Fundamentals of Conservation Biology. Malcolm L. Hunter, Jr.. Читать онлайн. Newlib. NEWLIB.NET

Автор: Malcolm L. Hunter, Jr.
Издательство: John Wiley & Sons Limited
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Жанр произведения: Биология
Год издания: 0
isbn: 9781119144175
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programmed to be sterile. The same is envisioned for eradicating mosquitoes without pesticides, including in areas where mosquitoes vector diseases that hobble endangered species, as in the case of birds in Hawaii. Perhaps most daunting, intriguing, and controversial of all is the possibility to resurrect extinct species through synthetic biology, grafting fragments of their DNA harvested from museum specimens into similar, extant surrogate species to recreate admixtures that largely appear and function as the original species once did (Shapiro 2017). This is being done using Asian elephants to snip into their genome functional and distinctive genes from extinct mammoths to recreate something resembling the latter to release upon the Siberian tundra to help clear woody vegetation, deepen penetration of freezing temperatures into the permafrost, and help slow the melting of the Arctic (Campbell and Whittle 2017).

      CASE STUDY 5.1 Galápagos Giant Tortoises

      The Galápagos Archipelago in Ecuador is home to many unusual species, including Darwin’s finches, marine and land iguanas, and, perhaps their most famous inhabitants, giant tortoises. These animals are indeed giants, weighing up to 400 kg. Giant tortoises were found on most continents during the Pleistocene but now persist only on two groups of remote oceanic islands: the Galápagos and the Seychelles. Only in the Galápagos do multiple populations survive, although only some 10 species of the original 15 still survive in the wild. A major reason for their endangerment is that an estimated 200,000 tortoises were taken from wild populations starting in the seventeenth century when buccaneers and whalers collected tortoises as a source of fresh meat.

      Although they have been studied for centuries, recent research on Galápagos tortoises based on modern molecular genetic techniques has catapulted our understanding, starting with a 10‐year‐long effort to survey every remaining tortoise population, archiving blood samples and extracting DNA from some 5000 individual tortoises. DNA sequencing in mitochondria as well as microsatellites was undertaken to shed light on relationships among populations and to assist with designing captive breeding programs.

      What has been learned? This research revealed a new species of giant tortoise (Poulakakis et al. 2015). On the largest island of Santa Cruz people have long known of a small and nondescript population of tortoises at a remote site named Cerro Fatal. Genetic analyses revealed that the Cerro Fatal tortoises are more different from the other tortoises with which they share the island of Santa Cruz than from tortoises anywhere else in the archipelago. In other words, they likely represent an entirely separate colonization of the island and are worthy of special protection as a distinct species of tortoises. This newly described species is now receiving more attention from management authorities.

Photos depict an alien giant tortoise (a) recently discovered on a remote volcano on northern Isabela Island in the Galápagos among thousands of endemic tortoises (b). The alien is believed to be descended from an extinct species.

      (James P. Gibbs, author)

      Genetic analyses have been particularly important in guiding the captive breeding programs for endangered tortoises. For the Española species, reduced to just 15 individuals before being brought into captivity for safekeeping and producing over 1000 offspring, Milinkovitch et al. (2004) used microsatellite markers in a maternity/paternity assessment of the offspring and found that the genetic contribution of the remaining adults to the offspring pool is very uneven. In other words, modifications of the breeding program are likely warranted. The analysis pointed out specifically which individual adults should be emphasized or de‐emphasized through managed pairings.

      In sum, this overview illustrates for one group of creatures the many ways in which conservation genetics informs conservation practice. Similar analyses are being undertaken to guide conservation and restoration of many other imperiled species around the world.

      Frankham et al. (2009), Allendorf et al. (2013), and Loeschcke et