Extinction

A species becomes extinct when the last existing member of that species dies. Extinction therefore becomes a certainty when no surviving specimens are able to reproduce and create a new generation. A species may become functionally extinct when only a handful of individuals survive, which are unable to reproduce due to health, age, lack of both sexes (in species that reproduce sexually), or other reasons.

In addition to actual extinction, human attempts to preserve critically endangered species have caused the creation of the conservation status extinct in the wild. Species listed under this status by the WCU are not known to have any living specimens in the wild, and are maintained only in zoos or other artificial environments. Some of these species are functionally extinct. When possible, modern zoological institutions attempt to maintain a viable population for species preservation and possible future reintroduction to the wild through use of carefully planned breeding programs.

Pinpointing the extinction or pseudoextinction of a species requires a clear definition of that species. The species in question must be identified uniquely from any daughter species, as well as its ancestor species or other closely related populations, if it is to be declared extinct. For further discussion, see definition of species.

Extinction (or replacement) of species by a daughter species plays a key role in the punctuated equilibrium hypothesis of Stephen Jay Gould and Niles Eldredge. ^[2]

In ecology, extinction is often used informally to refer to local extinction, in which a species ceases to exist in the chosen area of study, but still exists elsewhere. This phenomenon is also known as extirpation.

Until recently, it had been universally accepted that the extinction of a species meant the end of its time on Earth. However, recent technological advances have encouraged the hypothesis that through the process of cloning, extinct species may be "brought back to life." Proposed targets for cloning include the mammoth and thylacine. In order for such a program to succeed, a sufficient number of individuals would need to be cloned (in the case of sexually reproducing organisms) to create a viable population size. The cloning of an extinct species has not yet been attempted, due to technological limitations, as well as ethical and philosophical questions.

This concept was fictionalized in the popular novel and movie Jurassic Park.

There are a variety of causes that can contribute directly or indirectly to the extinction of a species or group of species. Most simply, any species that is unable to survive or reproduce in its environment, and unable to move to a new environment where it can do so, dies out and becomes extinct. Extinction of a species may come suddenly when an otherwise healthy species is wiped out completely, as when toxic pollution renders its entire habitat unlivable; or may occur gradually over thousands or millions of years, such as when a species gradually loses out competition for food to newer, better adapted competitors. Around three species of birds die out every year due to competition.

Genetic and demographic phenomena affect the evolution, and therefore extinction, of species. Regarding the possibility of extinction, small populations which represent an entire species are much more vulnerable to these types of effects.

Natural selection acts to propagate beneficial genetic traits and eliminate weaknesses. However, it is sometimes possible for a deleterious mutation to be spread throughout a population through the effect of genetic drift.

A diverse or "deep" gene pool gives a population a higher chance of surviving an adverse change in conditions. Effects that cause or reward a loss in genetic diversity can increase the chances of extinction of a species. Population bottlenecks can dramatically reduce genetic diversity by severely limiting the number of reproducing individuals and make inbreeding more frequent. The founder effect can cause rapid, individual-based speciation and is the most dramatic example of a population bottleneck.

The degradation of a species' habitat may alter the fitness landscape to such an extent that the species is no longer able to survive and becomes extinct. This may occur by direct effects, such as the environment becoming toxic, or indirectly, by limiting a species' ability to compete effectively for diminished resources or against new competitor species.

Habitat degradation through toxicity can kill off a species very rapidly, by killing all living members through contamination or sterilizing them. It can also occur over longer periods at lower toxicity levels by affecting life span, reproductive capacity, or competitiveness.

Habitat degradation can also take the form of a physical destruction of niche habitats. The widespread destruction of tropical rainforests and replacement with open pastureland is widely cited as an example of this; elimination of the dense forest eliminated the infrastructure needed by many species to survive. For example, a fern that depends on dense shade for protection from direct sunlight can no longer survive with no forest to house it.

Diminished resources or introduction of new competitor species also often accompany habitat degradation. Global warming has allowed some species to expand their range, bringing unwelcome competition to other species that previously occupied that area. Sometimes these new competitors are predators and directly affect prey species, while at other times they may merely outcompete vulnerable species for limited resources.

Vital resources including water and food can also be limited during habitat degradation, causing some species to become extinct.

Humans have been transporting animals and plants from one part of the world to another for thousands of years, sometimes deliberately (e.g., livestock released by sailors onto islands as a source of food) and sometimes accidentally (e.g., rats escaping from boats). In most cases, such introductions are unsuccessful, but when they do become established as an invasive alien species, the consequences can be catastrophic. Invasive alien species can affect native species directly by eating them, competing with them, and introducing pathogens or parasites that sicken or kill them or, indirectly, by destroying or degrading their habitat.

There have been at least five mass extinctions in the history of life, and four in the last 3.5 billion years in which many species have disappeared in a relatively short period of geological time. These are covered in more detail in the article on extinction events. The most recent of these, the K-T extinction 65 million years ago at the end of the Cretaceous period, is best known for having wiped out the non-avian dinosaurs, among many other species.

According to a 1998 survey of 400 biologists conducted by New York's American Museum of Natural History, nearly 70 percent of biologists believe that we are currently in the early stages of a human-caused mass extinction, known as the Holocene extinction event. In that survey, the same proportion of respondents agreed with the prediction that up to 20 percent of all living species could become extinct within 30 years (by 2028). Biologist E.O. Wilson estimated ^[3] in 2002 that if current rates of human destruction of the biosphere continue, one-half of all species of life on earth will be extinct in 100 years.

Human extinction refers to the possibility that the human species may become extinct. Although humans are relatively intelligent and adaptive, they could cause an extinction through their own actions, or allow a natural extinction event to occur through negligence. Humans can also possibly die out because of an event that they are incapable of preventing, such as another meteor strike.

Olivia Judson is one of few modern scientists to have advocated the deliberate extinction of any species. Her controversial 2003 NY Times article advocates "specicide" of thirty mosquito species through the introduction of recessive "knockout genes". Her defense of such an extreme measure rests on:

• Anopheles mosquitoes and Aedes mosquito represent only 30 species; eradicating these would save at least one million human lives per annum at a cost of reducing the genetic diversity of the family Culicidae by only 1%.
• She writes that since species go extinct "all the time" the disappearance of a few more will not destroy the ecosystem: "We're not left with a wasteland every time a species vanishes. Removing one species sometimes causes shifts in the populations of other species -- but different need not mean worse."
• Anti-malarial & mosquito control programs offer little realistic hope to the 300 million people in developing nations who will be infected with acute illnesses this year; although trials are ongoing she writes that if they fail: "We should consider the ultimate swatting." ^[4]

Although scientists are generally opposed to future extinctions they have found historic extinctions very useful for research; in the early nineteenth century Georges Cuvier's observations of fossil bones convinced him that they did not originate in extant animals. This discovery was critical for the spread of uniformitarianism ^[5] and lead to the first book publicizing the idea of evolution. ^[6]

When commercial technologies are tested the testing tends to concentrate on human effects. However, some technologies with no proven harmful effects on Homo sapiens can be devastating to wildlife (most famously DDT). In extreme case these new processes can in themselves cause unintended extinctions as a side-effect of business operations. Although most companies were formerly more concerned with bottom-line profits than corporate image, a move began (under campaign pressure) to account for corporate reputational risk from such environmental catastrophes.

Governments sometimes see the loss of native species as a loss to ecotourism, and can enact laws with severe punishment against the trade in native species (in an effort to prevent extinction in the wild). Some endangered species are considered symbolically important.

People who live close to nature can be dependent on the survival of all the species in their environment and are some of the people most concerned about extinction risks.

Certain geotheorists and vitalistic philosophers (vide Rabelais, Buffon, Lamarck, de Luc, Pareto, Sorel, Deleuze, et al) have elaborated theories of quasi-eternal energetic endurance or semi-infinite life-resilience in the process of constructing a philosophical problematics of life on earth (vide Socratisim, Aristotalianism, Hegelianism, Geosophy, Theosophy, etc...). Many of these theories maintain a shared speculative or propositional assertion or claim of faith that life in all its manifestations, stages, and permutations is a "permanent integer," an inexpugnable factor in the quanta that envelope, permeate, embody, and constitute all energy. These grandes idées contend that all theories of species (as opposed to population) extinction constitute non-malicious fallacies based on the the biological sciences' dependence on empirical proofs of presence of being. These theorists contend that life in its individual instance leaves an eternel, inerradicable, energetic present or residue on the coaxial dimensions of time and space, one which grants each cell and thus synecdochically each creature an eternal present in a determined (but not necessarily deterministic) time and space: the axial turning of a concave sphere, the animacule trapped in a reiterating fold of time and space, as an ant in amber, is, as Pareto would go on to claim, the verifigural chalice or grail of life everlasting. Such a presence would of course not be entirely equatable with or identical to the life of, for example, new-born animals, for the obvious reason that new-born animals have not yet passed through the psychic, systemic, and energetic "trauma" of the state of physical disintegration known as death, but it would nevertheless constitute a continuation of individual presence, not to mention an envolving state of energetic existence: the post-thanatic (vide thanatos) phase of life. The process of energy utilization would be different in both cases of course, and this difference would result in post-thanatic life being largely removed from and invisible to pre-thanatic life, though this does not in theory prohibit the the possibility, vis-a-vis the probability, of pre-thanatic life's detection of post-thanatic presences (vide phantasms).

A related theory holds that all animals (and one assumes plants) that ever existed from the earliest unicellular life form, to the dinosaurs, to the latest mutant strain of avian flu, continue to exist in some zone or area of the planet and will continue to do so (although perhaps in greatly diminished numbers) until the earth itself ceases to exist. This theory contends that once life assumes a certain form through the processes of evolutionary change that form will eternally abide as an inerradicable part of the biological diversity of the earth through the organism's own undefeatable processes of preservation either as cellular or mitochondrial memory in the body of another organism or by actually finding the most impenetrable enviromental niches permitting its continued survival as a living relic, in certain cases with a relic population consisting of two individuals, or simply a pregnant female or even just a hermaphroditic specimen.

• Biodiversity
• Coextinction
• Lazarus taxon
• Extinct organisms Category
• List of extinct animals
• List of extinct plants
• Population genetics
• Unified neutral theory of biodiversity

• Mass Extinction Underway | Biodiversity Crisis | Global Species Loss
• Univ. of Arizona lecture on extinction

• A mathematical model for mass extinction
• Species disappearing at an alarming rate (MSNBC)
• Red List of Threatened Species
• The Wildlands Project takes action on wildlife conservation to address the extinction crisis in the Americas.
• The Extinction Website
• Extinction forum
• Committee on recently extinct organisms
• ZMA - Threatened and Extinct Birds in the collection of the Zoological Museum Amsterdam (Netherlands). Also includes 3D images of the type specimens.
• Naturalis - Extinct Birds: 3D images of extinct bird species in the collection of the National Museum of Natural History (Leiden, Netherlands).