SOIL POWERPOINT

1. SOIL POWERPOINT

2. SOIL DEVELOPMENT • GEOLOGIC CYCLE • Soil develops relatively quickly in terms of geologic time • Soil forms at different rates in the three kinds of rock: • igneous • sedimentary • metamorphic

3. SOIL INTRODUCTION • GEOLOGIC CYCLE • The mineral component of the soil was once part of the molten liquid at the earth’s core • As the earth cooled, its surface hardened into solid rock • Outcrops of this cooled, hardened molten rock, known as igneous rock, are found in southeastern Pennsylvania

4. SOIL INTRODUCTION • GEOLOGIC CYCLE • Exposed to the assaults of weather and time, solid rock slowly and continually crumbles and disintegrates • This weathering process produces the unconsolidated mineral material in which soil forms • On stable landscape, soil develops and matures in this material directly above the weathering rock • On an eroding terrain, it is carried away by water and eventually flows into the sea

5. SOIL INNTRODUCTION • GEOLOGIC CYCLE • Water sorts transported particles by size, separating sand, silt, and clay • Clay deposits become shale, silt becomes siltstone, and sand becomes sandstone • Eventually in geologic time what was once the sea bottom • rises and becomes the sedimentary rock of dry land

6. SOIL INTRODUCTION • GEOLOGIC CYCLE • Exposed at the earth’s surface, sedimentary rock weathers anew • Deep within the earth, great heat and pressure further harden and change it into metamorphic rock

7. SOIL INTRODUCTION • GEOLOGIC CYCLE • When geologic events bring metamorphic rock to the surface, it too will slowly weather, form soil materials, erode away, and eventually form rock again • THE CYCLE CONTINUES....FOREVER….

8. SOIL • WEATHERING • Soil formation starts with weathering • Bare Rock • Buried Rock • Several factors bring about weathering • Temperature fluctuation, which causes expansion and contraction • Erosion by water, wind, and ice

9. SOIL • WEATHERING CONTINUED: • Factors that contribute to weathering: • Plant roots growing into tiny cracks, causing them to spread • Chemical reactions of soil minerals with water and air

10. SOIL • COMPOSITION • in the transformation of rock to soil, minerals undergo so many changes that the soil minerals, although remaining representative of the original rock minerals, usually change their composition

11. Soil • COMPOSITION • More than just weathered rock • Organic Matter • decomposing and decomposed parts of animal and plant material • multitude of soil organisms, mostly microscopic. • The microorganisms contribute to the weathering of minerals and the breakdown of organic residues

12. SOIL • COMPOSITION • Parent Material: The medium in which soil develops • This material is usually weathered rock in Pennsylvania, but in bogs and marshes it is decayed organic matter • Parent material • may also be loose material, gravel, for example, deposited along rivers and streams during floods

13. SOIL • Parent Material • Within the parent material processes such as leaching and redistribution of minerals take place • These processes result in the differentiation of horizons below the surface

14. SOIL • HORIZONS • A Horizon: Topsoil, has the most organic matter and is the root zone • B horizon: Subsoil layer contains higher concentrations of clay and is denser than the A horizon • C Horizon: the parent material — the altered organic deposit or the weathered bedrock • R Horizon: Bedrock is the last layer • The depth and thickness of the horizons vary with each soil

15. SOIL • VEGETATION • Vegetation will begin when soil is in place for a long time • The kind of vegetation growing affects the soil below • grasses give topsoil a well aerated, crumbly structure and high levels of organic matter • Trees contribute organic matter largely through the annual falling of leaves rather than through their root systems • forest soils tend to have low level of organic matter within the soil

16. SOIL • VEGETATION • Not only does vegetation contribute to soil development, it also reveals much about soil conditions • many species require particular ranges of soil moisture, texture, and acidity (pH)

17. SOIL • CLIMATE AND TIME • Climate is a major influence on the rate of soil development • Pennsylvania has a humid climate, with an annual rainfall ranging from 34 to 50 inches • Rainwater slowly breaks down minerals causing soil to be less fertile and more acidic

18. SOIL • CLIMATE AND TIME • Rain also very slowly carries down from the topsoil the smallest soil particles, the fine clays • Heat, as well as rainfall, accelerates the process of soil development • PA soil has greater maturity — pedologic age — than that of the same initial parent material developing in the Arctic for the same length of time.

19. SOIL • PA SOIL FORMATION • Factors include: • Weathering • Vegetation • climate and time working on the particular parent material and topography of the region

20. SOIL • PA SOIL • Many different types of bedrock underlie Pennsylvania • Southeastern and Northwestern edges were derived from sand • Southeastern part of PA derived from metamorphic rock: chist, gneiss, and quartzite — is the oldest outcrop in the state and some siltstone and igneous rock • Rest of PA is sedimentary rock — shale, • sandstone, and limestone

21. SOIL • PA SOILS • Sandstone, the hardest and most chemically resistant sedimentary rock, forms the ridge caps • Limestone, the least resistant, forms the valleys • Shale, of intermediate resistance, underlies the slopes

22. SOIL • Sandstone soils: tend to be coarse, dry out so fast that they do not support many crops • Limestone soils: in the valleys are generally fertile and productive — the. best agricultural soils in Pennsylvania • Shale soils: are fine textured and tend to be acidic and low in nutrients — with large additions of fertilizer, they are farmed

23. SOIL • STRIP MINING: • Much of the land overlying shale deposits has been ruined by strip mining, because shale contains Pennsylvania’s rich coal beds. Strip mining removes all the rock and soil material above the coal, and then backfills the depleted mine with crushed rock, called mine spoil. Because the soil surface is gone, almost nothing grows on the mine spoil, leaving a barren wasteland which erodes and clogs up streams.

24. SOIL • Strip Mining: • More acreage has been disturbed by strip mining in Pennsylvania than in any other state • 1971 legislation in PA to replace topsoil layer

25. SOIL • Residual: soils that have formed over time in a particular location • Definition: unconsolidated and partly weathered mineral materials accumulated by disintegration of rock in place • Transported: Soil not formed where it is located • Definition: The forces of ice, water, wind, and gravity carry small particles as well as rocks across the landscape. Soil forms in this transported material deposited over the original soil or bedrock

26. SOIL • TRANSPORTED SOILS: • Glacial: not well suited to row-crop agriculture, but make good pasture and hay land • Aeolian: created some of the richest agricultural soil on earth (not found much in PA) also called Loess • Colluvial: Because colluvial soils have a problematic feature called fragipans, they are often used for pastures rather than for development • Alluvial: good for farming, are generally hazardous for building because they are subject to flooding.

27. SOIL • SOIL PROPERTIES • Texture: Particle-size distribution • determines how readily air and water will pass through, be held, or be blocked by the soil • Soil texture can be felt by rubbing the soil between the thumb and fingers • The terms sand, silt, and clay refer only to size, not to the chemical makeup of the particles

28. SOIL • SOIL PROPERTIES • Active Fractions • Clay and organic matter • Soil Water • Moisture and texture determine soil strength or consistency • The balance between particle size and water content is critical both for engineering and agricultural uses of soil • Drainage conditions are often indicated by soil color

29. SOIL • SOIL PROPERTIES • Soil Ph: • A soil pH of 6.5 is optimal for most crops • Pennsylvania soils usually have a lower, or more acidic, pH because the abundant rainfall leaches out alkaline ions • Rainfall decreases from East to West in the US

30. SOIL • CLASSIFYING SOIL • Soil Series: • orders, suborders, great groups, subgroups, and families • Pedological age, temperature and water regimes, and special features such as fragipans, are some of the characteristics on which the system is based

31. SOIL • COUNTY SOIL SURVEYS • Soil surveys contain valuable data about local soils, including maps, yield potentials for each soil series, limitations for development, and detailed soil-identifying features. Surveys for most counties in Pennsylvania have been completed and are available. You can get one by requesting it from your county agent, your representative in Congress, or your local office of the Soil Conservation Service. Soil surveys for every county in Pennsylvania will be available by 1989

32. SOIL CONCERNS • EROSION • Wind or water erosion is the physical wearing of the earth’s surface. Surface soil material is removed in the process. • TWO TYPES • WIND • WATER

33. SOIL CONCERNS • EROSION SIGNS: • WIND • dust clouds • soil accumulation along fence lines or snow banks • a drifted appearance of the soil surface • WATER • small rills and channels on the soil surface • soil deposited at the base of slopes • sediment in streams, lakes, and reservoirs • pedestals of soil supporting pebbles and plant material

34. SOIL CONCERNS • How can soil erosion be avoided? • Soil erosion can be avoided by: • maintaining a protective cover on the soil, • creating a barrier to the erosive agent, • modifying the landscape to control runoff amounts and rates

35. SOIL • Specific practices to avoid water erosion: • growing forage crops in rotation or as permanent cover • growing winter cover crops • interseeding • protecting the surface with crop residue • shortening the length and steepness of slopes • increasing water infiltration rates • improving aggregate stability

36. SOIL CONCERNS • Specific practices to avoid wind erosion: • maintaining a cover of plants or residue • planting shelterbelts • Strip-cropping • increase surface roughness • cultivating on the contour • maintaining soil aggregates at a size less likely to be carried by wind

37. SOIL CONCERNS • SEDIMENT DEPOSITION • Sediment is solid material that is or has been transported from its site of origin by air, water, gravity, or ice to a field or low landscape position. Deposition occurs when the amount of sediment becomes greater than the carrying capacity of the force that is moving it.

38. SOIL CONCERNS COMPACTION • Soil compaction occurs when soil particles are pressed together, reducing the pore space between them. This increases the weight of solids per unit volume of soil (bulk density). Soil compaction occurs in response to pressure (weight per unit area) exerted by field machinery or animals. The risk for compaction is greatest when soils are wet

39. SOIL CONCENRS • COMPACTION • Why is compaction a problem? • Compaction restricts rooting depth, which reduces the uptake of water and nutrients by plants • It decreases pore size, increases the proportion of water-filled pore space at field moisture, and decreases soil temperature • Decreases the rate of decomposition of soil organic matter and subsequent release of nutrients • Compaction decreases infiltration and thus increases runoff and the hazard of water erosion.

40. SOIL CONCERNS • Salinization • Salinization is the process by which water-soluble salts accumulate in the soil. Salinization is a resource concern because excess salts hinder the growth of crops by limiting their ability to take up water. Salinization may occur naturally or because of conditions resulting from management practices.

41. SOIL CONCERNS • SALINIZATION • Processes that may affect salt level in soil • hydrology • climate • irrigation • drainage • plant cover and rooting characteristics • farming practices

42. SOIL CONCERNS • What are some indicators of soil salinity? • Early signs: • increased soil wetness in semiarid and arid areas to the point that the soil does not support equipment • the growth of salt-tolerant weeds • irregular patterns of crop growth and lack of plant vigor

43. SOIL CONCERNS • SALINIZATION • Advanced signs: • white crusting on the surface • a broken ring pattern of salts adjacent to a body of water • white spots and streaks in the soil, even where no surface crusting is visible • the presence of naturally growing, salt-tolerant vegetation

44. SOIL CONCERNS • How can salinity problems be managed? • Reducing the severity and extent of soil salinity is primarily a problem of water management. Water management can be addressed in two ways: (1) by managing the area contributing excess water to the soil (recharge area) or (2) by managing the area where the excess water comes to the surface (discharge area).

45. SOIL CONCERNS • SOIL BIODIVERSITY • Soil biodiversity reflects the mix of living organisms in the soil. These organisms interact with one another and with plants and small animals forming a web of biological activity.

46. SOIL CONCERNS • SOIL BIODIVERSITY • What are the benefits of soil organisms? • Residue decomposition • Nutrient cycling • Management considerations • Cultivation • Crop Rotation • Compaction • Pest Control • Fertility • Crop Residue Management

47. SOIL CONCERNS • Available Water Capacity • the amount of water that a soil can store that is available for use by plants • Soil properties affect available water • Rock fragments • Organic Matter • Bulk Density • Osmotic Pressure • Texture

48. SOIL CONCERNS • Improving the available water • Apply organic matter to the surface or mix into the upper few inches to increase the available water fraction near the surface • Maintain salts below the root zone. Keep infiltration high, reduce evaporation with a residue cover, minimize tillage, avoid mixing the lower soil layers with the surface, and plant seeds and seedlings on the furrow edges • Minimize compaction by reducing the weight of vehicles and the amount of traffic

49. SOIL CONCERNS • PESTICIDES • synthetic organic chemicals used to control weeds in fields and lawns, and unwanted or harmful pests, such as insects and mites that feed on crops. Pesticides are divided into categories according to the target organisms they are designed to control

50. SOIL CONCERNS • TYPES OF PESTICIDES • Herbicides: specific weeds in specific crops • Insecticides: Insect pests • Fungicides: fungi