Reconstructing Paleo-oxygenation for the Last 54,000 Years in the Gulf of Alaska Using Cross-validated Benthic Foraminiferal and Geochemical Records
Overview
Research
Identity
Additional Document Info
Other
View All
Overview
abstract
AbstractHolocene and Pleistocene marine sediment records in the North Pacific record multiple dysoxic events proximal to continental margins and oxygen minimum zones (OMZs). Highresolution paleoenvironmental studies in the Gulf of Alaska (GoA) were previously restricted to the last 17,000years, limiting our knowledge of oxygenation in the high latitude North Pacific. Here we develop a 54,000yearlong record of coregistered benthic foraminiferal assemblages and redox sensitive metal concentrations (Mo/Al and U/Al) at Site U1419 in the upper OMZ of GoA to reconstruct the history of OMZ extent and intensity at multicentennial resolution. Using multivariate analyses of total benthic foraminiferal assemblages, we develop quantitative dissolved oxygen estimates that are robust to differences in the benthic foraminiferal size fraction analyzed, replicate modern oxygenation patterns in the GoA, and are crossvalidated by redox sensitive metal concentrations. We identify dysoxic events in the early Holocene and in the BllingAllerd (B/A), consistent with previous studies, as well as two dysoxic events during MIS 3 that are comparable in severity to the B/A event and lower in oxygen than the modern GoA OMZ. We further record shortduration (<300years) dysoxic events during glacial times similar to those recorded at more southern latitudes. Rates of oxygenation change can be abrupt with transitions exceeding 1ml/L O2 in 100years. Quantitative estimates of paleooxygenation, such as those possible with benthic foraminiferal assemblages, are important for forecasting future oxygenation changes in OMZs and their potential impacts on the marine ecosystems.
