Data_Sheet_1_Accuracy of Otolith Oxygen Isotope Records Analyzed by SIMS as an Index of Temperature Exposure of Wild Icelandic Cod (Gadus morhua).docx

Global warming is increasing ocean temperatures, forcing marine organisms to respond to a suite of changing environmental conditions. The stable oxygen isotopic composition of otoliths is often used as an index of temperature exposure, but the accuracy of the resulting temperature reconstructions in...

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Bibliographic Details
Main Authors: Gotje von Leesen, Hlynur Bardarson, Sæmundur Ari Halldórsson, Martin J. Whitehouse, Steven E. Campana
Format: Dataset
Language:unknown
Published: 2021
Subjects:
Oceanography
Marine Biology
Marine Geoscience
Biological Oceanography
Chemical Oceanography
Physical Oceanography
Marine Engineering
accuracy
Atlantic cod
DST-tags
SIMS
stable oxygen isotopes
atlantic cod
Gadus morhua
Online Access:https://doi.org/10.3389/fmars.2021.698908.s001
https://figshare.com/articles/dataset/Data_Sheet_1_Accuracy_of_Otolith_Oxygen_Isotope_Records_Analyzed_by_SIMS_as_an_Index_of_Temperature_Exposure_of_Wild_Icelandic_Cod_Gadus_morhua_docx/16781197
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Summary:Global warming is increasing ocean temperatures, forcing marine organisms to respond to a suite of changing environmental conditions. The stable oxygen isotopic composition of otoliths is often used as an index of temperature exposure, but the accuracy of the resulting temperature reconstructions in wild, free-swimming Atlantic cod (Gadus morhua) has never been groundtruthed. Based on temperatures from data storage tags (DST) and corresponding salinity values, the stable oxygen isotope (δ 18 O) value was predicted for each month of tagging and compared with δ 18 O otolith values measured in situ with secondary ion mass spectrometry (SIMS). Paired-sample Wilcoxon tests were applied to compare measured and predicted δ 18 O values. The difference between measured and predicted mean and maximum δ 18 O otolith values was not significant, suggesting a good correspondence between SIMS-measured and DST-predicted δ 18 O ot olith values. However, SIMS-measured and predicted minimum δ 18 O otolith values were significantly different (all samples: p < 0.01, coastal and frontal cod: p < 0.05), resulting in overestimation of maximum temperatures. Our results confirm that otoliths are well-suited as proxies for mean ambient temperature reconstructions. A possible matrix effect and the absence of a reliable aragonite standard for SIMS measurements appeared to cause a small divergence between measured and predicted δ 18 O otolith values, which affected the estimation accuracy of absolute temperature. However, relative temperature changes were accurately estimated by SIMS-analyzed δ 18 O otolith values.

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