Latent extinction risk

In conservation biology, latent extinction risk is a measure of the potential for a species to become threatened.

Latent risk can most easily be described as the difference, or discrepancy, between the current observed extinction risk of a species (typically as quantified by the IUCN Red List) and the theoretical extinction risk of a species predicted by its biological or life history characteristics.^[1]

YouTube Encyclopedic

1/5
Views:
319 880
31 280
3 662
6 755
263 151

Transcription

Calculation

Because latent risk is the discrepancy between current and predicted risks, estimates of both of these values are required (See population modeling and population dynamics). Once these values are known, the latent extinction risk can be calculated as Predicted Risk - Current Risk = Latent Extinction Risk.

When the latent extinction risk is a positive value, it indicates that a species is currently less threatened than its biology would suggest it ought to be. For example, a species may have several of the characteristics often found in threatened species, such as large body size, small geographic distribution, or low reproductive rate, but still be rated as "least concern" in the IUCN Red List. This may be because it has not yet been exposed to serious threatening processes such as habitat degradation.

Conversely, negative values of latent risk indicate that a species is already more threatened than its biology would indicate, probably because it inhabits a part of the world where it has been exposed to extreme endangering processes. Species with severely low negative values are usually listed as an endangered species and have associated recovery and conservation plans.^[1]

Limits

One of the issues associated with latent extinction risk is its difficulty to calculate because of the limited availability of data for predicting extinction risk across large numbers of species. Hence, the only study of latent risk to date ^[1] has focused on mammals, which are one of the best-studied groups of organisms.

Effects on conservation

A study of latent extinction risk in mammals identified a number of "hotspots" where the average value of latent risk for mammal species was unusually high.^[1] This study suggested that these areas represented an opportunity for proactive conservation efforts, because these could become the "future battlegrounds of mammal conservation" if levels of human impact increase. Unexpectedly, the hotspots of mammal latent risk include large areas of Arctic America, where overall mammal diversity is not high, but where many species have the kind of biological traits (such as large body size and slow reproductive rate) that could render them extinction-prone. Another notable region of high latent risk for mammals is the island chain of Indonesia and Melanesia, where there are large numbers of restricted-range endemic species.

Because it is much more cost-effective to prevent species declines before they happen than to attempt to rescue species from the brink of extinction, latent risk hotspots could form part of a global scheme to prioritize areas for conservation effort, together with other kinds of priority areas such as biodiversity hotspots.

^[2]^[3]

References

^ ^a ^b ^c ^d Cardillo, M.; Mace, G. M.; Gittleman, J. L.; Purvis, A. (2006), "Latent extinction risk and the future battlegrounds of mammal conservation", Proceedings of the National Academy of Sciences of the United States of America, 103 (11): 4157–61, Bibcode:2006PNAS..103.4157C, doi:10.1073/pnas.0510541103, PMC 1449663, PMID 16537501.
^ Cardillo, M.; Mace, G. M.; Jones, K. E.; Bielby, J.; Bininda-Emonds, O. R. P.; Sechrest, W.; Orme, C. D. L.; Purvis, A. (2005), "Multiple causes of high extinction risk in large mammal species", Science, 309 (5738): 1239–41, Bibcode:2005Sci...309.1239C, CiteSeerX 10.1.1.327.7340, doi:10.1126/science.1116030, PMID 16037416, S2CID 378183.
^ McKenzie, N. L.; Burbidge, A. A.; Baynes, A.; Brereton, R. N.; Dickman, C. R.; Gordon, G.; Gibson, L. A.; Menkhorst, P. W.; et al. (2007), "Analysis of factors implicated in the recent decline of Australia's mammal fauna", Journal of Biogeography, 34 (4): 597–611, doi:10.1111/j.1365-2699.2006.01639.x, S2CID 84254399.

Extinction

Phenomena

Models

Extinction vortex

Causes

Theories
and concepts

Extinction events

Major	Ordovician–Silurian Late Devonian Permian–Triassic Triassic–Jurassic Cretaceous–Paleogene Holocene Timeline
Other	Great Oxidation End-Ediacaran End-Botomian Dresbachian Cambrian–Ordovician Ireviken Mulde Lau Carboniferous Olson's End-Capitanian Carnian Pluvial Toarcian End-Jurassic or Tithonian Aptian Cenomanian-Turonian Eocene–Oligocene Middle Miocene Pliocene–Pleistocene Quaternary

Extinct species

Organizations

See also

Threatened species

Template: Threatened species by region

IUCN Red List

Categories¹

Extinct	Extinct (EX) Extinct in the Wild (EW)
Threatened	Critically Endangered (CR) Endangered (EN) Vulnerable (VU)
Lower risk	Near Threatened (NT) Least Concern (LC) Lower Risk (LR) Conservation Dependent (LR/cd)
Not fully assessed	Data Deficient (DD) Not Evaluated (NE)

Species

Lists	Extinct Extinct in the Wild Critically Endangered Endangered Vulnerable Near Threatened Least Concern Data Deficient
WP categories	Extinct Extinct in the Wild Critically Endangered Endangered Vulnerable Near Threatened Least Concern Data Deficient
CITES	Appendix I Appendix II Appendix III

By taxa

Conservation

¹ Pre-2001 categories and subcategories shown in italics.

v t e Conservation of species
Index of conservation articles
Conservation biology	Biodiversity Captive breeding Compassionate conservation Conservation behavior Conservation-dependent species Conservation genetics Conservation status Endemism Ex-situ conservation Extinction threshold In-situ conservation Latent extinction risk Marine conservation Nature conservation Conservation biology of parasites Species translocation Conservation welfare Threatened species
Approaches	Conservation agriculture Conservation development Conservation finance Conservation grazing Conservation management system Conservation movement Conservation photography Conservation psychology Conspicuous conservation Community-based conservation Ecoregion conservation status Environmental protection Forest management Forest protection Tropical rainforest conservation Other effective area-based conservation measures Riparian buffer Roadless area conservation Roadside conservation Site-based conservation
Protected areas	Conservation designation Conservation district Conservation easement Gap analysis Habitat conservation High conservation value area Landscape-scale conservation Marine protected area Marxan Open space reserve Wildlife corridor 30 by 30 target
Key issues	Conservation refugee Fortress conservation Human–wildlife conflict
Restoration	Assisted natural regeneration Ecosystem restoration Island restoration Reforestation afforestation Rewilding marine Species reintroduction
By taxon	Arthropods Insect hotel Birds raptors Fungi Land mammals American bison Arabian oryx bears elephants slow lorises tigers wolves Marine Gray nurse shark manatees salmon sea otters Painted turtles Plants seed bank cryopreservation
By country	Angola Australia Belize Brazil Canada Central African Republic Costa Rica Hong Kong Iceland India Bhopal Indonesia Ireland Italy Malaysia Namibia New Zealand Pakistan Papua New Guinea South Sudan Sweden Uganda United Kingdom (Scotland) United States forests National conservation area
Related	Conservation officer De-extinction Myth of superabundance Planetary boundaries IUCN Red List NatureServe conservation status Special Area of Conservation Soil conservation
List of conservation issues List of organisations List of people Category

This page was last edited on 6 June 2022, at 21:12

From Wikipedia, the free encyclopedia