Scavenger


Scavengers are animals that feed on dead and decaying organic matter. Often the term is used to describe the consumption of carrion, the bodies of animals that have died from causes other than predation or the bodies of animals that have been killed by other predators. However, the term is also used to describe animals that feed on rotting plant matter or refuse.
Vultures and burying beetles are examples of scavengers that feed on carrion, pink bud moth and stag beetle larvae are examples of scavengers that feed on rotting plant matter, and raccoons and squirrels are examples of scavengers that feed on refuse. Carrion-eating scavengers are called necrophages.
Scavengers play an important role in ecosystems by preventing the accumulation of decaying matter and helping to recycle nutrients. The process and rate at which dead plant and animal material is scavenged is affected by both biotic and abiotic factors, such as plant species, carcass size, habitat, temperature, moisture levels, and seasons. Detritivores and decomposers complete this process by consuming the remains left by scavengers.

Etymology

Scavenger is an alteration of scavager, from Middle English skawager meaning "customs collector", from skawage meaning "customs", from Old North French escauwage meaning "inspection", from schauwer meaning "to inspect", of Germanic origin; akin to Old English scēawian and German schauen meaning "to look at", and modern English "show".

Related terminology

Animals that subsist entirely or mainly on decaying biomass are called obligate scavengers, while those capable of obtaining food via other methods are termed facultative scavengers. Animals that rely specifically on carrion as a food source are called obligate necrophages. Animals that feed on particulate plant or animal matter are typically categorized as detritivores rather than scavengers. The midge fly Propsilocerus akamusi, which feeds on detritus in the sediment of freshwater lakes, is an example of a detritivore.

Types of scavengers

Scavengers that feed on carrion

Obligate scavenging of carrion is rare among vertebrates, due to the difficulty of finding enough carrion without expending too much energy. New World vultures such as the black vulture, and Old World vultures such as the griffon vulture, white-backed vulture and lappet-faced vulture, are examples of obligate carrion scavengers.
Most of the vertebrates that eat carrion are facultative scavengers, capable of obtaining food via predation or other methods, and eating carrion opportunistically. Many large carnivores that hunt regularly, such as hyenas and jackals, but also animals rarely thought of as scavengers, such as African lions, leopards, and wolves will scavenge if given the chance. They may also use their size and ferocity to intimidate the original hunters into abandoning their kills. Gulls, crows and magpies frequently scavenge roadkill. Other vertebrates, for example Egyptian mastigures, scavenge to survive during times of food scarcity.
Aquatic and semi-aquatic vertebrates feed on carrion too. Carrion-eating scavengers found in marine settings include hagfish, great white sharks, northern wolffish and abyssal grenadiers, and carrion-eating scavengers found in freshwater settings include American alligators, Eurasian otters and common midwife toads.
File:Sarcophaga nodosa.jpg|thumb|upright=1.1|Sarcophaga nodosa, a species of flesh fly, feeding on decaying meat
Burying beetles, vulture bees and bone skipper flies are examples of obligately necrophagous invertebrates. They are all dependent on carrion during the larval stages of their life cycles. Adult burying beetles and vulture bees feed on carrion too. Other invertebrates, such as blow flies, flesh flies and yellowjackets, also feed on carrion but are not reliant on it for survival. Blow fly and flesh fly larvae can feed on excrement, and some species, for example, Chrysomya putoria and Sarcophaga crassipalpis, can feed on living tissue. Also, yellowjackets can hunt caterpillars and other insects and feed on nectar, sap and fruit.
In addition to the terrestrial examples above, many aquatic invertebrates consume carrion. The common octopus, European green crab and seven-armed starfish are all marine invertebrates that feed on carrion, and the ribbon leech Erpobdella obscura and red swamp crayfish are freshwater invertebrates that feed on carrion.
Carrion-eating scavengers have numerous adaptations to help them find food, protect themselves from infection and intoxication, gorge themselves when food is available, and conserve energy between meals.

Scavengers that feed on dead plants

Animals that feed on dead plant material are called herbivorous scavengers.
Some stag beetles are obligate scavengers of dead plant material. For example, Lucanus cervus is dependent on dead wood during the larval stages of its life cycle. Adult Lucanus cervus beetles lay their eggs near the stumps of dead trees, and the larvae then spend the next 4 to 7 years feeding and growing in size. Types of wood eaten include oak, ash, elm, sycamore, lime and hornbeam.
Pink bud moth larvae are facultative scavengers of dead plant material, feeding on rotting fruits, decaying flowers and leaves, but also the fruits and grains of live plants. Termites are facultative scavengers too. Termites feed on dead trees and wood, but also live plants and detritus such as humus and excrement. Darkling beetles, woodlice, and banana moth larvae are also facultative scavengers of dead plant material.

Scavengers that feed on discarded food

In urban settings, some animals regularly explore public parks and garbage cans for discarded food items that they can eat. Vertebrate examples of this type of scavenger include gulls, crows, feral pigeons, raccoons, opossums, brown rats and squirrels. Invertebrate examples include ants and blow flies. In areas where there are municipal dumps, polar bears, raccoon dogs, red foxes, martens and polecats sometimes scavenge for food. Hyenas also scavenge from municipal dumps in some prey-depleted districts of East Africa.

Prehistoric scavengers

In the prehistoric eras, the species Tyrannosaurus rex may have been an apex predator, preying upon hadrosaurs, ceratopsians, and possibly juvenile sauropods, although some experts have suggested the dinosaur was primarily a scavenger. The debate about whether Tyrannosaurus was an apex predator or scavenger was among the longest ongoing feuds in paleontology; however, most scientists now agree that Tyrannosaurus was an opportunistic carnivore, acting mostly as a predator but also scavenging when it could sense it. Recent research also shows that while an adult T. rex would energetically gain little through scavenging, smaller theropods of approximately might have gained levels similar to those of hyenas, though not enough for them to rely on scavenging.
Other research suggests that carcasses of giant sauropods may have made scavenging much more profitable to carnivores than it is now. For example, a single 40 tonne Apatosaurus carcass would have been worth roughly 6 years of calories for an average allosaur. As a result of this resource oversupply, it is possible that some theropods evolved to get most of their calories by scavenging giant sauropod carcasses, and may not have needed to consistently hunt in order to survive. The same study suggested that theropods in relatively sauropod-free environments, such as tyrannosaurs, were not exposed to the same type of carrion oversupply, and were therefore forced to hunt in order to survive.

Ecological function

Scavengers play a fundamental role in the environment through the removal of decaying organisms, serving as a natural sanitation service. While microscopic and invertebrate decomposers break down dead organisms into simple organic matter which are used by nearby autotrophs, scavengers help conserve energy and nutrients obtained from carrion within the upper trophic levels, and are able to disperse the energy and nutrients farther away from the site of the carrion than decomposers.
Scavenging unites animals which normally would not come into contact, and results in the formation of highly structured and complex communities which engage in nonrandom interactions. Scavenging communities function in the redistribution of energy obtained from carcasses and reducing diseases associated with decomposition. Oftentimes, scavenger communities differ in consistency due to carcass size and carcass types, as well as by seasonal effects as consequence of differing invertebrate and microbial activity.
Competition for carrion results in the inclusion or exclusion of certain scavengers from access to carrion, shaping the scavenger community. When carrion decomposes at a slower rate during cooler seasons, competitions between scavengers decrease, while the number of scavenger species present increases.
Alterations in scavenging communities may result in drastic changes to the scavenging community in general, reduce ecosystem services and have detrimental effects on animal and humans. The reintroduction of gray wolves into Yellowstone National Park in the United States caused drastic changes to the prevalent scavenging community, resulting in the provision of carrion to many mammalian and avian species. Likewise, the reduction of vulture species in India lead to the increase of opportunistic species such as feral dogs and rats. The presence of both species at carcasses resulted in the increase of diseases such as rabies and bubonic plague in wildlife and livestock, as feral dogs and rats are transmitters of such diseases. Furthermore, the decline of vulture populations in India has been linked to the increased rates of anthrax in humans due to the handling and ingestion of infected livestock carcasses. An increase of disease transmission has been observed in mammalian scavengers in Kenya due to the decrease in vulture populations in the area, as the decrease in vulture populations resulted in an increase of the number of mammalian scavengers at a given carcass along with the time spent at a carcass.