Large freshwater-influx-induced salinity gradient and diagenetic changes in the northern Indian Ocean dominate the stable oxygen isotopic variation in <i>Globigerinoides ruber</i>

Saraswat, Rajeev; Suokhrie, Thejasino; Naik, D.; Singh, D. K.; Saalim, Syed Mohammad; Salman, Mohammad; Kumar, G. Sampath; Bhadra, Sudhira R.; Mohtadi, Mahyar; Kurtarkar, Sujata R.; Maurya, Abhayanand Singh

doi:10.5194/essd-15-171-2023

Cited by 6 publications

(1 citation statement)

References 110 publications

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“…Previous studies have highlighted seasonal bias in the geochemical signal of G. ruber due to large seasonal variations in nutrient supply, productivity, and physical conditions in the Arabian Sea (Naidu, 1993; Raitzsch et al., 2018; Saraswat et al., 2023). During the summer monsoon, planktic foraminifera production is enhanced due to large nutrient availability, and thus the flux of G. ruber to the sediment increases (Curry et al., 1992; Naidu, 1993).…”

Section: Methodsmentioning

confidence: 99%

Enhanced CO₂ Degassing From the Tropical Indian Ocean During Cold Climatic Events of the Last Glacial Cycle

Tarique,

Rahaman,

Lathika

et al. 2023

Paleoceanog and Paleoclimatol

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Atmospheric CO2 variability on the glacial–interglacial (G–IG) timescale reflects a balance between oceanic and terrestrial processes involving carbon uptake and release. The Southern Ocean CO2 uptake is considered as an important modulator for the G–IG atmospheric CO2 variability, while the role of tropical ocean ventilation remains enigmatic. We present critical evidence for CO2 ventilation from the tropical Indian Ocean through the reconstruction of the Arabian Sea‐surface pCO2 for the past ∼136 ka utilizing boron isotope (δ11B) record of planktic foraminifera, Globigerinoides ruber. Our site in the Arabian Sea presently acts as a significant source of CO2. The reconstructed ΔpCO2 (ΔpCO2 = pCO2 Seawater − pCO2 Atmosphere) record shows an enhanced CO2 degassing up to ∼50 ppm during the major cooling events, such as the Last Glacial Maximum, Younger Dryas, and Heinrich‐Stadials. Our investigation based on multiproxy records of sea‐surface temperature, salinity, and productivity suggests that the northward invasion and shoaling of southern source CO2‐rich water, coupled with stronger upwelling, resulted in CO2 degassing during these cold intervals. This finding is in align with the tropical Atlantic which also demonstrated an enhanced CO2 degassing during the cold intervals; however, most of the upwelled CO2 was consumed as the water moved away from the upwelling sites. Therefore, our finding, when considered alongside tropical Atlantic records, suggests that tropical oceans played a minor role in reducing atmospheric CO2 levels during the cold intervals of the last glacial cycle, supporting the prevailing hypothesis.

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Section: Methodsmentioning

confidence: 99%

Enhanced CO₂ Degassing From the Tropical Indian Ocean During Cold Climatic Events of the Last Glacial Cycle

Tarique,

Rahaman,

Lathika

et al. 2023

Paleoceanog and Paleoclimatol

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Intrusion of Arabian Sea high salinity water and monsoon-associated processes modulate planktic foraminiferal abundance and carbon burial in the southwestern Bay of Bengal

Salman,

Saraswat

2024

Environ Sci Pollut Res

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Recent advancements in marine micropaleontological and paleoceanographic research from India

Singh,

Naidu

2024

Proc.Indian Natl. Sci. Acad.

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Large freshwater-influx-induced salinity gradient and diagenetic changes in the northern Indian Ocean dominate the stable oxygen isotopic variation in Globigerinoides ruber

Cited by 6 publications

References 110 publications

Enhanced CO₂ Degassing From the Tropical Indian Ocean During Cold Climatic Events of the Last Glacial Cycle

Enhanced CO₂ Degassing From the Tropical Indian Ocean During Cold Climatic Events of the Last Glacial Cycle

Intrusion of Arabian Sea high salinity water and monsoon-associated processes modulate planktic foraminiferal abundance and carbon burial in the southwestern Bay of Bengal

Recent advancements in marine micropaleontological and paleoceanographic research from India

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Large freshwater-influx-induced salinity gradient and diagenetic changes in the northern Indian Ocean dominate the stable oxygen isotopic variation in Globigerinoides ruber

Cited by 6 publications

References 110 publications

Enhanced CO2 Degassing From the Tropical Indian Ocean During Cold Climatic Events of the Last Glacial Cycle

Enhanced CO2 Degassing From the Tropical Indian Ocean During Cold Climatic Events of the Last Glacial Cycle

Intrusion of Arabian Sea high salinity water and monsoon-associated processes modulate planktic foraminiferal abundance and carbon burial in the southwestern Bay of Bengal

Recent advancements in marine micropaleontological and paleoceanographic research from India

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Enhanced CO₂ Degassing From the Tropical Indian Ocean During Cold Climatic Events of the Last Glacial Cycle

Enhanced CO₂ Degassing From the Tropical Indian Ocean During Cold Climatic Events of the Last Glacial Cycle