Variations of Okhotsk Sea oxygen minimum zone: Comparison of foraminiferal and sedimentological records for latest MIS 12–11c and latest MIS 2–1

Benthic foraminiferal assemblage compositions, foraminiferal and sedimentological proxies were analyzed in core MD01-2415 from the northern slope of the Okhotsk Sea to compare variations of productivity and oxygen minimum zone (OMZ) intensity during the latest marine isotope stage (MIS) 12–11c and l...

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Published in:Marine Micropaleontology
Main Authors: Bubenshchikova, Natalia, Nürnberg, Dirk, Tiedemann, Ralf
Format: Article in Journal/Newspaper
Language:unknown
Published: 2015
Subjects:
Okhotsk
Pacific
okhotsk sea
Sea ice
Online Access:https://epic.awi.de/id/eprint/42803/
https://doi.org/10.1016/j.marmicro.2015.09.004
https://hdl.handle.net/10013/epic.49369
id ftawi:oai:epic.awi.de:42803
record_format openpolar
spelling ftawi:oai:epic.awi.de:42803 2023-05-15T17:52:37+02:00 Variations of Okhotsk Sea oxygen minimum zone: Comparison of foraminiferal and sedimentological records for latest MIS 12–11c and latest MIS 2–1 Bubenshchikova, Natalia Nürnberg, Dirk Tiedemann, Ralf 2015 https://epic.awi.de/id/eprint/42803/ https://doi.org/10.1016/j.marmicro.2015.09.004 https://hdl.handle.net/10013/epic.49369 unknown Bubenshchikova, N. , Nürnberg, D. and Tiedemann, R. orcid:0000-0001-7211-8049 (2015) Variations of Okhotsk Sea oxygen minimum zone: Comparison of foraminiferal and sedimentological records for latest MIS 12–11c and latest MIS 2–1 , Marine Micropaleontology, 121 , pp. 52-69 . doi:10.1016/j.marmicro.2015.09.004 <https://doi.org/10.1016/j.marmicro.2015.09.004> , hdl:10013/epic.49369 EPIC3Marine Micropaleontology, 121, pp. 52-69, ISSN: 03778398 Article isiRev 2015 ftawi https://doi.org/10.1016/j.marmicro.2015.09.004 2021-12-24T15:42:17Z Benthic foraminiferal assemblage compositions, foraminiferal and sedimentological proxies were analyzed in core MD01-2415 from the northern slope of the Okhotsk Sea to compare variations of productivity and oxygen minimum zone (OMZ) intensity during the latest marine isotope stage (MIS) 12–11c and latest MIS 2–1. The ben- thic assemblages reveal close similarity between the two climatic cycles. The absence of benthic assemblages during the latest MIS 12 and the presence of the low-productivity Angulogerina angulosa assemblage during the latest MIS 2 suggest the disappearance of the OMZ. This regime was related to almost perennial ice cover with periods of active ice rafting during the latest MIS 12, while it was attributed to prolonged seasonal ice cover, low surface productivity and enhanced formation of well-oxygenated water masses in the Okhotsk Sea during the latest MIS 2. In deglacial times, the OMZ gradually intensified, as evidenced by the high- productivity Uvigerina akitaensis assemblage during the early termination (T) TV and early TI and the low oxygen-tolerant Bolivina spissa assemblage during the late TV and late TI. The orbitally forced similar rises of the global sea level during TV and TI caused a large offshore supply of organic matter. Synchronously, nutrients from the melting sea ice and shelf erosion promoted high surface (mainly carbonate) productivity. As a result, a high and sustained flux of particulate, degraded and refractory organic matter enhanced oxygen consumption in bottom waters and sediments, leading to the similar gradual OMZ intensifications. The B. spissa assemblage also points to expansion of oxygen-depleted water mass from the North Pacific into the Okhotsk Sea, fostering the OMZ intensifications. The phytodetritus-related Islandiella norcrossi assemblage indicates weakening of the OMZ during full interglacial times of MIS 11c and MIS 1. After stabilization of the global sea level, nutrients were mainly delivered by regional upwelling and fluvial discharge, favoring increased biogenic opal and carbon- ate production in the surface water, similar to the present. In this way, moderate to high (although less than deglacial) and pulsed flux of predominantly particulate organic matter caused the weakening of the oxygen con- sumption and OMZ. Notably, during MIS 11c, the benthic assemblage with the dominance of the taxa with dissolution-resistant tests, such as Miliammina herzensteini, Karreriella baccata and Martinottiella communis, re- flects carbonate dissolution events in sediments. These events might have been resulted from an interruption of the local surface carbonate production and inflow of more carbonate-corrosive water masses from the North Pacific driven by a drawdown of the global ocean carbonate saturation. Article in Journal/Newspaper okhotsk sea Sea ice Alfred Wegener Institute for Polar- and Marine Research (AWI): ePIC (electronic Publication Information Center) Okhotsk Pacific Marine Micropaleontology 121 52 69
institution Open Polar
collection Alfred Wegener Institute for Polar- and Marine Research (AWI): ePIC (electronic Publication Information Center)
op_collection_id ftawi
language unknown
description Benthic foraminiferal assemblage compositions, foraminiferal and sedimentological proxies were analyzed in core MD01-2415 from the northern slope of the Okhotsk Sea to compare variations of productivity and oxygen minimum zone (OMZ) intensity during the latest marine isotope stage (MIS) 12–11c and latest MIS 2–1. The ben- thic assemblages reveal close similarity between the two climatic cycles. The absence of benthic assemblages during the latest MIS 12 and the presence of the low-productivity Angulogerina angulosa assemblage during the latest MIS 2 suggest the disappearance of the OMZ. This regime was related to almost perennial ice cover with periods of active ice rafting during the latest MIS 12, while it was attributed to prolonged seasonal ice cover, low surface productivity and enhanced formation of well-oxygenated water masses in the Okhotsk Sea during the latest MIS 2. In deglacial times, the OMZ gradually intensified, as evidenced by the high- productivity Uvigerina akitaensis assemblage during the early termination (T) TV and early TI and the low oxygen-tolerant Bolivina spissa assemblage during the late TV and late TI. The orbitally forced similar rises of the global sea level during TV and TI caused a large offshore supply of organic matter. Synchronously, nutrients from the melting sea ice and shelf erosion promoted high surface (mainly carbonate) productivity. As a result, a high and sustained flux of particulate, degraded and refractory organic matter enhanced oxygen consumption in bottom waters and sediments, leading to the similar gradual OMZ intensifications. The B. spissa assemblage also points to expansion of oxygen-depleted water mass from the North Pacific into the Okhotsk Sea, fostering the OMZ intensifications. The phytodetritus-related Islandiella norcrossi assemblage indicates weakening of the OMZ during full interglacial times of MIS 11c and MIS 1. After stabilization of the global sea level, nutrients were mainly delivered by regional upwelling and fluvial discharge, favoring increased biogenic opal and carbon- ate production in the surface water, similar to the present. In this way, moderate to high (although less than deglacial) and pulsed flux of predominantly particulate organic matter caused the weakening of the oxygen con- sumption and OMZ. Notably, during MIS 11c, the benthic assemblage with the dominance of the taxa with dissolution-resistant tests, such as Miliammina herzensteini, Karreriella baccata and Martinottiella communis, re- flects carbonate dissolution events in sediments. These events might have been resulted from an interruption of the local surface carbonate production and inflow of more carbonate-corrosive water masses from the North Pacific driven by a drawdown of the global ocean carbonate saturation.
format Article in Journal/Newspaper
author Bubenshchikova, Natalia
Nürnberg, Dirk
Tiedemann, Ralf
spellingShingle Bubenshchikova, Natalia
Nürnberg, Dirk
Tiedemann, Ralf
Variations of Okhotsk Sea oxygen minimum zone: Comparison of foraminiferal and sedimentological records for latest MIS 12–11c and latest MIS 2–1
author_facet Bubenshchikova, Natalia
Nürnberg, Dirk
Tiedemann, Ralf
author_sort Bubenshchikova, Natalia
title Variations of Okhotsk Sea oxygen minimum zone: Comparison of foraminiferal and sedimentological records for latest MIS 12–11c and latest MIS 2–1
title_short Variations of Okhotsk Sea oxygen minimum zone: Comparison of foraminiferal and sedimentological records for latest MIS 12–11c and latest MIS 2–1
title_full Variations of Okhotsk Sea oxygen minimum zone: Comparison of foraminiferal and sedimentological records for latest MIS 12–11c and latest MIS 2–1
title_fullStr Variations of Okhotsk Sea oxygen minimum zone: Comparison of foraminiferal and sedimentological records for latest MIS 12–11c and latest MIS 2–1
title_full_unstemmed Variations of Okhotsk Sea oxygen minimum zone: Comparison of foraminiferal and sedimentological records for latest MIS 12–11c and latest MIS 2–1
title_sort variations of okhotsk sea oxygen minimum zone: comparison of foraminiferal and sedimentological records for latest mis 12–11c and latest mis 2–1
publishDate 2015
url https://epic.awi.de/id/eprint/42803/
https://doi.org/10.1016/j.marmicro.2015.09.004
https://hdl.handle.net/10013/epic.49369
geographic Okhotsk
Pacific
geographic_facet Okhotsk
Pacific
genre okhotsk sea
Sea ice
genre_facet okhotsk sea
Sea ice
op_source EPIC3Marine Micropaleontology, 121, pp. 52-69, ISSN: 03778398
op_relation Bubenshchikova, N. , Nürnberg, D. and Tiedemann, R. orcid:0000-0001-7211-8049 (2015) Variations of Okhotsk Sea oxygen minimum zone: Comparison of foraminiferal and sedimentological records for latest MIS 12–11c and latest MIS 2–1 , Marine Micropaleontology, 121 , pp. 52-69 . doi:10.1016/j.marmicro.2015.09.004 <https://doi.org/10.1016/j.marmicro.2015.09.004> , hdl:10013/epic.49369
op_doi https://doi.org/10.1016/j.marmicro.2015.09.004
container_title Marine Micropaleontology
container_volume 121
container_start_page 52
op_container_end_page 69
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