The Mesopelagic Scattering Layer: A Hotspot for Heterotrophic Prokaryotes in the Red Sea Twilight Zone

The Mesopelagic Scattering Layer: A Hotspot for Heterotrophic Prokaryotes in the Red Sea Twilight Zone

M.L. Calleja, M.I. Ansari, A. Røstad, L. Silva, S. Kaartverdt, X. Irigoien, X.A.G. Morán. The mesopelagic fish accumulation layer: a hotspot for heterotrophic prokaryotes in the Red Sea twilight zone. (2018) Frontiers in Marine Science (in press) https://doi.org/10.3389/fmars.2018.00259
M.L. Calleja, M.I. Ansari, A. Røstad, L. Silva, S. Kaartverdt, X. Irigoien, X.A.G. Morán
Red Sea, mesopelagic layer, diel vertical migration, heterotrophic prokaryotes, dissolved organic carbon
2018
​The vast majority of marine dissolved organic carbon (DOC), the largest reservoir of reduced carbon on Earth, is believed to accumulate in the abyssal layers of the ocean over timescales of decades to millennia. However, evidence is growing that small animals that migrate vertically every day from the surface to mesopelagic layers are significantly contributing to the active vertical flux of organic matter. Whether that represents an important source of carbon available for microbial production and respiration at the mesopelagic realm, and its contribution to oceanic carbon budgets and energy flows, is yet to be explored. Here we present data suggesting that Red Sea migrating animals may produce an overlooked source of labile DOC (used at a mean rate of 2.1 μmol C L−1 d−1) that does not accumulate but fuels the metabolism in the twilight zone, generating a disregarded hotspot for heterotrophic prokaryotes.