Hostname: page-component-586b7cd67f-2plfb Total loading time: 0 Render date: 2024-11-22T15:45:23.294Z Has data issue: false hasContentIssue false

Lost but not forgotten: a new nomenclature to support a call to rediscover and conserve lost species

Published online by Cambridge University Press:  28 June 2022

Abstract

Type
Editorial
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (https://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution, and reproduction in any medium, provided the original work is properly cited.
Copyright
Copyright © The Author(s), 2022. Published by Cambridge University Press on behalf of Fauna & Flora International

Because we are experiencing a sixth mass extinction event (Jablonski, Reference Jablonski, Lawton and May1995; Ceballos et al., Reference Ceballos, Garcia and Ehrlich2010), caused by the action of humans, this era is known as the Anthropocene (Crutzen & Stoermer, Reference Crutzen and Stoermer2000). With extinction rates probably a thousand times higher than the background rate (Pimm et al., Reference Pimm, Jenkins, Abell, Brooks, Gittleman and Joppa2014), we must take meaningful action to avert extinctions. For an animal, plant or fungus to be categorized as extinct on the IUCN Red List of Threatened Species, there should be ‘no reasonable doubt that the last individual has died’ and that ‘exhaustive surveys in known and/or expected habitat, at appropriate times (diurnal, seasonal, annual), throughout its historic range have failed to record an individual…over a time frame appropriate to the taxon's life cycle and life form’ (IUCN, 2012). Of the estimated 8.7 million eukaryotes (Mora et al., Reference Mora, Tittensor, Adl, Simpson and Worm2011), c. 1.8 million are known to science (Fisher, Reference Fisher2019). Of these, there is greater uncertainty in categorizing as extinct those that are less well known, harder to detect and perceived as less charismatic. Species may be sliding into extinction without us knowing, as only 142,577 have been assessed for the Red List. Of these, 40,084 (28%) are considered threatened with extinction (IUCN, 2021). Most of the c. 1.65 million whose extinction risk has yet not been assessed probably have less appeal to our emotions or culture, are hard to observe or photograph, or do not have common names we can relate to.

There is a subset of known species that have simply dropped off science's radar. These are the so-called lost species that have not been seen in the wild for long periods of time and are not under human care at any ex situ organization such as a zoo, aquarium or botanical garden. Lacking knowledge of where these species persist hinders conservation action. Here, we call for an enthusiastic and energetic expansion of efforts to find such species, so that their conservation needs can be addressed (e.g. through threat reduction and population recovery) before they quietly slide into extinction.

The term lost species has not been formally defined but is widely used to mean different things. It may refer to extinct species (Campbell et al., Reference Campbell2016; Hirsch, Reference Hirsch2017; de Massol de Rebetz, Reference de Massol de Rebetz2020) or to those not seen for a period of time (Twomey & Brown, Reference Twomey and Brown2008; Cottee-Jones et al., Reference Cottee-Jones, Mittermeier and Redding2013; Silcock et al., Reference Silcock, Field, Walsh and Fensham2020). So-called missing or long-lost species are also part of the lexicon on the subject. Here, to help catalyse conservation action and prevent extinctions, we propose a nomenclature that distinguishes the various terms and aims.

A lost species is one not confirmed alive by photographic, audio or genetic information for over 10 years in the wild and has no ex situ population under human care. We consider under human care the maintenance of whole, living specimens, not cryopreserved samples in a biobank. A species’ lost status is independent of its category on the IUCN Red List of Threatened Species but has not met the conditions to be classified as Extinct or Extinct in the Wild. Although a simple definition, it is applicable to all taxa irrespective of life traits or the biome in which they live.

Some have called for a shorter time period to consider a species lost, as much can change in 10 years. We recommend using missing species for those not seen in the wild and not held under human care for > 5 years but < 10. The term long-lost has also been applied (Villarroel et al., Reference Villarroel, Quintino de Faria and Barnes Proença2014; David & Davis, Reference David and Davis2017), and we propose a time span of 50 years for these species. By consistently using these terms we identify a pathway from missing to lost to long-lost that facilitates the catalysis of stage-specific actions to prevent species identified as missing from becoming lost and subsequently becoming long-lost.

Although not universally true, it is likely that the longer a species is lost and the more extensive the search effort without rediscovery, the higher the likelihood it is extinct. The missing–lost–long-lost pathway and efforts to find a species may help determine whether it is extinct or not, but extinction is not an automatic outcome, as species can remain hidden, leading to difficult decisions on when and how to call a species extinct (Roberts & Fisher, Reference Roberts and Fisher2020). The decision to designate a species extinct should lie with the appropriate IUCN Red List Authority (SSC, 2020), and be based on evidence provided by relevant experts on that species and the species’ distribution.

Species can be lost for many reasons. Some are naturally rare or cryptic and so are hard to document conclusively (e.g. de Lírio, Reference de Lírio, Freitas, Negrão, Martinelli and Peixoto2018; Paglia et al., Reference Paglia, Luber, Mansano and Freitas2022), others have had their numbers reduced to such low levels that finding them is difficult (e.g. Lee et al., Reference Lee, Meyer, Burch, Pearce-Kelly and Ó Foighil2008; Richmond et al., Reference Richmond, Wostl, Reed and Fisher2022). Some have not been searched for since their discovery (e.g. Edwards et al., Reference Edwards, Bassüner, Birkinshaw, Camara, Lehavana and Lowry2018), and others have become lost following reclassification.

Look for them and you may find them is the premise of the Search for Lost Species launched by Re:wild in 2017 (then Global Wildlife Conservation). Building on the knowledge and expertise of the 10,000+ volunteer experts of the IUCN Species Survival Commission (SSC), Re:wild and the SSC have compiled a list of c. 2,100 lost species and made the list publicly available (Re:wild, 2021) to encourage searches to find these species. Annual updates will probably lead to expansion of the list as new animals, plants and fungi are added. Since Re:wild launched its top 25 lost species in 2017, eight species on the list have been rediscovered, as have 67 species from the entire list of lost species. Partnerships and campaigns focused on specific taxonomic groups, such as birds and freshwater species, are leading to further rediscoveries, such as that of the Batman River loach Paraschistura chrysicristinae in Turkey in 2021 (Green, Reference Green2021). Scheffers et al. (Reference Scheffers, Yong, Harris, Giam and Sodhi2011) documented 351 species rediscoveries over 122 years, with an average time lost of 61 years. The fact that lost species are being rediscovered, even when they have not been seen in decades, is reassuring. Most rediscovered species tend to have restricted ranges and small populations and therefore remain highly threatened with extinction and require swift conservation action.

The search for lost species is a call to everybody, everywhere, not to overlook species from any taxonomic group. We invite the conservation community to focus on lost species, to initiate conservation action for them if rediscovered, and to prevent their extinction. The pathway of loss described here provides a framework for increasing levels of urgency to help us focus on all species in need of conservation.

This Editorial and the Oryx articles cited herein are freely available as a virtual issue of the journal at cambridge.org/core/journals/oryx/virtual-issues.

References

Campbell, D. (2016) A case for resurrecting lost species—review essay of Beth Shapiro's, “How to Clone a Mammoth: The Science of De-Extinction”. Biology & Philosophy, 31, 747759.CrossRefGoogle Scholar
Ceballos, G., Garcia, A. & Ehrlich, P. (2010) The sixth extinction crisis. Journal of Cosmology, 8, 180185.Google Scholar
Cottee-Jones, H.E.W., Mittermeier, J.C. & Redding, D.W. (2013) The Moluccan woodcock (Scolopax rochussenii) on Obi Island: a ‘lost’ species is less endangered than was believed. Forktail, 29, 8893.Google Scholar
Crutzen, P.J. & Stoermer, E.F. (2000) The Anthropocene. Global Change Newsletter, 41, 1718.Google Scholar
David, W.M. & Davis, R.A. (2017) Hopeful monsters—in defense of quests to rediscover long-lost species. Conservation Letters, 10, 382383.Google Scholar
de Lírio, E.J., Freitas, J., Negrão, R., Martinelli, G. & Peixoto, A.L. (2018) A hundred years’ tale: rediscovery of Mollinedia stenophylla (Monimiaceae) in the Atlantic rainforest, Brazil. Oryx, 52, 437441.CrossRefGoogle Scholar
de Massol de Rebetz, C. (2020) Remembrance day for lost species: remembering and mourning extinction in the Anthropocene. Memory Studies, 13, 875888.CrossRefGoogle Scholar
Edwards, C.E., Bassüner, B., Birkinshaw, C., Camara, C., Lehavana, A., Lowry, P.P. et al. (2018) A botanical mystery solved by phylogenetic analysis of botanical garden collections: the rediscovery of the presumed-extinct Dracaena umbraculifera. Oryx, 52, 427436.CrossRefGoogle Scholar
Fisher, M. (2019) The small, the hidden, the less-loved: conserving other species. Oryx, 53, 199200.CrossRefGoogle Scholar
Green, G. (2021) Batman loach returns: fish feared extinct found in Turkey. The Guardian, 9 December 2021. theguardian.com/environment/2021/dec/09/batman-loach-returns-fish-feared-extinct-for-decades-spotted-in-turkey-aoe [accessed 19 May 2022].Google Scholar
Hirsch, R.E. (2017) De-Extinction: The Science of Bringing Lost Species Back to Life. Twenty-First Century Books, Minneapolis, USA.Google Scholar
IUCN (2012) IUCN Red List Categories and Criteria: Version 3.1, 2nd edition. IUCN, Gland, Switzerland, and Cambridge, UK.Google Scholar
IUCN (2021) The IUCN Red List of Threatened Species. Version 2021-3. iucnredlist.org [accessed 21 February 2022].Google Scholar
Jablonski, D. (1995) Extinctions in the fossil record. In Extinction Rates (eds Lawton, J.H. & May, R.M.), pp. 2544. Oxford University Press, Oxford, UK.Google Scholar
Lee, T., Meyer, J.-Y., Burch, J.B., Pearce-Kelly, P. & Ó Foighil, D. (2008) Not completely lost: two partulid tree snail species persist on the highest peak of Raiatea, French Polynesia. Oryx, 42, 615619.CrossRefGoogle Scholar
Mora, C., Tittensor, D.P., Adl, S., Simpson, A.G.B. & Worm, B. (2011) How many species are there on earth and in the ocean? PLOS Biolofy, 9, e1001127.CrossRefGoogle ScholarPubMed
Paglia, I., Luber, J., Mansano, V. & Freitas, L. (2022) A narrowly endemic species of Begoniaceae: rediscovery, distribution and conservation of Begonia jocelinoi. Oryx, published online 18 March 2022.CrossRefGoogle Scholar
Pimm, S., Jenkins, C., Abell, R., Brooks, T., Gittleman, J., Joppa, L. et al. (2014) The biodiversity of species and their rates of extinction, distribution, and protection. Science, 344, 6187.CrossRefGoogle Scholar
Re:wild (2021) Lost Species. rewild.org/lost-species [accessed 4 May 2022].Google Scholar
Richmond, J.Q., Wostl, E., Reed, R.N. & Fisher, R.N. (2022) Range eclipse leads to tenuous survival of a rare lizard species on a barrier atoll. Oryx, 56, 6372.CrossRefGoogle Scholar
Roberts, D. & Fisher, M. (2020) Schrödinger's cat extinction paradox. Oryx, 54, 143144.CrossRefGoogle Scholar
Scheffers, B.R., Yong, D.L., Harris, J.B.C., Giam, X. & Sodhi, N.S. (2011) The world's rediscovered species: back from the brink? PLOS ONE, 6, e22531.CrossRefGoogle ScholarPubMed
Silcock, J., Field, A., Walsh, N. & Fensham, R. (2020) To name those lost: assessing extinction likelihood in the Australian vascular flora. Oryx, 54, 167177.CrossRefGoogle Scholar
SSC (Species Survival Commission) (2020) By-Laws 2021–2024. IUCN Species Survival Commission, Gland, Switzerland.Google Scholar
Twomey, E. & Brown, J.L. (2008) Spotted poison frogs: rediscovery of a lost species and new genus (Anura: Dendrobatidae) from northwestern Peru. Herpetologica, 64, 121137.CrossRefGoogle Scholar
Villarroel, D., Quintino de Faria, J.E. & Barnes Proença, C.E. (2014) One new and one long-lost species of Eugenia (Myrtaceae) from the Bolivian Cerrado. Novon, 23, 244249.CrossRefGoogle Scholar