Micro Methods for Megafauna: Novel Approaches to Late Quaternary Extinctions and Their Contributions to Faunal Conservation in the Anthropocene

Micro Methods for Megafauna Novel Approaches to Late Quaternary Extinctions and Their Contributions to Faunal Conservation in the Anthropocene

Drivers of Late Quaternary megafaunal extinctions are relevant to modern conservation policy in a world of growing human population density, climate change, and faunal decline. Traditional debates tend toward global solutions, blaming either dramatic climate change or dispersals of Homo sapiens to n...

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Bibliographic Details
Published in:Bioscience Vol. 69; no. 11; pp. 877 - 887
Main Authors: SWIFT, JILLIAN A., BUNCE, MICHAEL, DORTCH, JOE, DOUGLASS, KRISTINA, FAITH, J. TYLER, YATES, JAMES A. FELLOWS, FIELD, JUDITH, HABERLE, SIMON G., JACOB, EILEEN, JOHNSON, CHRIS N., LINDSEY, EMILY, LORENZEN, ELINE D., LOUYS, JULIEN, MILLER, GIFFORD, MYCHAJLIW, ALEXIS M., SLON, VIVIANE, VILLAVICENCIO, NATALIA A., WATERS, MICHAEL R., WELKER, FRIDO, WOOD, RACHEL, PETRAGLIA, MICHAEL, BOIVIN, NICOLE, ROBERTS, PATRICK
Format: Journal Article
Language:English
Published: Oxford Oxford University Press 01-11-2019
Subjects:
Anthropocene
Archaeology
Case Studies
Climate
Climate change
Community composition
Conservation
Environmental policy
Extinction
Human population density
Human populations
Megafauna
Overview
Overview Articles
Population density
Predators
Proteomics
Quaternary
Species extinction
Stable isotopes
interdisciplinary science
Anthropocene
conservation
extinction
megafauna
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Summary:Drivers of Late Quaternary megafaunal extinctions are relevant to modern conservation policy in a world of growing human population density, climate change, and faunal decline. Traditional debates tend toward global solutions, blaming either dramatic climate change or dispersals of Homo sapiens to new regions. Inherent limitations to archaeological and paleontological data sets often require reliance on scant, poorly resolved lines of evidence. However, recent developments in scientific technologies allow for more local, context-specific approaches. In the present article, we highlight how developments in five such methodologies (radiocarbon approaches, stable isotope analysis, ancient DNA, ancient proteomics, microscopy) have helped drive detailed analysis of specific megafaunal species, their particular ecological settings, and responses to new competitors or predators, climate change, and other external phenomena. The detailed case studies of faunal community composition, extinction chronologies, and demographic trends enabled by these methods examine megafaunal extinctions at scales appropriate for practical understanding of threats against particular species in their habitats today.
ISSN:0006-3568
1525-3244
DOI:10.1093/biosci/biz105