J. Groeneveld, H. Filipsson, W. Austin, K. Darling, D. McCarthy, N. Q. Quintana Krupinski, C. Bird, M. Schweizer
{"title":"Assessing proxy signatures of temperature, salinity, and hypoxia in the Baltic Sea through foraminifera-based geochemistry and faunal assemblages","authors":"J. Groeneveld, H. Filipsson, W. Austin, K. Darling, D. McCarthy, N. Q. Quintana Krupinski, C. Bird, M. Schweizer","doi":"10.5194/JM-37-403-2018","DOIUrl":null,"url":null,"abstract":"Abstract. Current climate and environmental changes strongly affect shallow marine and coastal\nareas like the Baltic Sea. This has created a need for a context to\nunderstand the severity and potential outcomes of such changes. The context\ncan be derived from paleoenvironmental records during periods when comparable\nevents happened in the past. In this study, we explore how varying bottom\nwater conditions across a large hydrographic gradient in the Baltic Sea\naffect benthic foraminiferal faunal assemblages and the geochemical\ncomposition of their calcite tests. We have conducted both morphological and\nmolecular analyses of the faunas and we evaluate how the chemical signatures\nof the bottom waters are recorded in the tests of several species of benthic\nforaminifera. We focus on two locations, one in the Kattegat (western Baltic\nSea) and one in Hanö Bay (southern Baltic Sea). We show that seawater\nMn∕Ca, Mg∕Ca, and Ba∕Ca\n(Mn∕Casw, Mg∕Casw, and Ba∕Casw)\nvariations are mainly controlled by dissolved oxygen concentration and\nsalinity. Their respective imprints on the foraminiferal calcite demonstrate\nthe potential of Mn∕Ca as a proxy for hypoxic conditions, and Ba∕Ca as a\nproxy for salinity in enclosed basins such as the Baltic Sea. The traditional\nuse of Mg∕Ca as a proxy to reconstruct past seawater temperatures is not\nrecommended in the region, as it may be overprinted by the large variations\nin salinity (specifically on Bulimina marginata), Mg∕Casw, and\npossibly also the carbonate system. Salinity is the main factor controlling\nthe faunal assemblages: a much more diverse fauna occurs in the higher-salinity (∼32) Kattegat than in the low-salinity\n(∼15) Hanö Bay. Molecular identification shows that only\nElphidium clavatum occurs at both locations, but other genetic types\nof both genera Elphidium and Ammonia are restricted to\neither low- or high-salinity locations. The combination of foraminiferal\ngeochemistry and environmental parameters demonstrates that in a highly\nvariable setting like the Baltic Sea, it is possible to separate different\nenvironmental impacts on the foraminiferal assemblages and therefore use\nMn∕Ca, Mg∕Ca, and Ba∕Ca to reconstruct how specific conditions may have\nvaried in the past.\n","PeriodicalId":54786,"journal":{"name":"Journal of Micropalaeontology","volume":" ","pages":""},"PeriodicalIF":4.1000,"publicationDate":"2018-09-07","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"29","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Journal of Micropalaeontology","FirstCategoryId":"89","ListUrlMain":"https://doi.org/10.5194/JM-37-403-2018","RegionNum":3,"RegionCategory":"地球科学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q1","JCRName":"PALEONTOLOGY","Score":null,"Total":0}
引用次数: 29
Abstract
Abstract. Current climate and environmental changes strongly affect shallow marine and coastal
areas like the Baltic Sea. This has created a need for a context to
understand the severity and potential outcomes of such changes. The context
can be derived from paleoenvironmental records during periods when comparable
events happened in the past. In this study, we explore how varying bottom
water conditions across a large hydrographic gradient in the Baltic Sea
affect benthic foraminiferal faunal assemblages and the geochemical
composition of their calcite tests. We have conducted both morphological and
molecular analyses of the faunas and we evaluate how the chemical signatures
of the bottom waters are recorded in the tests of several species of benthic
foraminifera. We focus on two locations, one in the Kattegat (western Baltic
Sea) and one in Hanö Bay (southern Baltic Sea). We show that seawater
Mn∕Ca, Mg∕Ca, and Ba∕Ca
(Mn∕Casw, Mg∕Casw, and Ba∕Casw)
variations are mainly controlled by dissolved oxygen concentration and
salinity. Their respective imprints on the foraminiferal calcite demonstrate
the potential of Mn∕Ca as a proxy for hypoxic conditions, and Ba∕Ca as a
proxy for salinity in enclosed basins such as the Baltic Sea. The traditional
use of Mg∕Ca as a proxy to reconstruct past seawater temperatures is not
recommended in the region, as it may be overprinted by the large variations
in salinity (specifically on Bulimina marginata), Mg∕Casw, and
possibly also the carbonate system. Salinity is the main factor controlling
the faunal assemblages: a much more diverse fauna occurs in the higher-salinity (∼32) Kattegat than in the low-salinity
(∼15) Hanö Bay. Molecular identification shows that only
Elphidium clavatum occurs at both locations, but other genetic types
of both genera Elphidium and Ammonia are restricted to
either low- or high-salinity locations. The combination of foraminiferal
geochemistry and environmental parameters demonstrates that in a highly
variable setting like the Baltic Sea, it is possible to separate different
environmental impacts on the foraminiferal assemblages and therefore use
Mn∕Ca, Mg∕Ca, and Ba∕Ca to reconstruct how specific conditions may have
varied in the past.
期刊介绍:
The Journal of Micropalaeontology (JM) is an established international journal covering all aspects of microfossils and their application to both applied studies and basic research. In particular we welcome submissions relating to microfossils and their application to palaeoceanography, palaeoclimatology, palaeobiology, evolution, taxonomy, environmental change and molecular phylogeny.
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