4.7 Article

Insignificant effects of eddies and typhoons on the biogeochemistry of the tropical northwest Pacific Ocean

期刊

FRONTIERS IN MARINE SCIENCE
卷 9, 期 -, 页码 -

出版社

FRONTIERS MEDIA SA
DOI: 10.3389/fmars.2022.983748

关键词

mesoscale eddy; typhoon; biogeochemistry; northwest Pacific Ocean; oligotrophic ocean

资金

  1. Korea Institute of Ocean Science and Technology
  2. [PE99884]

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In this study, the effects of eddies and typhoons on the biogeochemistry of the tropical northwest Pacific were investigated. The results suggest that these processes do not have a significant influence on biological production in this region. The findings also indicate that the disturbances caused by mesoscale processes may have a smaller effect in the highly oligotrophic northwest Pacific compared to other parts of the world.
We investigated the effects of eddies and typhoons on the biogeochemistry of the tropical northwest Pacific by examining the distribution of nutrients, dissolved oxygen (DO), chlorophyll-a (Chl-a), gross primary production (GPP), dissolved organic carbon (DOC), and fluorescent dissolved organic matter (FDOM). Water samples were collected from anticyclonic and cyclonic eddies in September 2019 and 2020, and before and after the passage of a Category 2 typhoon in 2019. The study region was characterized by a deep nitracline (similar to 150 m), which was deeper than both the pycnocline (similar to 50 m) and the FDOM-depleted layer (similar to 75 m). A subsurface chlorophyll maximum layer was observed at 100-150 m depth. No clear differences in Chl-a, DO, GPP, DOC, and FDOM were observed for the anticyclonic and cyclonic eddies, indicating that the eddies did not have a significant influence on biological production. Similarly, there were no discernable changes in Chl-a concentrations or other biogeochemical parameters after the passage of the typhoon, which induced water mixing to a depth of similar to 60 m. We conjecture that the nutrient-depleted layer was too deep for any eddy- or typhoon-induced vertical mixing to cause upwelling of nutrients to the euphotic zone. Our results imply that the disturbances caused by mesoscale processes in the upper layer of the highly oligotrophic northwest Pacific may have a smaller effect than in oceans in other parts of the world.

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