Biological interaction

Biological interaction

Biological interactions are the effects organisms in a community have on one another. In the natural world no organism exists in absolute isolation, and thus every organism must interact with the environment and other organisms. An organism's interactions with its environment are fundamental to the survival of that organism and the functioning of the ecosystem as a whole.[1]

The black walnut secretes a chemical from its roots that harms neighboring plants, an example of amensalism.

In ecology, biological interactions can involve individuals of the same species (intraspecific interactions) or individuals of different species (interspecific interactions). These can be further classified by either the mechanism of the interaction or the strength, duration and direction of their effects.[2] Species may interact once in a generation (e.g. pollination) or live completely within another (e.g. endosymbiosis). Effects range from consumption of another individual (predation, herbivory, or cannibalism), to mutual benefit (mutualism). Interactions need not be direct; individuals may affect each other indirectly through intermediaries such as shared resources or common enemies.

Contents

Interactions categorized by effect

Effect on X Effect on Y Type of interaction
0 0 Neutralism
0 - Amensalism
+ 0 Commensalism
- - Competition
+ + Mutualism
+ - Predation or Parasitism
Some types of relationships listed by the effect they have on each partner. '0' is no effect, '-' is detrimental, and '+' is beneficial.

Terms which explicitly indicate the quality of benefit or harm in terms of fitness experienced by participants in an interaction are listed below. There are six possible combinations, ranging from mutually beneficial through neutral to mutually harmful interactions. The level of benefit or harm is continuous and not discrete, such that an interaction may be trivially harmful through to deadly, for example. It is important to note that these interactions are not always static. In many cases, two species will interact differently under different conditions. This is particularly true in, but not limited to, cases where species have multiple, drastically different life stages.

Neutralism

Neutralism describes the relationship between two species which interact but do not affect each other. It describes interactions where the fitness of one species has absolutely no effect whatsoever on that of the other. True neutralism is extremely unlikely or even impossible to prove. When dealing with the complex networks of interactions presented by ecosystems, one cannot assert positively that there is absolutely no competition between or benefit to either species. Since true neutralism is rare or nonexistent, its usage is often extended to situations where interactions are merely insignificant or negligible.

Amensalism

Amensalism is a relationship in which a product of one organism has a negative effect on another organism.[3] It is specifically a population interaction in which one organism is harmed, while the other is unaffected, and not benefited. Usually this occurs when one organism exudes a chemical compound as part of its normal metabolism that is detrimental to another organism. The bread mold penicillium is a common example of this; penicillium secrete penicillin, a chemical that kills bacteria. A second example is the black walnut tree (Juglansnigra), which secrete juglone, a chemical that harms or kills some species of neighboring plants, from its roots. This interaction may still increase the fitness of the non-harmed organism though, by removing competition and allowing it access to greater scarce resources. In this sense the impeding organism can be said to be negatively affected by the other's very existence, making it a +/- interaction. A third simple example is when sheep or cattle make trails in grass that they trample on, and without realizing, they are killing the grass. Examples of bacterial interference: - The inhibition of growth, for example the attine ants (ants Belonging to a New World tribe) are able to take advantage of an amensalistic relationship between an actinomycete and the parasitic fungi Escovopsis. This amensalistic relationship to enable the ant mutualism with another maintains a fungal species, Leucocoprini. Amazingly, these ants cultivate a garden of their own Leucocoprini for nourishment. To prevent the parasitic fungus decimating their Escovopsis from fungal garden, the ants also promote the growth of an actinomycete of the genus Pseudonocardia s, which produce an antimicrobial compound inhibits that the growth of Escovopsis.[4]

- The bactericidal activity, is the bread mold Penicillium a common example of this; penicillium secrete penicillin to that chemical kills bacteria. However, new findings demonstrate a new mechanism distinct from all known mechanisms of bacterial interference that we call interspecific molecule synergy. This mechanism is based on the evidence that there are molecules from different species which have a synergistic relationship and end up having a bactericidal effect on some species which do not have when acting independently. This mechanism is based on the effects of protein epiP secreted by inhibitory strains of S.epidermidis which impairs the formation of biofilms by S. aureus and which can even destroy S. aureus biofilms. However, epiP has no bactericidal activity against S.aureus when working alone. Furthermore, epiP establishes a synergy with hBD2(human beta-defensin 2),a protein present in the human immune system. Working together they are able to kill S. aureus. However, hBD2 has no bactericidal activity against S. aureus when working alone, thus the bactericidal activity is only achieved when two molecules from two different species cooperate against a third species. S. aureus resides in the nasal cavities of many humans from where it can cause severe inflammation that can lead to diseases such as pneumonia, endocarditic and septicemia. Thanks to this cooperation mechanism between S. epidermidis and humans the development of disease can be prevented.[3]

Competition

Competition is a mutually detrimental interaction between individuals, populations or species, but rarely between clades.[5]

Synnecrosis is a particular case in which the interaction is so mutually detrimental that it results in death, as in the case of some parasitic relationships.[citation needed] It is a rare and necessarily short-lived condition as evolution selects against it. The term is seldom used.[6]

Antagonism

This is not a bee, but a syrphid fly, a Batesian mimic.

In antagonistic interactions one species benefits at the expense of another. Predation is an interaction between organisms in which one organism captures biomass from another. It is often used as a synonym for carnivory but in its widest definition includes all forms of one organism eating another, regardless of trophic level (e.g. herbivory), closeness of association (e.g. parasitism and parasitoidism) and harm done to prey (e.g. grazing). Other interactions that cannot be classed as predation however are still possible, such as Batesian mimicry, where an organism bears a superficial similarity of at least one sort, such as a harmless plant coming to mimic a poisonous one. Intraguild predation occurs when an organism preys upon another of different species but at the same trophic level (e.g., coyotes kill and ingest gray foxes in southern California).[7]

Ecological facilitation

The following two interactions can be classed as facilitative. Facilitation describes species interactions that benefit at least one of the participants and cause no harm to either.[8] Facilitations can be categorized as mutualisms, in which both species benefit, or commensalisms, in which one species benefits and the other is unaffected. Much of classic ecological theory (e.g., natural selection, niche separation, metapopulation dynamics) has focused on negative interactions such as predation and competition, but positive interactions (facilitation) are receiving increasing focus in ecological research.[8][9][10][11][12]

Commensalism

Commensalism benefits one organism and the other organism is neither benefited nor harmed. It occurs when one organism takes benefits by interacting with another organism by which the host organism is not affected. A good example is a remora living with a shark. Remoras eat leftover food from the shark. The shark is not affected in the process as remoras eat only leftover food of the shark which doesn't deplete the shark's resources.

Mutualism

Pollination illustrates mutualism between flowering plants and their animal pollinators.

Mutualism is an interaction between two or more species, where species derive a mutual benefit, for example an increased carrying capacity. Similar interactions within a species are known as co-operation. Mutualism may be classified in terms of the closeness of association, the closest being symbiosis, which is often confused with mutualism. One or both species involved in the interaction may be obligate, meaning they cannot survive in the short or long term without the other species. Though mutualism has historically received less attention than other interactions such as predation,[13] it is very important subject in ecology. Examples include cleaner fish, pollination and seed dispersal, gut flora and nitrogen fixation by fungi.

Interactions classified by mechanism

Symbiosis

Common Clownfish (Amphiprion ocellaris) in their Ritteri sea anemone (Heteractis magnifica) home. Both the fish and anemone benefit from this relationship, a case of mutualistic symbiosis.

The term symbiosis (Greek: living together) can be used to describe various degrees of close relationship between organisms of different species. Sometimes it is used only for cases where both organisms benefit, sometimes it is used more generally to describe all varieties of relatively tight relationships, i.e. even parasitism, but not predation. Some even go so far as to use it to describe predation.[14] It can be used to describe relationships where one organism lives on or in another, or it can be used to describe cases where organisms are related by mutual stereotypic behaviors.

In either case symbiosis is much more common in the living world and much more important than is generally assumed. Almost every organism has many internal parasites. A large percentage of herbivores have mutualistic gut fauna that help them digest plant matter, which is more difficult to digest than animal prey. Coral reefs are the result of mutalisms between coral organisms and various types of algae that live inside them. Most land plants and thus, one might say, the very existence of land ecosystems rely on mutualisms between the plants which fix carbon from the air, and Mycorrhyzal fungi which help in extracting minerals from the ground. The evolution of all eukaryotes (plants, animals, fungi, protists) is believed to have resulted from a symbiosis between various sorts of bacteria: endosymbiotic theory.

Competition

Male-male interference competition in red deer.

Competition can be defined as an interaction between organisms or species, in which the fitness of one is lowered by the presence of another. Limited supply of at least one resource (such as food, water, and territory) used by both usually facilitates this type of interaction, although the competition may also exist over` other 'amenities', such as females for reproduction(in case of male organisms of the same species).

[13] Competition is one of many interacting biotic and abiotic factors that affect community structure. Competition among members of the same species is known as intraspecific competition, while competition between individuals of different species is known as interspecific competition.

Interspecific competition is normally not as fierce as intraspecific competition, unless in case of a sudden drastic change. However, it is the most conspicuous competition in grasslands, where, for example, cheetahs and hyenas are often killed by lion prides. Competition is not always a straightforward, direct interaction either, and can occur in both a direct and indirect fashion.

Competition between species at the same trophic level of an ecosystem, who have common predators, increases drastically if the frequency of the common predator in the community is decreased by a large margin. The magnitude of competition therefore depends on many factors in the same ecosystem.

According to the competitive exclusion principle, species less suited to compete for resources should either adapt or die out. According to evolutionary theory, this competition within and between species for resources plays a critical role in natural selection.

See also

References

  1. ^ Elton, C.S. 1968 reprint. Animal ecology. Great Britain: William Clowes and Sons Ltd.
  2. ^ Wootton, JT; Emmerson, M (2005). "Measurement of Interaction Strength in Nature". Annual Review of Ecology, Evolution, and Systematics 36: 419-44. http://www.jstor.org/stable/30033811. 
  3. ^ a b Willey, Joanne M.; Sherwood, Linda M. and Woolverton Cristopher J. (2011). “Microbiology”. Prescott’s, 30: 713-738.
  4. ^ Tadayuki Iwase, Yoshio Uehara, Hitomi Shinji, Akiko Tajima, Hiromi Seo, Koji Takada, Toshihiko Agata Yoshimitsu Mizunoe (2010). “Staphylococcus epidermidis Esp inhibits Staphylococcus aureus biofilm formation and nasal colonization”. Nature 465 (7296): 346–349. doi:10.1038/nature09074. PMID:20485435
  5. ^ Sahney, S., Benton, M.J. and Ferry, P.A. (2010). "Links between global taxonomic diversity, ecological diversity and the expansion of vertebrates on land" (PDF). Biology Letters 6 (4): 544–547. doi:10.1098/rsbl.2009.1024. PMC 2936204. PMID 20106856. http://rsbl.royalsocietypublishing.org/content/6/4/544.full.pdf+html. 
  6. ^ Lidicker W. Z. (1979). "A Clarification of Interactions in Ecological Systems". BioScience 29: 475–477. doi:10.2307/1307540. JSTOR 1307540. 
  7. ^ Fedriani J.M., Fuller T. K., Sauvajot R. M., York E. C. (2000). "Competition and intraguild predation among three sympatric carnivores". Oecologia 125: 258–270. doi:10.1007/s004420000448. 
  8. ^ a b Stachowicz, J. J. 2001. Mutualism, facilitation, and the structure of ecological communities. BioScience '51': 235-246.
  9. ^ Boucher, D. H., S. James, and K. H. Keeler. 1982. The ecology of mutualism. Annual Review of Ecology and Systematics 13: 315-347.
  10. ^ Callaway, R. M. 1995. Positive interactions among plants (Interpreting botanical progress). The Botanical Review 61: 306-349.
  11. ^ Bruno, J. F., J. J. Stachowicz, and M. D. Bertness. 2003. Inclusion of facilitation into ecological theory. TREE 18: 119-125.
  12. ^ Tirado, R. and F. I. Pugnaire. 2005. Community structure and positive interactions in constraining environments. OIKOS 111: 437-444.
  13. ^ a b Begon, M., J.L. Harper and C.R. Townsend. 1996. Ecology: individuals, populations, and communities, Third Edition. Blackwell Science Ltd., Cambridge, Massachusetts, USA.
  14. ^ Surindar Paracer and Vernon Ahmadjian, "Symbiosis: An Introduction to Biological Associations" Oxford University Press. 2nd Ed. 2000. ISBN 0-195-11806-5

Further reading

  • Snow, B.K. & Snow, D.W. (1988). Birds and berries: a study of an ecological interaction. Poyser, London ISBN 0-85661-049-6

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