Abstract
Here we analyze the effects that climatic changes through last ice age had on the potential distributions and extinction risk
dynamics of two extinct species of South American giant ground sloths, Eremotherium laurillardi and Megatherium americanum.
We tested the assumption of stability of the climate preferences through time for the two species and modeled their potential
distributions at last glacial maximum (LGM, 21 ky BP) and mid-Holocene (6 ky BP) using Bioclimatic Envelope Modeling (BEM),
fossil records and paleoclimatic simulations. The model predictions showed a drastic reduction of the geographical ranges for
both species during mid-Holocene, along with a considerable fragmentation of their core climatic conditions and refugia, although
it did not fully disappear at this time. Thus, our findings point out that the extinction risk of both species greatly increased as a
consequence of the climate change, although do not support it as the unique stressor
dynamics of two extinct species of South American giant ground sloths, Eremotherium laurillardi and Megatherium americanum.
We tested the assumption of stability of the climate preferences through time for the two species and modeled their potential
distributions at last glacial maximum (LGM, 21 ky BP) and mid-Holocene (6 ky BP) using Bioclimatic Envelope Modeling (BEM),
fossil records and paleoclimatic simulations. The model predictions showed a drastic reduction of the geographical ranges for
both species during mid-Holocene, along with a considerable fragmentation of their core climatic conditions and refugia, although
it did not fully disappear at this time. Thus, our findings point out that the extinction risk of both species greatly increased as a
consequence of the climate change, although do not support it as the unique stressor
Original language | English |
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Journal | Natureza & Conservacao |
Volume | 10 |
Issue number | 2 |
Pages (from-to) | 145-151 |
Number of pages | 7 |
ISSN | 1679-0073 |
DOIs | |
Publication status | Published - 2012 |