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Tracing marine hypoxic conditions during warm periods using a microanalytical approach

Ni, Sha LU (2020)
Abstract
Deoxygenation, i.e. loss of oxygen from the oceans, often considerably influences the aquatic organisms and the wholeecosystem and changes biogeochemical cycles. It results in increasing bottom areas of hypoxia (<2 mg/l dissolved oxygen),which has been primarily attributed to global warming and increased eutrophication. It is vital to study the present-dayanthropogenically-induced environmental changes in coastal settings such as hypoxia and their outcomes. The Baltic Sea ishighly sensitive to hypoxia, which has occurred during several warm periods in the past. The studies of comparable hypoxicevents during the warm periods in the past can help us better understand the cause, severity, and potential outcomes ofenvironmental changes in... (More)
Deoxygenation, i.e. loss of oxygen from the oceans, often considerably influences the aquatic organisms and the wholeecosystem and changes biogeochemical cycles. It results in increasing bottom areas of hypoxia (<2 mg/l dissolved oxygen),which has been primarily attributed to global warming and increased eutrophication. It is vital to study the present-dayanthropogenically-induced environmental changes in coastal settings such as hypoxia and their outcomes. The Baltic Sea ishighly sensitive to hypoxia, which has occurred during several warm periods in the past. The studies of comparable hypoxicevents during the warm periods in the past can help us better understand the cause, severity, and potential outcomes ofenvironmental changes in the present day.In this thesis, I reconstructed the past environmental conditions, i.e. water temperature, salinity, and oxygen concentrationsfrom eight sites in the Baltic Sea using a multi-method approach including synchrotron X-ray spectroscopy and plasmaanalytical methods. I used trace elements and stable isotopes analyses on benthic foraminifera from two warm periods in thepast, the Eemian (130 – 115 thousand years before present AD 1950, ka BP) and the Holocene (11.5 ka BP to present) to studyhow the extent and severity of hypoxia and other environmental factors have varied in the Baltic Sea over time.During the Eemian period, the bottom water in the southern and western Baltic Sea show larger seasonal variations. There wasa rapid salinity increase in the early Eemian due to a wider and deeper passage from the North Sea to the Baltic Sea. Thetemperature differences between cold and warm seasons were increasing in the first half of the Eemian period. During the mid- andlate-Eemian, the bottom water became more stagnant with lower oxygen content. The trends agree with the simulationresults, indicating influences from North Atlantic Oscillation and precipitation-evaporation balance. During the Holoceneperiod, the bottom water salinity increased dramatically ~7,700–7,500 years ago and decreased ~4,100–2,500 years ago,coinciding with the variations in bottom water oxygen content and temperature. The reconstructions were based on species-specificcalibration and the geochemistry of ‘clean’ foraminiferal calcite without contamination from authigenic minerals. Thediagenetic coatings on foraminifera formed under extremely low oxygen conditions in the deepest basin in the Baltic Sea werehighly enriched in multiple elements, which could significantly alter the foraminiferal geochemistry. The study can be used asguidance for interpreting foraminiferal trace element analyses from extreme environmental conditions. The calibration studyfrom the low oxygen basin, the Santa Barbara Basin, shows the importance of species-specific calibrations under a restrictedoxygen environment and improved the application of oxygen proxy using trace elements, i.e. manganese incorporation inforaminiferal calcite. (Less)
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author
supervisor
opponent
  • Docent Coxall, Helen Katherine, Department of Geological Science, Stockholm University, Sweden
organization
publishing date
type
Thesis
publication status
published
subject
keywords
environmental changes, hypoxia, foraminifera, Eemian, Holocene, trace elements, stable isotopes, LA-ICP-MS, synchrotronbased μXRF
pages
205 pages
publisher
Media-Tryck, Lund University, Sweden
defense location
Pangea, Geocentrum, Lund. Join via zoom: https://lu-se.zoom.us/j/69007521394?pwd=Y0RxUHpGNGhYcUFzNUdBTU9JTTFEQT09
defense date
2020-12-10 09:00:00
ISBN
978-91-7895-699-9
978-91-7895-698-2
project
Tracing marine hypoxic conditions during warm periods using a microanalytical approach
language
English
LU publication?
yes
id
2d7a8c6b-22e2-4be9-a4dc-d5a474af07b6
date added to LUP
2020-11-16 01:13:28
date last changed
2020-12-01 12:48:58
@phdthesis{2d7a8c6b-22e2-4be9-a4dc-d5a474af07b6,
  abstract     = {{Deoxygenation, i.e. loss of oxygen from the oceans, often considerably influences the aquatic organisms and the wholeecosystem and changes biogeochemical cycles. It results in increasing bottom areas of hypoxia (&lt;2 mg/l dissolved oxygen),which has been primarily attributed to global warming and increased eutrophication. It is vital to study the present-dayanthropogenically-induced environmental changes in coastal settings such as hypoxia and their outcomes. The Baltic Sea ishighly sensitive to hypoxia, which has occurred during several warm periods in the past. The studies of comparable hypoxicevents during the warm periods in the past can help us better understand the cause, severity, and potential outcomes ofenvironmental changes in the present day.In this thesis, I reconstructed the past environmental conditions, i.e. water temperature, salinity, and oxygen concentrationsfrom eight sites in the Baltic Sea using a multi-method approach including synchrotron X-ray spectroscopy and plasmaanalytical methods. I used trace elements and stable isotopes analyses on benthic foraminifera from two warm periods in thepast, the Eemian (130 – 115 thousand years before present AD 1950, ka BP) and the Holocene (11.5 ka BP to present) to studyhow the extent and severity of hypoxia and other environmental factors have varied in the Baltic Sea over time.During the Eemian period, the bottom water in the southern and western Baltic Sea show larger seasonal variations. There wasa rapid salinity increase in the early Eemian due to a wider and deeper passage from the North Sea to the Baltic Sea. Thetemperature differences between cold and warm seasons were increasing in the first half of the Eemian period. During the mid- andlate-Eemian, the bottom water became more stagnant with lower oxygen content. The trends agree with the simulationresults, indicating influences from North Atlantic Oscillation and precipitation-evaporation balance. During the Holoceneperiod, the bottom water salinity increased dramatically ~7,700–7,500 years ago and decreased ~4,100–2,500 years ago,coinciding with the variations in bottom water oxygen content and temperature. The reconstructions were based on species-specificcalibration and the geochemistry of ‘clean’ foraminiferal calcite without contamination from authigenic minerals. Thediagenetic coatings on foraminifera formed under extremely low oxygen conditions in the deepest basin in the Baltic Sea werehighly enriched in multiple elements, which could significantly alter the foraminiferal geochemistry. The study can be used asguidance for interpreting foraminiferal trace element analyses from extreme environmental conditions. The calibration studyfrom the low oxygen basin, the Santa Barbara Basin, shows the importance of species-specific calibrations under a restrictedoxygen environment and improved the application of oxygen proxy using trace elements, i.e. manganese incorporation inforaminiferal calcite.}},
  author       = {{Ni, Sha}},
  isbn         = {{978-91-7895-699-9}},
  keywords     = {{environmental changes; hypoxia; foraminifera; Eemian; Holocene; trace elements; stable isotopes; LA-ICP-MS; synchrotronbased μXRF}},
  language     = {{eng}},
  publisher    = {{Media-Tryck, Lund University, Sweden}},
  school       = {{Lund University}},
  title        = {{Tracing marine hypoxic conditions during warm periods using a microanalytical approach}},
  url          = {{https://lup.lub.lu.se/search/files/86851215/Sha_Ni_thesis.pdf}},
  year         = {{2020}},
}