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'''Kenilworth''' is a village located in [[Cook County, Illinois]], approximately 17 miles north of downtown [[Chicago]]. It is the newest of the eight suburban "[[North Shore]]" communities bordering [[Lake Michigan]], and is the only one developed as a planned community. Department store mogul Joseph [[Sears]] purchased 223.6 acres in one of the last undeveloped areas near Chicago's lakeshore for $150,300 in [[1889]]. Seven years later the population had reached 300 residents, fulfilling the legal requirement for incorporation. As of the [[2000]] census, the village had a total population of 2,494.
{{dablink|For the journal see [[Ecology (journal)]].}}
{{dablink|('Ecology' is sometimes used incorrectly as a synonym for the [[natural environment]].)}}
[[Image:The Earth seen from Apollo 17.jpg|thumb|right|250px|'''Ecology''' is essentially the study of the workings of the planet [[Earth]].]]
'''Ecology''', or '''ecological science''', is the scientific study of the distribution and abundance of [[life|living organisms]] and how these properties are affected by [[interaction]]s between the organisms and their [[natural environment|environment]]. The environment of an organism includes both the physical properties, which can be described as the sum of local abiotic factors like [[climate]] and [[geology]], as well as the other organisms that share its [[Habitat (ecology)|habitat]]. The term ''oekologie'' was coined in [[1866]] by the German biologist, [[Ernst Haeckel]], from the [[Greek language|Greek]] ''oikos'' meaning "household" and ''logos'' meaning "study"; hence, the "study of the household of nature".
Kenilworth has a reputation as the wealthiest and most exclusive community in [[Chicagoland]]. In April of 2005, American Demographics magazine named Kenilworth's [[zip code]] (60043) the 11th most affluent in the U.S.
== Scope ==
Ecology is usually considered a branch of [[biology]], the general science that studies living [[organism|beings]]. Organisms can be studied at many different levels, from [[proteins]] and [[nucleic acid]]s (in [[biochemistry]] and [[molecular biology]]), to [[cell (biology)|cells]] (in [[cellular biology]]), to individuals (in [[botany]], [[zoology]], and other similar disciplines), and finally at the level of [[population]]s, communities, and [[ecosystem]]s, to the [[biosphere]] as a whole — these latter strata are the primary subjects of ecological inquiries. Ecology is a [[Interdisciplinary|multi-disciplinary]] science. Because of its focus on the higher levels of the organization of life on earth and on the interrelations between organisms and their [[natural environment|environment]], ecology draws heavily on many other branches of science, especially [[geology]] and [[geography]], [[meteorology]], [[pedology (soil study)|pedology]], [[chemistry]], and [[physics]]. Thus, ecology is said to be a [[holistic science]], one that over-arches older disciples such as biology which in this view become sub-disciplines contributing to ecological knowledge.
== Geography ==
Agriculture, fisheries, forestry, medicine and urban development are among human activites that would fall within Krebbs' (1972: 4) explanation of his definition of ecology: "where organisms are found, how many occur there, and why".
Kenilworth is located at 42°5'17" North, 87°42'57" West (42.088128, -87.716009){{GR|1}}.
As a scientific discipline, ecology does not dictate what is "right" or "wrong". However, maintaining ''[[biodiversity]]'' and related ecological goals have provided a scientific basis for expressing the goals of [[environmentalism]] and have given scientific methodology, measure, and terminology to environmental issues. Additionally, a [[holism|holistic view]] of nature is stressed in both ecology and environmentalism.
According to the [[United States Census Bureau]], the village has a total area of 1.6 [[square kilometer|km²]] (0.6 [[square mile|mi²]]). 1.6 km² (0.6 mi²) of it is land and none of it is covered by water.
Consider the ways a biologist might approach studying the life of honeybees:
* the behavioral relationship between individuals of a [[species]] is behavorial ecology — for example, the study of the [[queen bee]], and how she relates to the worker [[bee]]s and the [[drone (bee)|drones]].
== Demographics ==
* the organized activity of a species is community ecology; for example, the activity of bees assures the [[pollination]] of [[flowering plant]]s. Bee hives additionally produce [[honey]] which is consumed by still other species, such as [[bear]]s.
As of the [[census]]{{GR|2}} of [[2000]], there are 2,494 people, 792 households, and 697 families residing in the village. The [[population density]] is 1,604.9/km² (4,190.8/mi²). There are 815 housing units at an average density of 524.5/km² (1,369.5/mi²). The racial makeup of the village is 97.27% [[White (U.S. Census)|White]], 0.16% [[African American (U.S. Census)|African American]], 0.04% [[Native American (U.S. Census)|Native American]], 2.25% [[Asian (U.S. Census)|Asian]], 0.00% [[Pacific Islander (U.S. Census)|Pacific Islander]], 0.00% from [[Race (U.S. Census)|other races]], and 0.28% from two or more races. 1.36% of the population are [[Hispanic (U.S. Census)|Hispanic]] or [[Latino (U.S. Census)|Latino]] of any race.
There are 792 households out of which 49.9% have children under the age of 18 living with them, 81.7% are [[Marriage|married couples]] living together, 5.6% have a female householder with no husband present, and 11.9% are non-families. 10.2% of all households are made up of individuals and 6.4% have someone living alone who is 65 years of age or older. The average household size is 3.15 and the average family size is 3.39.
* the relationship between the environment and a species is environmental ecology — for example, the consequences of environmental change on bee activity. Bees may die out due to environmental changes (see [[pollinator decline]]). The environment simultaneously affects and is a consequence of this activity and is thus intertwined with the survival of the species.
In the village the population is spread out with 34.8% under the age of 18, 4.0% from 18 to 24, 19.7% from 25 to 44, 29.7% from 45 to 64, and 11.8% who are 65 years of age or older. The median age is 40 years. For every 100 females there are 90.4 males. For every 100 females age 18 and over, there are 87.3 males.
===Disciplines of ecology===
:''Main Article: [[Ecology (disciplines)|Disciplines of ecology]]''
Ecology is a broad science which can be subdivided into major and minor sub-disciplines. The major sub-disciplines include (in a nested series from the smallest to the largest in scope):
The median income for a household in the village is excess of $200,000, as is the median income for a family. Males have a median income of over $100,000 versus $69,375 for females. The per capita income for the village is $100,718. 1.1% of the population and none of the families are below the poverty line. Out of the total people living in poverty, none are under the age of 18 and 1.7% are 65 or older.
* [[Physiological Ecology]] (or '''ecophysiology'''), which studies the influence of the biotic and abiotic environment on the physiology of the individual, and the adaptation of the individual to its environment;
* [[Behavioral ecology]], which studies the ecological and evolutionary basis for animal behavior, and the roles of behavior in enabling animals to adapt to their ecological niches;
* [[Population ecology]] (or '''autecology'''), which deals with the dynamics of [[population]]s within species, and the interactions of these populations with environmental factors;
* [[Community ecology]] (or '''synecology''') which studies the interactions between species within an ecological community;
* [[Landscape ecology]], which studies the interactions between discrete elements of a [[landscape]];
* [[Ecosystem ecology]], which studies the flows of energy and matter through [[ecosystem]]s;
* [[Global ecology]], which looks at ecological questions at the global level, often asking [[macroecology|macroecological]] questions.
== External links ==
Ecology can also be sub-divided on the basis of target groups:
{{Mapit-US-cityscale|42.088128|-87.716009}}
* [[animal ecology]], [[plant ecology]], [[insect ecology]];
[[Category:Cook County, Illinois]]
or from the perspective of the studied [[biomes]]:
[[Category:Villages in Illinois]]
* [[arctic ecology]] (or [[polar ecology]]), [[tropical ecology]], [[desert ecology]]
(''[[temperate]] zone ecology'' could also exist as a distinct sub-field, but ecology as a whole has an overwhelmingly temperate bias, so the sub-field is redundant).
== History of ecology ==
:''Main article: [[History of ecology]]
== Fundamental principles of ecology ==
===Biosphere and biodiversity===
''Main articles:'' [[Biosphere]], [[Biodiversity]], [[Unified neutral theory of biodiversity]]
For modern ecologists, ecology can be studied at several levels: [[population]] level (individuals of the same species), [[biocoenosis]] level (or community of species), [[ecosystem]] level, and [[biosphere]] level.
The outer layer of the planet Earth can be divided into several compartments: the [[hydrosphere]] (or sphere of water), the [[lithosphere]] (or sphere of soils and rocks), and the [[earth's atmosphere|atmosphere]] (or sphere of the air). The [[biosphere]] (or sphere of life), sometimes described as "the fourth envelope", is all living matter on the planet or that portion of the planet occupied by life. It reaches well into the other three spheres, although there are no permanent inhabitants of the atmosphere. Relative to the volume of the Earth, the biosphere is only the very thin surface layer which extends from 11,000 meters below sea level to 15,000 meters above.
Life first developed in the hydrosphere, at shallow depths, in the [[photic zone]]. Multicellular organisms then appeared and colonized [[benthos|benthic zones]]. Terrestrial life developed later, after the [[ozone layer]] protecting living beings from [[UV]] rays formed. Diversification of terrestrial species is thought to be increased by the continents [[continental drift|drifting apart]], or alternately, colliding. Biodiversity is expressed at the ecological level (ecosystem), population level (intraspecific diversity), species level (specific diversity), and genetic level.
The biosphere contains great quantities of elements such as [[carbon]], [[nitrogen]] and [[oxygen]]. Other elements, such as [[phosphorus]], [[calcium]], and [[potassium]], are also essential to [[life]], yet are present in smaller amounts. At the ecosystem and biosphere levels, there is a continual recycling of all these elements, which alternate between the mineral and organic states.
While there is a slight input of geothermal energy, the bulk of the functioning of the ecosystem is based on the input of [[solar energy]]. Plants and photosynthetic microorganisms convert [[light]] into chemical energy by the process of [[photosynthesis]], which creates [[glucose]] (a simple sugar) and releases free [[oxygen]]. Glucose thus becomes the secondary energy source which drives the ecosystem. Some of this glucose is used directly by other organisms for energy. Other sugar molecules can be converted to other molecules such as [[amino acid]]s. Plants use some of this sugar, concentrated in [[nectar]] to entice pollinators to aid them in reproduction.
[[Cellular respiration]] is the process by which organisms (like [[mammal]]s) break the glucose back down into its constituents, [[water]] and [[carbon dioxide]], thus regaining the stored energy the sun originally gave to the plants. The proportion of photosynthetic activity of plants and other photosynthesizers to the respiration of other organisms determines the specific composition of the Earth's atmosphere, particularly its oxygen level. [[airstream|Global air currents]] mix the atmosphere and maintain nearly the same balance of elements in areas of intense biological activity and areas of slight biological activity.
Water is also exchanged between the hydrosphere, lithosphere, atmosphere and biosphere in regular [[cycles]]. The oceans are large tanks, which store water, ensure thermal and climatic stability, as well as the transport of chemical elements thanks to large [[oceanic current]]s.
For a better understanding of how the biosphere works, and various dysfunctions related to human activity, American scientists simulated the biosphere in a small-scale model, called [[Biosphere II]].
=== The ecosystem concept ===
''Main article:'' [[Ecosystem]]
The first principle of ecology is that each living organism has an ongoing and continual relationship with every other element that makes up its environment. An [[ecosystem]] can be defined as any situation where there is interaction between organisms and their environment.
The ecosystem is composed of two entities, the entirety of life (called the [[biocoenosis]]) and the medium that life exists in (the [[biotope]]). Within the ecosystem, species are connected and dependent upon one another in the [[food chain]], and exchange [[energy]] and [[matter]] between themselves and with their environment.
The concept of an ecosystem can apply to units of variable size, such as a [[pond]], a field, or a piece of deadwood. A unit of smaller size is called a ''[[microecosystem]]''. For example, an ecosystem can be a stone and all the life under it. A ''mesoecosystem'' could be a [[forest]], and a ''macroecosystem'' a whole [[ecoregion]], with its [[watershed]].
The main questions when studying an ecosystems are:
* how could be carried out the colonization of an arid area?
* What are the ecosystems dynamics and changes
* how does an ecosystem interact at local, regional and global scale
* is the current state stable?
* what is the value of an ecosystem? How does the interaction of ecological systems provide benefit to humans, especially in the provision of healthy water?
Ecosystems are often classified by reference to the biotopes concerned. The following ecosystems may be defined :
* as [[continental ecosystem]]s (or terrestrial), such as [[forest ecosystem]]s, [[meadow ecosystem]]s (meadows, steppes, savannas), or [[Agroecology|agro-ecosystem]]s (agricultural systems).
* as ecosystems of inland waters, such as [[lentic ecosystem]]s (lakes, ponds) or [[lotic ecosystem]]s (rivers)
* as [[oceanic ecosystem]]s (seas, oceans).
Another classification can be done by reference to its communities (for example a [[human ecosystem]]).
===Dynamics and stability===
''Main articles:'' [[biogeochemistry]], [[Homeostasis]], [[Population dynamics]]
'''Ecological factors''' which can affect dynamic change in a [[population]] or [[species]] in a given ecology or [[natural environment|environment]] are usually divided into two groups: abiotic and biotic.
'''Abiotic factors''' are geological, geographical and climatological parameters. A '''biotope''' is an environmentally uniform region characterized by a particular set of abiotic ecological factors. Specific abiotic factors include:
* [[water]], which is at the same time an essential element to life and a [[natural environment|milieu]]
* [[air]], which provides oxygen, nitrogen, and carbon dioxide to living species and allows the dissemination of [[pollen]] and [[spore]]s
* [[soil]], at the same time source of nutriment and physical support
** soil [[PH|pH]], [[Salinity_in_Australia|salinity]], nitrogen and phosphorus content, ability to retain water, and density are all influential
* [[temperature]], which should not exceed certain extremes, even if tolerance to heat is significant for some species
* [[light]], which provides energy to the ecosystem through [[photosynthesis]]
* [[natural disaster]]s can also be considered abiotic
'''Biocenose''', or community, is a group of populations of plants, animals, micro-organisms. Each population is the result of [[procreation]]s between individuals of same species and [[cohabitation]] in a given place and for a given time. When a population consists of an insufficient number of individuals, that population is threatened with extinction; the extinction of a species can approach when all biocenoses composed of individuals of the species are in decline. In small populations, [[inbreeding|consanguinity (inbreeding)]] can result in reduced [[genetic diversity]] that can further weaken the biocenose.
'''Biotic ecological factors''' also influence biocenose viability; these factors are considered as either intraspecific and interspecific relations.
:'''Intraspecific relations''' are those which are established between individuals of the same species, forming a population. They are relations of [[co-operation]] or [[competition]], with division of the territory, and sometimes organization in hierarchical societies.
:'''Interspecific relations'''—[[biological interaction | interactions]] between different species—are numerous, and usually described according to their beneficial, detrimental or neutral effect (for example, [[mutualism]] (relation ++) or [[competition]] (relation --)). The most significant relation is the relation of [[predator|predation]] (to eat or to be eaten), which leads to the essential concepts in ecology of [[food chain]]s (for example, the grass is consumed by the herbivore, itself consumed by a carnivore, itself consumed by a carnivore of larger size). A high predator to prey ratio can have a negative influence on both the predator and prey biocenoses in that low availability of food and high death rate prior to sexual maturity can decrease (or prevent the increase of) populations of each, respectively. Selective hunting of species by humans which leads to population decline is one example of a high predator to prey ratio in action. Other interspecific relations include [[parasitism]], [[infectious disease]] and competition for limiting resources, which can occur when two species share the same [[ecological niche]].
The existing interactions between the various living beings go along with a permanent mixing of mineral and organic substances, absorbed by organisms for their growth, their maintenance and their reproduction, to be finally rejected as waste. These permanent recyclings of the elements (in particular [[carbon]], [[oxygen]] and [[nitrogen]]) as well as the [[water]] are called [[biogeochemical cycle]]s. They guarantee a durable stability of the biosphere (at least when unchecked human influence and [[extreme weather]] or geological phenomena are left aside). This self-regulation, supported by negative [[feedback]] controls, ensures the perenniality of the ecosystems. It is shown by the very stable concentrations of most elements of each compartment. This is referred to as [[homeostasis]]. The ecosystem also tends to evolve to a state of ideal balance, reached after a [[ecological succession|succession]] of events, the [[climax (biology)|climax]] (for example a pond can become a [[peat bog]]).
===Spatial relationships and subdivisions of land===
''Main articles:'' [[Biome]], [[ecozone]]
Ecosystems are not isolated from each other, but are interrelated. For example, [[water]] may circulate between ecosystems by the means of a [[river]] or [[ocean current]]. Water itself, as a liquid medium, even defines ecosystems. Some species, such as [[salmon]] or freshwater [[eel]]s move between marine systems and fresh-water systems. These relationships between the ecosystems lead to the concept of a ''biome''.
A [[biome]] is a homogeneous ecological formation that exists over a vast region, such as [[tundra]] or [[steppe]]s. The [[biosphere]] comprises all of the Earth's biomes -- the entirety of places where life is possible -- from the highest mountains to the depths of the oceans.
Biomes correspond rather well to subdivisions distributed along the latitudes, from the [[equator]] towards the [[geographical pole|pole]]s, with differences based on to the physical environment (for example, oceans or mountain ranges) and to the [[climate]]. Their variation is generally related to the distribution of species according to their ability to tolerate temperature and/or dryness. For example, one may find [[photosynthesis|photosynthetic]] [[algae]] only in the ''photic'' part of the ocean (where light penetrates), while [[conifer]]s are mostly found in mountains.
Though this is a simplification of more complicated scheme, [[latitude]] and [[altitude]] approximate a good representation of the distribution of [[biodiversity]] within the biosphere. Very generally, the richness of biodiversity (as well for animal than plant species) is decreasing most rapidly near the [[equator]] (as in [[Brazil]]) and less rapidly as one approaches the poles.
The biosphere may also be divided into [[ecozone]], which are very well defined today and primarily follow the continental borders. The ecozones are themselves divided into [[ecoregions]], though there is not agreement on their limits.
===Ecosystem productivity===
In an ecosystem, the connections between species are generally related to [[food]] and their role in the [[food chain]]. There are three categories of organisms:
* ''producers'' -- plants which are capable of [[photosynthesis]]
* ''consumers'' -- animals, which can be primary consumers ([[herbivorous]]), or secondary or tertiary consumers ([[carnivorous]]).
* ''decomposers'' -- [[bacterium|bacteria]], [[mushrooms]] which degrade organic matter of all categories, and restore minerals to the environment.
These relations form sequences, in which each individual consumes the preceding one and is consumed by the one following, in what are called [[food chain]]s or food network. In a food network, there will be fewer organisms at each level<!-- [[chains tropic]] --> as one follows the links of the network up the chain.
These concepts lead to the idea of [[biomass]] (the total living matter in a given place), of [[primary productivity]] (the increase in the mass of plants during a given time) and of [[secondary productivity]] (the living matter produced by consumers and the decomposers in a given time).
These two last ideas are key, since they make it possible to evaluate the [[load capacity]] -- the number of organisms which can be supported by a given ecosystem. In any food network, the energy contained in the level of the producers is not completely transferred to the consumers. Thus, from an energy point of view, it is more efficient for humans to be primary consumers (to get nourishment from grains and vegetables) than as secondary consumers (from herbivores such as beef and veal), and more still than as a tertiary consumer (from eating carnivores).
The productivity of ecosystems is sometimes estimated by comparing three types of land-based ecosystems and the total of aquatic ecosystems:
* the forests (1/3 of the Earth's land area) contain dense biomasses and are very productive. The total production of the world's forests corresponds to half of the primary production.
* savannas, meadows, and marshes (1/3 of the Earth's land area) contain less dense biomasses, but are productive. These ecosystems represent the major part of what humans depend on for food.
* extreme ecosystems in the areas with more extreme climates -- deserts and semi-deserts, tundra, alpine meadows, and steppes -- (1/3 of the Earth's surface) have very sparse biomasses and low productivity
* finally, the marine and fresh water ecosystems (3/4 of Earth's surface) contain very sparse biomasses (apart from the coastal zones).
Humanity's actions over the last few centuries have seriously reduced the amount of the Earth covered by forests ([[deforestation]]), and have increased agro-ecosystems ([[agriculture]]). In recent decades, an increase in the areas occupied by extreme ecosystems has occurred ([[desertification]]).
===Ecological crisis===
Generally, an [[ecological crisis]] is what occurs when the [[natural environment|environment]] of life of a species or a population evolves in an unfavourable way to its survival.
It may be that the environment quality degrades compared to the species needs, after a change of abiotic [[ecological factor]] (for example, an increase of temperature, less significant rainfalls). <br />
It may be that the environment becomes unfavourable for the survival of a species (or a population) due to an increase pressure of [[predation]] (for example overfishing).<br />
Lastly, it may be that the situation becomes unfavourable to the quality of life of the species (or the population) due to rise in the number of individuals ([[overpopulation]]).
Ecological crises may be more or less brutal (occurring between a few months to a few million years). They can also be of natural or anthropic origin. They may relate to one unique species or on the contrary, to a high number of species (see the article on [[Extinction event]]).
Lastly, an ecological crisis may be local (as an [[oil spill]]) or global (a rise in the sea level related to [[global warming]]).
According to its degree of endemism, a local crisis will have more or less significant consequences, from the death of many individuals to the total extinction of a species. Whatever its origin, disappearance of one or several species often will involve a rupture in the [[food chain]], further impacting the survival of other species.
In the case of a global crisis, the consequences can be much more significant; some extinction events showed the disappearance of more than 90% of existing species at that time. However, it should be noted that the disappearance of certain species, such as the dinosaurs, by freeing an ecological niche, allowed the development and the diversification of the mammals. An ecological crisis thus paradoxically favored biodiversity.
Sometimes, an ecological crisis can be a specific and reversible phenomenon at the ecosystem scale. But more generally, the crises impact will last. Indeed, it rather is a connected series of events, that occur till a final point. From this stage, no return to the previous stable state is possible, and a new stable state will be set up gradually (see [[homeorhesy]]).
Lastly, if an ecological crisis can cause extinction, it can also more simply reduce the quality of life of the remaining individuals. Thus, even if the diversity of the human population is sometimes considered threatened (see in particular [[indigenous people]]), few people envision human disappearance at short span. However, [[epidemic disease]]s, [[famine]]s, impact on health of reduction of [[air quality]], [[food crises]], reduction of living space, accumulation of toxic or non degradable wastes, threats on [[keystone species]] (great apes, panda, whales) are also factors influencing the [[well-being]] of people.
During the past decades, this increasing responsibility of humanity in some ecological crises has been clearly observed. Due to the increases in technology and a rapidly increasing population, humans have more influence on their own environment than any other [[ecosystem engineer]].
Some usually quoted examples as ecological crises are
*[[Permian-Triassic extinction event]] 250 million of years ago
*[[Cretaceous-Tertiary extinction event]] 65 million years ago
*[[Global warming]] related to the [[Greenhouse effect]]. Warming could involve flooding of the Asian deltas (see also [[ecorefugee]]s), multiplication of [[extreme weather]] phenomena and changes in the nature and quantity of the food resources (see [[Global warming and agriculture]]). See also international [[Kyoto Protocol]].
*[[Ozone layer]] hole issue
*[[Deforestation]] and [[desertification]], with disappearance of many species.
* The [[nuclear reactor|nuclear]] meltdown at [[Chernobyl]] in [[1986]] caused the death of many people and animals from [[cancer]], and caused mutations in a large number of animals and people. The area around the plant is now abandoned because of the large amount of radiation generated by the meltdown.
==See also==
{{Book}}
*[[ELDIS]], a database on ecological aspects of economical development.
*[[Ecology movement]]
*[[Environmentalism]]
*[[List of ecology topics]]
*[[List of environment topics]]
*[[List of biology topics]]
*[[List of planned cities]]
*[[List_of_publications_in_biology#Ecology| Important publications in ecology]]
==External links==
*[http://etext.lib.virginia.edu/cgi-local/DHI/dhi.cgi?id=dv2-13 ''Dictionary of the History of Ideas'':] Environment
*[http://www.greenmedia.info/eng/ ''Environmental Portal''] Green Media
*[http://reference.allrefer.com/encyclopedia/categories/ecol.html Ecology Database]
*[http://conbio.net/vl/ The Virtual Library of Ecology and Biodiversity]
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