Glacial forcing of central Indonesian hydroclimate since 60,000 y B.P

The Indo-Pacific warm pool houses the largest zone of deep atmospheric convection on Earth and plays a critical role in global climate variations. Despite the region’s importance, changes in Indo-Pacific hydroclimate on orbital timescales remain poorly constrained. Here we present high-resolution ge...

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Bibliographic Details
Published in:Proceedings of the National Academy of Sciences - PNAS 2014-04, Vol.111 (14), p.5100-5105
Main Authors: Russell, James M., Vogel, Hendrik, Konecky, Bronwen L., Bijaksana, Satria, Huang, Yongsong, Melles, Martin, Wattrus, Nigel, Costa, Kassandra, King, John W.
Format: Article
Language:English
Subjects:
Biological Sciences
Climate
Climate change
Climate models
Climatic zones
drying
Geochemistry
Glacial lakes
Global climate models
ice
Indonesia
Isotopes
lakes
latitude
monsoon season
Paleoclimatology
Physical Sciences
Plants
Precipitation
rain forests
runoff
sediments
Temperature
terrestrial ecosystems
Tropical climates
Tropical rain forests
Vegetation
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Summary:The Indo-Pacific warm pool houses the largest zone of deep atmospheric convection on Earth and plays a critical role in global climate variations. Despite the region’s importance, changes in Indo-Pacific hydroclimate on orbital timescales remain poorly constrained. Here we present high-resolution geochemical records of surface runoff and vegetation from sediment cores from Lake Towuti, on the island of Sulawesi in central Indonesia, that continuously span the past 60,000 y. We show that wet conditions and rainforest ecosystems on Sulawesi present during marine isotope stage 3 (MIS3) and the Holocene were interrupted by severe drying between ∼33,000 and 16,000 y B.P. when Northern Hemisphere ice sheets expanded and global temperatures cooled. Our record reveals little direct influence of precessional orbital forcing on regional climate, and the similarity between MIS3 and Holocene climates observed in Lake Towuti suggests that exposure of the Sunda Shelf has a weaker influence on regional hydroclimate and terrestrial ecosystems than suggested previously. We infer that hydrological variability in this part of Indonesia varies strongly in response to high-latitude climate forcing, likely through reorganizations of the monsoons and the position of the intertropical convergence zone. These findings suggest an important role for the tropical western Pacific in amplifying glacial–interglacial climate variability.
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.1402373111