Apex predator

For other uses, see Apex predator (disambiguation).

The lion is Africa's apex predator.

Human hunters are among the most capable predators, often able to catch or kill any animal.

An apex predator, also known as an alpha predator, is a predator residing at the top of a food chain upon which no other creatures prey.^{[n 1]}^[1]^[2] Apex predators are usually defined in terms of trophic dynamics, meaning that apex-predator species occupy the highest trophic level or levels and play a crucial role in maintaining the health of their ecosystems. One study of marine food webs defined apex predators as greater than trophic level four.^[3] The apex predator concept is commonly applied in wildlife management, conservation and ecotourism.

Food chains are often far shorter on land, with their apices usually limited to the third trophic level – for example, giant constrictor snakes, crocodilians, hyenas, wolves or big cats preying mostly upon large herbivores. Apex predators do not need to be hypercarnivores.

Ecological roles

Apex predators affect prey species' population dynamics. Where two competing species are in an ecologically unstable relationship, apex predators tend to create stability if they prey upon both. Inter-predator relationships are also affected by apex status. Non-native fish, for example, have been known to devastate formerly dominant predators. One lake manipulation study found that when the non-native smallmouth bass was removed, lake trout, the suppressed native apex predator, diversified its prey selection and increased its trophic level.^[4]

Effects on wider ecosystem characteristics such as plant ecology have been debated, but there is evidence of a significant impact by apex predators. When introduced to subarctic islands, for example, Arctic foxes' predation of seabirds has been shown to turn grassland into tundra.^[5] Such wide-ranging effects on lower levels of an ecosystem are termed trophic cascades. The removal of top-level predators, often – and, especially, recently – through human agency, can radically cause or disrupt trophic cascades.^[6]^[7]

A now commonly-cited example of the effect of apex predators on an ecosystem is the dramatic changes in the Greater Yellowstone Ecosystem recorded after the gray wolf was reintroduced to Yellowstone National Park in 1995. Elk, the wolves' primary prey, became less abundant and changed their behavior, freeing riparian zones from constant grazing and allowing willows, aspens and cottonwoods to flourish, creating habitats for beaver, moose and scores of other species.^[8] In addition to their effect on prey species, the wolves' presence also affected one of the park's vulnerable species, the grizzly bear: emerging from hibernation, having fasted for months, the bears chose to scavenge wolf kills,^[9]^[10]^:56 especially during the autumn as they prepared to hibernate once again.^[10]^:90 The grizzly bear gives birth during hibernation, so the increased food supply is expected to produce an increase in the numbers of cubs observed.^[11] Dozens of other species, including eagles, ravens, magpies, coyotes and black bears have also been documented as scavenging from wolf kills within the park.^[12]

Keystone species, a concept first described by zoologist Robert Paine to explain the relationship between the starfish species Pisaster ochraceus and mussel species Mytilus californianus, are apex predators within functional groups.^[13]

The question of whether or not homo sapiens as a species should be considered as an apex predator is a complex one that has been subject to various analyses for years. The highly varied environments that human beings have lived in (and continue to live in) coupled with the similarly highly varied behaviors of human cultures towards animals make generalizations particularly difficult; though as omnivores that far and away consume more plant matter than meat, humans have the organized ability to drive other species into extinction as well as threatened status vastly unlike any other animal. The topic has been explored in publications such as the Proceedings of the National Academy of Sciences^[14]^[15] and Scientific American,^[16] with disputed results.

Gallery

The saltwater crocodile is the largest living reptile^[1] and is the dominant predator throughout its range.^[2] The related Nile crocodile, which even preys upon great apes (humans and chimpanzees), is at the top of the food chain in African waters.
Wolves operate in packs in which each wolf has a specialized role in hunts that would otherwise fail, often against prey much larger than the individual wolves. All wolf subspecies, including dogs and dingos, and the closely related coyote, are successful predators and may sometimes prey on livestock and vermin—and are competent defenders.
The tiger is one of the largest non-aquatic mammalian predators in the world. Pictured is the Bengal tiger, the subspecies of tiger most infamous for man-eating. All members of the cat family, including even the domestic cat with obvious similarities of build and behavior to tigers and leopards, are consummate predators irrespective of size.
A type B killer whale observes a Weddell seal on an ice floe near Rothera Station, along the Antarctic Peninsula. Killer whales are known to sometimes kill other whales while hunting in packs, earning them the title "wolves of the sea", and even kill great white sharks and leopard seals as prey.^[3]
Electric eels have a defense that no non-human predator can circumvent. Caimans, jaguars, giant otters, piranhas, and humans usually avoid them lest they get a defensive electrical shock, the same sort of electrical shock that it uses for subduing prey.
The reticulated python, one of the largest snakes, has only its long, powerful body as a weapon. But that body is enough to kill by suffocation of its victims, and any animal that can avoid it stays out of its reach.
The whale shark, the world's largest shark and fish, has a reputation as a "gentle giant" as a filter feeder. Despite having no prey larger than small fish, it has no natural predators and is an apex predator.
Birds of prey (like this bald eagle) occupy the top of their food chains and are apex predators.
With this lethal mouth and a powerful swing of its tail, the American alligator has only armed humans and larger alligators to fear in the swamps of subtropical and tropical North America in which this predator lives.
Convergent evolution has given the Tasmanian devil a superficial similarity to such small, formidable apex predators among the Carnivora as badgers and terrier dogs—but they are very different mammals of the marsupial order. They are similarly deadly to small animals as true Carnivorans of like size.
The honey badger is a fierce predator capable of holding its own against such predators as snakes, big cats, bears, hyenas, dogs, and humans. It gets its name from its ability to take honey and the bees that defend it. Its prey also includes cobras.
In this diorama, the giant squid loses to a larger and more intelligent predator, the sperm whale. Sperm whales often bear scars from encounters with giant squid that ended with the squid being eaten.
Driver ants, also known as siafu, are intrepid predators despite their blindness and the smallness of individual ants. This is due to the size of their swarms. Excruciating pain from their bites keeps larger animals from attacking them.
The Eurasian brown bear, whose range paradoxically extends into North America where it may be known as a grizzly bear or a Kodiak bear is a versatile, adaptable omnivore.
The polar bear is the largest living species of bear. The aforementioned Kodiak bear is the only species to rival it in that regard. The largest polar bear on record, reportedly weighing 1,002 kg (2,209 lb), was a male shot at Kotzebue Sound in northwestern Alaska in 1960.
Tyrannosaurus rex was one of the largest carnivorous dinosaurs possibly growing to lengths of over 42 feet long and one of the most supreme predators of its time. It is estimated to have been capable of exerting the largest bite force among all terrestrial animals.
A lion's mane jellyfish, so long as it remains in cold oceanic waters out of the range of the leatherback turtle and the ocean sunfish is an invulnerable predator that ensnares and stings to death a wide range of prey despite, like other cnidarians, having no brain.

^ "Saltwater Crocodile." National Geographic. Retrieved 2010-01-25.
^ Whiting, Frances. "Terri fights to halt croc eggs harvest." Australia Zoo. 2007-06-11. Retrieved 2010-01-25.
^ "Orcinus orca – Orca (Killer Whale)". Marinebio.org. Retrieved 2012-03-04.

Notes

↑ Zoologists generally define predation as the non-parasitical or non-bacterial killing and consumption of organisms.

References

↑ "predator". Online Etymological Dictionary. Retrieved 2010-01-25.
↑ "apex predator". PBS. Retrieved 2010-01-25.
↑ Essington, Timothy E.; Beaudreau, Anne H.; Wiedenmann, John (December 2005). "Fishing through marine food webs" (PDF). Proceedings of the National Academy of Sciences 103 (9): 3171–3175. doi:10.1073/pnas.0510964103. PMC 1413903. PMID 16481614. Retrieved 2010-01-25.
↑ Lepak, Jesse M.; Kraft, Clifford E., Weidel, Brian C. (March 2006). "Rapid food web recovery in response to removal of an introduced apex predator" (PDF). Canadian Journal of Fisheries and Aquatic Sciences 63 (3): 569–575. ISSN 0706-652X. Retrieved 2010-01-25.
↑ Croll, D. A.; Maron, J. L.; et al. (March 2005). "Introduced predators transform subarctic islands from grassland to tundra". Science 307 (5717): 1959–1961. doi:10.1126/science.1108485. PMID 15790855. Retrieved 2010-01-25.
↑ Egan, Logan Zane; Téllez, Jesús Javier (June 2005). "Effects of preferential primary consumer fishing on lower trophic level herbivores in the Line Islands" (PDF). Stanford at Sea. Stanford University. Retrieved 2010-01-25.
↑ Pace, M. L.; Cole, J. J.; et al. (December 1999). "Trophic cascades revealed in diverse ecosystems". Trends in Ecology and Evolution 14 (12): 483–488. doi:10.1016/S0169-5347(99)01723-1. PMID 10542455. |access-date= requires |url= (help)
↑ Bystroff, Chris, "The wolves of Yellowstone" (2006-04-17), p. 2. Retrieved 2010-01-25.
↑ Levy, Sharon (November 2002). "Top Dogs". Retrieved 2010-01-25.
1 2 Wilmers, Christopher C. (2004). "The gray wolf – scavenger complex in Yellowstone National Park" (PDF). Retrieved 2010-01-25.
↑ Robbins, Jim (May–June 1998). "Weaving a new web: wolves change an ecosystem". Smithsonian Zoogoer (Smithsonian Institution) 27 (3). Archived from the original on 10 February 2010. Retrieved 2010-01-25.
↑ Wilmers, Christopher C.; Getz, Wayne M. (April 2005). "Gray wolves as climate change buffers in Yellowstone". PLoS Biology 3 (4): e92. doi: 10.1371/journal.pbio.0030092. Retrieved 2010-01-25.
↑ Davic, Robert D (2003). "Linking keystone species and functional groups: a new operational definition of the keystone species concept". Conservation Ecology 7 (1): r11. Retrieved 2010-01-25.
↑ Eating up the world’s food web and the human trophic level
↑ Humans are apex predators
↑ Are Humans Apex Predators or Genome Conservers?

Feeding behaviours

Carnivores

adult	Hematophagy Insectivore Lepidophagy Man-eater Molluscivore Mucophagy Myrmecophagy Ophiophagy Piscivore Avivore Spongivore Vermivore

reproductive	Oophagy Paedophagy Placentophagy Breastfeeding Weaning

cannibalistic	Animal cannibalism Human cannibalism Self-cannibalism Sexual cannibalism

Herbivores

Cellular

Others

Methods

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 Resource

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 Intraguild predation Herbivores Heterotroph Heterotrophic nutrition Insectivore Mesopredator release hypothesis Omnivores Optimal foraging theory Predation Prey switching

Decomposers	Chemoorganoheterotrophy Decomposition Detritivores Detritus

Microorganisms	Archaea Bacteriophage Environmental microbiology Lithoautotroph Lithotrophy Microbial cooperation Microbial ecology Microbial food web Microbial intelligence Microbial loop Microbial mat Microbial metabolism Phage ecology

Food webs	Biomagnification Ecological efficiency Ecological pyramid Energy flow Food chain Trophic level

Example webs	Cold seeps Hydrothermal vents Intertidal Kelp forests Lakes North Pacific Subtropical Gyre Rivers San Francisco Estuary Soil Tide pool

Processes	Ascendency Bioaccumulation Cascade effect Climax community Competitive exclusion principle Consumer-resource systems Copiotrophs Dominance Ecological network Ecological succession Energy quality Energy Systems Language f-ratio Feed conversion ratio Feeding frenzy Mesotrophic soil Nutrient cycle Oligotroph Paradox of the plankton Trophic cascade Trophic mutualism Trophic state index

Defense/counter	Animal coloration Antipredator adaptations Camouflage Deimatic behaviour Herbivore adaptations to plant defense Mimicry Plant defense against herbivory 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 (Lotka–Volterra) 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 Neutral theory Occupancy-abundance relationship Population viability analysis Priority effect 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 Storage effect

Spatial ecology	Biogeography Cross-boundary subsidy Ecocline Ecotone Ecotype Disturbance Edge effects Foster's rule Habitat fragmentation Ideal free distribution Intermediate Disturbance Hypothesis Island biogeography Landscape ecology Landscape epidemiology Landscape limnology Metapopulation Patch dynamics r/K selection theory Source–sink dynamics

Niche	Ecological niche Ecological trap Ecosystem engineer Environmental niche modelling Guild Habitat Marine habitats Limiting similarity Niche apportionment models Niche construction 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 Extinction debt 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 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 Regime shift Systems ecology Theoretical ecology

List of ecology topics

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Apex predator

Ecological roles

Gallery

See also

Notes

References