Climate change patterns in Amazonia and biodiversity
Precise characterization of hydroclimate variability in Amazonia on various timescales is critical to understanding the link between climate change and biodiversity. Here we present absolute-dated speleothem oxygen isotope records that characterize hydroclimate variation in western and eastern Amazo...
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sg-ntu-dr.10356-1431332020-09-26T21:34:56Z Climate change patterns in Amazonia and biodiversity Cheng, Hai Sinha, Ashish Cruz, Francisco W. Wang, Xianfeng Edwards, R. Lawrence D'Horta, Fernando M. Ribas, Camila C. Vuille, Mathias Stott, Lowell D. Auler, Augusto S. Earth Observatory of Singapore Engineering::Environmental engineering Biodiversity Climate Change Precise characterization of hydroclimate variability in Amazonia on various timescales is critical to understanding the link between climate change and biodiversity. Here we present absolute-dated speleothem oxygen isotope records that characterize hydroclimate variation in western and eastern Amazonia over the past 250 and 20 ka, respectively. Although our records demonstrate the coherent millennial-scale precipitation variability across tropical-subtropical South America, the orbital-scale precipitation variability between western and eastern Amazonia exhibits a quasi-dipole pattern. During the last glacial period, our records imply a modest increase in precipitation amount in western Amazonia but a significant drying in eastern Amazonia, suggesting that higher biodiversity in western Amazonia, contrary to 'Refugia Hypothesis', is maintained under relatively stable climatic conditions. In contrast, the glacial-interglacial climatic perturbations might have been instances of loss rather than gain in biodiversity in eastern Amazonia, where forests may have been more susceptible to fragmentation in response to larger swings in hydroclimate. National Research Foundation (NRF) Published version We thank Jhon Huaman, Kevin Cannariato and Miguel Rincon for field assistance. This work was supported by grants 2013CB955902, NSFC 41230524, US NSF grants 0502535, 1103404, 0823554 and 1003690; Singapore NRFF2011-08; Gary Comer Science and Education Foundation grants CC8 and CP52. F.W.C. was funded by the Sao Paulo State Science foundation (2011/394 5039). 2020-08-05T02:38:21Z 2020-08-05T02:38:21Z 2013 Journal Article Cheng, H., Sinha, A., Cruz, F. W., Wang, X., Edwards, R. L., D'Horta, F. M., . . . Auler, A. S. (2013). Climate change patterns in Amazonia and biodiversity. Nature Communications, 4, 1411-. doi:10.1038/ncomms2415 2041-1723 https://hdl.handle.net/10356/143133 10.1038/ncomms2415 23361002 2-s2.0-84878732130 4 en Nature Communications © 2013 Macmillan Publishers Limited. All rights reserved. This paper was published in Nature Communications and is made available with permission of Macmillan Publishers Limited. application/pdf |
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| topic |
Engineering::Environmental engineering Biodiversity Climate Change |
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Engineering::Environmental engineering Biodiversity Climate Change Cheng, Hai Sinha, Ashish Cruz, Francisco W. Wang, Xianfeng Edwards, R. Lawrence D'Horta, Fernando M. Ribas, Camila C. Vuille, Mathias Stott, Lowell D. Auler, Augusto S. Climate change patterns in Amazonia and biodiversity |
| description |
Precise characterization of hydroclimate variability in Amazonia on various timescales is critical to understanding the link between climate change and biodiversity. Here we present absolute-dated speleothem oxygen isotope records that characterize hydroclimate variation in western and eastern Amazonia over the past 250 and 20 ka, respectively. Although our records demonstrate the coherent millennial-scale precipitation variability across tropical-subtropical South America, the orbital-scale precipitation variability between western and eastern Amazonia exhibits a quasi-dipole pattern. During the last glacial period, our records imply a modest increase in precipitation amount in western Amazonia but a significant drying in eastern Amazonia, suggesting that higher biodiversity in western Amazonia, contrary to 'Refugia Hypothesis', is maintained under relatively stable climatic conditions. In contrast, the glacial-interglacial climatic perturbations might have been instances of loss rather than gain in biodiversity in eastern Amazonia, where forests may have been more susceptible to fragmentation in response to larger swings in hydroclimate. |
| author2 |
Earth Observatory of Singapore |
| author_facet |
Earth Observatory of Singapore Cheng, Hai Sinha, Ashish Cruz, Francisco W. Wang, Xianfeng Edwards, R. Lawrence D'Horta, Fernando M. Ribas, Camila C. Vuille, Mathias Stott, Lowell D. Auler, Augusto S. |
| format |
Article |
| author |
Cheng, Hai Sinha, Ashish Cruz, Francisco W. Wang, Xianfeng Edwards, R. Lawrence D'Horta, Fernando M. Ribas, Camila C. Vuille, Mathias Stott, Lowell D. Auler, Augusto S. |
| author_sort |
Cheng, Hai |
| title |
Climate change patterns in Amazonia and biodiversity |
| title_short |
Climate change patterns in Amazonia and biodiversity |
| title_full |
Climate change patterns in Amazonia and biodiversity |
| title_fullStr |
Climate change patterns in Amazonia and biodiversity |
| title_full_unstemmed |
Climate change patterns in Amazonia and biodiversity |
| title_sort |
climate change patterns in amazonia and biodiversity |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/143133 |
| _version_ |
1681058776969379840 |