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Transcript
Community Ecology Many Different Interacting Populations White Nose • Sketch a proper graph of a bat population in the Great Smokey NP before and after the introduction of the invasive white nose fungal disease. • On your graph, include an insect population for the same ecosystem for the same duration of time • Identify the type of insect population growth and explain why it demonstrates that growth. • White nose is increasing the bat population’s mortality. What type of limiting factor is white nose? Defend your answer. The difference between a niche and habitat Habitat: The area where an organism lives. • A habitat includes both biotic and abiotic factors. Niche: the full range of physical and biological conditions in which an organism lives and the way in which the organism uses those conditions. • The combination of biotic and abiotic factors in an ecosystem often determines the number of different niches in that ecosystem Habitat is the organisms address, the niche is its occupation Species Relationships: based on how organisms obtain energy (feeding relationships) 1) Autotrophs: Transform energy from inorganic (nonliving) substances into organic substances. - Photosynthetic = energy from the sun - Chemosynthetic = energy from inorganic chemicals and geothermal energy (sulfur, salt, hydrogen sulfide, iron, methane, etc.) e.g. Archaebacteria 2) Heterotrophs: Obtain their energy from consuming organic (living) materials. - Herbivore = consumption of plants - Carnivore = consumption of flesh - Omnivore = consumption of both plants and flesh. - Detritivore = consumption of detritus (dead organic matter) i.e. decomposers. All of these feeding relationships result in close interactions between different populations. Interaction Effect on 1st Pop’n Effect on other Pop’n Examples Predation + - Lions/Zebras, Snakes/mice Interspecific Competition - - Elk/Mule Deer, Coyotes/ Vultures Study the graph demonstrating hare and lynx population growth. Describe two patterns demonstrated b/w predator and prey populations. Competitive exclusion principle: no two species can occupy the same niche in the same habitat at the same time. - results in resource partitioning • Symbiotic Relationships= A type of interaction where both populations live with each other at all times. Interaction Effect on Effect on 1st other Population Population Parasitism + - Mutualism + + Commensalism + 0 (Not Affected) Examples Tick/Deer, Tapeworm/ Cow Ants/aphids Bee/Flower Nested Bird/Tree, Pilot Fish/Shark Parasitism Mutualisms = Coevolution Commensalisms Community Structure • Biodiversity: (species diversity) The variety of different kinds of organisms that make up a community. • Two Components Biodiversity • Species Richness: the total number of different populations (species) that occupy a community. • Species Evenness: the relative abundance of organisms in each population. Determine the richness and evenness of the two tree communities. Which community is more biodiverse? Ecosystem Ecology The interactions between the communities and their abiotic factors. Trophic Structure • The feeding relationships, and flow of energy (abiotic) between organisms in a community. • The energy stored in producers can be passed through an ecosystem along a food chain. Food Chain: a series of steps in which organisms transfer energy by eating or being eaten. - Simple; only show individual feeding relationships. - In most ecosystems feeding relationships are more complex Food Webs • A graphic representation of the feeding relationships among the various organisms in an ecosystem. • Links all the food chains in an ecosystem together. Trophic Levels • Each step or level in a food chain or food web • Producers make up the first level, and consumers make up the second-fourth. 10 producer 10 consumer 20consumer30 consumer40consumer • Limits: Each food chain w/in a food web usually only has a few links; why? 10% Rule • Only about 1/10 (10%) of the energy stored in the organic matter of each trophic level is converted to organic matter at the next level. • What happens to the other 90% of the energy The 10% Rule applies to the overall number of individual organisms (as well as overall biomass) at each trophic level. **this explains why there are always fewer large predators than prey in ecosystems**
