1. Agriscience and Technology I Introduction to Soil Science
Ms. Lacross
April 2015
Agriscience and Technology I Introduction to Soil Science

2. After this unit you will be able to:1
Identify and describe soil 2
Describe the importance of soil 3
Describe and draw a soil profile

3. Soil Introduction

4. Soil Origin and Development
Pedology: The study of soil formation
V. V. Dokuchaev (Russian) is credited with laying the foundation of modern Pedology
published a careful study of Russian Soils in 1883
Hans Jenny (US) published the Factors of Soil Formation in 1941 developed 5 factors of soil formation

5. Soils Perform Several Vital Functions
Sustaining plant and animal life below and above the surface
Regulating and partitioning water and solute flow
Filtering, buffering, degrading, immobilizing, and detoxifying
Storing and cycling nutrients
Providing support to structures

6. What is Soil?

7. Soil Components

8. The Soil Body Soil is a Soil varies across the landscape
collection of natural bodies of the earths surface
contains living matter that is able to support growth of plants
Soil varies across the landscape
Pedon: Is a small section of soil extending from the surface to the depth of root penetration

9. Soil Vs Dirt
Soil
Dirt
Material which nourishes and supports growing plants
Soil out of place
Compilation of minerals, air, water, animals and other living matter
Unable to serve its original purpose
Contains an equal amount of Sand, Silt and Clay
Can not support plant life

10. Parent Material
Soil Genesis = the process of creating soil from parent material
Soils form directly from bed rock
Transported soils: developed from weathered material and are transported from their place of original origin
glacial ice: carried parent materials over the northern part of America
wind
water
gravity

11. Parent Material
Soil Genesis = the process of creating soil from parent material
Soils form directly from bed rock
Transported soils: developed from weathered material and are transported from their place of original origin
glacial ice: carried parent materials over the northern part of America
wind
water
gravity

12. Physical Properties of Soil Color, Texture, Structure and Horizons

13. Soil Components and Texture
Soil Texture describes the portion of three sizes of soil particles
Sand – largest
Silt- medium
Clay- smallest

14. 12 Texture Classes
The United States Department of Agriculture (USDA) has identified 12 soil texture classes
Sand
Loamy sand
Sandy Loam
Sandy Clay Loam
Loam
Silt Loam
Silt
Silty Clay Loam
Clay
Clay Loam
Sandy Clay
Silty Clay

15. Importance of Soil Texture
Texture is important because it affects:
Water-holding capacity—the ability of a soil to retain water for use by plants
Permeability—the ease with which air and water may pass through the soil
Soil workability—the ease with which soil may be tilled and the timing of working the soil after a rain
Ability of plants to grow—some root crops like carrots and onions will have difficulty growing in a fine-textured soil

16. Soil Texture Triangle
Way of showing proportions of sand, silt and clay in the soil
Texture determines practices that should be used.

17. Soil Texture by Feel Texture class can be determined by feel
To determine texture a person MUST be familiar with the composition of soils
Gather a bit of soil and add water droplets until the soil is moldable

18. Soil Particles Soil is made of solid particles
particles largely consist of mineral matter and organic matter
between these soil particles are open spaces called pore space
the arrangement of the solid particles and the pore space is called the soil matrix

19. Soil Structure
Aggregate: clumps of soil particles held together by moist clay, organic matter, by organic compounds

21. Soil Color
Described by comparing the color of a soil horizon with a Munsell color chart
Soil horizons have several colors
Dark colored horizons have MORE organic matter than lighter ones

22. Soil Color
Dark = organic matter
Red = iron
Brown = well drained
Grey (gley) = poorly drained
Mottled: redoximorphic concentrations, depletions = restricted aeration, poor drainage

23. Soil Horizons
System for naming soil horizons
A, B and C are the master horizons
Each layer is identified by a code: O, A, E, B, C and R

24. Soil Profile O: Organic Matter A: Top Soil E: Zone of Eluviation
Surface mineral layer where organic matter accumulates
E: Zone of Eluviation
depleted in clay, chemicals and organic matter
light colored
many soils do not have this horizon

25. Soil Profile B: Subsoil C: Weathered/aged parent material
“zone of accumulation”: where chemicals leached out of the A horizon accumulates. lower organic matter content than top soil
C: Weathered/aged parent material
little touched by soil-forming processes
soft, weathered bedrock
R: Hard Bedrock
limestone, sandstone or granite

26. Soil Taxonomy

27. Soil is as variable as leaves so we use a system to name soils
Soils Taxonomy
Soil is as variable as leaves so we use a system to name soils
Soil Taxonomy:
Six categories: order, suborder, great group, subgroup, family and series
Twelve orders in the world
More than series in the US

28. Soil orders are defined on the basis of horizons and materials
Soil Taxonomy: 6 Groups
Soil orders are defined on the basis of horizons and materials
Suborder: based on soil moisture regimes
Great Group and Subgroup: based on the presence or absence of certain kinds of soil horizons
Family: based on particle-size, temperature of subsoil horizons
Soil Series: based on a wide set of properties and are named for the local community in which the soil was first identified

29. Twelve Soil Orders
Gellisols
Histosols
Spodosols
Andisols
Oxisols
Vertisols
Aridisols
Ultisols
Mollisols
Alfisols
Inceptisols
Entisols

31. Soil Orders
Alfisols
Soils with a subsoil accumulation of silicate clay that are moderately weathered
Abbreviation: ALF
Andisols
Soils formed from volcanic materials
Abbreviation: AND

32. Soil Orders
Aridisols
Soils of Arid Environments
Arid = dry, climates lacking vegetation
Abbreviation: AID
Entisols
Very weakly developed soils
Including sandy soils
Abbreviation: ENT

34. Soil Orders
Histosols
Soils formed from organic materials
Abbreviation: IST
Inceptisols
Weakly developed soils
Excluding sandy soils
Abbreviation: EPT

36. Soil Orders
Mollisols
Soils wit thick, dark surface horizons
They are high in organic matter
Abbreviation: OLL
Oxisols
Highly weathered soils or tropic areas
Are high in Iron and aluminum-oxide
Abbreviation: OX

37. Soil Orders
Spodosols
Soils with a subsoil accumulation or aluminum, organic matter and Iron
Abbreviation: OD
Ultisols
Soils with a subsoil accumulation of clay that are highly weathered
Abbreviation: ULT

38. Soil Orders
Vertisols
Soils that undergo shrinking and swelling
Abbreviation: ERT
Gellisols
Soils of a very cold climates that contain permafrost within the soils surface
Abbreviation: EL

39. Soil Quality

40. Soil Quality
Soil Quality = the capacity of a specific soil to provided needed functions for human or natural ecosystems over the long term
can sustain plant and animal growth
can maintain air and water quality
support human health

41. Soil degradation = The loss of soil quality
Soil connects intimately to water this also means water problems
How to fix it?
BMP’s or Best Management Practices
involve keeping the soil covered as much as possible
employing management methods like mulching and cover cropping

42. Soil and Climate
Carbon sequestration: the process of storing carbon in soils, plans and elsewhere