Recovery from microplastic-induced marine deoxygenation may take centuries
Karin Kvale, Andreas Oschlies
Abstract
Abstract Climate change and plastics pollution are dual threats to marine environments. Here we use biogeochemical and microplastic modelling to show that even if there is complete removal of microplastics and cessation of deposition in the oceans in 2022, regional recovery from microplastic-induced remineralization and water column deoxygenation could take hundreds of years for coastal upwelling zones, the North Pacific and Southern Ocean. Surface stratification and reduced sea ice cover further impede regional recovery, highlighting the importance of aggressive mitigation of plastic pollution.
Topics & Concepts
MicroplasticsOceanographyUpwellingWater columnEnvironmental scienceBiogeochemical cyclePlastic pollutionClimate changeStratification (seeds)PollutionGeologyEnvironmental chemistryEcologyChemistryBotanyBiologyGerminationSeed dormancyDormancyMicroplastics and Plastic PollutionCoastal and Marine ManagementMercury impact and mitigation studies