TY - JOUR T1 - A RUpture‐Based detection method for the Active mesopeLagIc Zone (RUBALIZ): A crucial step toward rigorous carbon budget assessments A1 - Fuchs,Robin A1 - Baumas,Chloé M. J. A1 - Garel,Marc A1 - Nerini,David A1 - Le Moigne,Frédéric A. C. A1 - Tamburini,Christian AD - Aix Marseille Univ Université de Toulon, CNRS, IRD, MIO UM 110 Marseille, France AD - Aix Marseille Univ, CNRS, I2M Marseille , France AD - LEMAR Laboratoire des Sciences de l’Environnement Marin, UMR6539 CNRS, UBO, IFREMER, IRD Plouzané Technopôle Brest‐Iroise , France UR - https://archimer.ifremer.fr/doc/00800/91226/ DO - 10.1002/lom3.10520 N2 - Determining mesopelagic organic carbon budgets is essential to characterize the ocean's role as a carbon dioxide sink. This is because the biological processes observed in the mesopelagic zone are crucial for understanding the biological carbon pump. Yet, field assessments of carbon budgets are often unbalanced with the carbon demand exceeding its supply. This underlines either methodological issues in the budget calculations or incomplete knowledge of the mesopelagic carbon cycling with potentially missing sources. Carbon budgets are built by partitioning the ocean into vertical depth zones. Vertical boundaries are conventionally defined between 200 and 1000 m depth or using various thresholds. Such approaches lack consistent methodology preventing robust comparison of mesopelagic carbon budget from region to region. Here, using a statistical rupture detection method applied to conductivity–temperature–depth (CTD)-cast variables (fluorescence, O2 concentration, potential temperature, salinity, and density), we aim to provide independent estimates of mesopelagic boundaries. We demonstrate that the so-determined upper boundary is highly correlated with the knee points of the particulate organic carbon (POC) fluxes estimated by a power law and that over 90% of the POC flux attenuation occurs within our method boundaries. The identified zone therefore corresponds to the most active part of the conventional mesopelagic zone and we name it the “active mesopelagic zone” (AMZ). We find that the depths of the mesopelagic zone depend on the region considered. Our results demonstrate that the mesopelagic carbon budget discrepancy can vary up to four folds depending on the boundaries chosen and hence provide novel grounds to reassess existing and future mesopelagic carbon budgets. Y1 - 2023/01 PB - Wiley JF - Limnology And Oceanography-methods SN - 1541-5856 VL - 21 IS - 1 SP - 24 EP - 39 ID - 91226 ER -