Glacial–interglacial changes and Holocene variations in Arabian Sea denitrification
At present, the Arabian Sea has a permanent oxygen minimum zone (OMZ) at water depths between about 100 and 1200 m. Active denitrification in the upper part of the OMZ is recorded by enhanced δ 15 N values in the sediments. Sediment cores show a δ 15 N increase during the middle and late Holocene, w...
| Published in: | Biogeosciences |
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| Language: | English |
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2019
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| Online Access: | https://doi.org/10.5194/bg-15-507-2018 https://www.biogeosciences.net/15/507/2018/ |
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ftcopernicus:oai:publications.copernicus.org:bg59855 2023-05-15T13:43:08+02:00 Glacial–interglacial changes and Holocene variations in Arabian Sea denitrification Gaye, Birgit Böll, Anna Segschneider, Joachim Burdanowitz, Nicole Emeis, Kay-Christian Ramaswamy, Venkitasubramani Lahajnar, Niko Lückge, Andreas Rixen, Tim 2019-01-17 application/pdf https://doi.org/10.5194/bg-15-507-2018 https://www.biogeosciences.net/15/507/2018/ eng eng doi:10.5194/bg-15-507-2018 https://www.biogeosciences.net/15/507/2018/ eISSN: 1726-4189 Text 2019 ftcopernicus https://doi.org/10.5194/bg-15-507-2018 2019-12-24T09:50:41Z At present, the Arabian Sea has a permanent oxygen minimum zone (OMZ) at water depths between about 100 and 1200 m. Active denitrification in the upper part of the OMZ is recorded by enhanced δ 15 N values in the sediments. Sediment cores show a δ 15 N increase during the middle and late Holocene, which is contrary to the trend in the other two regions of water column denitrification in the eastern tropical North and South Pacific. We calculated composite sea surface temperature (SST) and δ 15 N ratios in time slices of 1000 years of the last 25 kyr to better understand the reasons for the establishment of the Arabian Sea OMZ and its response to changes in the Asian monsoon system. Low δ 15 N values of 4–7 ‰ during the last glacial maximum (LGM) and stadials (Younger Dryas and Heinrich events) suggest that denitrification was inactive or weak during Pleistocene cold phases, while warm interstadials (ISs) had elevated δ 15 N. Fast changes in upwelling intensities and OMZ ventilation from the Antarctic were responsible for these strong millennial-scale variations during the glacial. During the entire Holocene δ 15 N values > 6 ‰ indicate a relatively stable OMZ with enhanced denitrification. The OMZ develops parallel to the strengthening of the SW monsoon and monsoonal upwelling after the LGM. Despite the relatively stable climatic conditions of the Holocene, the δ 15 N records show regionally different trends in the Arabian Sea. In the upwelling areas in the western part of the basin, δ 15 N values are lower during the mid-Holocene (4.2–8.2 ka BP) compared to the late Holocene ( < 4.2 ka BP) due to stronger ventilation of the OMZ during the period of the most intense southwest monsoonal upwelling. In contrast, δ 15 N values in the northern and eastern Arabian Sea rose during the last 8 kyr. The displacement of the core of the OMZ from the region of maximum productivity in the western Arabian Sea to its present position in the northeast was established during the middle and late Holocene. This was probably caused by (i) reduced ventilation due to a longer residence time of OMZ waters and (ii) augmented by rising oxygen consumption due to enhanced northeast-monsoon-driven biological productivity. This concurs with the results of the Kiel Climate Model, which show an increase in OMZ volume during the last 9 kyr related to the increasing age of the OMZ water mass. Text Antarc* Antarctic Copernicus Publications: E-Journals Antarctic Pacific The Antarctic Biogeosciences 15 2 507 527 |
| institution |
Open Polar |
| collection |
Copernicus Publications: E-Journals |
| op_collection_id |
ftcopernicus |
| language |
English |
| description |
At present, the Arabian Sea has a permanent oxygen minimum zone (OMZ) at water depths between about 100 and 1200 m. Active denitrification in the upper part of the OMZ is recorded by enhanced δ 15 N values in the sediments. Sediment cores show a δ 15 N increase during the middle and late Holocene, which is contrary to the trend in the other two regions of water column denitrification in the eastern tropical North and South Pacific. We calculated composite sea surface temperature (SST) and δ 15 N ratios in time slices of 1000 years of the last 25 kyr to better understand the reasons for the establishment of the Arabian Sea OMZ and its response to changes in the Asian monsoon system. Low δ 15 N values of 4–7 ‰ during the last glacial maximum (LGM) and stadials (Younger Dryas and Heinrich events) suggest that denitrification was inactive or weak during Pleistocene cold phases, while warm interstadials (ISs) had elevated δ 15 N. Fast changes in upwelling intensities and OMZ ventilation from the Antarctic were responsible for these strong millennial-scale variations during the glacial. During the entire Holocene δ 15 N values > 6 ‰ indicate a relatively stable OMZ with enhanced denitrification. The OMZ develops parallel to the strengthening of the SW monsoon and monsoonal upwelling after the LGM. Despite the relatively stable climatic conditions of the Holocene, the δ 15 N records show regionally different trends in the Arabian Sea. In the upwelling areas in the western part of the basin, δ 15 N values are lower during the mid-Holocene (4.2–8.2 ka BP) compared to the late Holocene ( < 4.2 ka BP) due to stronger ventilation of the OMZ during the period of the most intense southwest monsoonal upwelling. In contrast, δ 15 N values in the northern and eastern Arabian Sea rose during the last 8 kyr. The displacement of the core of the OMZ from the region of maximum productivity in the western Arabian Sea to its present position in the northeast was established during the middle and late Holocene. This was probably caused by (i) reduced ventilation due to a longer residence time of OMZ waters and (ii) augmented by rising oxygen consumption due to enhanced northeast-monsoon-driven biological productivity. This concurs with the results of the Kiel Climate Model, which show an increase in OMZ volume during the last 9 kyr related to the increasing age of the OMZ water mass. |
| format |
Text |
| author |
Gaye, Birgit Böll, Anna Segschneider, Joachim Burdanowitz, Nicole Emeis, Kay-Christian Ramaswamy, Venkitasubramani Lahajnar, Niko Lückge, Andreas Rixen, Tim |
| spellingShingle |
Gaye, Birgit Böll, Anna Segschneider, Joachim Burdanowitz, Nicole Emeis, Kay-Christian Ramaswamy, Venkitasubramani Lahajnar, Niko Lückge, Andreas Rixen, Tim Glacial–interglacial changes and Holocene variations in Arabian Sea denitrification |
| author_facet |
Gaye, Birgit Böll, Anna Segschneider, Joachim Burdanowitz, Nicole Emeis, Kay-Christian Ramaswamy, Venkitasubramani Lahajnar, Niko Lückge, Andreas Rixen, Tim |
| author_sort |
Gaye, Birgit |
| title |
Glacial–interglacial changes and Holocene variations in Arabian Sea denitrification |
| title_short |
Glacial–interglacial changes and Holocene variations in Arabian Sea denitrification |
| title_full |
Glacial–interglacial changes and Holocene variations in Arabian Sea denitrification |
| title_fullStr |
Glacial–interglacial changes and Holocene variations in Arabian Sea denitrification |
| title_full_unstemmed |
Glacial–interglacial changes and Holocene variations in Arabian Sea denitrification |
| title_sort |
glacial–interglacial changes and holocene variations in arabian sea denitrification |
| publishDate |
2019 |
| url |
https://doi.org/10.5194/bg-15-507-2018 https://www.biogeosciences.net/15/507/2018/ |
| geographic |
Antarctic Pacific The Antarctic |
| geographic_facet |
Antarctic Pacific The Antarctic |
| genre |
Antarc* Antarctic |
| genre_facet |
Antarc* Antarctic |
| op_source |
eISSN: 1726-4189 |
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doi:10.5194/bg-15-507-2018 https://www.biogeosciences.net/15/507/2018/ |
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https://doi.org/10.5194/bg-15-507-2018 |
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Biogeosciences |
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15 |
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2 |
| container_start_page |
507 |
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527 |
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1766185093785714688 |