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Transcript
Environmental Science: Chapter 4 Ecosystems: How they change Biotic Potential Vs. Environmental Resistance Predator-prey Balance:Wolves and Moose Steps in predation Encounter Attack Capture Ingestion Encounter Ambush: Wait for prey to come to you. Burst speed. Pike, muskie, barracuda, gar Lepisosteus osseus http://fcn.state.fl.us/fwc/fishing/Fishes/gar.html Rover: Actively search for food. Constant motion. Bass, yellow perch Attack: forward (most fish) or sideways (gar) lunge special grasping organs Odonate larvae mentum extends to grasp prey Capture: prey have adaptation to avoid capture piscivores have lots of teeth http://insects.ummz.lsa.umich.edu/michodo/test/index.htm predator – prey sizes ~ 1mm http://bio-images.bgsu.edu Blue Whale 100 ft, up to 220 tons http://www.calpoly.edu/~jiturrir/ED480/whales/baleen.html Other factors effect population levels; ex. parasitism, weather predation Time population size population size parasitism Time Mechanisms of Population Equilibrium: Plant-Herbivore Livestock grazing in western US -Livestock grazing occurs on more federal public lands than any other commercial use -Affects more than 260 million acres – an area the size of Texas and California combined -Water diversions, predator control, vegetation manipulation and fencing -In the US, livestock grazing has contributed to the listing of 22 percent of federal threatened and endangered species (almost equal to logging (12 percent) and mining (11 percent) combined) = Selective feeders Migratory Non-selective Non-migratory Interactions between species: competition vs predation resource consumer + predation - + - + - competition intraspecific competition: between members of same spp density dependent population regulation evolutionary change population size resources scarce, competition K= # that resources can support Time interspecific competition: occurs between members of different species negative effect on both populations depends on adaptations of each population realized niche spp 1 niche spp 2 niche competition Dry habitat, trees can’t compete w/ grass Territoriality: defense of a resource against individuals of the same species -Examples: wolves, songbirds, bluegill -Means habitat supports fewer individuals and less competition is result Tipping the Balance: Introduced Species http://www.gdaywa.com/g5.php http://users.rcn.com/jkimball.ma.ultranet/Biology Pages/A/AustralianRabbits.jpg Chestnut Blight -Fungus which entered US on Asian nursery stock imported to New York ~ 1900 -Spread by wind, rain, birds etc…, enters through cracks or wounds, multiplies rapidly, making sunken cankers which expand and kill everything above the canker -American chestnut was devastated throughout the natural range, the Appalachian hills and highlands from Maine to Georgia -By 1940, three and a half billion American chestnuts had perished. -American chestnut stock advertised as "blight free", means it was grown in an area where no blight is present, outside the natural range or inside a greenhouse. Introduced Species • Why have these introductions resulted in a degradation of the ecosystems? (Think in terms of environmental resistance and biotic potential.) Disturbance and Succession Equilibrium = No change • Ecological succession: transition between biotic communities – Primary- no previous biotic community – Secondary- previously occupied by a community – Aquatic- transition from pond or lake to terrestrial community Primary Succession • Mosses invade an area and provide a place for soil to accumulate. • Larger plants germinate in the new soil layer resulting in additional soil formation. • Eventually shrubs and trees will invade the area. Dramatic examples: HI lava flows Relies on adjacent ecosystems Rain of organic material, seeds, and spores accumulates in cracks Some pockets moist enough to support scattered `ohi`a seedlings and a few hardy ferns and shrubs Accumulation leaves, bark… converted by soil organisms into a thin but rich organic soil A forest can develop in wet regions in less than 150 years Aquatic Succession •Ecosystems can show resilience during a disturbance Fire Disturbance • Removes organisms, favors tolerant spp. • Reduces populations • Creates opportunities for other species to colonize Fire and Succession • Fire climax ecosystems: maintained by fire; e.g., grasslands, pine and redwood forests • What significance does this have for humans and where they live? Resilience Mechanisms After A Forest Fire • • • • Nutrient release to soil Re-growth by remnant roots and seeds Invasions from neighboring ecosystems Rapid restoration of energy flow and nutrient cycling Ecosystem management: thinking about the entire system rather than trying to maximize harvest of few populations Adaptive management: 1) be prepared to chance policy 2) bring in stakeholders 3) do experiments
