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ECOLOGY – part 2 Populations/Communities Similar species can co-exist more readily if they utilize different portions of shared niche axes – have different niches (determined by traits) Coastal wetland So, an organism’s integrated traits (genes) allow success or determine failure of a population in any particular ecosystem Both the possibilities and limits for survival Communities What “organizes” biology above the level of the population? Communities & Ecosystems - Primarily the interactions of populations with each other and the abiotic environment (another definition of ecology). Most common interaction? _________ In economics – “follow the money”, in ecology, “follow the food” Communities Community – the array of interacting populations in a place. Major insight – to a large extent, the question is - _______________? Communities are analyzed by the network of eating interactions, ultimately the overall food web or ___________ structure. 2-18 A marine food web Species Interactions classified by pairwise effects – (+,-, 0) Competition (-/-) use same resource, depletion or combat Predation (+/-) one eats(kills) the other Parasitism (+/-) one eats (partially) the other Mutualism (+/+) each benefits from the other Commensalism (+/0) hard to verify, e.g. epiphytes (0,0) meaningless, seldom see (-,0) why? Eating still the key underlying theme – competition, predation, parasitism obvious. Even _________ often about eating (or not being eaten) – usually involves a ______ (food, defense) Plants – major mutualisms - nutrition – myccorhizae (________), nitrogen fixers (________), trade nutrient and carbohydrate 4-2 Flowers – mutualism? Angiosperm flowers attract insects with “rewards”, often food (________, pollen), gain _________________ In some flowers, the rewards are questionable Many mutualisms reveal these kinds of subtle “antagonisms” when studied closely. Communities A food web consists of a complex set of interconnected transformations. Similar in this way to a ______________ Communities A food web consists of a complex set of interconnected transformations. Similar in this way to a _____________ One important difference is, there is currently no evidence that natural selection operates on the overall food web as it does on whole organisms. A community is more like a ____________, structured only by the interactions. Communities are “assembled” by the component species Note potential for “re-assembly” Communities Types of eating: Herbivory – plant eating Carnivory – meat eating Omnivory – mixed diets Detritivory – eating dead stuff Photosynthesis – “sun eating” Major insight – different food webs share a general structure, with photosynthesizers as the ________________ The rest of the food web depends on the photosynthesizers This led to the concept of ecosystem Communities/Ecosystems Simplified web – “food chain” Photosynthesizers called ___________, herbivores & carnivores called _________ 2-15/2-17 Ecosystem ecologists aggregate (simplify) webs to focus on key dynamics and system properties Ecosystems Generalization called attention to a major component of the ecosystem previously ignored - decomposers The unasked question: where does all the dead stuff go? and incidentally – what are plants eating? Why do decomposers exist? 2-13/2-14 Ecosystems The most general concept of ecosystem includes decomposers as main component Also “chemicals”, or _______(since this is mostly food for the producers) Note the difference in emphasis compared to the food web 2-14/2-15 Ecosystems This is a ________________ (outputs ≈ inputs) Components may stay fairly stable, but… Energy ______ through the ecosystem driving Material ______ within Resource use by individuals (eating) drives these dynamics This is a basic picture of an ecosystem Energy Materials Both energy and materials are transferred together… Heat Consumers Heat Decomposers Heat Producers …except here Nutrients Sun To a decent first approximation, you can stick our kingdoms into this basic picture of ecosystems Animals & Protists Animals Bacteria & Fungi Bacteria & Fungi Algae & Plants Cyanobacteria Nutrients Sun Terrestrial (land-based) Nutrients Sun Aquatic (water-based) This suggests a deep connection between ________ and ________ Ecosystems – nutrient cycling Decomposers are a complex of many species in an OM matrix Terrestrial ecosystems - soil Rock particles & organic matter Aquatic systems Dissolved organic matter (DOM) & Sediments Soils & sediments can take 100s of years to develop 7-A/2-22 Ecosystems – nutrient cycling What are nutrients? In addition to CO2, light and water, producers also need various other essential elements – Nitrogen (N), Phosphorus (P), Potassium (K), Magnesium (Mg), Calcium (Ca) and various others (Iron, Boron, Nickel, etc.) – Why? What controls nutrients? Chlorophyll Ecosystems –nutrient cycling Nutrient Cycling _________. Most elements originally come from rock – the earth’s crust, via weathering. Except Nitrogen - atmosphere In most systems, most elements used by producers come from decomposition which recycles the nutrients. Nutrients have both long and short term cycles Short term (fast) – community to dead organic matter (detritus; OM) via decomposition to the nutrient pool back to community Long term (slow) – from system to reservoir, back to system Consumers Decomposers OM Producers Nutrients Reservoir Ecosystems – nutrient cycling In addition to water and carbon cycles, life creates cycles within ecosystems of essential nutrients for producers __________ cycle is typical of most elements – rock reservoir, organic matter derived available pool (also K, Ca, Mg, etc.) Consumers Decomposers OM Producers Nutrients Reservoir 2-22/2-28 Ecosystems – nutrient cycling Nitrogen Cycle Reservoir – N2 gas in atmosphere – 79% Nitrogen _______ (certain bacteria) – converts N2 to organic form energetically expensive Decomposition releases nitrogen to available forms (ammonium (NH4) and nitrate (NO3)) Producers take up available N so convert it back to organic Nitrogen – completing the short cycle N2 => OrgN => Available N Ecosystems – nutrient cycling Some bacteria use NO3 for energy, releasing N2 gas – ____________. This is the cause of our N2 atmosphere Percent Composition of the Atmosphere CO2 O2 N2 Venus 96.5 trace 3.5 Mars 95 0.13 2.7 Earth (w/o life) 98 0.0 1.9 Earth (w/ life) 0.03 21 79 This creates the longer cycle N2 => OrgN => Available N => N2 Ecosystems – nitrogen cycling Consumers Decomposers OM Producers Nutrients Reservoir 2-21/2-27 Ecosystems – nutrient cycling Consumers These nutrient cycles can be added to the water and carbon/oxygen cycles covered earlier. Decomposers OM Producers Nutrients Reservoir 2-20/2-26 photosynthesis O2 CH2O CO2, H2O respiration Together they describe the global fluxes of major materials regulating ecosystem production 2-19/2-25 Ecosystems Trophic Structure – The energy pyramid Energy flows through the ecosystem – from sun to _________ Heat Consumers Energy is transformed by photosynthesis from light to Heat chemicals (e.g., sugar) Producers Energy of chemicals is transformed from producers to consumers and to decomposers Sun Heat Decomposers Nutrients Energy is lost in all transformations as ______, generating EM waves -Respiration (can be >90% of energy taken in) -The energy transformations are not 100% efficient Ecosystems - energy The flow of energy “up” is a diminishing one Only a portion of energy flowing into a trophic level is transferred to the next higher level. Ecological __________ about 10% (2-40%) This limits trophic levels to 4 or 5 2-17/2-19 Ecosystems Primary Productivity Ecosystems depend on producers for energy Primary productivity is variable throughout the world What controls this variability? Global chlorophyll levels –winter 2004 Ecosystems - productivity Net Primary Productivity (NPP) = Gross Primary Productivity (GPP) – Respiration (R) NPP measures the ecosystem’s capacity to support life (producers, consumers, decomposers) Units: kcal/m2/year energy/area/time Ecosystems - productivity 2-18/2-21 Ecosystems differ in NPP – area of systems not shown (e.g., ocean) Why? Biomes & Productivity Globally, there is a strong correlation between NPP, total plant biomass, and _____________ We know that NPP is dependent on temperature, water, light, CO2 and many nutrients. Why is water so important? Biomes How plants work: Leaf – light, CO2 Root – water, nutrients But – _______ is lost in taking up CO2 more water = more ______ And – water increases ___________ rate in soil more water = more ___________ Result: Water is both a resource and a controller of CO2 and nutrients. More rain has several benefits. Temperature? higher temp = more water lost per C lower temp = shorter growing season (less liquid water) air soil Biomes In general: NPP controlled by light and water. Light is relatively un-varying; water is variable Variation in NPP primarily due to water Biomes Biomes So precipitation and temperature are the master controllers of plant production (NPP) Distribution of climates. Precipitation and temperature = climate Biomes Climate controls NPP Distribution of chlorophyll Biomes “niche diagram” 3-6/3-7 1. 2. 3. 4. 5. Ecology summary The biosphere consists of diverse linked ecosystems Eating by individual organisms, including photosynthesis, drives primary production, trophic structure, and decomposition. The ‘balance of nature’ reflects a balance of conflicting interests of individuals. Ecosystems consist of 4 main components: producers, consumers, decomposers, nutrients. Fit of kingdoms to these compartments suggests a deep connection of evolution and ecology. Energy flows from the sun through the ecosystems and into space, powering materials (elemental) cycles within ecosystems. In terrestrial systems, variation in climate controls variation in NPP, and therefore biome distribution. End Ecology End Ecology