Open AccessOxygen isotope/salinity relationship in the northern Indian Ocean
Author(s) -
Delaygue Gilles,
Bard Edouard,
Rollion Claire,
Jouzel Jean,
Stiévenard Michel,
Duplessy JeanClaude,
Ganssen Gerald
Publication year - 2001
Publication title -
journal of geophysical research: oceans
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.67
H-Index - 298
eISSN - 2156-2202
pISSN - 0148-0227
DOI - 10.1029/1999jc000061
Subject(s) - salinity , bay , geology , monsoon , bengal , surface runoff , oceanography , climatology , glacial period , last glacial maximum , latitude , precipitation , environmental science , holocene , geography , geomorphology , ecology , geodesy , meteorology , biology
We analyze the surface δ 18 O‐salinity relationships of the Bay of Bengal and the Arabian Sea, in the northern Indian Ocean, known for their contrasting hydrological conditions. New measurements of these tracers show a very low δ 18 O‐salinity slope associated with the strong dilution in the Bay of Bengal, but a slope more typical of this latitude in the Arabian Sea. Although this region is marked by a complex monsoonal regime, numerical modeling using a box model and a general circulation model is able to capture the δ 18 O‐salinity slope and its geographical variation. Both models clearly show that the low δ 18 O‐salinity slope is due to the evaporation‐minus‐precipitation balance, with an important contribution of the continental runoff in the Bay of Bengal. Although the low value of these slopes (∼0.25) makes past salinity reconstructions uncertain, insight into the Last Glacial Maximum conditions shows a probable stability of these slopes and limited error on paleosalinity.