Megafauna and ecosystem function from the Pleistocene to the Anthropocene
Yadvinder Malhi,Christopher E. Doughty,Mauro Galetti,Felisa A. Smith,Jens-Christian Svenning,John Terborgh +5 more
TL;DR: Progress is reviewed in understanding of how megafauna affect ecosystem physical and trophic structure, species composition, biogeochemistry, and climate, drawing on special features of PNAS and Ecography that have been published as a result of an international workshop held in Oxford in 2014.
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Abstract: Large herbivores and carnivores (the megafauna) have been in a state of decline and extinction since the Late Pleistocene, both on land and more recently in the oceans. Much has been written on the timing and causes of these declines, but only recently has scientific attention focused on the consequences of these declines for ecosystem function. Here, we review progress in our understanding of how megafauna affect ecosystem physical and trophic structure, species composition, biogeochemistry, and climate, drawing on special features of PNAS and Ecography that have been published as a result of an international workshop on this topic held in Oxford in 2014. Insights emerging from this work have consequences for our understanding of changes in biosphere function since the Late Pleistocene and of the functioning of contemporary ecosystems, as well as offering a rationale and framework for scientifically informed restoration of megafaunal function where possible and appropriate.
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Biodiversity losses and conservation responses in the Anthropocene.
Christopher N. Johnson,Andrew Balmford,Barry W. Brook,Jessie C. Buettel,Mauro Galetti,Lei Guangchun,Janet M. Wilmshurst,Janet M. Wilmshurst +7 more
TL;DR: Many examples of conservation success show that losses can be halted and even reversed, and building on these lessons to turn the tide of biodiversity loss will require bold and innovative action to transform historical relationships between human populations and nature.
823
The Sixth Mass Extinction: fact, fiction or speculation?
TL;DR: Differences in extinction rates are reviewed according to realms: marine species face significant threats but, although previous mass extinctions were largely defined by marine invertebrates, there is no evidence that the marine biota has reached the same crisis as the non-marine biota, and island species have suffered far greater rates than continental ones.
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Patterns, Causes, and Consequences of Anthropocene Defaunation
TL;DR: Slowing defaunation will require aggressively reducing animal overexploitation and habitat destruction; mitigating climate disruption; and stabilizing the impacts of human population growth and uneven resource consumption.
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Ecological And Evolutionary Legacy Of Megafauna Extinctions
Mauro Galetti,Mauro Galetti,Marcos Moleón,Marcos Moleón,Pedro Jordano,Mathias M. Pires,Paulo R. Guimarães,Thomas Pape,Elizabeth Nichols,Dennis M. Hansen,Jens M. Olesen,Michael Munk,Jacqueline S. de Mattos,Andreas H. Schweiger,Norman Owen-Smith,Christopher N. Johnson,Robert J. Marquis,Jens-Christian Svenning +17 more
TL;DR: It is argued that the ongoing extinction of the extant megafauna in the Anthropocene will catalyse another wave of co‐extinction events due to the enormous diversity of key ecological interactions and functional roles provided by the megAFauna.
The Concept of the Anthropocene
TL;DR: The Anthropocene, the concept that the Earth has moved into a novel geological epoch characterized by human domination of the planetary system, is an increasingly prevalent framework for debate both in academia and as a wider cultural and policy zeitgeist as discussed by the authors.
225
References
Assessing the Causes of Late Pleistocene Extinctions on the Continents
TL;DR: Evidence now supports the idea that humans contributed to extinction on some continents, but human hunting was not solely responsible for the pattern of extinction everywhere, and suggests that the intersection of human impacts with pronounced climatic change drove the precise timing and geography of extinction in the Northern Hemisphere.
•Book
Megaherbivores: The Influence of Very Large Body Size on Ecology
R. Norman Owen-Smith
- 08 Dec 1988
TL;DR: The megaherbivore syndrome (MHS) was first identified in the late Pleistocene epoch as mentioned in this paper and has been identified as a major cause of extinction in humans.
929
Neotropical anachronisms: the fruits the gomphotheres ate.
Daniel H. Janzen,Paul S. Martin +1 more
TL;DR: Plant distributions in neotropical forest and grassland mixes that are moderately and patchily browsed by free-ranging livestock may be more like those before megafaunal extinction than were those present at the time of Spanish conquest.
877
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