Portal:Ecology

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Ecology

Ecology (from Ancient Greek οἶκος (oîkos) 'house' and -λογία (-logía) 'study of') is the natural science of the relationships among living organisms, including humans, and their physical environment. Ecology considers organisms at the individual, population, community, ecosystem, and biosphere levels. Ecology overlaps with the closely related sciences of biogeography, evolutionary biology, genetics, ethology, and natural history.

Ecology is a branch of biology, and is the study of abundance, biomass, and distribution of organisms in the context of the environment. It encompasses life processes, interactions, and adaptations; movement of materials and energy through living communities; successional development of ecosystems; cooperation, competition, and predation within and between species; and patterns of biodiversity and its effect on ecosystem processes.

Ecology has practical applications in conservation biology, wetland management, natural resource management (agroecology, agriculture, forestry, agroforestry, fisheries, mining, tourism), urban planning (urban ecology), community health, economics, basic and applied science, and human social interaction (human ecology).

The word ecology (German: Ökologie) was coined in 1866 by the German scientist Ernst Haeckel. The science of ecology as we know it today began with a group of American botanists in the 1890s. Evolutionary concepts relating to adaptation and natural selection are cornerstones of modern ecological theory.

Ecosystems are dynamically interacting systems of organisms, the communities they make up, and the non-living (abiotic) components of their environment. Ecosystem processes, such as primary production, nutrient cycling, and niche construction, regulate the flux of energy and matter through an environment. Ecosystems have biophysical feedback mechanisms that moderate processes acting on living (biotic) and abiotic components of the planet. Ecosystems sustain life-supporting functions and provide ecosystem services like biomass production (food, fuel, fiber, and medicine), the regulation of climate, global biogeochemical cycles, water filtration, soil formation, erosion control, flood protection, and many other natural features of scientific, historical, economic, or intrinsic value. (Full article...)

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The storage effect is a coexistence mechanism proposed in the ecological theory of species coexistence, which tries to explain how such a wide variety of similar species are able to coexist within the same ecological community or guild. The storage effect was originally proposed in the 1980s to explain coexistence in diverse communities of coral reef fish, however it has since been generalized to cover a variety of ecological communities. The theory proposes one way for multiple species to coexist: in a changing environment, no species can be the best under all conditions. Instead, each species must have a unique response to varying environmental conditions, and a way of buffering against the effects of bad years. The storage effect gets its name because each population "stores" the gains in good years or microhabitats (patches) to help it survive population losses in bad years or patches. One strength of this theory is that, unlike most coexistence mechanisms, the storage effect can be measured and quantified, with units of per-capita growth rate (offspring per adult per generation).

The storage effect can be caused by both temporal and spatial variation. The temporal storage effect (often referred to as simply "the storage effect") occurs when species benefit from changes in year-to-year environmental patterns, while the spatial storage effect occurs when species benefit from variation in microhabitats across a landscape. (Full article...)

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Carbon cycle

Credit: NASA

The carbon cycle is the biogeochemical cycle by which carbon is exchanged between the biosphere, geosphere, hydrosphere, and atmosphere of the Earth. Burning fossil fuels leads to the addition of extra carbon into the cycle over what naturally occurs and is a major cause of climate change.

General images

The following are images from various ecology-related articles on Wikipedia.

Image 1
A freshwater lake in Gran Canaria, an island of the Canary Islands. Clear boundaries make lakes convenient to study using an ecosystem approach.
(from Ecosystem)
Image 2This coral reef in the Phoenix Islands Protected Area provides habitat for numerous marine species. (from Habitat)
Image 3Table visualising size-symmetric competition, using fish as consumers and crabs as resources. (from Community (ecology))
Image 4The High Peaks Wilderness Area in the 6,000,000-acre (2,400,000 ha) Adirondack Park is an example of a diverse ecosystem. (from Ecosystem)
Image 5A generalised graph of a predator-prey population density cycle (from Community (ecology))
Image 6Biological nitrogen cycling (from Ecosystem)
Image 7The leaves of an Alnus nepalensis tree provide a microhabitat for species like the leaf beetle Aulacophora indica. (from Habitat)
Image 8a) A trophic pyramid showing the different trophic levels in a community. b) A food web of the same community (from Community (ecology))
Image 9Wetland habitat types in Borneo (from Habitat)
Image 10Loch Lomond in Scotland forms a relatively isolated ecosystem. The fish community of this lake has remained stable over a long period until a number of introductions in the 1970s restructured its food web. (from Ecosystem)
Image 11Twenty-five years after the devastating eruption at Mount St. Helens, United States, pioneer species have moved in. (from Habitat)
Image 12Desert scene in Egypt (from Habitat)
Image 13Ibex in an alpine habitat (from Habitat)
Image 14Flora of Baja California desert, Cataviña region, Mexico (from Ecosystem)
Image 15Sequence of a decomposing pig carcass over time (from Ecosystem)
Image 16Dense mass of white crabs at a hydrothermal vent, with stalked barnacles on right (from Habitat)
Image 17Spiny forest at Ifaty, Madagascar, featuring various Adansonia (baobab) species, Alluaudia procera (Madagascar ocotillo) and other vegetation (from Ecosystem)
Image 18Rainforest ecosystems are rich in biodiversity. This is the Gambia River in Senegal's Niokolo-Koba National Park. (from Ecosystem)
Image 19Global oceanic and terrestrial phototroph abundance, from September 1997 to August 2000. As an estimate of autotroph biomass, it is only a rough indicator of primary production potential and not an actual estimate of it. (from Ecosystem)
Image 20Rich rainforest habitat in Dominica (from Habitat)
Image 21Few creatures make the ice shelves of Antarctica their habitat, but water beneath the ice can provide habitat for multiple species. Animals such as penguins have adapted to live in very cold conditions. (from Habitat)
Image 22A red-chested cuckoo chick being feed by a significantly smaller Cape robin-chat adult (from Community (ecology))
Image 23An Antarctic rock split apart to show endolithic lifeforms showing as a green layer a few millimeters thick (from Habitat)
Image 24A bear with a salmon. Interspecific interactions such as predation are a key aspect of community ecology. (from Community (ecology))
Image 25A simple trophic cascade diagram. On the right shows when wolves are absent, showing an increase in elks and reduction in vegetation growth. The left one shows when wolves are present and controlling the elk population. (from Community (ecology))

Related WikiProjects

WikiProject Ecology

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Entries here consist of Good and Featured articles, which meet a core set of high editorial standards.

Aggressive mimicry is a form of mimicry in which predators, parasites, or parasitoids share similar signals, using a harmless model, allowing them to avoid being correctly identified by their prey or host. Zoologists have repeatedly compared this strategy to a wolf in sheep's clothing. In its broadest sense, aggressive mimicry could include various types of exploitation, as when an orchid exploits a male insect by mimicking a sexually receptive female (see pseudocopulation), but will here be restricted to forms of exploitation involving feeding. For example, indigenous Australians who dress up as and imitate kangaroos when hunting would not be considered aggressive mimics, nor would a human angler, though they are undoubtedly practising self-decoration camouflage. Treated separately is molecular mimicry, which shares some similarity; for instance a virus may mimic the molecular properties of its host, allowing it access to its cells. An alternative term, Peckhamian mimicry, has been suggested (after George and Elizabeth Peckham), but it is seldom used.

Aggressive mimicry is opposite in principle to defensive mimicry, where the mimic generally benefits from being treated as harmful. The mimic may resemble its own prey, or some other organism which is beneficial or at least not harmful to the prey. The model, i.e. the organism being 'imitated', may experience increased or reduced fitness, or may not be affected at all by the relationship. On the other hand, the signal receiver inevitably suffers from being tricked, as is the case in most mimicry complexes. (Full article...)

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William Skinner Cooper (25 August 1884 – 8 October 1978) was an American ecologist. Cooper received his B.S. in 1906 from Alma College in Michigan. In 1909, he entered graduate school at the University of Chicago, where he studied with Henry Chandler Cowles, and completed his Ph.D. in 1911. His first major publication, "The Climax Forest of Isle Royale, Lake Superior, and Its Development" appeared in 1913. (Full article...)

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Did you know (auto-generated)

... that PlantSims, human–plant hybrids in The Sims 2: Seasons, have been studied as examples of ecofeminism and deep ecology?
... that Luxembourgian myrmecologist Robert Stumper also played as a goalkeeper for his nation's football team?
... that scientist Adelaida K. Semesi was known as "mama mangroves" due to her specialist knowledge of their ecology?
... that gynecologist Mary Lake Polan wrote a medical mystery novel to "demystify" the procedures behind in vitro fertilisation?
... that Enriqueta Medellín, a Mexican surgeon, has an ecological center and environmental prize named after her in the state of Aguascalientes?
... that one of the founders of the Lithuanian Social Democratic Party, Andrius Domaševičius, had his own private gynecology practice, treating poor women free of charge?

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“

The environmental movement is one of the most successful social change movements. Popularizing Earth Day celebrations can be credited with bringing the movement to the mainstream. Through grassroots efforts, festivals, fairs, assemblies and concerts have helped popularize concern for our environment in the public's mind. Since so many people participate in Earth Day activities, Earth Day is the perfect opportunity to get people to tap-into the better world movement, so that they can find the inspiration and encouragement to continue activities for a more peaceful, just and sustainable world all year long.

”

—Robert Alan, American Writer, Artist, Social Activist

Ecology news

From the Wikinews Environment portal

Additional News Highlights

November 5, 2009: "New ocean forming in African desert."

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African Invertebrates is a peer-reviewed scientific journal that covers the taxonomy, systematics, biogeography, ecology, conservation, and palaeontology of Afrotropical invertebrates, whether terrestrial, freshwater, or marine. African Invertebrates is currently published twice a year and accepts large revisionary works, as well as review papers and smaller contributions. (Full article...)