1. Freshwater forcing control on early-Holocene South American monsoon.
- Author
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Aguiar, Wilton, Prado, Luciana F., Wainer, Ilana, Liu, Zhengyu, Montenegro, Alvaro, Meissner, Katrin J., and Mata, Mauricio M.
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TRADE winds , *OCEAN temperature , *MONSOONS , *WATER , *HOLOCENE Epoch - Abstract
Climate anomalies due to Lake Agassiz outbursts and Hudson Bay ice dome melting are commonly considered triggers of North American atmospheric cooling. However, in the Southern Hemisphere, these freshwater fluxes are mostly associated with increased precipitation and a possible intensification of the South American Monsoon System (SAMS). Here, we tested how the SAMS responded to early-Holocene meltwater events. Based on both proxy data and simulations, we find that sea surface temperatures (SSTs) and precipitation indicate a freshwater-driven strengthening of the SAMS due to a weakening of the South Atlantic subtropical dipole. Simulated SAMS strengthening accounts for up to 50% of the variance in early-Holocene precipitation in South America. In turn, changes in the South Atlantic Subtropical Dipole accounts for up to 31% of the variance in South Atlantic SSTs. Additionally, we propose that the stronger SAMS in the early Holocene might have been due to a freshwater-driven weakening of the southeasterly trade winds. Slower trade winds weaken the zonal and meridional surface water transport, concentrating warm waters in the northeastern South Atlantic. Image 1 • We tested the response of the South American Monsoonal System (SAMS) to the 8.2ka freshwater event. • Proxies and simulations suggest a freshwater-driven strengthening of the SAMS, due to negative SASD. • We propose the SAMS intensification as caused by weaker southeasterly trade winds. • Weaker trades during the 8.2 ka event increase moisture delivery over the ITCZ and SACZ through negative SASD. [ABSTRACT FROM AUTHOR] more...
- Published
- 2020
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