC
    (particularly clay)
  • Provides rapid buffering for most cations
  • Exchangeable ions held against leaching
  • Exchangeable ions readily available through
    cation exchange

30
Range Forest Ecology Soils
  • Summary
  • Components of soil are mineral grains (anchorage
    nutrients), organic matter (nutrient cycling),
    water (solvent medium), air (oxygen
    nitrogen).
  • Soil formation is the product of climate,
    organisms, topography, parent material, time.
  • Soil profile development encompasses the
    interaction of the above factors to develop
    characteristic soil horizons.
  • Soil texture refers to content of sand, silt,
    clay particles.
  • The nature arrangements of peds aggregate
    stability are the most significant
    characteristics of soil structure.
  • The central concepts in soil chemistry are based
    on the equilibrium of ions in solution.
  • CEC is a measure of exchangeable cations on
    negatively charged sites in the soil, is
    influenced by the presence kinds of clay
    minerals humus.

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