Commensalism

The cattle egret, Bubulcus ibis, is a classic example of commensalism. It forages in fields among cattle and horses, feeding on insects stirred up by the grazing animals. The egret benefits from this relationship, while the livestocks are typically unaffected by it.

In ecology, commensalism is a class of relationship between two organisms where one organism benefits but the other is unaffected. There are three other types of association: mutualism (where both organisms benefit), competition (where both organisms are harmed), and parasitism (one organism benefits and the other one is harmed).

Commensalism derives from the English word commensal, meaning "sharing of food" in human social interaction, which in turn derives from the Latin cum mensa, meaning "sharing a table". Originally, the term was used to describe the use of waste food by second animals, like the carcass eaters that follow hunting animals but wait until they have finished their meal.

Examples of commensal relationships

Commensalism is more difficult to demonstrate than parasitism and mutualism, for it is easier to show a single instance whereby the host is affected, than it is to prove or disprove that possibility. Often, a detailed investigation will show that the host indeed has become affected by the relationship.

Cattle egrets and livestock

An example of commensalism: cattle egrets foraging in fields among cattle or other livestock. As cattle, horses, and other livestock graze on the field, they cause movements that stir up various insects. As the insects are stirred up, the cattle egrets following the livestock catch and feed upon them. The egrets benefit from this relationship because the livestock have helped them find their meals, while the livestock are typically unaffected by it.

Tigers and golden jackals

In India, lone golden jackals expelled from their pack have been known to form commensal relationships with tigers. These solitary jackals, known as kol-bahl, will attach themselves to a particular tiger, trailing it at a safe distance in order to feed on the big cat's kills. A kol-bahl will even alert a tiger to a kill with a loud pheal (thereby straying into mutualism). Tigers have been known to tolerate these jackals: one report describes how a jackal confidently walked in and out between three tigers walking together a few feet away from each other.^[1] Tigers will however kill jackals on occasion: the now extinct tigers of the Amu-Darya region were known to eat jackals frequently.^[2]

Other examples

Another example of commensalism: birds following army ant raids on a forest floor. As the army ant colony travels on the forest floor, they stir up various flying insect species. As the insects flee from the army ants, the birds following the ants catch the fleeing insects. In this way, the army ants and the birds are in a commensal relationship because the birds benefit while the army ants are unaffected.

Orchids and mosses are plants that can have a commensal relationship with trees. The plants grow on the trunks or branches of trees. They get the light they need as well as nutrients that run down along the tree. As long as these plants do not grow too heavy, the tree is not affected.

Barnacles

Barnacles, a type of arthropod in the subphylum Crustacea

Barnacles are highly sedentary crustaceans that must attach themselves permanently to a hard substrate, such as rocks, shells, whales, or anything else on which they can gain a foothold. When they attach to the shell of a scallop, for instance, barnacles benefit by having a place to stay, leaving the scallop presumably unaffected.

Arguments

Whether the relationship between humans and some types of our gut flora is commensal or mutualistic is still unanswered.

Some biologists argue that any close interaction between two organisms is unlikely to be completely neutral for either party, and that relationships identified as commensal are likely mutualistic or parasitic in a subtle way that has not been detected. For example, epiphytes are "nutritional pirates" that may intercept substantial amounts of mineral nutrients that would otherwise go to the host plant.^[3] Large numbers of epiphytes can also cause tree limbs to break or shade the host plant and reduce its rate of photosynthesis. Similarly, the phoretic mites may hinder their host by making flight more difficult, which may affect its aerial hunting ability or cause it to expend extra energy while carrying these passengers.

Types

Phoretic mites on a fly (Pseudolynchia canariensis)

Like all ecological interactions, commensalisms vary in strength and duration from intimate, long-lived symbioses to brief, weak interactions through intermediaries.

Phoresy

One animal attaching to another for transportation only. This concerns mainly arthropods, examples of which are mites on insects (such as beetles, flies, or bees), pseudoscorpions on mammals^[4] or beetles, and millipedes on birds.^[5] Phoresy can be either obligate or facultative (induced by environmental conditions).

Inquilinism

Using a second organism for housing. Examples are epiphytic plants (such as many orchids) that grow on trees, or birds that live in holes in trees.

Metabiosis

A more indirect dependency, in which the second organism uses something the first created, however, after the death of the first, for example, maggots, which feast and develop on the corpse, or hermit crabs, which use gastropod shells to protect their bodies.

In domestication, the matter is more vague. For instance, in domesticated cattle, humans can use the beast in both commensal and parasitic relationships; parasitic as a source of meat and milk, while, after death (usually not a natural death), the hide can be used commensually as leather. Further, draft cattle can be used for transport. If the animal died a natural death, then the relationship would be commensal. However, if it were killed for meat or leather, or to reduce loading on pasture, or any other purpose where humans benefit, then the relationship would be parasitic.

See also

• Symbiosis - long-term interactions between different biological species, which can be mutualistic, commensal, or parasitic
• Mutualism - where both organisms experience mutual benefit in the relationship
• Parasitism - where one organism benefits at the expense of another
• Remora - phoretic fishes that may also eat the scraps off their hosts, though they may also be mutualistic cleaners

References

1. ↑ Perry, Richard (1965). The World of the Tiger. pp. 260. ASIN: B0007DU2IU. 
2. ↑ Heptner, V. G. & Sludskii, A. A. 1992. Mammals of the Soviet Union. Vol. II, part 2, Carnivores(Feloidea), p. 177. Leiden, E. J. Brill. 784 pp. ISBN 9004088768
3. ↑ Benzing, D.H. (1980) Biology of the Bromeliads. Eureka, California: Mad River Press.
4. ↑ Durden, Lance A. (2001) "Pseudoscorpions Associated With Mammals in Papua New Guinea". Biotropica, Vol. 23, No. 2, pp. 204–206.
5. ↑ Tajovy, Karel, et al. (2001) "Millipedes (Diplopoda) in Dog's’ nests". European Journal of Soil Biology, vol. 37, pp. 321–323.

Modelling ecosystems - trophic components General Abiotic component · Abiotic stress · Behaviour · Biogeochemical cycle · Biomass · Biotic component · Biotic stress · Carrying capacity · Competition · Ecosystem · Ecosystem ecology · Ecosystem model · Keystone species · List of feeding behaviours · Metabolic theory of ecology · Productivity Producers Autotrophs · Chemosynthesis · Chemotrophs · Foundation species · Mixotrophs · Myco-heterotrophy · Mycotroph · Organotrophs · Photoheterotrophs · Photosynthesis · Photosynthetic efficiency · Phototrophs · Primary nutritional groups · Primary production Consumers Apex predator · Bacterivore · Carnivores · Chemoorganotroph · Foraging · Generalist and specialist species · Herbivores · Heterotroph · Heterotrophic nutrition · Mesopredator release hypothesis · Omnivores · Optimal foraging theory · Predation Decomposers Chemoorganoheterotrophy · Decomposition · Detritivores · Detritus Microorganisms Bacteriophage · Lithoautotroph · Lithotrophy · Microbial food web · Microbial loop · Microbial metabolism · Phage ecology Food webs Cold seeps · Hydrothermal vents · Intertidal · Kelp forests · Lakes · North Pacific Subtropical Gyre · Rivers · San Francisco Estuary · Soil · Tidal pool Trophic effects Ascendency · Bioaccumulation · Biomagnification · Cascade effect · Competitive exclusion principle · Copiotrophs · Dominance · Ecological efficiency · Ecological network · Ecological pyramid · Ecological succession · Energy quality · Energy Systems Language · f-ratio · Feed conversion ratio · Feeding frenzy · Mesotrophic soil · Oligotroph · Paradox of the plankton · Trophic cascade · Trophic level · Trophic mutualism · Trophic state index Defense/counter Antipredator adaptations · Herbivore adaptations to plant defense · Plant defense against herbivores · Predator avoidance in schooling fish   Modelling ecosystems - other components Population ecology Abundance · Allee effect · Depensation · Ecological yield · Effective population size · Intraspecific competition · Logistic function · Malthusian growth model · Maximum sustainable yield · Overpopulation in wild animals · Overexploitation · Population cycle · Population dynamics · Population modeling · Population size · Predator–prey equations · Recruitment · Resilience · Small population size · Stability Species Biodiversity · Density-dependent inhibition · Ecological effects of biodiversity · Ecological extinction · Endemic species · Flagship species · Gradient analysis · Indicator species · Introduced species · Invasive species · Latitudinal gradients in species diversity · Minimum viable population · Occupancy-abundance relationship · Population viability analysis · Rapoport's rule · Relative abundance distribution · Relative species abundance · Species diversity · Species homogeneity · Species richness · Species distribution · Species-area curve · Umbrella species Species interaction Antibiosis · Biological interaction · Commensalism · Community ecology · Ecological facilitation · Interspecific competition · Mutualism Spatial ecology Cross-boundary subsidy · Ecocline · Ecotone · Ecotype · Disturbance · Edge effect · Foster's rule · Habitat fragmentation · Intermediate Disturbance Hypothesis · Island biogeography · Landscape ecology · Landscape epidemiology · Landscape limnology · Metapopulation · Patch dynamics · Source–sink dynamics Niche Ecological niche · Ecological trap · Ecosystem engineer · Environmental niche modelling · Guild · Habitat · Limiting similarity · Niche apportionment models · Niche differentiation Other networks Assembly rules · Bateman's principle · Bioluminescence · Ecological collapse · Ecological debt · Ecological deficit · Ecological energetics · Ecological indicator · Ecological threshold · Ecosystem diversity · Emergence · Kleiber's law · Liebig's law of the minimum · Marginal value theorem · Thorson's rule · Xerosere Other Allometry · Alternative stable state · Balance of Nature · Biological data visualization · Biogeography · Constructal theory · Ecocline · Ecological economics · Ecological footprint · Ecological forecasting · Ecological humanities · Ecological stoichiometry · Ecopath · Ecosystem based fisheries · Endolith · Evolutionary ecology · Functional ecology · Industrial ecology · Macroecology · Microecosystem · Natural environment · Systems ecology · Theoretical ecology List of ecology topics