Umbrella species explained

Umbrella species are species selected for making conservation-related decisions, typically because protecting these species indirectly protects the many other species that make up the ecological community of its habitat (the umbrella effect). Species conservation can be subjective because it is hard to determine the status of many species. The umbrella species is often either a flagship species whose conservation benefits other species[1] or a keystone species which may be targeted for conservation due to its impact on an ecosystem. Umbrella species can be used to help select the locations of potential reserves, find the minimum size of these conservation areas or reserves, and to determine the composition, structure, and processes of ecosystems.[2]

Definitions

Two commonly used definitions are:

Other descriptions include:

Animals may also be considered umbrella species if they are charismatic. The hope is that species that appeal to popular audiences, such as pandas, will attract support for habitat conservation in general.[7]

In land use management

In the two decades after its inception, the use of umbrella species as a conservation tool has been highly debated. The term was first used by Bruce Wilcox in 1984,[8] who defined an umbrella species as one whose minimum area requirements are at least as comprehensive of the rest of the community for which protection is sought through the establishment and management of a protected area.

Some scientists have found that the use of an umbrella species approach can provide a more streamlined way to manage ecological communities.[9] [10] Others have proposed that umbrella species in combination with other tools will more effectively protect other species in land management reserves than using umbrella species alone.[11] Individual invertebrate species can be good umbrella species because they can protect older, unique ecosystems. There have been cases where umbrella species have protected a large amount of area which has been beneficial to surrounding species. Dunk, Zielinski and Welsh (2006) reported that the reserves in Northern California (the Klamath-Siskiyou forests), set aside for the northern spotted owl, also protect mollusks and salamanders within that habitat. They found that the reserves set aside for the northern spotted owl "serve as a reasonable coarse-filter umbrella species for the taxa evaluated", which were mollusks and salamanders.[12]

Gilby and colleagues (2017) found that using threatened species as umbrellas or "surrogates" for management targets could improve conservation outcomes in coastal areas.[13]

Wildlife corridors

The concept of an umbrella species is further utilized to create wildlife corridors with what are termed focal species. These focal species are chosen for a number of reasons and fall into several types, generally measured by their potential for an umbrella effect. By carefully choosing species based on this criterion, a linked or networked habitat can be created from single-species corridors.[14] These criteria are determined with the assistance of geographic information systems on the larger scale. Regardless of the location or scale of conservation, the umbrella effect is a measurement of a species' impact on others and is an important part of determining an approach.

In the Endangered Species Act (US)

The bay checkerspot butterfly has been on the Endangered Species List since 1987. Launer and Murphy (1994) tried to determine whether this butterfly could be considered an umbrella species in protecting the native grassland it inhabits. They discovered that the Endangered Species Act has a loophole excluding federally protected plants on private property. However, the California Environmental Quality Act reinforces state conservation regulations.[6] Using the Endangered Species Act to protect termed umbrella species and their habitats can be controversial because they are not as well enforced in some states as others (such as California) to protect overall biodiversity.

Examples

See also

Further reading

External links

Notes and References

  1. Sherman, David M. 2002. Tending animals in the global village: A guide to international veterinary medicine. Blackwell Publishing.
  2. Roberge . Jean-Michel . Angelstam . Per . Usefulness of the Umbrella Species Concept as a Conservation Tool . Conservation Biology . 18 . 1 . 2004 . 10.1111/j.1523-1739.2004.00450.x . 76–85. 73650330 .
  3. Book: Groom, Martha . Principles of conservation biology . Sinauer Associates . 2006 . 978-0-87893-597-0 . 70686894 .
  4. Ozaki . Kenichi . Isono . Masahiro . Kawahara . Takayuki . Iida . Shigeo . Kudo . Takuma . Fukuyama . Kenji . A Mechanistic Approach to Evaluation of Umbrella Species as Conservation Surrogates. Conservation Biology . 20 . 5 . 2006 . 1507–1515 . 10.1111/j.1523-1739.2006.00444.x. 17002768 . 8383041 .
  5. Web site: NOAA . 2007 . Glossary . 22 April 2018.
  6. Launer . Alan E. . Murphy . Dennis D. . Umbrella species and the conservation of habitat fragments: A case of a threatened butterfly and a vanishing grassland ecosystem . Biological Conservation . 69 . 2 . 1994 . 10.1016/0006-3207(94)90054-x . 145–153.
  7. News: Nuwer. Rachel. Rachel Nuwer. 2021-02-25. For Shielding Endangered Neighbors, Pandas Make Flimsy Umbrellas. en-US. The New York Times. 2021-02-28. 0362-4331.
  8. Wilcox, Bruce A. 1984. "In situ conservation of genetic resources: Determinants of minimum area requirements." In National Parks, Conservation and Development, Proceedings of the World Congress on National Parks. J.A. McNeely and K.R. Miller, Smithsonian Institution Press, pp. 18–30.
  9. Caro . T. M. . 2003 . Umbrella species: critique and lessons from East Africa . Animal Conservation . en . 6 . 2 . 171–181 . 10.1017/S1367943003003214 . 1367-9430.
  10. Fleishman . Erica . Blair . Robert B. . Murphy . Dennis D. . 2001 . Empirical Validation of a Method for Umbrella Species Selection . Ecological Applications . en . 11 . 5 . 1489–1501 . 10.1890/1051-0761(2001)011[1489:EVOAMF]2.0.CO;2 . 1051-0761.
  11. Stuber . Erica F. . Fontaine . Joseph J. . 2018 . Ecological neighborhoods as a framework for umbrella species selection . Biological Conservation . 223 . 112–119 . 10.1016/j.biocon.2018.04.026 . 0006-3207.
  12. Dunk, Jeffrey R., William J. Zielinkski and Hartwell H. Walsh, Jr. 2006. "Evaluating reserves for species richness and representation in northern California." Diversity and Distributions, Vol. 12, 434–442.
  13. Gilby, B.L. . Olds, A.D., Connolly, R.M., Yabsley, N.A., Maxwell, P.S., Tibbetts, I.R., Schoeman, D.S. and Schlacher, T.A. . 2017 . Umbrellas can work under water: Using threatened species as indicator and management surrogates can improve coastal conservation . Estuarine, Coastal and Shelf Science . 199 . 132-140.
  14. Majka, Dan. September 18, 2007. Selecting focal species. Retrieved April 15, 2008.
  15. Web site: Russia's Tough Tigers - National Zoo FONZ. nationalzoo.si.edu. 2016-02-03. dead. https://web.archive.org/web/20160220033557/http://nationalzoo.si.edu/publications/zoogoer/2008/1/amur_tigers.cfm. 2016-02-20.
  16. http://www.phys.ocean.dal.ca/~taggart/Publications/Duff_etal_2013_JIWLP.pdf On the Right Way to Right Whale: Protections in the Gulf of Maine—Case Study
  17. National Geographic, 27 juillet 2021 The surprising ways sharks keep the ocean healthy