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Abstract. Amino acid racemization (AAR) geochronology is a powerful tool for datingQuaternary marine sediments across the globe, yet its application to ArcticOcean sediments has been limited. Anomalous rates of AAR in foraminiferafrom the central Arctic were reported in previously published studies,indicating that either the rate of racemization is higher in this area, orinaccurate age models were used to constrain the sediment ages. This studyinvestigates racemization rates in foraminifera from three well-datedsediment cores taken from the Yermak Plateau during the 2015 TRANSSIZ (TRansitions in the Arctic Seasonal Sea Ice Zone) expedition on RV Polarstern. D and L isomers of the amino acids asparticacid (Asp) and glutamic acid (Glu) were separated in samples of theplanktic foraminifer Neogloboquadrina pachyderma and the benthic species Cassidulina neoteretis to quantify the extent ofracemization. In total, 241 subsamples were analysed, extending back tomarine oxygen isotope stage (MIS) 7. Two previously published powerfunctions, which relate the extent of racemization of Asp and Glu inforaminifera to sample age are revisited, and a comparison is made betweenthe ages predicted by these calibrated age equations and independentgeochronological constraints available for the cores. Our analyses reveal anexcellent match between ages predicted by a global compilation ofracemization rates for N. pachyderma and confirm that a proposed Arctic-specificcalibration curve is not applicable at the Yermak Plateau. These resultsgenerally support the rates of AAR determined for other cold bottom watersites and further highlight the anomalous nature of the purportedly highrate of racemization indicated by previous analyses of central Arcticsediments.