New evidence on the sequence of deglacial warming in the tropical Indian Ocean

The transition from the Last Glacial Maximum to the Holocene was an internal of climate variability that was characterised by large spatial and temporal variations. Here we show that deglaciation warming in the northern Indian Ocean was initiated ca. 19 ka, which is contemporary with deglaciation warming in the Antarctica and Southern Ocean. A gradual warming occurred during the glacial/Holocene transition in the northern Indian Ocean, unlike the two‐step warming seen in Greenland and the North Atlantic. Synchronous deglacial warming ca. 19 ka in Antarctica and the northern Indian Ocean suggests a strong connection in the propagation of climate signals between Antarctica and the Indian Ocean, probably through the Indonesian Throughflow and/or Subantarctic Mode Water. Copyright © 2010 John Wiley & Sons, Ltd.     

Distribution patterns of Recent planktonic foraminifera in surface sediments of the western continental margin of India

Study of Recent planktonic foraminifera from the surface sediment samples of western continental margin of India reveals the ecological preferences of the different planktonic foraminifer species in the area. Higher absolute abundance of planktonic foraminifera in the offshore associated with the lower frequencies of the productivity indicator Globigerinoides bulloides and lower absolute abundance in the nearshore with higher frequencies of G. bulloides appears to suggest that productivity does not control the absolute abundance of planktonic foraminifera in this area. In general, the difference in absolute abundance between offshore and nearshore indicates that the dilution by terrigenous and other biogenic (benthic foraminifera and diatoms) material governs the absolute abundance of planktonic foraminifera.

Globigerinoides sacculifer shows a significant positive correlation with salinity and a negative correlation with temperature, which reflects its preference for higher salinity and lower temperature of the surface water. Globigerinoides ruber abundances are related to a distinct highly saline Persian Gulf water mass in the eastern Arabian Sea. Neogloboquadrina butertrei shows a strong inverse relationship with surface water salinity in the eastern Arabian Sea. Therefore, the relative abundance variations of N. dutertrei in sediment cores of the southeastern Arabian Sea can be used to reconstruct the past surface water salinity, which varies according to the strength of the northeastern monsoon.

The high diversity of planktonic foraminifera in the offshore is attributable to equitable environmental conditions. The high-salinity surface waters ( > 36‰) and terrigenous dilution in the northeastern Arabian Sea limit the diversification of species in this region.     

Variations of Indian monsoon precipitation during the last 32 kyr reflected in the surface hydrography of the Western Bay of Bengal

Hydrography of the Bay of Bengal is highly influenced by the river runoff and rainfall during the southwest monsoon. We have reconstructed δ¹⁸Osw, sea surface salinity and sea surface temperature (SST) changes in the Bay of Bengal by using paired measurements of δ¹⁸O and Mg/Ca in a planktonic foraminifera species Globigerinoides ruber from core SK218/1 in the western Bay of Bengal in order to understand the rainfall variability associated with southwest monsoon over the past 32 kyr. Our SST reconstructions reveal that Bay of Bengal was ～3.2 °C cooler during the LGM as compared to present day temperature and a ～3.5 °C rise in SST is documented from 17 to 10 ka. Both SST and δ¹⁸Osw exhibit greater amplitude fluctuations during MIS 2 which is attributable to the variability of NE monsoon rainfall and associated river discharge into the Bay of Bengal in association with strong seasonal temperature contrast. On set of strengthening phase of SW monsoon was started during Bølling/Allerød as evidenced by the low δ¹⁸Osw values ～14.7 ka. δ¹⁸Osw show consistently lower values during Holocene (with an exception around 5 ka), which suggests that the freshening of Bay of Bengal due to heavy precipitation and river discharge caused by strong SW monsoon. Results of this study signify that the maximum fluctuations of the NE monsoon rainfall during MIS 2 appear to be controlled by the strong seasonality and boundary conditions.