Sea-ice derived meltwater stratification slows the biological carbon pump: results from continuous observations

The North Atlantic biological pump has the most intense absorption of C globally, but how this will fare in light of climate changes (especially sea-ice melting) is poorly understood. Here the authors present a 24-month continuous time series of physical, chemical, and biological observations in the...

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Bibliographic Details
Published in:Nature Communications
Main Authors: Wilken-Jon von Appen, Anya M. Waite, Melanie Bergmann, Christina Bienhold, Olaf Boebel, Astrid Bracher, Boris Cisewski, Jonas Hagemann, Mario Hoppema, Morten H. Iversen, Christian Konrad, Thomas Krumpen, Normen Lochthofen, Katja Metfies, Barbara Niehoff, Eva-Maria Nöthig, Autun Purser, Ian Salter, Matthias Schaber, Daniel Scholz, Thomas Soltwedel, Sinhue Torres-Valdes, Claudia Wekerle, Frank Wenzhöfer, Matthias Wietz, Antje Boetius
Format: Article in Journal/Newspaper
Language:English
Published: Nature Portfolio 2021
Subjects:
Science
Q
Fram Strait
North Atlantic
Sea ice
Online Access:https://doi.org/10.1038/s41467-021-26943-z
https://doaj.org/article/23b4ae8825cf4025a9ff45d5224d01b7
Description
Summary:The North Atlantic biological pump has the most intense absorption of C globally, but how this will fare in light of climate changes (especially sea-ice melting) is poorly understood. Here the authors present a 24-month continuous time series of physical, chemical, and biological observations in the Fram Strait.

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