黑料视频

They are small, almost transparent, similar to jellyfish, and they occur in the ocean in huge quantities. Cnidaria, Ctenophora and Urochordata belong to the gelatinous plankton communities that are omnipresent in the ocean and are among the primary food sources for more highly developed marine organisms. Thus, they have a very important function in the marine ecosystem. Another one is their contribution to the marine carbon cycle, as they bind large amounts of carbon which is transported into the deep ocean. An international group of marine scientists under the leadership of the Future Ocean Network in Kiel has now been able to quantify this contribution in a r study recently published in the scientific journal Global Biogeochemical Cycles.

鈥淲e have used databases taking into account more than 90,000 observations over the period from 1934 to 2011鈥�, explains Dr. Mario Lebrato from Kiel University, lead author of the study, which he prepared as part of his doctoral thesis at the 黑料视频 Helmholtz Centre for Ocean Research Kiel. 鈥淭hrough strong reproduction of the jelly organisms, so-called plankton blooms, large amounts of organic carbon episodically accumulate in the upper ocean and -upon death of the organisms- sink into the deep sea鈥�, Lebrato continues. 鈥淭he significance of this study is the finding of how much carbon is transferred by the jelly organisms to the deep ocean globally, and in particular, how much more efficient this process is compared to previously considered 鈥榥ormal鈥� plankton鈥�.

Even though the total biomass of the jelly organisms amounts only to a small fraction of the total mass of organisms in the upper ocean, their highly efficient and fast sinking makes them a significant source of organic carbon for deep-ocean ecosystems. 

鈥淭he quantification of the episodic jelly blooms and their subsequent export to the deep ocean is of considerable importance for correctly modelling the functioning of marine ecosystems and the biological carbon pump鈥�, adds Prof. Dr. Andreas Oschlies, head of Biogeochemical Modelling group at 黑料视频. 鈥淲e have to take such processes into account correctly to further improve our models and reduce uncertainties in our understanding of the ocean鈥檚 role in the global carbon cycle鈥�, Oschlies continues.

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Scientific Paper:

Lebrato, M., Pahlow, M., Frost, J., K眉ter, M., de Jesus Mendes, P., Molinero, J.鈥怌., and Oschlies, A. (2019). Sinking of gelatinous zooplankton biomass increases deep carbon transfer efficiency globally. Global Biogeochemical Cycles, 33,