Neoglacial Climate Anomalies and the Indus Civilization's Metamorphosis
Abstract
At a global scale, the inter-hemispheric thermal balance provides an emergent framework for understanding regional Holocene climate variability. As the thermal balance adjusted to gradual changes in the seasonality of insolation, the Inter-Tropical Convergence Zone migrated southward accompanied by a weakening of the Indian summer monsoon. Superimposed on this trend, anomalies such as the Little Ice Age point to asymmetric changes in the extratropics of either hemisphere.
Here we present a reconstruction of the Indian winter monsoon in the Arabian Sea for the last 6000 years based on paleobiological records in sediments from the continental margin of Pakistan at two levels of ecological complexity: sedimentary paleo-DNA reflecting water column environmental states and planktonic foraminifers sensitive to winter conditions. We show that strong winter monsoons between ca. 4,500 and 3,000 years ago occurred during an interval of weak interhemispheric temperature contrast, which we identify as the Early Neoglacial Anomaly (ENA), and were accompanied by changes in wind and precipitation patterns across the eastern Northern Hemisphere and Tropics. This coordinated climate reorganization may have helped trigger the metamorphosis of the urban Indus civilization into a rural society through a push-pull migration from summer flood-deficient river valleys to theHimalayan piedmont plains with augmented winter rains. Finally, we speculate that time transgressive landcover change linked to aridification of the Tropics is a potential candidate to have produced this generalized instability of the global climate during ENA at the transition from the warmer Holocene Optimum to the cooler Neoglacial.- Publication:
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AGU Fall Meeting Abstracts
- Pub Date:
- December 2018
- Bibcode:
- 2018AGUFMPP11D1273G
- Keywords:
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- 4901 Abrupt/rapid climate change;
- PALEOCEANOGRAPHYDE: 4910 Astronomical forcing;
- PALEOCEANOGRAPHYDE: 4912 Biogeochemical cycles;
- processes;
- and modeling;
- PALEOCEANOGRAPHYDE: 4954 Sea surface temperature;
- PALEOCEANOGRAPHY