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Fundamentals of Conservation Biology. Malcolm L. Hunter, Jr.
Читать онлайн.Название Fundamentals of Conservation Biology
Год выпуска 0
isbn 9781119144175
Автор произведения Malcolm L. Hunter, Jr.
Жанр Биология
Издательство John Wiley & Sons Limited
Figure 3.2 The depth of unexplored biodiversity is greatest among small species as exemplified by this amphipod (a), recently identified from the Antarctic Ocean, or this cave beetle (b) from China (from SUNY_ESF’s Top 10 New Species program: www.esf.edu/top10). Not all new species are small; in 2018 they also listed a new species of orangutan from Sumatra and a towering tree species from the coastal forest of Brazil.
([a] Cédric d’Udekem d’Acoz/Royal Belgian Institute of Natural Sciences; [b] Sunbin Huang and Mingyi Tian)
Finally, the number of species may be bolstered by the existence of sibling species or cryptic species, species that scientists cannot readily distinguish based on morphology but that are genetically distinct. Consider the case of a well‐known species of butterfly, Astraptes fulgerator, which may be ten different species, with nearly identical adults but visibly different caterpillars feeding on different host plants (Fig. 3.3) (Hebert et al. 2004; Brower 2006; Janzen et al. 2011). The morphology of adult genitalia (a primary way to identify insect species) gave no clue to the existence of these cryptic species. The idea of cryptic diversity received lots of press attention when an undescribed species, the Atlantic coast leopard frog, most readily identified by its calls, was discovered in New York City (Feinberg et al. 2014). The species had been lurking among other leopard frog species in New York city’s marshes for centuries before scientists recognized it as a unique species.
Figure 3.3 These caterpillars represent ten sibling species of what was long thought to be a single butterfly species, Astraptes fulgerator (Hebert et al. 2004). The interim names reflect the primary larval food plant and, in some cases, a color character.
(Dan Janzen/National Academy of Sciences, U.S.A)
Do we really need to know how many species there are? From a conservation perspective we do not even have the resources to address adequately the problems of a few hundred well‐known vertebrates and plants that are slipping toward extinction. Does it matter how many million other species we overlook? Certainly our efforts to understand ecology and evolution, the foundation of conservation biology, would be enhanced by a more complete taxonomy (Wheeler et al. 2012). And even if the number of species is of minor strategic concern, these estimates do convey two fundamental ideas. First, the number of species that may ultimately be at risk is enormous; in other words, we have a lot to lose. Second, we have a great deal yet to learn about the world.
The Intrinsic Value of Species and Their Conservation Status
Most conservationists believe that every species has intrinsic value; that is, its value is independent of its usefulness to people, to any other species, or to the ecosystem it inhabits. In other words, every species has some importance without reference to anything but its own existence (Fig. 3.4). The concept of something having value without reference to humans is not universally accepted by philosophers (Justus et al. 2009). Still, the intrinsic value of species is widely accepted among conservationists and has been embraced in important institutions like the Convention on Biological Diversity (Uggla 2010; Vucetich et al. 2015) and the US Endangered Species Act in which (in theory at least) any species can be listed for protection, no matter how obscure.
Figure 3.4 A species' intrinsic value is independent of its relationship with any other species as depicted on the left, whereas its instrumental value depends on its importance to other species, including people. This tree fern supports an epiphytic bromeliad that contains a small pool of water, home to many invertebrates and a breeding site for frogs.
(Malcolm L. Hunter Jr., author)
Once you accept the idea of species having intrinsic value, it is relatively straightforward to decide which species merit more attention from conservationists: they are the species most threatened with extinction. As illustrated in Boxes 3.1 and 3.2, the probability of extinction is the primary consideration for assigning species to categories of conservation status. The World Conservation Union (which is still widely known as the IUCN, the initials of its former name) maintains a web‐based database that lists the species that fall into these categories, commonly called the Red List (www.iucnredlist.org). This provides the primary international standard for tracking the conservation status of various species, but there are others. For example, the Convention on International Trade in Endangered Species of Wild Fauna and Flora (CITES) (cites.org) classifies endangered species into various appendices, Nature Serve (natureserve.org) maintains lists for the western hemisphere, and the Habitats and Birds Directives list all species of conservation concern in the European Union (https://ec.europa.eu/environment/nature). At a more local level, many national and state governments also maintain lists of species that are threatened within their borders (e.g. https://www.fws.gov/endangered). Sometimes, global categories are used at these local levels (e.g. Quayle et al. 2007), but more often different criteria are used, sometimes leading to very different outcomes (Harris et al. 2012). Most of these organizations also maintain lists of species that are not yet endangered but that are declining and need to be monitored. These have names such as “species of special concern” or “species to watch.” Being on one of these lists does not necessarily translate into conservation action. Issues such as instrumental value (covered in the next section) influence these decisions, as does