Effect of atmospheric CO2 and solar activity on wind regime and water column stability in the major global upwelling areas |
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| Authors: | B Patti C Guisande I Riveiro P Thejll A Cuttitta A Bonanno G Basilone G Buscaino S Mazzola |
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| Institution: | 1. Istituto per l’Ambiente Marino Costiero, Consiglio Nazionale delle Ricerche, Sede di Capo Granitola, via del Faro 3, 91021 Torretta Granitola (fraz. Campobello di Mazara, TP), Italy;2. Facultad de Ciencias, Campus Universitario Lagoas-Marcosende, Universidad de Vigo, 36310-Vigo, Spain;3. Instituto Español de Oceanografía, Centro Oceanográfico de Vigo, Cabo Estai - Canido. 36200-Vigo, Spain;4. Danish Climate Centre, Danish Meteorological Institute, Lyngbyvej 100, 2100 Copenhagen 0, Denmark |
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| Abstract: | It is not clear whether global warming will favour or reduce global ocean phytoplankton productivity in coastal areas. Moreover, the relative contributions made by natural and/or anthropogenic factors to possible changes in phytoplankton productivity are not clear. As the relationship between primary production and alongshore wind forcing is well established for the Eastern Boundary Current (EBC) ecosystems, our aim is to determine whether the changes experienced over the last five decades (1958–2007) in atmospheric CO2 and solar activity have been able to affect the wind regime and water column stability in the most biologically productive upwelling areas of California, Canary, Humboldt and Benguela. We approached the work by statistically studying the effect of solar activity and atmospheric CO2 on surface alongshore wind stress and on water column stability. There was an increasing trend in wind stress and water column stability in all the upwelling areas over the period studied (with the single exception of stability in the California EBC system). The analysis of detrended series evidenced significant relationships between atmospheric CO2 concentration and wind stress and water column stability in the coastal upwelling areas investigated. In addition, wind stress and stability data were found to be consistent, with negative linear relationships between wind stress and CO2 in most of the sites in the Benguela, Canary and Humboldt regions associated, as expected, to positive relationships when water column stability is used as regressand. The results of the present study suggest that greenhouse gas forcing, independent of its well known general increasing trend, was able to decrease wind stress intensity and increase water column stability for the period 1958 to present in most of the sites of the four Eastern Boundary Ecosystems studied, with the one exception of the California region. Conversely, the impact of solar activity appeared to be quite low compared to the greenhouse gas forcing. |
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| Keywords: | Eastern boundary currents Carbon dioxide Solar activity Wind stress Stratification |
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