Chapter 4 Part 2. Soil Formation and Generalized Soil Profile.

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Presentation transcript:

Chapter 4 Part 2

Soil Formation and Generalized Soil Profile

Horizons The top part/layer is the surface litter layer or O horizon. This layer is brown/black and composed of leaves, twigs, crop wastes, animal waste, fungi, and other organic material. The topsoil layer or A horizon is composed of decomposed organic matter called humus, as well as some inorganic mineral particles. Thick topsoil layers help hold water and nutrients. These two top layers teem with bacteria, fungi, earthworms, and small insects. Air and water fill spaces between soil particles. Plant roots need oxygen for aerobic respiration. The B horizon (subsoil) and the C-horizon (parent material) have most of the soil's inorganic matter—sand, silt, clay, and gravel. The C-horizon rests on bedrock.

soil texture Relative amounts of the different types and sizes of mineral particles in a sample of soil. soil permeability Rate at which water and air move from upper to lower soil layers. porosity Percentage of space in rock or soil occupied by voids, whether the voids are isolated or connected. Soil is a complex mixture of inorganic minerals (clay, silt, pebbles, and sand), decaying organic matter, water, air, and living organisms

Soil Profiles in Different Biomes Fig. 4-27, p. 75 Dark-brown/black topsoil is rich in nitrogen and organic matter. Gray, yellow, or red topsoils need nitrogen enrichment.

Leaf Litter Food Web

Connections: Matter Cycling in Ecosystems Biogeochemical cycles Hydrologic cycle (H 2 O) Hydrologic cycle (H 2 O) Carbon Cycle Carbon Cycle Nitrogen Cycle Nitrogen Cycle Phosphorous Cycle Phosphorous Cycle Sulfur Cycle Sulfur Cycle Back to Essential Questions

Hydrologic (Water) Cycle Fig p. 76

The Carbon Cycle (Marine) Fig. 4-29, p. 78

The Carbon Cycle (Terrestrial) Fig. 4-29, p. 78 Return to Biogeochemical Cycles

The Nitrogen Cycle Fig p. 80

The Phosphorus Cycle Fig p. 82

The Sulfur Cycle Fig p. 83

How Do Ecologists Learn About Ecosystems? Field research - Ecologists do field research, observing and measuring the ecosystem structure and function. Remote sensing - New technologies such as remote sensing and geographic information systems (GISs) gather data that is fed into computers for analysis and manipulation of data. Computerized maps may be made of an area to examine forest cover, water resources, air pollution emissions, coastal changes, and changes in global sea temperatures. Laboratory research - Ecologist use tanks, greenhouses, and controlled indoor and outdoor chambers to study ecosystems (laboratory research). This allows control of light, temperature, CO 2, humidity, and other variables. Field and laboratory studies must be coupled together for a more complete picture of an ecosystem. Laboratory research - Ecologist use tanks, greenhouses, and controlled indoor and outdoor chambers to study ecosystems (laboratory research). This allows control of light, temperature, CO 2, humidity, and other variables. Field and laboratory studies must be coupled together for a more complete picture of an ecosystem.

Geographic Information System(GIS) Fig p. 84 Tracking the El Niňo Topex / Poseidon 8&hl=en&tab=wl

Systems Measurement Data Analysis System Modeling System Simulation System Optimization Define objectives Identify and inventory variables Obtain baseline data on variables Make statistical analysis of relationships among variables Determine significant interactions Construct mathematical model describing interactions among variables Run the model on a computer, with values entered for different variables Evaluate best ways to achieve objectives Systems analysis develops mathematical and other models that simulate ecosystems that are large and very complex and can't be adequately studied with field and laboratory research. This allows the analysis of the effectiveness of various alternate solutions to environmental problems and can help anticipate environmental surprises. We need baseline data about components and physical and chemical conditions in order to determine how well the ecosystem is functioning in order to anticipate and determine how best to prevent harmful environmental changes.