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1by Basterretxea, Gotzon, Font-Muñoz, Joan S., Hernández-Carrasco, Ismael, Sañudo-Wilhelmy, Sergio A.“... %) and slightly increased at the Equator ( < 0.5 %). Our study finds that chlorophyll variations in HNLC regions...”
Published in Ocean Science (2023)
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2by Basterretxea, Gotzon, Font-Muñoz, Joan S., Hernández-Carrasco, Ismael, Sañudo-Wilhelmy, Sergio“... %) and slightly increased at the Equator ( < 0.5 %). Our study finds that chlorophyll variations in HNLC regions...”
Published 2023
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3by Basterretxea, Gotzon, Font-Muñoz, Joan S., Hernández-Carrasco, Ismael, Sañudo-Wilhelmy, Sergio A.“... %) and slightly increased at the Equator (< 0.5 %). Our study finds that chlorophyll variations in HNLC regions...”
Published in Ocean Science (2023)
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4by G. Basterretxea, J. S. Font-Muñoz, I. Hernández-Carrasco, S. A. Sañudo-Wilhelmy“... %) and slightly increased at the Equator ( < 0.5 %). Our study finds that chlorophyll variations in HNLC regions...”
Published in Ocean Science (2023)
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5by Basterretxea, Gotzon, Font-Muñoz, Joan S., Hernández-Carrasco, Ismael, Sañudo-Wilhelmy, Sergio A.“...%) and slightly increased at the Equator (<0.5%). Our study finds that chlorophyll variations in HNLC regions...”
Published in Ocean Science (2023)
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6Subjects: “...Monitoring Ocean Change and Variability along 170W from the ice edge to the equator...”
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Dataset -
7Subjects: “...Monitoring Ocean Change and Variability along 170W from the ice edge to the equator...”
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Dataset -
8Subjects: “...Monitoring Ocean Change and Variability along 170W from the ice edge to the equator...”
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Dataset -
9Subjects: “...Monitoring Ocean Change and Variability along 170W from the ice edge to the equator...”
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10“... in the Australian region (i.e. between 90oE to 18oE, equator to Antarctic) requires deployment of 60 floats per year...”
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11by Sinha, Anirban“... the equator (no large variation in the Coriolis parameter f). We then train a deep neural network on the whole...”
Published 2019
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12by Sinha, Anirban“... the equator (no large variation in the Coriolis parameter f). We then train a deep neural network on the whole...”
Published 2019
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13“... responded primarily to changes in nutrient availability. Alternatively, assemblages at the equator...”
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14Published 2017“... of 6039.84 sec). The drifting orbit resulted in a dense, global network of sea level profiles separated...”
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15Published 2017“... of 6039.84 sec). The drifting orbit resulted in a dense, global network of sea level profiles separated...”
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Dataset -
16Published 2017“... of 6039.84 sec). The drifting orbit resulted in a dense, global network of sea level profiles separated...”
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Dataset -
17“... responded primarily to changes in nutrient availability. Alternatively, assemblages at the equator...”
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Dataset -
18Published 2017“... of 6039.84 sec). The drifting orbit resulted in a dense, global network of sea level profiles separated...”
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Dataset -
19Published 2017“... of 6039.84 sec). The drifting orbit resulted in a dense, global network of sea level profiles separated...”
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Dataset -
20Published 2017“... of 6039.84 sec). The drifting orbit resulted in a dense, global network of sea level profiles separated...”
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Dataset