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Transcript
Ecosystem Ecology for Wildlife Scientists Don White, Jr., Ph.D. Key Concepts: ¾ An ecosystem is an association of organisms and their environment ¾ Every ecosystem is an open system, in that it has inputs and outputs of both energy and nutrients ¾ Energy flows in only one direction through an ecosystem Key Concepts: ¾ Each chain in a food web extends in a straight-line sequence from producers through all the consumers ¾ Water, carbon, nitrogen, and phosphorus move through geochemical cycles that are global in scale ¾ Each substance moves through a hydrologic, atmospheric, or sedimentary cycle ¾ Humans are disrupting the natural cycles The Nature of Ecosystems ¾ Primary producers ¾ Consumers ¾ Decomposers ¾ Detritivores Structure of Ecosystems ¾ Trophic Levels • 1st - Primary producers 9Autotrophs • 2nd - Primary consumers 9Herbivores, Decomposers, Detritivores • 3rd - Secondary consumers 9Primary carnivores • 4th - Tertiary consumers 9Secondary carnivores and parasites Food Webs ¾ “ Network of crossing, interlinked food chains involving primary producers, consumers, and decomposers” How Does Energy Flow Through an Ecosystem? ¾ Primary source • Grazing food webs 9Photosynthetic organisms to herbivores • Detrital Food Webs 9Photosynthetic organisms to detritivores and decomposers Ecological Pyramids Decomposers Top carnivores Primary carnivores Herbivores Primary Producers Energy Flow at Silver Springs, Florida Energy loss with each trophic level Geochemical Cycles Hydrologic Cycle ¾ Rain and snow returns water to land • Ocean currents and winds • Evaporation ¾ Watershed Deforested area had greater calcium loss than undisturbed area. Sedimentary Cycle ¾ Phosphorus Cycle • From land to sediments at bottom of the sea then back to land • Earth’s Crust 9Largest reservoir of phosphorus Eutrophication ¾ Activities that increase the concentration of dissolved nutrients ¾ Nutrient enrichment of any aquatic ecosystem ¾ Most minerals enter sedimentary cycles ¾ Fertilizers use phosphates • Dense algae blooms Carbon Cycle ¾ Aerobic respiration ------> Carbon dioxide ¾ Fossil fuel burning ¾ Volcanic eruptions ¾ Atmosphere, soils, plant biomass • Largest holding stations for carbon ¾ Carbon dioxide fixation • Photosynthetic autotrophs From Greenhouse Gases to a Warmer Planet? ¾ Greenhouse effect Increase in CO2 Increase in CFC’s From Greenhouse Gases to a Warmer Planet ? ¾ Greenhouse effect Increase in methane Increase in nitrous oxide Nitrogen Cycle ¾ N2 gases converted to usable forms • Bacteria 9Nitrogen fixation • Bacteria and fungi 9Decomposition 9Ammonification 9Nitrification • Denitrification Ecosystem Modeling ¾ Prediction of unforeseen effects of disturbance ¾ Computer programs ¾ Models ¾ Biological magnification • Use of DDT In Conclusion ¾ An ecosystem is an array of producers, consumers, detritivores, and decomposers and their environment ¾ Sunlight is the initial energy source for nearly all ecosystems ¾ Feeding relationships are structured as trophic levels in an ecosystem In Conclusion ¾ Isolated food chains of who eats whom in an ecosystem are rare in nature ¾ The rate at which primary producers capture and store energy is the primary productivity ¾ Energy fixed by photosynthesizers passes through grazing food webs and detrital food webs In Conclusion ¾ Primary productivity depends on water and nutrients ¾ Carbon dioxide is the main atmospheric gas in the carbon cycle ¾ Burning fossil fuels and converting natural ecosystems to farming and grazing add to imbalances and may be factors in long-term global warming In Conclusion ¾ Nitrogen availability is a limiting factor for the total net primary productivity of land ecosystems ¾ Most mineral elements enter sedimentary cycles and become available ¾ Disturbances of an ecosystem can have unexpected effects ¾ Computer modeling helps identify ecosystem relationships and can incorporate them into models