Enhanced Himalayan Glacial Melting During YD and H1 Recorded in the Northern Bay of Bengal
Type de ressource
Auteurs/contributeurs
- Weldeab, Syee (Auteur)
- Rühlemann, Carsten (Auteur)
- Bookhagen, Bodo (Auteur)
- Pausata, Francesco S. R. (Auteur)
- Perez‐Lua, Fabiola M. (Auteur)
Titre
Enhanced Himalayan Glacial Melting During YD and H1 Recorded in the Northern Bay of Bengal
Résumé
Abstract
Ocean‐land thermal feedback mechanisms in the Indian Summer Monsoon (ISM) domain are an important but not well understood component of regional climate dynamics. Here we present a δ
18
O record analyzed in the mixed‐layer dwelling planktonic foraminifer
Globigerinoides ruber
(
sensu stricto
) from the northernmost Bay of Bengal (BoB). The δ
18
O time series provides a spatially integrated measure of monsoonal precipitation and Himalayan meltwater runoff into the northern BoB and reveals two brief episodes of anomalously low δ
18
O values between 16.3±0.4 and 16±0.5 and 12.6±0.4 and 12.3±0.4 thousand years before present. The timing of these events is centered at Heinrich event 1 and the Younger Dryas, well‐known phases of weak northern hemisphere monsoon systems. Numerical climate model experiments, simulating Heinrich event‐like conditions, suggest a surface warming over the monsoon‐dominated Himalaya and foreland in response to ISM weakening. Corroborating the simulation results, our analysis of published moraine exposure ages in the monsoon‐dominated Himalaya indicates enhanced glacier retreats that, considering age model uncertainties, coincide and overlap with the episodes of anomalously low δ
18
O values in the northernmost BoB. Our climate proxy and simulation results provide insights into past regional climate dynamics, suggesting reduced cloud cover, increased solar radiation, and air warming of the Himalaya and foreland areas and, as a result, glacier mass losses in response to weakened ISM.
,
Plain Language Summary
Indian Summer Monsoon rainfall and Himalayan glacier/snow melts constitute the main water source for the densely populated Indian subcontinent. Better understanding of how future climate changes will affect the monsoon rainfall and Himalayan glaciers requires a long climate record. In this study, we create a 13,000‐year‐long climate record that allows us to better understand the response of Indian Summer Monsoon rainfall and Himalayan glaciers to past climate changes. The focus of our study is the time window between 9,000 and 22,000 years ago, an episode where the global climate experienced large and rapid changes. Our sediment record from the northern Bay of Bengal and climate change simulation indicate that during episodes of weak monsoon, the melting of the Himalayan glaciers increases substantially significantly. This is because the weakening of the monsoon results in less cloud cover and, as a result, the surface receives more sunlight and causes glacier melting.
,
Key Points
Core sediments from the northern Bay of Bengal are a viable archive to reconstruct past changes in monsoonal and Himalayan meltwater runoff
Weak monsoon reduces cloud cover and leads to increased radiative flux over the Himalaya and foreland areas and causes glacier mass loss
A spatially integrated record of monsoon and Himalayan climate provides insights into regional climate dynamics
Publication
Geochemistry, Geophysics, Geosystems
Volume
20
Numéro
5
Pages
2449-2461
Date
05/2019
Abrév. de revue
Geochem Geophys Geosyst
Langue
en
ISSN
1525-2027, 1525-2027
Consulté le
06/11/2024 19:02
Catalogue de bibl.
DOI.org (Crossref)
Référence
Weldeab, S., Rühlemann, C., Bookhagen, B., Pausata, F. S. R., & Perez‐Lua, F. M. (2019). Enhanced Himalayan Glacial Melting During YD and H1 Recorded in the Northern Bay of Bengal. Geochemistry, Geophysics, Geosystems, 20(5), 2449–2461. https://doi.org/10.1029/2018GC008065
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