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Primary Production and Energy Flow

Primary Production and Energy Flow. NEVER FORGET!!! ENERGY FLOWS: solar (or nuclear) input heat output NUTRIENTS RECYCLE: mass conservation inorganic ↔ organic. Chapter 18. http://antwrp.gsfc.nasa.gov/apod/image/9709/solprom1_eit_big.jpg. Focus Areas:.

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Primary Production and Energy Flow

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  1. Primary Production and Energy Flow NEVER FORGET!!! ENERGY FLOWS: solar (or nuclear) input heat output NUTRIENTS RECYCLE: mass conservation inorganic ↔ organic Chapter 18

  2. http://antwrp.gsfc.nasa.gov/apod/image/9709/solprom1_eit_big.jpghttp://antwrp.gsfc.nasa.gov/apod/image/9709/solprom1_eit_big.jpg

  3. Focus Areas: • Trophic Levels • Terrestrial 1º Production Controls: • Actual evapotranspiration (AET) • Precipitation • Soil fertility • Consumers • Aquatic 1º Production Controls: • Nutrients • Light • Consumers

  4. Introduction • Trophic Level: Position in a food web determined by number of energy transfers from primary producers to current level: • Primary producers occupy first level. • Primary consumers occupy second level. • Secondary consumers occupy third level. • Tertiary consumers occupy fourth level.

  5. Introduction • Primary production: Fixation of energy by autotrophs in an ecosystem. • Rate of primary production: Amount of energy fixed over a given period of time. • Gross primary production: Total amount of energy fixed by autotrophs. • Net primary production: Amount of energy leftover after autotrophs have met their metabolic needs.

  6. Primary Production Controls • Bottom-Up Controls • Influences of physical and chemical factors of an ecosystem. • Top-Down Controls • Influences of consumers.

  7. Actual Evapotranspiration and Terrestrial Primary Production • Rosenzweig estimated influence of moisture and temperature on rates of primary production by plotting relationship between annual net primary production and annual actual evapotranspiration (AET). • AET: Annual amount of water that evaporates and transpires off a landscape. • Cold dry ecosystems tend to have low AET.

  8. Evapotranspiration and Terrestrial Primary Production

  9. Soil Fertility and Terrestrial Primary Production • Significant variation in terrestrial primary production can be explained by differences in soil fertility. • Shaver and Chapin found arctic net primary production was twice as high on fertilized plots as unfertilized plots. • Bowman suggested N is main nutrient limiting net primary production in a dry tundra meadow, and N and P jointly limit production in a wet meadow.

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  11. Primary Production on the Serengeti • McNaughton estimated Serengeti grazers consume an average of 66% of annual primary production. • Rate of primary production in the Serengeti is positively correlated with rainfall quantity.

  12. Primary Production in the Serengeti • Found grazers can increase primary production. • Increased growth rate. • Compensatory Growth • Lower respiration rate due to lower biomass. • Reduced self-shading. • Improved water balance due to reduced leaf area.

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  14. Patterns of Aquatic Primary Production • Several studies have found quantitative relationship between phosphorus and freshwater phytoplankton biomass. • Several studies support generalization that nutrient availability controls rate of primary production in freshwater ecosystems.

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  16. Lake 226

  17. Global Patterns of Marine Primary Production

  18. Lake Primary Production • Carpenter proposed piscivores and planktivorous fish can cause significant deviations in primary productivity. • Carpenter and Kitchell proposed the influence of consumers on lake primary productivity propagate through food webs. • Trophic Cascade Hypothesis

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