Isotopic evidence for hydrologic change related to the westerlies in SW Patagonia, Chile, during the last millennium

The Southern Hemisphere westerly winds influence the spatial distribution of precipitation in southern South America and play a significant role in the global carbon cycle, yet little is known about how this important atmospheric circulation feature has varied in the past. Here, we present a sedimen...

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Bibliographic Details
Published in:Quaternary Science Reviews
Main Authors: Moy, Christopher M., Dunbar, Robert B., Moreno, Patricio I., Francois, Jean-Pierre, Villa Martínez, Rodrigo, Mucciarone, David M., Guilderson, Thomas P., Garreaud, René
Format: Article in Journal/Newspaper
Language:English
Published: PERGAMON-ELSEVIER SCIENCE LTD 2008
Subjects:
SOUTHERN-HEMISPHERE
CARBON ISOTOPES
ORGANIC-MATTER
MARINE-SEDIMENTS
CLIMATE-CHANGE
ICE-AGE
LAKE
GROWTH
PALEOCLIMATE
AMERICA
Age Lake
Antarctic
Basin Lake
Paine
Patagonia
Siple
Siple Dome
Antarc*
ice core
Online Access:https://doi.org/10.1016/j.quascirev.2008.03.006
http://www.captura.uchile.cl/handle/2250/7014
Description
Summary:The Southern Hemisphere westerly winds influence the spatial distribution of precipitation in southern South America and play a significant role in the global carbon cycle, yet little is known about how this important atmospheric circulation feature has varied in the past. Here, we present a sediment core record of late Holocene variability from Lago Guanaco, a small closed-basin lake located in Torres del Paine National Park, Chilean Patagonia. The park is located in the core of the modern wind field and variations in the intensity of the atmospheric circulation directly influence the hydrology of this region. We combine stable isotopic measurements of biogenic carbonate and bulk organic matter to identify two periods of increased evaporation between 900-550 and similar to 400-50 calendar years before present (cal yr BP). The first interval is coincident with the Medieval Climate Anomaly (MCA) while the more recent period is broadly coincident with the timing of the Little Ice Age (LIA). During the LIA interval, we observe simultaneous monotonic increases in the delta O-18 of biogenic carbonate and Nothofagus dombeyi-type pollen, which we interpret as indicative of significant changes in the intensity of the southern westerlies during the last millennium. The isotopic and palynological variations in the Guanaco record are coincident with geochemical variations found in an Antarctic ice core record from Siple Dome, suggesting that the signal preserved in Lago Guanaco is regional rather than local, and that the LIA intensification was accompanied by a poleward shift in the southern margin of the westerlies. In addition, we interpret four periods of increased lake productivity centered on 900, 650, 500, and 200 cal yr BP from simultaneous increases in the delta C-13 of bulk organic material and biogenic carbonate. These increases in lake productivity are most likely tied to increases in summer temperatures.

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