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In commensalism, one of the two participating species benefits, while the other is neither harmed nor benefitted. In parasitism, one of the two participating species benefits at the expense of the other. Symbiosis may be obligate or facultative. In obligate symbiosis, one or both species depends on the other for survival.
Parasitism – where one organism benefits at the expense of another organism. Parabiosis – where both organisms occupy the same dwelling, but do not interfere with each other; Symbiosis – long-term interactions between different biological species, which can be mutualistic, commensal or parasitic; Synanthrope – species commensal with humans
Parasitism is a relationship between species, where one organism, the parasite, lives on or in another organism, the host, causing it some harm, and is adapted structurally to this way of life. [20] The parasite either feeds on the host, or, in the case of intestinal parasites, consumes some of its food. [21]
Evolutionary ecology has been studied using symbiotic relationships between organisms to determine the evolutionary forces by which such relationships develop. In symbiotic relationships, the symbiont must confer some advantage to its host in order to persist and continue to be evolutionarily viable. Research has been conducted using aphids and ...
Commensalism describes a relationship between two living organisms where one benefits and the other is not significantly harmed or helped. It is derived from the English word commensal, used of human social interaction. It derives from a medieval Latin word meaning sharing food, formed from com-(with) and mensa (table). [38] [39]
Commensalism is a relationship where one partner receives a benefit while the other is not affected. Parasitism is where one partner benefits at the expense of the host. [9] Amensalism is a less common type of relationship where one organisms receives no benefit but the other still has negative ramifications.
This term is used for organisms that "directly or indirectly modulate availability of resources (other than themselves) to other species, by causing physical state changes in biotic or abiotic materials". Beavers are an example of such engineers. Other examples include earthworms, trees, coral reefs, and planktonic organisms.
Correlated mutations between the two species enter them into an evolution arms race. Whichever organism, host or parasite, that cannot keep up with the other will be eliminated from their habitat, as the species with the higher average population fitness survives. This race is known as the Red Queen hypothesis. [30]