Angela Ampuero scite author profile

In the Amazon basin, intense precipitation recycling across the forest significantly modifies the isotopic composition of rainfall (δ18O, δD). In the tropical hydrologic cycle, such an effect can be identified through deuterium excess (dxs), yet it remains unclear what environmental factors control dxs, increasing the uncertainty of dxs‐based paleoclimate reconstructions. Here we present a 4‐year record of the isotopic composition of rainfall, monitored in the northwestern Amazon basin. We analyze the isotopic variations as a function of the air mass history, based on atmospheric back trajectory analyses, satellite observations of precipitation upstream, leaf area index, and simulated moisture recycling along the transport pathway. We show that the precipitation recycling in the forest exerts a significant control on the isotopic composition of precipitation in the northwestern Amazon basin, especially on dxs during the dry season (r = 0.71). Applying these observations to existing speleothem and pollen paleorecords, we conclude that winter precipitation increased after the mid‐Holocene, as the expansion of the forest allowed for more moisture recycling. Therefore, forest effects should be considered when interpreting paleorecords of past precipitation changes.

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Investigating δ13C values in stalagmites from tropical South America for the last two millennia

Novello

Cruz

Vuille

et al. 2021

Quaternary Science Reviews

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Medieval Climate Variability in the eastern Amazon-Cerrado regions and its archeological implications

Azevedo

Stríkis

Santos

et al. 2019

Sci Rep

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The South American Monsoon System is responsible for the majority of precipitation in the continent, especially over the Amazon and the tropical savannah, known as ‘Cerrado’. Compared to the extensively studied subtropical and temperate regions the effect of the Medieval Climate Anomaly (MCA) on the precipitation over the tropics is still poorly understood. Here, we present a multiproxy paleoprecipitation reconstruction showing a consistent change in the hydrologic regime during the MCA in the eastern Amazon and ‘Cerrado’, characterized by a substantial transition from humid to drier conditions during the Early (925-1150 C.E.) to Late-MCA (1150-1350 C.E.). We compare the timing of major changes in the monsoon precipitation with the expansion and abandonment of settlements reported in the archeological record. Our results show that important cultural successions in the pre-Columbian Central Amazon, the transition from Paredão to Guarita phase, are in agreement with major changes in the hydrologic regime. Phases of expansion and, subsequent abandonment, of large settlements from Paredão during the Early to Late-MCA are coherent with a reduction in water supply. In this context we argue that the sustained drier conditions during the latter period may have triggered territorial disputes with Guarita leading to the Paredão demise.

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Atlantic ITCZ variability during the Holocene based on high-resolution speleothem isotope records from northern Venezuela

Medina

Cruz

Winter

et al. 2023

Quaternary Science Reviews

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Stable isotope variability of precipitation and cave drip-water at Jumandy cave, western Amazon River basin (Ecuador)

Jiménez

Ampuero

Valencia

et al. 2022

Journal of Hydrology

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Angela Ampuero

The Forest Effects on the Isotopic Composition of Rainfall in the Northwestern Amazon Basin

Investigating δ13C values in stalagmites from tropical South America for the last two millennia

Medieval Climate Variability in the eastern Amazon-Cerrado regions and its archeological implications

Atlantic ITCZ variability during the Holocene based on high-resolution speleothem isotope records from northern Venezuela

Stable isotope variability of precipitation and cave drip-water at Jumandy cave, western Amazon River basin (Ecuador)

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