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High Concentrations of floating life in the North Pacific Garbage Patch

2022 2 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 35 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Rebecca R. Helm, Nikolai Maximenko Nikolai Maximenko Nikolai Maximenko Fiona Chong, Fiona Chong, Matthew Spencer, Nikolai Maximenko Jan Hafner, Matthew Spencer, Jan Hafner, Matthew Spencer, Jan Hafner, Jan Hafner, Nikolai Maximenko Fiona Chong, Nikolai Maximenko Jan Hafner, Jan Hafner, Nikolai Maximenko Jan Hafner, Nikolai Maximenko Jan Hafner, Andrew McWhirter, Andrew McWhirter, Nikolai Maximenko Rebecca R. Helm, Rebecca R. Helm, Rebecca R. Helm, Andrew McWhirter, Jan Hafner, Jan Hafner, Jan Hafner, Jan Hafner, Rebecca R. Helm, Rebecca R. Helm, Nikolai Maximenko Nikolai Maximenko

Summary

Researchers tested the hypothesis that floating life (obligate neuston) concentrates in convergent ocean gyres beyond the Sargasso Sea by sampling the eastern North Pacific Subtropical Gyre in the North Pacific Garbage Patch (NPGP). They found significantly higher neuston densities inside the NPGP core than on its periphery and a positive relationship between neuston abundance and floating plastic debris.

Study Type Environmental

Abstract Floating life (obligate neuston) is a core component of the ocean surface food web. However, only one region of high neustonic abundance is known so far, the Sargasso Sea in the Subtropical North Atlantic, where floating life provides critical habitat structure and ecosystem services. Here, we hypothesize that floating life is also concentrated in other gyres with converging surface currents. To test this hypothesis, we collected samples through the eastern North Pacific Subtropical Gyre in the area of the North Pacific “garbage patch” (NPGP) known to accumulate floating anthropogenic debris. We found that densities of floating life were significantly higher inside the central part of NPGP than on its periphery, and there was a significant positive relationship between neuston abundance and plastic abundance. This work has important implications for the ecology and human impact of subtropical oceanic gyre ecosystems.

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