Persistent increase in carbon burial in the Gulf of Mannar, during the Meghalayan Age: Influence of primary productivity and better preservation

The oceans store a substantial fraction of carbon as calcium carbonate (CaCO3) and organic carbon (Corg) and constitute a significant component of the global carbon cycle. The Corg and CaCO3 flux depends on productivity and is strongly modulated by the Asian monsoon in the tropics. Anthropogenic act...

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Veröffentlicht in:	Geological magazine 2023-03, Vol.160 (3), p.561-578
Hauptverfasser:	Saraswat, Rajeev, Rajput, Karan Rampal, Bandodkar, Sripad Rohidas, Bhadra, Sudhir Ranjan, Kurtarkar, Sujata Raikar, Maria Joäo, Hilda, Suokhrie, Thejasino, Kumar, Pankaj
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Sprache:	eng
Schlagworte:	Abundance Age Anthropogenic factors Calcium Calcium carbonate Calcium carbonates Carbon cycle Carbon dioxide Carbonates Foraminifera Human influences Monsoons Ocean circulation Oceans Organic carbon Organic matter Original Article Preservation Primary production Productivity Rain Relative abundance Rivers Salinity Seasons Sediments Shells Summer Tropical environments Upwelling Wind Winter
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container_end_page	578
container_issue	3
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container_title	Geological magazine
container_volume	160
creator	Saraswat, Rajeev Rajput, Karan Rampal Bandodkar, Sripad Rohidas Bhadra, Sudhir Ranjan Kurtarkar, Sujata Raikar Maria Joäo, Hilda Suokhrie, Thejasino Kumar, Pankaj
description	The oceans store a substantial fraction of carbon as calcium carbonate (CaCO3) and organic carbon (Corg) and constitute a significant component of the global carbon cycle. The Corg and CaCO3 flux depends on productivity and is strongly modulated by the Asian monsoon in the tropics. Anthropogenic activities are likely to influence the monsoon and thus it is imperative to understand its implications on carbon burial in the oceans. We have reconstructed multi-decadal CaCO3 and Corg burial changes and associated processes during the last 4.9 ky, including the Meghalayan Age, from the Gulf of Mannar. The influence of monsoon on carbon burial is reconstructed from the absolute abundance of planktic foraminifera and relative abundance of Globigerina bulloides. Both Corg and CaCO3 increased throughout the Meghalayan Age, except between 3.0–3.5 ka and the last millennium. The increase in Corg burial during the Meghalayan Age was observed throughout the eastern Arabian Sea. The concomitant decrease in the Corg to nitrogen ratio suggests increased contribution of marine organic matter. Although the upwelling was intense until 1.5 ka, the lack of a definite increasing trend suggests that the persistent increase in Corg and CaCO3 during the early Meghalayan Age was mainly driven by higher productivity during the winter season coupled with better preservation in the sediments. Both the intervals (3.0–3.5 ka and the last millennium) of nearly constant carbon burial coincide with a steady sea-level. The low carbon burial during the last millennium is attributed to the weaker-upwelling-induced lower productivity.
doi_str_mv	10.1017/S001675682200111X
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Although the upwelling was intense until 1.5 ka, the lack of a definite increasing trend suggests that the persistent increase in Corg and CaCO3 during the early Meghalayan Age was mainly driven by higher productivity during the winter season coupled with better preservation in the sediments. Both the intervals (3.0–3.5 ka and the last millennium) of nearly constant carbon burial coincide with a steady sea-level. 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The increase in Corg burial during the Meghalayan Age was observed throughout the eastern Arabian Sea. The concomitant decrease in the Corg to nitrogen ratio suggests increased contribution of marine organic matter. Although the upwelling was intense until 1.5 ka, the lack of a definite increasing trend suggests that the persistent increase in Corg and CaCO3 during the early Meghalayan Age was mainly driven by higher productivity during the winter season coupled with better preservation in the sediments. Both the intervals (3.0–3.5 ka and the last millennium) of nearly constant carbon burial coincide with a steady sea-level. 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Mag</addtitle><date>2023-03-01</date><risdate>2023</risdate><volume>160</volume><issue>3</issue><spage>561</spage><epage>578</epage><pages>561-578</pages><issn>0016-7568</issn><eissn>1469-5081</eissn><abstract>The oceans store a substantial fraction of carbon as calcium carbonate (CaCO3) and organic carbon (Corg) and constitute a significant component of the global carbon cycle. The Corg and CaCO3 flux depends on productivity and is strongly modulated by the Asian monsoon in the tropics. Anthropogenic activities are likely to influence the monsoon and thus it is imperative to understand its implications on carbon burial in the oceans. We have reconstructed multi-decadal CaCO3 and Corg burial changes and associated processes during the last 4.9 ky, including the Meghalayan Age, from the Gulf of Mannar. The influence of monsoon on carbon burial is reconstructed from the absolute abundance of planktic foraminifera and relative abundance of Globigerina bulloides. Both Corg and CaCO3 increased throughout the Meghalayan Age, except between 3.0–3.5 ka and the last millennium. The increase in Corg burial during the Meghalayan Age was observed throughout the eastern Arabian Sea. The concomitant decrease in the Corg to nitrogen ratio suggests increased contribution of marine organic matter. Although the upwelling was intense until 1.5 ka, the lack of a definite increasing trend suggests that the persistent increase in Corg and CaCO3 during the early Meghalayan Age was mainly driven by higher productivity during the winter season coupled with better preservation in the sediments. Both the intervals (3.0–3.5 ka and the last millennium) of nearly constant carbon burial coincide with a steady sea-level. The low carbon burial during the last millennium is attributed to the weaker-upwelling-induced lower productivity.</abstract><cop>Cambridge, UK</cop><pub>Cambridge University Press</pub><doi>10.1017/S001675682200111X</doi><tpages>18</tpages><orcidid>https://orcid.org/0000-0003-2110-2578</orcidid></addata></record>
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subjects	Abundance Age Anthropogenic factors Calcium Calcium carbonate Calcium carbonates Carbon cycle Carbon dioxide Carbonates Foraminifera Human influences Monsoons Ocean circulation Oceans Organic carbon Organic matter Original Article Preservation Primary production Productivity Rain Relative abundance Rivers Salinity Seasons Sediments Shells Summer Tropical environments Upwelling Wind Winter
title	Persistent increase in carbon burial in the Gulf of Mannar, during the Meghalayan Age: Influence of primary productivity and better preservation
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