1. We All Want Food that is Plentiful Nutritious Safe

4. To Your Good Health (Soil) Keep pH near neutral Avoid Compaction Maintain Good Moisture Promote Drainage Good Temperature Organic Matter

5. Purpose of Soil Health Promote Plant and Animal Systems Promote Clean Water Prevent Soil Erosion Promote Good food + Human Health Promote Life !

6. Topography begins the story

7. Parent Material Materials from volcanoes, sediment transported by wind, water, or glaciers are some examples.

8. Parent Bedrock affects Soil types Limestone + CaCO 3 Igneous Rocks + minerals

9. Soil Formation takes Time

10. Soil Begins to Develop on a Columbia River Lava Flow Gotta’ start somewhere!

11. Time It takes hundreds of years to form one inch of soil from parent material.

12. Soil Profile : thin soil layers shown

13. Soil, on average, consists of 45% mineral, 25% water, 25% air and 5% organic matter.

14. How does soil form? = weathering product of minerals/rocks 5 factors influencing soil formation:  Parent materials (volcanic, limestone?)  Climate (temp, rainfall)  Topography (slope, landform)  Vegetation (inputs)  Time Soil Profile: understanding soil “layers”  O, A, B, C

15. Climate Weathering processes like the cycles of freezing and thawing, along with wetting and drying vary with each region.

16. Soil Particle Size Relativity This diagram demonstrates the difference in size between the various soil elements.

17. Soil Particle Size Soil is composed of many particles of varying sizes. Soil scientists have classified soil particles into three major groups: Sand, Silt and Clay. Sand particles are the largest and tend to hold little water (good drainage) and allow good aeration. Clay particles are very small in size and tend to pack down so that water does not drain well and little or no air can penetrate. Can result in wetland type soils. Silt particles are medium sized and have properties in between those of sand and clay.

18. Particle Size + Soil type = Soil Name

19. Soils get their names by what soil elements are found together and in what ratios. A soil that is 55% Clay & 45% Silt would be a Silty Clay. If the percentages were reversed, the soil would be a Clayey Silt.

20. LOAM SOIL A loamy soil, is one that combines all three of these types of particles in relatively equal amounts. Loamy soil is ideal for most garden plants because it holds plenty of moisture but also drains well so that sufficient air can reach the roots.

21. Soil consists of: minerals and weathered rock fragments organic matter Gases water living organisms Regolith are minerals and weathered rock fragments. Humus is decayed organic matter.

22. Blue-green Algae inhabit soils and add nutrients

23. What Controls Rate of Decay Temperature Moisture Food Supply Oxygen C:N Ratio

24. Fungi Hundreds of Thousands per Gram Perform Functions Similar to Bacteria –Decomposition Important in Plant Nutrition –Mycorrhizae (fungus root)

25. Mycorrhizae Mutualism Benefits Plant and Fungus –Ectomycorrhizal Hyphae do not penetrate root cells –Endomycorrhizal Hyphae do enter root cells Arbuscular Very Common –90+ % of plant families

26. Roles of Bacteria Nitrogen Fixation Mineralization Organic Matter Decomposition Soil Stabilization Aeration

27. Root Nodules with N-fixing symbiotic bacteria. Experiments without/ with N-fixing bacteria

28. Soil Animals Earthworms Mites Nematodes Protozoa Beetles Termites

29. Earthworms are decomposers

30. Ameba attacks bacteria Fungus attacks ameba

31. Bacteria attacks fungus Fungus attacks nematode Beetle grub attacks plant roots

32. Centipedes, Isopods, and Mites are predators

34. (Campbell and Reece, 2005) Biologically important Reservoirs: atmosphere++, soils & sediments, surface water, biomass Key processes: nitrogen fixation

35. Basic Soil Structure : Layers (horizons) that change with time O = organics, at surface A = zone of leaching, (+) ions removed, organic rich (dark) B = zone of accumulation or ions and clays and metals (red, rusty, clay rich C = partially weathered bedrock Bedrock = Parent Material

36. What is a soil profile? A soil profile consists of several soil horizons. O horizon = This is the layer of humus on the ground surface. A horizon = Top soil; Rich in organic matter. Typically has dark color. Also called zone of leaching. B horizon = Subsoil; Also called zone of accumulation. May contain soluble minerals such as calcite in arid climates (caliche). C horizon = Weathered bedrock or saprolite (rotten rock). Bedrock lies below the soil profile.

40. A nutrient poor canopy adds does little to neutralize acidic soils

41. A nutrient rich canopy adds a lot of alkaline nutrients to the soils, neutralizing acidic soils

43. Water infiltration in Soils

44. A thin surface crust caused by raindrop impact on a bare soil of poor structure

46. Crusting and subsurface compaction can result in serious losses of water and soil

47. Erosion can create deep channels carrying away topsoils in Africa

48. Calcification of Soils – too much irrigation

49. The white are calcium salts

50. Fight Against Soil Erosion

51. Contour Plowing to preserve soils

52. Soil erosion Soil may be eroded due to the action of water (runoff) or wind. (Please note that weathering and erosion are two different things). Soil is transported by streams, and most will eventually be deposited on a floodplain or at the mouth of the river in a delta. The Dust Bowl of the 1930's was due to wind erosion of soil following extended drought and over-tilling of the soil.