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Homework III: The State Soil of Florida Posted on website 5 bonus points Type all answers

Homework III: The State Soil of Florida Posted on website 5 bonus points Type all answers. Soil Organisms, Biology, and Nutrients. Mineral and Organic Components . Functions of soils: recycler of raw materials. Nutrient availability, replenishment. Organic Matter and Soil Biology .

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Homework III: The State Soil of Florida Posted on website 5 bonus points Type all answers

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  1. Homework III: The State Soil of Florida Posted on website 5 bonus points Type all answers

  2. Soil Organisms, Biology, and Nutrients

  3. Mineral and Organic Components Functions of soils: recycler of raw materials Nutrient availability, replenishment

  4. Organic Matter and Soil Biology

  5. Soil Organic Matter Accumulation of partially disintegrated and decomposed plant and animal residues plus biomass. 1 – 5% (by weight) in a typical, well-drained mineral soil Transitory soil constituent (hours to 100s of years) Requires continual addition to maintain O.M. levels. Constantly being broken down bysoil micoorganisms Release/recycling of important plant nutrients

  6. Soil Organisms

  7. What creatures live in soil? 22 species Harvester Ant Colony

  8. Fauna Macro Micro Mammals, reptiles, amphibians, insects Nematodes, Protozoa, Rotifers Flora 20,000 species Plant roots, algae, fungi, actinomycetes (filamentous bacteria), bacteria unicellular

  9. Basic Classification of Organisms Food Oxygen Demand Energy Source

  10. Based on food: live or dead Herbivores • Eat live plants Insects, mammals, reptiles • Detritivores • Eat dead tissues: • Fungi, bacteria & actinomycetes Predators • Eat other animals Insects, mammals, reptiles

  11. Based on O2 demand • Aerobic • Active in O2 rich environment • Use free oxygen for metabolism • Anaerobic • Active in O2 poor environment • Use combined oxygen (NO3- , SO4-2) • SO4-2 => H2S

  12. Still Ponds O2 NO3- SO4-2 SO4-2 H2S

  13. Based on energy & C source Autotrophic (CO2) • Solar energy (photoautotrophs) • Chemical reaction w/inorganic elements N, S, & Fe (chemoautotrophs) Heterotrophic • From breakdown of organic matter (Carbon) • Most Numerous

  14. Quantification of Soil Organisms

  15. Quantification of Soil Organisms Three Criteria • Numbers of organisms • Extremely numerous • 1,000,000-1,000,000,000 /g soil • 10,000 species /g soil • Biomass • 1-8% of total soil organic matter • Metabolic activity • Respiration: CO2 • Proportional to # & biomass

  16. Soil Organisms in Surface Soils Organisms #/g soil Biomass (g/m2) Microflora Bacteria 108 -109 40-500 Actinomycetes 107 -108 40-500 Fungi 105 -106100-1,500 Algae 104 -105 1-50 Fauna Protozoa 104 -105 2-20 Nematodes 10-102 1-15 Mites 1-10 1-2 Earthworms 1-10 10-150 Note those in White

  17. Earthworms 1,000,000 per acre • Earthworm cast • Casts: earthworm’s wastes • Eat soil organics: 2-30 times of their own wt. five pairs of hearts Mostly intestine 22 ft. long (Afr. and Aus.)

  18. Earthworms • Abundance of earthworms • 10-1,000/m3 • 3,000 species • Benefits of earthworms • soil fertility by producing cast (concentration of nutrients) • aeration & drainage • size & stability of soil aggregates

  19. Soil Algae • Autotrophs • Capable of photosynthesis (chlorophyll) • 1-10 billion/ m2 (can be “mat” of algae on surface) • Prefer moist environments • Rich in wetland and paddy soils • Fixing atmospheric N2 (B-G algae) • Some soil algae “swim” by flagella

  20. Soil Fungi Yeasts, molds, mushrooms 10 - 100 billion/m2 Cell with a nuclear membrane and cell wall Most versatile & most active in acid forest soils Mycorrhizae symbiosis Association between fungi & plant root Increased SA (up to 10 times) Increased nutrient uptake, especially P Tolerate extremes in pH (bacteria do not)

  21. Mycorrhizae Fungi • Ions in solution • Movement from solution to root (diffusion) Phosphorous granule hyphae Root hair

  22. Fungi provide nutrients Plant root provides carbon EctomycorrhizaRoot surfaces and cortex in forest trees EndomycorrhizaPenetrate root cell walls agronomic crops- corn, cotton, wheat, & rice Symbiosis

  23. Soil Bacteria 10-100 trillion/m2 Single-celled organism Rapid reproduction Small (4-5 µm) Mostly heterotrophic N oxidation: nitrification NH4+NO3- S oxidation S + 3O2 + 2H2O H2SO4 N fixation N2NH4+ rhizobium Oxygen, moisture, temperature, O.M., pH

  24. OM decomposition The most significant contribution N, S, & P nutrients Elemental transformations N (NH4+NO3- S (S SO4, Fe (Fe2+Fe3+ Mn (Mn2+Mn4+ Nitrogen fixation (N2 NH4+) Algae: wetland Bacteria: legumes Breakdown toxic organics (bioremediation) Pesticide degradation: DDT Oil & gasoline degradation Benefits of Soil Organisms

  25. Effect of Organisms on Nutrient Availability

  26. Carbon • Hydrogen • Oxygen • Phosphorus • Nitrogen • Sulfur Soil Organic Matter

  27. Humic Nonhumic 60 -80% SOM Complex Resistant 20 -30% SOM Less complex Less resistant Fulvic acid, humic acid, humin (Undefined, high molecular wt.) Polysaccharides, proteins, acids (defined, lower molec. Wt.) Soil Organic Matter Humus: Nonliving tissue Biomass: Living organisms Detritus: Identifiable dead tissue

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