Seafloor ecosystems play pivotal roles in biogeochemical cycling, but hypoxia (O2 1200 km). This broad-scale sampling confirmed the strong salinity-driven diversity gradient and large spatial variations in oxygen conditions, which affected the status of the benthic communities. Benthic nutrient fluxes varied several orders of magnitude, both between sea areas and along gradients of hypoxia within areas. DistLM modeling indicated that benthic fauna can affect nutrient cycling, also under hypoxic conditions, with the invasive polychaete Marenzelleria spp. being particularly important. However, as the oxygen content decreases—even slightly—the subsequent changes in the faunal abundance and functional diversity may influence the nature and the rate of fluxes. These results imply that management targets for oxygen concentrations need to be raised to sustain healthy ecosystem functioning and to facilitate the recovery of large degraded sea areas.

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