Litcius/Paper detail

Deep-sea mining discharge can disrupt midwater food webs

Michael H. Dowd, Victoria E. Assad, Alexus E. Cazares-Nuesser, Jeffrey C. Drazen, Erica Goetze, Angelicque White, Brian N. Popp

2025Nature Communications7 citationsDOIOpen Access PDF

Abstract

) under license for deep-sea mining. Mining companies have proposed discharging excess waste generated during nodule extraction in the lower mesopelagic and upper bathypelagic zones, which are home to a unique faunal community including zooplankton and micronekton. Here, using compound-specific isotope analysis of amino acids, we find that natural background particles larger than 6 µm form the base of the food web, but will be diluted by the same sized, nutritionally deficient mining-associated particles. Given that 53% of zooplankton taxa are particle feeders and 60% of micronekton taxa are zooplanktivores at proposed discharge depths, there is significant potential for food-web disruption. Therefore, we show that a midwater mining plume could trigger bottom-up ecosystem impacts with potentially severe consequences for the faunal community, extending beyond zooplankton and micronekton to nekton, including large marine predators.

Topics & Concepts

ZooplanktonBathyal zoneMesopelagic zoneEnvironmental sciencePelagic zoneEcosystemOceanographyWater columnApex predatorFood webMarine ecosystemBenthic zoneCommunity structureAbyssal zoneFishingFisheryEcologyIsotope analysisPlumeAbyssal plainGelatinous zooplanktonBiodiversityLead (geology)LicenseDetritusGeologyExtraction (chemistry)Natural (archaeology)HabitatMarine Biology and Ecology ResearchGeochemistry and Elemental AnalysisPaleontology and Stratigraphy of Fossils