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Ecology

Ecology . The study of how organisms interact with each other and their environment. Key Elements of the Environment. Temperature – most organisms require a narrow range (humans excluded) Water – very important, much more diversity in rainforest than in desert

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Ecology

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  1. Ecology • The study of how organisms interact with each other and their environment

  2. Key Elements of the Environment • Temperature – most organisms require a narrow range (humans excluded) • Water – very important, much more diversity in rainforest than in desert • Sunlight – where almost all energy originates from • Soil – pH, minerals, nitrogen, phosphorus affect the ability of plants to grow

  3. Population properties • Population size – number of individuals • Population density – number of individuals in a given unit • Los Angeles – 7544 people/square mile • South Sioux City, NE – 2725 people/square mile • Manila, Philippines – 111,576 people/square mile • New York City – 27,012 people/square mile • Population dispersion clumped uniform random

  4. Population growth • Population at current time = population from past time + births during that time – deaths during that time + immigration – emigration • Simulation of population growth – start off with 10 people (5 couples) – each couple has 4 kids • How many offspring? - 20 • 20 children become adults and each couple has 4 kids • How many offspring? – 40 • Doubles each generation – so let’s draw a graph

  5. Population growth • Exponential growth – the larger the population, the more it will grow • Eventually this has to stop • Space • Availability of resources • Carrying capacity – the max population • This type of growth is called logistic growth (sometimes called a sigmoid curve)

  6. Factors that influence population density • Density-independent events • Severe weather (floods, drought, etc.) • Severe geological disturbances (volcanoes, earthquakes, etc.) • Density-dependent events • Aggressive behaviors (defending territory) • Emigration

  7. Maximizing population productivity • Demand for fish has increased due to general health benefits and increase in global population • Overharvesting has caused population decline in wild salmon • Salmon farms have helped alleviate the problems of overharvesting • Farms have negative health and ecological impact • Toxins in fish • Fish lice and viruses are becoming common if farmed salmon, which are passing them on to wild salmon overharvesting Wasting resources Maximum sustainable yield

  8. Demography • The study of populations using statistics • Cohort – A group of individuals that are the same age • Fecundity – Number of offspring produced in a standard time (for example, a year) • Mortality – The number of individuals that die in that time • Proportion of males to females is called the sex ratio

  9. Survivorship curve • Type I – Most live a long time, then suddenly die • Type II – constantly die off • Type III – many die off young, the ones that survive live for quite some time

  10. Community and Ecosystem • Community - all the species in a given area • Ecosystem – all the species and all the non-living components in a given area

  11. The Niche and Competition • Niche – all the ways in which an organism uses its habitat • Habitat – the place where an organism lives • Competition – when two organisms attempt to use the same resource • Interspecific – between two different species • Intraspecific – between the same species

  12. Fundamental Niche vs. Realized Niche Fundamental Niche – where a given species is ABLE to live Realized Niche – where a given species actually lives because of competition

  13. Competition • Competitive exclusion - If two species are competing for the same resource, the one that uses it more efficiently will out grow the other Population Time P. Bursaria grown separately • No two species can occupy the same niche if resources are limited. If two species coexist… • Resources are not limited • They do not occupy the same niche

  14. Resource partitioning • Competition between two species is rare in nature because of 2 reasons: • One would outcompete OR • A new niche would be formed by dividing up resources – resource partitioning • Sympatric – closely related species that divide up resources – must live close to each other • Allopatric – closely related species that do not divide up resources – so usually do not live close to one another • Allopatric species look more alike than sympatric species – called character displacement

  15. Character Displacement • Character displacement is not the same as disruptive selection

  16. Coevolution • Symbiosis – two organisms that live together and whose existence is altered because of this relationship • Mutualism – both benefit • Commensalism – one benefits, other is unharmed • Parasitism – one benefits, other is harmed • Sometimes parasitism can be considered a predator-prey relationship

  17. Predator/Prey cycles • Predation – the consuming of one organism by another • Predator – the one doing the eating • Prey – the one being eaten

  18. Defense against predators • Plants • Thorns • Spikes • Prickles • Chemicals (pungent tastes usually associated with toxicity) • Many others • Animals • Poisons • Warning coloration • Camouflage • Speed • Many others

  19. Mimicry – a type of defense • Batesian mimicry – non-harmful organism mimics the look of a harmful organism • Mullerian mimicry – similar pattern development between harmful organisms • Self-mimicry – one body part looks like another body part Mullerian Batesian Mullerian poisonous Non-poisonous venomous

  20. Ecological succession • Succession – more complex communities replace simpler ones as time goes on • Primary Succession – occurs on a substrate that never had life prior • Examples: volcanoes, rocks, lakes left by glaciers • Secondary Succession – occurs on a substrate that had life prior, but was almost completely wiped out • Deforestation, flood, fire

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