Biocoenosis: Difference between revisions
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{{Short description|Interacting organisms living together in a habitat}} |
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{{more citations needed|date=January 2016}} |
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{{Expand German|Biozönose|date=July 2015}} |
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A '''biocenosis''' (UK English, '''biocoenosis''', also '''biocenose''', '''biocoenose''', '''biotic community''', '''biological community''', '''[[Community (ecology)|ecological community]]''', '''life assemblage'''), coined by [[Karl Möbius]] in 1877, describes the [[Biological interaction|interacting]] [[organism]]s living together in a [[habitat (ecology)|habitat]] ([[biotope]]).<ref>[[Karl Möbius|Möbius, Karl]]. 1877. ''Die Auster und die Austernwirtschaft.'' Verlag von Wiegandt, Hemple & Parey: Berlin, [https://archive.org/details/dieausterunddie00mbgoog]. (English translation: The Oyster and Oyster Farming. ''U.S. Commission Fish and Fisheries Report'', 1880: 683-751, [http://penbay.org/cof/cof_1880.html].)</ref> The use of this term has declined in the 21st сentury. |
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In the [[palaeontological]] literature, the term distinguishes "life assemblages", which reflect the original living community, living together at one place and time. In other words, it is an assemblage of [[fossil]]s or a community of specific time, which is different from "death assemblages" ([[Thanatocoenosis|thanatocoenoses]]).<ref name=Ager>e.g. Ager, 1963, Principles of Palaeoecology</ref> No palaeontological assemblage will ever completely represent the original biological community (i.e. the biocoenosis, in the sense used by an [[ecologist]]); the term thus has somewhat different meanings in a palaeontological and an ecological context.<ref name="Ager"/> |
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A '''biocoenosis ''' ('''biocoenose''', '''biocenose''', '''biotic community''', '''biological community''', '''[[Community (ecology)|ecological community]]'''), coined by [[Karl Möbius]] in 1877, describes the interacting [[organism]]s living together in a [[habitat (ecology)|habitat]] ([[biotope]]). This term is rarely used in English, as this concept has not been popularized in [[Anglosphere|anglophone countries]]. Instead, English-speaking scientists normally use the terms [[ecosystem]]s or [[Community (ecology)|communities]]. |
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Based on the concept of biocenosis, ecological communities can take various forms: |
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Descriptors in an [[ecosystem]]{{Clarify|date=August 2012}} are: |
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* |
*Zoocenosis for the [[fauna]]l community, |
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*[[ |
*[[Phytocenosis]] for the [[flora]] community, |
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* |
*Microbiocenosis for the [[microbe|microbial]] community. |
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The [[geography|geographical]] extent of a biocenose is limited by the requirement of a more or less uniform species composition. |
The [[geography|geographical]] extent of a biocenose is limited by the requirement of a more or less [[uniform distribution (ecology)|uniform]] [[species composition]]. |
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==Ecosystems== |
==Ecosystems== |
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{{ |
{{Main|Ecosystem}} |
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An [[ecosystem]],originally defined by Tansley (1935), is a biotic community (or |
An [[ecosystem]], originally defined by [[Arthur Tansley|Tansley]] (1935), is a biotic community (or biocenosis) along with its physical environment (or ''[[biotope]]''). In ecological studies, biocenosis is the emphasis on relationships between species in an area. These relationships are an additional consideration to the interaction of each species with the physical environment. |
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==Biotic communities== |
==Biotic communities== |
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[[Image:Tide pools in santa cruz.jpg|thumb|The side of a [[tide pool]] showing [[sea star]]s (''Dermasterias''), [[sea anemone]]s (''[[Anthopleura]]'') and [[sea sponge]]s in Santa Cruz, California |
[[Image:Tide pools in santa cruz.jpg|thumb|The side of a [[tide pool]] showing [[sea star]]s (''Dermasterias''), [[sea anemone]]s (''[[Anthopleura]]'') and [[sea sponge]]s in Santa Cruz, California]] |
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Biotic communities vary in size, and larger ones may contain smaller ones. Species interactions are evident in food or feeding relationships. A method of delineating biotic communities is to map the [[food chain|food network]] to identify which species feed upon which others and then determine the system boundary as the one that can be drawn through the fewest consumption links relative to the number of species within the boundary. |
Biotic communities vary in size, and larger ones may contain smaller ones. Species interactions are evident in food or feeding relationships. A method of delineating biotic communities is to map the [[food chain|food network]] to identify which species feed upon which others and then determine the system boundary as the one that can be drawn through the fewest consumption links relative to the number of species within the boundary. |
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==See also== |
==See also== |
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{{Portal |
{{Portal|Environment|Ecology|Earth sciences|Biology}} |
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* [[Community (ecology)]] |
* [[Community (ecology)]] |
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* [[Hylozoism]] |
* [[Hylozoism]] |
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* [[Population biology]] |
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{{ |
{{Clear}} |
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==References== |
==References== |
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==Further reading== |
==Further reading== |
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{{Wiktionary}} |
{{Wiktionary}} |
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* Kendeigh, S. Charles. 1961. ''Animal Ecology''. Prentice-Hall, Inc., Englewood Cliffs, N.J., 468 p. |
* Kendeigh, S. Charles. 1961. ''Animal Ecology''. Prentice-Hall, Inc., Englewood Cliffs, N.J., 468 p. |
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* [[Karl Möbius|Möbius, Karl]]. 1877. ''Die Auster und die Austernwirtschaft.'' (tr. ''The Oyster and Oyster Farming'') Berlin. (English translation) U.S. Commission Fish and Fisheries Report, 1880: 683-751. |
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* Tansley, A. G. 1935. The use and abuse of vegetational concepts and terms. ''Ecology,'' 16(3): 284-307. |
* Tansley, A. G. 1935. The use and abuse of vegetational concepts and terms. ''Ecology,'' 16(3): 284-307. |
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{{Biological organisation}} |
{{Biological organisation}} |
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{{Authority control}} |
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[[Category:Biogeography]] |
[[Category:Biogeography]] |
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[[Category:Ecology terminology]] |
[[Category:Ecology terminology]] |
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[[Category:Habitats]] |
[[Category:Habitats]] |
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{{Link GA|az}} |
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Latest revision as of 19:01, 26 May 2024
 | This article needs additional citations for verification. (January 2016) |
 | You can help expand this article with text translated from the corresponding article in German. (July 2015) Click [show] for important translation instructions.
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A biocenosis (UK English, biocoenosis, also biocenose, biocoenose, biotic community, biological community, ecological community, life assemblage), coined by Karl Möbius in 1877, describes the interacting organisms living together in a habitat (biotope).[1] The use of this term has declined in the 21st сentury.
In the palaeontological literature, the term distinguishes "life assemblages", which reflect the original living community, living together at one place and time. In other words, it is an assemblage of fossils or a community of specific time, which is different from "death assemblages" (thanatocoenoses).[2] No palaeontological assemblage will ever completely represent the original biological community (i.e. the biocoenosis, in the sense used by an ecologist); the term thus has somewhat different meanings in a palaeontological and an ecological context.[2]
Based on the concept of biocenosis, ecological communities can take various forms:
- Zoocenosis for the faunal community,
- Phytocenosis for the flora community,
- Microbiocenosis for the microbial community.
The geographical extent of a biocenose is limited by the requirement of a more or less uniform species composition.
Ecosystems
[edit]An ecosystem, originally defined by Tansley (1935), is a biotic community (or biocenosis) along with its physical environment (or biotope). In ecological studies, biocenosis is the emphasis on relationships between species in an area. These relationships are an additional consideration to the interaction of each species with the physical environment.
Biotic communities
[edit]
Biotic communities vary in size, and larger ones may contain smaller ones. Species interactions are evident in food or feeding relationships. A method of delineating biotic communities is to map the food network to identify which species feed upon which others and then determine the system boundary as the one that can be drawn through the fewest consumption links relative to the number of species within the boundary.
Mapping biotic communities is important identifying sites needing environmental protection, such as the British Site of Special Scientific Interest (SSSIs). The Australian Department of the Environment and Heritage maintains a register of Threatened Species and Threatened Ecological Communities under the Environment Protection and Biodiversity Conservation Act 1999 (EPBC Act).
See also
[edit]
References
[edit]Further reading
[edit]
- Kendeigh, S. Charles. 1961. Animal Ecology. Prentice-Hall, Inc., Englewood Cliffs, N.J., 468 p.
- Tansley, A. G. 1935. The use and abuse of vegetational concepts and terms. Ecology, 16(3): 284-307.
