Conservation biology of parasites

The capture, captive breeding, and reintroduction of California condors into the wild was the most expensive species conservation project in United States history. The bird was saved from extinction but its ectoparasite, the louse Colpocephalum californici, became extinct.[1]

A large proportion of living species on Earth live a parasitic way of life.[2] Parasites have traditionally been seen as targets of eradication efforts, and they have often been overlooked in conservation efforts. In the case of parasites living in the wild – and thus harmless to humans and domesticated animals – this view is changing. The conservation biology of parasites is an emerging and interdisciplinary field that recognizes the integral role parasites play in ecosystems. Parasites are intricately woven into the fabric of ecological communities, with diverse species occupying a range of ecological niches and displaying complex relationships with their hosts.

The rationale for parasite conservation extends beyond their intrinsic value and ecological roles. Parasites offer potential benefits to human health and well-being. Many parasites produce bioactive compounds with pharmaceutical properties, which can be utilized in drug discovery and development.[3] Understanding and conserving parasite biodiversity not only contributes to the preservation of ecosystems but also holds promise for medical advancements and novel therapeutic interventions.[1][4]

Parasite role in ecosystems

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Ranging from microscopic pathogens to larger organisms such as worms and arthropods, parasites exhibit remarkable diversity in their life cycles, transmission strategies, and host relationships. They can be found in virtually every ecosystem on Earth, including terrestrial, freshwater, and marine environments. Parasites often rely on one or multiple host species to complete their life cycle, and their presence can have profound effects on host populations, communities, and even entire ecosystems.[3][4] One of the fundamental aspects of parasite ecology is their role as a trophic level within the food web.[5] Parasites can occupy various positions within the trophic hierarchy, acting as predators, consumers, or even decomposers.[6] They regulate host populations by influencing host behavior, growth, and reproduction. Furthermore, parasites can indirectly shape community dynamics by mediating interactions between host species and influencing the distribution and abundance of other organisms within the ecosystem.[1][2]

Despite their ecological significance, parasites have historically received less attention in conservation efforts compared to other groups of organisms. However, in recent years, there has been a growing recognition of the importance of parasite conservation.[3] Ecologists and conservation biologists have emphasized the need for research to understand the ecological roles of parasites, as well as the threats they face and the potential consequences of their decline or extinction. Integrating parasite conservation into broader conservation frameworks is crucial for maintaining the integrity and functionality of ecosystems.[1][2][4]

Conservation approaches

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Conservation approaches for animal parasites encompass a range of strategies tailored to their unique characteristics and conservation requirements. Assessing the conservation status of parasites poses challenges, as traditional criteria such as those developed by the IUCN may not adequately capture the specific threats and vulnerabilities of these organisms.[3] Efforts often focus on conserving host species, recognizing that protecting the host also benefits associated parasites. This includes habitat conservation, management of host populations, and minimizing anthropogenic impacts.[1]

Nuances arise in parasite conservation when considering translocating species or implementing captive breeding programs. It is essential to consider the potential effects on parasite populations and ensure that appropriate measures are in place to safeguard their survival. In situ conservation, which involves the preservation and management of parasites within their natural habitats, is a key approach. Additionally, ex situ conservation methods, such as maintaining parasite populations in controlled environments, can serve as a safety net for critically endangered species.[4]

Endangered parasite species

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A note published in 1990 pointed out that the captive breeding and reintroduction program to save the black-footed ferret would cause the loss of its specific parasites and demanded "equal rights for parasites".[7] A paper in 1992 warned that not only the loss of certain host species from the wild, but host population bottlenecks or the fragmentation of host populations would predictably lead to the extinction of host-specific parasites.[8] The paper also noted that parasites exert selective pressures upon their host populations that increase host genetic diversity. At first, this view met with open skepticism.[9] However, it became clear that the co-extinction of hosts and their specific parasites is likely to increase the current estimates of extinction rates significantly.[10] A decade later, a study focusing on highly host-specific groups such as fig wasps, parasites, butterflies, and myrmecophil butterflies estimated the number of parasites put at risk by the endangered status of the host at about 6300.[11] Other authors argued that host-specific parasite faunae have an unexpected advantage for conservation scientists. Their genealogies and population genetic patterns may help to illuminate their hosts' evolutionary and demographic history.[12] Recently, scientists suggested that rich parasite faunae are inevitably needed for healthy ecosystem functioning[13] and also that parasites and mutualists are the most endangered species on Earth.[14] Even vets have started to argue about the conservational values of parasite species.[15] A recent study on parasites of coral reef fish suggested that extinction of a coral reef fish species would eventually result in the coextinction of at least ten species of parasites. Although this number might seem high, the study included only large parasites such as parasitic worms and crustaceans, but not microparasites such as Myxosporea and Microsporidia.[16]

In 2023, the IUCN established the parasite specialist group to lead global efforts to assess and conserve threatened parasite species. [17] The logo of the IUCN parasite specialist group features two endangered parasites, the Ryukyu rabbit tick (Haemaphysalis pentalagi) from Japan, and the Devil's tapeworm (Dasyurotaenia robusta) from Australia. These species were selected to represent the two major groups of parasites: ectoparasites (external) and endoparasites (internal); and to provide representation of species from both the northern hemisphere and southern hemisphere.

Examples of extinct or endangered parasites

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Some species in the list above are taken from Mey (2005)[20]

See also

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References

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  1. ^ a b c d e f Stringer, Andrew Paul; Linklater, Wayne (2014). "Everything in Moderation: Principles of Parasite Control for Wildlife Conservation". BioScience. 64 (10): 932–937. doi:10.1093/biosci/biu135.
  2. ^ a b c Windsor DA (1998). "Most of the species on Earth are parasites". International Journal for Parasitology. 28 (12): 1939–1941. doi:10.1016/S0020-7519(98)00153-2. PMID 9925276.
  3. ^ a b c d Carlson, Colin J.; Hopkins, Skylar; Bell, Kayce C.; Doña, Jorge; Godfrey, Stephanie S.; Kwak, Mackenzie L.; Lafferty, Kevin D.; Moir, Melinda L.; Speer, Kelly A.; Strona, Giovanni; Torchin, Mark; Wood, Chelsea L. (2020-10-01). "A global parasite conservation plan". Biological Conservation. 250: 108596. doi:10.1016/j.biocon.2020.108596. hdl:10919/102428. ISSN 0006-3207. S2CID 225345547.
  4. ^ a b c d Dougherty, Eric R.; Carlson, Colin J.; Bueno, Veronica M.; Burgio, Kevin R.; Cizauskas, Carrie A.; Clements, Christopher F.; Seidel, Dana P.; Harris, Nyeema C. (August 2016). "Paradigms for parasite conservation: Parasite Conservation". Conservation Biology. 30 (4): 724–733. doi:10.1111/cobi.12634. hdl:2027.42/133571. PMID 26400623. S2CID 4853514.
  5. ^ Stringer, Andrew Paul; Linklater, Wayne (2014). "Everything in Moderation: Principles of Parasite Control for Wildlife Conservation". BioScience. pp. 932–937. doi:10.1093/biosci/biu135. Retrieved 2023-07-12.
  6. ^ Kwak, Mackenzie L.; Heath, Allen C. G.; Cardoso, Pedro (2020-08-01). "Methods for the assessment and conservation of threatened animal parasites". Biological Conservation. 248: 108696. doi:10.1016/j.biocon.2020.108696. ISSN 0006-3207. S2CID 225517357.
  7. ^ Windsor DA (1990). "Heavenly hosts". Nature. 348 (6297): 104. doi:10.1038/348104c0.
  8. ^ Rózsa L (1992). "Endangered parasite species" (PDF). International Journal for Parasitology. 22 (3): 265–266. doi:10.1016/S0020-7519(05)80002-5. PMID 1639560.
  9. ^ Bush AO, Kennedy CR (1994). "Host fragmentation and helminth parasites: Hedging your bets against extinction". International Journal for Parasitology. 24 (8): 1333–1343. doi:10.1016/0020-7519(94)90199-6. PMID 7729985.
  10. ^ Stork NE, Lyal CH (1993). "Extinction or 'co-extinction' rates?". Nature. 366 (6453): 307–8. doi:10.1038/366307a0.
  11. ^ Koh LP, Dunn RR, Sodhi NS, Colwell RK, Proctor HC, Smith VS (2004). "Species Coextinctions and the Biodiversity Crisis" (PDF). Science. 305 (5690): 1632–1634. doi:10.1126/science.1101101. PMID 15361627. S2CID 30713492.[permanent dead link]
  12. ^ Whiteman NK, Parker PG (2005). "Using parasites to infer host population history: a new rationale for parasite conservation" (PDF). Animal Conservation. 8 (2): 175–181. doi:10.1017/S1367943005001915. S2CID 43057262.
  13. ^ Hudson PJ, Dobson AP, Lafferty KD (2006). "Is a healthy ecosystem one that is rich in parasites?". Trends in Ecology & Evolution. 21 (7): 381–385. CiteSeerX 10.1.1.79.9080. doi:10.1016/j.tree.2006.04.007. PMID 16713014.
  14. ^ Dunn RR, Harris NC, Colwell RK, Koh LP, Sodhi NS (2009). "The sixth mass coextinction: are most endangered species parasites and mutualists?". Proceedings of the Royal Society B. 276 (1670): 3037–3045. doi:10.1098/rspb.2009.0413. PMC 2817118. PMID 19474041.
  15. ^ Pizzi R (2009). "Veterinarians and Taxonomic Chauvinism: The Dilemma of Parasite Conservation". Journal of Exotic Pet Medicine. 18 (4): 279–282. doi:10.1053/j.jepm.2009.09.005.
  16. ^ Justine, J.-L.; Beveridge, I.; Boxshall, G. A.; Bray, R. A.; Miller, T. L.; Moravec, F.; Trilles, J.-P.; Whittington, I. D. (2012). "An annotated list of fish parasites (Isopoda, Copepoda, Monogenea, Digenea, Cestoda, Nematoda) collected from Snappers and Bream (Lutjanidae, Nemipteridae, Caesionidae) in New Caledonia confirms high parasite biodiversity on coral reef fish". Aquatic Biosystems. 8: 22. doi:10.1186/2046-9063-8-22. PMC 3507714. PMID 22947621.
  17. ^ Hopkins, S; Kwak, M (2023). "New IUCN Species Survival Commission Parasite Specialist Group launched in 2023". Oryx. 53 (3): 283-283.
  18. ^ Clayton, Dale H.; Roger D. Price (1999). "Taxonomy of New World Columbicola (Phthiraptera: Philopteridae) from the Columbiformes (Aves), with Descriptions of Five New Species" (PDF). Annals of the Entomological Society of America. 92 (5). Entomological Society of America: 675–85. doi:10.1093/aesa/92.5.675. Archived from the original (PDF) on 2012-04-25. Retrieved 2011-12-03.
  19. ^ Mey E (1992). "Eine neue ausgestorbene Vogel-Ischnozere von Neuseeland, Huiacola extinctus (Insecta, Phthiraptera)" (PDF). Zoologischer Anzeiger. 224: 49–73. Archived from the original (PDF) on 2007-10-12.
  20. ^ Mey, Eberhard (2005). "Psittacobrosus bechsteini: ein neuer ausgestorbener Federling (Insecta, Phthiraptera, Amblycera) vom Dreifarbenara Ara tricolor (Psittaciiformes), nebst einer annotierten Übersicht über fossile und rezent ausgestorbene Tierläuse" [Psittacobrosus bechsteini: a new extinct chewing louse (Insecta, Phthiraptera, Amblycera) off the Cuban Macaw Ara tricolor (Psittaciiformes), with an annotated review of fossil and recently extinct animal lice] (PDF). Anzeiger des Vereins Thüringer Ornithologen. 5: 201–217. Archived from the original (PDF) on 2013-12-27. Retrieved 2017-10-31.