Gabriel Reygondeau

TL;DR: It is shown here that many species will likely shift across national and other political boundaries in the coming decades, creating the potential for conflict over newly shared resources.

TL;DR: It is shown that global fisheries revenues could drop by 35% more than the projected decrease in catches by the 2050 s under high CO2 emission scenarios, and that developing countries with high fisheries dependency are negatively impacted.

TL;DR: Limiting temperature increases to 1.5°C substantially improved catch potential and decreased turnover of harvested species and provide further support for meeting the goal of limiting climate warming, which should improve fisheries across the globe.

TL;DR: A global biogeographic classification of the mesopelagic zone gives an indication of the spatial scale at which faunal communities are expected to be broadly similar in composition, and hence can inform application of ecosystem-based management approaches, marine spatial planning and the distribution and spacing of networks of representative protected areas.

TL;DR: In this article, a new statistical methodology based on nonparametric procedures is implemented to capture the environmental characteristics within 56 biogeochemical provinces, and four main environmental parameters (bathymetry, chlorophyll a concentration, surface temperature, and salinity) are used to infer the spatial distribution of each BGCP over 1997-2007.