Overflow (oceanography)

This article will address the topic of Overflow (oceanography), a highly relevant issue that has captured the attention of experts and the general public in recent years. Overflow (oceanography) has been the subject of numerous studies and research due to its impact on various aspects of daily life, from health to the economy. Throughout the text, different facets of Overflow (oceanography) will be analyzed, from its history and evolution to its implications in today's society. In addition, possible solutions and proposals to address the challenges posed by Overflow (oceanography) in the contemporary world will be examined. Through a multidimensional approach, the aim is to offer the reader a complete and updated vision of Overflow (oceanography), in order to contribute to the debate and understanding of this phenomenon.

In oceanography, an overflow is a type of deep-water circulation in which denser water flows into an adjacent basin beneath lighter water. This process is significant in thermohaline circulation, contributing to the global ocean's deep water mass formation.^[1] Overflows influence global climate by transporting heat and salt, impacting sea levels, and affecting marine ecosystems.

Overflows are driven by differences in water density, usually due to variations in temperature and salinity. A classic example is the Denmark Strait overflow, where cold, dense water from the Nordic Seas flows into the North Atlantic Ocean.^[2]

References

^ Kida, Shinichiro (2006). Overflows and upper ocean interactions: a mechanism for the Azores current (Ph.D. Thesis). Joint Program in Oceanography/Applied Ocean Science and Engineering, Woods Hole Oceanographic Institution and Massachusetts Institute of Technology. Department of Ocean Engineering.
^ Käse, R. H.; Girton, J. B.; Sanford, T. B. (June 2003). "Structure and variability of the Denmark Strait Overflow: Model and observations". Journal of Geophysical Research: Oceans. 108 (C6). doi:10.1029/2002JC001548. ISSN 0148-0227.

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