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Energy Flow & Nutrient Cycle. Food Chains Artificial devices to illustrate energy flow from one trophic level to another Trophic Levels: groups of organisms that obtain their energy in a similar manner. Food Chains.
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Food Chains • Artificial devices to illustrate energy flow from one trophic level to another • Trophic Levels: groups of organisms that obtain their energy in a similar manner
Food Chains • Total number of levels in a food chain depends upon locality and number of species • Highest trophic levels occupied by adult animals with no predators of their own • Secondary Production: total amount of biomass produced in all higher trophic levels
Nutrients • Inorganic nutrients incorporated into cells during photosynthesis • - e.g. N, P, C, S • Cyclic flow in food chains • Decomposers release inorganic forms that become available to autotrophs again
Energy • Non-cyclic, unidirectional flow • Losses at each transfer from one trophic level to another • - Losses as heat from respiration • - Inefficiencies in processing • Total energy declines from one transfer to another • - Limits number of trophic levels
Energy Flow through an Ecosystem sun Food Chain Primary Producer Primary Consumer Secondary Consumer Tertiary Consumer zooplankton larval fish phytoplankton fish heat heat heat water Nutrients Fungi & bacteria Decomposer
Transfer Efficiencies • Efficiency of energy transfer called transfer efficiency • Units are energy or biomass Pt = annual production at level t Pt-1 = annual production at t-1 Et = Pt Pt-1
Transfer Efficiency Example • Net primary production = 150 g C/m2/yr • Herbivorous copepod production = 25 g C/m2/yr =Pcopepods Et = Pt Pt-1 = 25 = 0.17 Pphytoplankton 150 • Typical transfer efficiency ranges • *Level 1-2 ~20% • *Levels 2-3, …: ~10%
Energy and Biomass Pyramids Kaneohe Bay 10 J Tertiary consumers 100 J Secondary consumers 1000 J Primary consumers 10,000 J Limu Primary producers 1,000,000 J of sunlight
Energy Use By An Herbivore Algae eaten by Uhu Cellular Respiration Feces Growth
Food Webs • Food chains don’t exist in real ecosystems • Almost all organisms are eaten by more than one predator • Food webs reflect these multiple and shifting interactions
Some Feeding Types Many species don’t fit into convenient categories • Algal Grazers and Browsers • Suspension Feeding • Filter Feeding • Deposit Feeding • Benthic Animal Predators • Plankton Pickers • Corallivores • Piscivores • Omnivores • Detritivores • Scavengers • Parasites • Cannibals • Ontogenetic dietary shifts
Food Webs… Competitive relationships in food webs can reduce productivity at top levels Phytoplankton (100 units) Phytoplankton (100 units) Herbivorous Zooplankton (20 units) Herbivorous Zooplankton (20 units) Carnivorous Zooplankton A (2 units) Carnivorous Zooplankton A (1 units) Carnivorous Zooplankton B (1 units) Fish (0.2 units) Fish (0.1 units)
Recycling: The Microbial Loop • All organisms leak and excrete dissolved organic carbon (DOC) • Bacteria can utilize DOC • Bacteria abundant in the euphotic zone (~5 million/ml) • Numbers controlled by grazing due to nanoplankton • Increases food web efficiency
Microbial Loop Solar Energy Phytoplankton Herbivores CO2 nutrients Planktivores DOC Piscivores Bacteria Nanoplankton (protozoans)
Keystone Species Kelp Forests
An Ecological Mystery • Long-term study of sea otter populations along the Aleutians and Western Alaska • 1970s: sea otter populations healthy and expanding • 1990s: some populations of sea otters were declining • Possibly due to migration rather than mortality • 1993: 800km area in Aleutians surveyed • - Sea otter population reduced by 50%
Vanishing Sea Otters • 1997: surveys repeated • Sea otter populations had declines by 90% • - 1970: ~53,000 sea otters in survey area • - 1997: ~6,000 sea otters • Why? • - Reproductive failure? • - Starvation, pollution disease?
Cause of the Decline • 1991: one researcher observed an orca eating a sea otter • Sea lions and seals are normal prey for orcas • Clam Lagoon inaccessible to orcas- no decline • Decline in usual prey led to a switch to sea otters • As few as 4 orcas feeding on otters could account on the impact • - Single orca could consume 1,825 otters/year
What does whale poo, iron and climate change have in common?
Inquiry • Define keystone species. • What is the relationship between sea urchins and sea otters? • Why doesn’t a food chain illustrate what really happens in ‘who-eats-who’ relationships? • Why are decomposers important? • Why do animals that eat lower on the food chain gain more energy than a top carnivore? • Homework assignment: pick a ecosystem and draw a food web. (E.g. coral reef, arctic, salt marsh, mangrove, estuary, deep sea…).