Declining nutrient concentrations in the northeast Atlantic as a result of a weakening Subpolar Gyre

Between 1996 and the mid-2000s the upper waters (200¿700 m) of the Rockall Trough became warmer (+0.72 °C), saltier (+0.088) and reduced in nitrate and phosphate (¿2.00 µM and ¿0.14 µM respectively). These changes, out-with calculated errors, can be explained by the varying influence of southern ver...

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Bibliographic Details
Published in:Deep Sea Research Part I: Oceanographic Research Papers
Main Authors: Johnson, Clare, Inall, Mark, Häkkinen, Sirpa
Format: Article in Journal/Newspaper
Language:English
Published: 2013
Subjects:
North Atlantic
Northeast Atlantic
Online Access:https://pure.uhi.ac.uk/en/publications/caaadaf1-f945-424d-a20d-90a22037298d
https://doi.org/10.1016/j.dsr.2013.08.007
https://pureadmin.uhi.ac.uk/ws/files/2050281/cj_accepted.pdf
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Summary:Between 1996 and the mid-2000s the upper waters (200¿700 m) of the Rockall Trough became warmer (+0.72 °C), saltier (+0.088) and reduced in nitrate and phosphate (¿2.00 µM and ¿0.14 µM respectively). These changes, out-with calculated errors, can be explained by the varying influence of southern versus subpolar water masses in the basin as the Subpolar Gyre weakened and contracted. Upper water properties strongly correlate with a measure of the strength of the Subpolar Gyre (the first principal component of sea surface height over the Subpolar North Atlantic) prior to the mid-2000s. As the gyre weakens, the upper layers of the trough become warmer (r¿0.85), more saline (r¿0.86) and reduced in nitrate and phosphate (r+0.81 and r+0.87 respectively). Further the proportion of subpolar waters in the basin decreases from around 50% to less than 20% (r+0. 88). Since the mid¿2000s the Subpolar Gyre has been particularly weak. During this period temperatures decreased slightly (¿0.21 °C), salinities remained near constant (35.410±0.005) and phosphate levels low and stable (0.68±0.02 µM). These relative lack of changes are thought to be related to the maximum proportion of southern water masses within the Rockall Trough having been reached. Thus the upper water properties are no longer controlled by changes in the relative importance of different water masses in the basin (as prior to the mid-2000s), but rather a different process. We suggest that when the gyre is particularly weak the interannual changes in upper water properties in the Rockall Trough reflect changes in the source properties of the southern water masses. Since the early-2000s the Subpolar Gyre has been weaker than observed since 1992, or modelled since 1960¿1970. Hence upper waters within the Rockall Trough may be warmer, saltier and more depleted in nitrate and phosphate than at any time in the last half century.

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