Hostname: page-component-cd9895bd7-dzt6s Total loading time: 0 Render date: 2024-12-19T03:38:43.615Z Has data issue: false hasContentIssue false

The small, the hidden, the less-loved: conserving other species

Published online by Cambridge University Press:  29 March 2019

Martin Fisher*
Affiliation:
Martin Fisher Fauna & Flora International, The David Attenborough Building, Pembroke Street, Cambridge, CB2 3QZ, UK
Rights & Permissions [Opens in a new window]

Abstract

Type
Editorial
Copyright
Copyright © Fauna & Flora International 2019 

How many species are there? It is a question of almost childlike simplicity. Yet despite extrapolations—from the proportion of known versus unknown species in surveys of tropical forests, or from modelling—the question awaits a satisfactory answer. To assess the degree to which species are threatened, and to conserve them, it is, however, self-evidently helpful to know their names and their number. We need a pragmatic way of answering our question to a first approximation. A tool to help with this is to hand, but let us go there by a less-tramped route.

Have you ever searched the Red List (IUCN, 2018a) for a species and found that its conservation status has not yet been assessed? Take Alhajarmyia umbraticola, for example, an obscure fly with a curious life style. It lives as a larva in fine sand in shallow caves or beneath shady rock overhangs, has no common name, is rare, endemic to the northern Oman mountains, and as far as I am aware has only been knowingly observed by two people. As the conservation status of our fly has not yet been assessed, our search on the Red List is redirected to its entry in the grandly named—and rightly so—Catalogue of Life (2019).

As of 20 February 2019 the Catalogue contains information on 1,836,304 living species in 101 phyla and seven kingdoms plus viruses. For many reasons this number, which includes only named living species and therefore may be low to the order of several million, does not answer our question but it does provide a useful perspective. Of these c. 1.8 million species, our obscure fly is one of 1,082,947 species in the phylum Arthropoda, which comprise 59% of all named species. Delving further into the Catalogue reveals that the oft-quoted comment attributed to J.B.S. Haldane—that the Creator is inordinately fond of beetles—still holds, with 327,920 named species of Coleoptera (c. 35% of named insects and c. 18% of all named species).

Our little-known species of fly—lonesome in its own genus in the family Vermileonidae, the worm lions—is one of 154,156 species of Diptera, the second-most species-rich insect order, and one of the 919,928 insect species whose conservation status has yet to be assessed. Of the less than 1% of insect species that have been assessed for the Red List (IUCN, 2018b), 1,537 (c. 19%) are categorized as threatened (i.e. in the categories Critically Endangered, Endangered or Vulnerable). This compares to c. 21% of mammals, 14% of birds, 13% of reptiles, 32% of amphibians and 4% of plants categorized as threatened after assessment. Assessing the conservation status of nearly 1 million insects is a task requiring heroes, and progress is being made with many groups, including recently the odonates, bumble bees and some beetle genera. With more than 99% of insects yet to be assessed, however, it is impossible to know whether a figure of 19% of species threatened is representative, or not, of the class as a whole.

The so-called invertebrates (they are not a sound taxonomic grouping but rather a miscellany of phyla) receive relatively little coverage in generalist conservation journals. For example, despite the numerical dominance of beetles, on only one occasion, to my knowledge, has a member of this order been the explicit subject of research published in Oryx, and in this case because it was causing havoc with a survey of the jaguar: dung beetles were tidying up most of the jaguars’ scats before the researchers could collect them (Norris & Michalski, Reference Norris and Michalski2010).

To help bring the invertebrates into better focus, authors in this issue of Oryx consider representatives of three phyla (one species of platyhelminth, one mollusc, and two arthropods). Our intention is epitomized by the title of the lead article: Even worms matter (Manenti et al., Reference Manenti, Barzaghi, Tonni, Ficetola and Melotto2019). The authors describe successful habitat restoration for the 73 known individuals of another shade-loving species: a planarian platyhelminth endemic to a water pool within a single cave in northern Italy.

As a phylum, the molluscs, with 64,092 species (c. 4% of all species), have received proportionally more conservation attention than most other invertebrates: of 8,627 species assessed (c. 13% of all molluscs) 2,195 species (c. 25%) are categorized as threatened. In Oryx the endemic snails of the Galápagos (Coppois & Wells, Reference Coppois and Wells1987), Polynesia (Coote et al., Reference Coote, Loeve, Meyer and Clarke1999; Coote & Loève, Reference Coote and Loève2003; Lee et al., Reference Lee, Meyer, Burch, Pearce-Kelly and Ó Foighil2008; Bick et al., Reference Bick, Foighil and Coote2016), Príncipe in the Gulf of Guinea (Dallimer & Melo, Reference Dallimer and Melo2010) and Manus Island off Papua New Guinea (Whitmore, Reference Whitmore2016) have received attention. Ng et al. (Reference Ng, Tan, Ahmad, Tu, Joshi and Wang2019) continue this theme, but with a twist, showing how a snail species presumed native to the Malay peninsula and categorized as Least Concern on the Red List, may rather be native to Singapore and is almost certainly threatened.

Amongst the arthropods we have to commend the confusingly named and evolutionarily ancient horseshoe crabs, which are not closely related to what we commonly know as crabs: the conservation status of all four species in this class has been assessed. Using the Wisdom of Crowds survey technique, Liao et al. (Reference Liao, Hsieh, Xu, Zhong, Lei and Liang2019) examine two of the Asian species assessed as Data Deficient on the Red List, revealing a decline. This group now has its own IUCN Specialist Group, and the four species are currently being reassessed.

In the race to save species, it is easy to lose sight of what we know of ecology. This is neatly illustrated by Bröder et al. (Reference Bröder, Tatin, Danielczak, Seibel and Hochkirch2019), who demonstrate how the decline of another arthropod, a Critically Endangered grasshopper, appears to be driven by sheep grazing: ecology and conservation cutting across phyla. Yet the conservation of insects, despite their provision of valuable services such as pollination and decomposition, and their work as agricultural assistants forestalling crop-trampling elephants (Scheijen et al., Reference Scheijen, Richards, Smit, Jones and Nowak2019), is woefully neglected. Reports of widespread insect declines (Kosior et al., Reference Kosior, Celary, Olejniczak, Fijal, Król, Solarz and Plonka2007; Leather, Reference Leather2018; Sánchez-Bayo & Wyckhuys, Reference Sánchez-Bayo and Wyckhuys2019) are now, however, throwing this group into sharp focus (Carrington, Reference Carrington2019).

Although we do not yet have a full count of living species, we do know that the small, hidden, less-loved creatures—the other species—vastly outnumber those we know well. Yet these less-loved species have an image problem that seems to render them largely invisible beyond specialist journals. Proportionally few have been assessed for the Red List, and relatively little funding is available for research on these groups (Leather, Reference Leather2018). From microbes (Cockell & Jones, Reference Cockell and Jones2009) to parastic lice (Rózsa & Vas, Reference Rózsa and Vas2015) and beyond we need to broaden our conservation vision if we are to tackle the mission we have chosen to accept.

This issue of Oryx is dedicated to the memory of Tony Whitten—cherished friend and colleague, and member of the Oryx International Board of Editors—who worked tirelessly for conservation, and especially for less-loved species and caves. In the next issue we will be announcing a series of awards for young conservation professionals in his memory.

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.

Acknowledgements

I thank Andrew Balmford, Bill Adams, Craig Hilton-Taylor, Emma Muench, Julia Hochbach, Maria Luisa de Castro Fisher and Simon Leather for their comments.

References

Bick, C.S., Foighil, D.Ó. & Coote, T. (2016) Differential survival among Tahitian tree snails during a mass extinction event: persistence of the rare and fecund. Oryx, 50, 169175.Google Scholar
Bröder, L., Tatin, L., Danielczak, A., Seibel, T. & Hochkirch, A. (2019) Intensive grazing as a threat in protected areas: the need for adaptive management to protect the Critically Endangered Crau plain grasshopper Prionotropis rhodanica. Oryx, 53, 239246.Google Scholar
Carrington, D. (2019) Plummeting insect numbers ‘threaten collapse of nature’. The Guardian. Https://www.theguardian.com/environment/2019/feb/10/plummeting-insect-numbers-threaten-collapse-of-nature [accessed 21 February 2019].Google Scholar
Catalogue of Life (2019) Catalogue of Life. Http://www.catalogueoflife.org [accessed 21 February 2019].Google Scholar
Cockell, C.S. & Jones, H.L. (2009) Advancing the case for microbial conservation. Oryx, 43, 520526.Google Scholar
Coote, T. & Loève, É. (2003) From 61 species to five: endemic tree snails of the Society Islands fall prey to an ill-judged biological control programme. Oryx, 37, 9196.Google Scholar
Coote, T., Loeve, E., Meyer, J.-Y. & Clarke, D. (1999) Extant populations of endemic partulids on Tahiti, French Polynesia. Oryx, 33, 215222.Google Scholar
Coppois, G. & Wells, S. (1987) Threatened Galápagos snails. Oryx, 21, 236241.Google Scholar
Dallimer, M. & Melo, M. (2010) Rapid decline of the endemic giant land snail Archachatina bicarinata on the island of Príncipe, Gulf of Guinea. Oryx, 44, 213218.Google Scholar
IUCN (2018a) The IUCN Red List of Threatened Species. Https://www.iucnredlist.org [accessed 20 February 2019].Google Scholar
IUCN (2018b) Summary statistics. The IUCN Red List of Threatened Species. Https://www.iucnredlist.org/resources/summary-statistics [accessed 20 February 2019].Google Scholar
Kosior, A., Celary, W., Olejniczak, P., Fijal, J., Król, W., Solarz, W. & Plonka, P. (2007) The decline of the bumble bees and cuckoo bees (Hymenoptera: Apidae: Bombini) of Western and Central Europe. Oryx, 41, 7988.Google Scholar
Leather, S.R. (2018) “Ecological Armageddon”—more evidence for the drastic decline in insect numbers. Annals of Applied Biology, 172, 13.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.Google Scholar
Liao, Y., Hsieh, H.-L., Xu, S., Zhong, Q., Lei, J., Liang, M. et al. (2019) Wisdom of Crowds reveals decline of Asian horseshoe crabs in Beibu Gulf, China. Oryx, 53, 222229.Google Scholar
Manenti, R., Barzaghi, B., Tonni, G., Ficetola, G.F. & Melotto, A. (2019) Even worms matter: cave habitat restoration for a planarian species increased environmental suitability but not abundance. Oryx, 53, 216221.Google Scholar
Ng, T.H., Tan, S.K., Ahmad, A., Tu, D.V., Joshi, R.C., Wang, W.Y., et al. (2019) Not in the Least Concern: anthropogenic influences on a South-east Asian apple snail Pila scutata (Ampullariidae). Oryx, 53, 230238.Google Scholar
Norris, D. & Michalski, F. (2010) Implications of faecal removal by dung beetles for scat surveys in a fragmented landscape of the Brazilian Amazon. Oryx, 44, 455458.Google Scholar
Rózsa, L. & Vas, Z. (2015) Co-extinct and critically co-endangered species of parasitic lice, and conservation-induced extinction: should lice be reintroduced to their hosts? Oryx, 49, 107110.Google Scholar
Sánchez-Bayo, F. & Wyckhuys, K.A.G. (2019) Worldwide decline of the entomofauna: A review of its drivers. Biological Conservation, 232, 827.Google Scholar
Scheijen, C.P.J., Richards, S.A., Smit, J., Jones, T. & Nowak, K. (2019) Efficacy of beehive fences as barriers to African elephants: a case study in Tanzania. Oryx, 53, 9299.Google Scholar
Whitmore, N. (2016) Harnessing local ecological knowledge for conservation decision making via Wisdom of Crowds: the case of the Manus green tree snail Papustyla pulcherrima. Oryx, 50, 684692.Google Scholar