News Release 

Using past extinctions to drive future conservation

American Institute of Biological Sciences

Late Quaternary extinctions of large animals have historically been understood as global phenomena, resulting from climate fluctuations or quickly dispersing human populations. However, new technologies are enabling fine-grain analyses that shed new light on individual species' varied responses to changing local conditions, new competitors and predators, and other external drivers. According to an interdisciplinary team writing in BioScience, the newly gained knowledge may be of particular value in understanding animal populations' responses to contemporary threats, as well--in particular, those posed by climate change.

Jillian A. Swift of the Bishop Museum and her coauthors focus on five key innovations--radiocarbon approaches, stable isotope analysis, ancient DNA, ancient proteomics, and microscopy--describing the ways in which new technologies are elucidating past extinctions. For instance, the authors describe the stable isotope analysis of a single tooth belonging to an extinct ground sloth from Belize. The data showed "how this individual varied its diet in response to seasonal fluctuations within a single year, granting high-resolution evidence for the ability of this species to adapt to climate-driven vegetation changes."

Similarly, new methods may help in capturing the varied responses to changing conditions, some of which may be contrary to traditional expectations. The authors note that "bison (Bison priscus), wapiti (Cervus canadensis), and moose (Alces alces), increased in abundance before and during Late Pleistocene human colonization of Alaska and Yukon Territory in North America."

Past responses to various disruptions are already informing present approaches to ecosystem management, say the authors. They highlight the work of Louys and colleagues, who drew on detailed histories of tropical megafauna and "evaluated the ranges and ecological roles of nine megafaunal taxa during the Pleistocene to assess their viability for rewilding efforts, including species translocations, reintroductions, or range expansion," ultimately selecting orangutans, tapirs, and Tasmanian devils as the best suited to rewilding and ecosystem restoration in the Asia-Pacific region. As perturbations grow in number and severity, say Swift and her colleagues, the "application of diverse methodologies to such records will only further the resolution of attempts to connect insights from the past to concerns in the present, enabling archaeology and paleontology to make a meaningful contribution to species and habitat protection or, where desired, reestablishment."


BioScience, published monthly by Oxford Journals, is the journal of the American Institute of Biological Sciences (AIBS). BioScience is a forum for integrating the life sciences that publishes commentary and peer-reviewed articles. The journal has been published since 1964. AIBS is an organization for professional scientific societies and organizations, and individuals, involved with biology. AIBS provides decision-makers with high-quality, vetted information for the advancement of biology and society. Follow BioScience on Twitter @AIBSbiology.

Oxford Journals is a division of Oxford University Press. Oxford Journals publishes well over 300 academic and research journals covering a broad range of subject areas, two-thirds of which are published in collaboration with learned societies and other international organizations. The division been publishing journals for more than a century, and as part of the world's oldest and largest university press, has more than 500 years of publishing expertise behind it. Follow Oxford Journals on Twitter @OxfordJournals

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