Stimulation of heterotrophic and autotrophic metabolism in the mixing zone of the Kuroshio Current and northern South China Sea: implications for export production

Yibin Huang, Edward A. Laws, Bingzhang Chen, Bangqin Huang

Research output: Contribution to journalArticle

Abstract

To evaluate the influences of the Kuroshio Current intrusion on the biogeochemistry of the northern South China Sea (NSCS), we conducted field observations of the responses of microbial metabolism to the intrusions of the Kuroshio Current into the NSCS. We used an isopycnal mixing model to quantitatively assess the extent of the Kuroshio intrusion into the NSCS and found that bacterial abundance, production, and growth efficiency were unimodal functions of the fraction of Kuroshio water. Values were maximal at ~60% Kuroshio water and decreased monotonically as the percent of Kuroshio water deviated from 60%. The patterns of gross primary production and nitrate concentration were similar, but the peaks occurred at ~50% Kuroshio water. The Kuroshio intrusion, however, had little impact on bacterial and community respiration. The observed elevation of nitrate concentrations at ~50% Kuroshio water was quantitatively consistent with estimates of the amount of inorganic nitrogen released by remineralization of dissolved organic nitrogen by bacteria. Based on these observations, we hypothesize that dissolved organic matter (DOM) in the Kuroshio water stimulates bacterial activity, and catabolism of the DOM releases inorganic nutrients that stimulate primary production in the NSCS basin. The concomitant elevation of net community production subsequently enhances export production and thereby strengthens the biological pump in the nitrogen‐limited NSCS basin. Recognition of this mechanism underscores the role of horizontal currents in regional carbon and nitrogen cycles and broadens understanding of the processes that sustain export production in the oligotrophic ocean.
LanguageEnglish
JournalJournal of Geophysical Research: Biogeosciences
Early online date16 Aug 2019
DOIs
Publication statusE-pub ahead of print - 16 Aug 2019

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metabolism
dissolved organic matter
water
primary production
biological pump
nitrate
dissolved organic nitrogen
catabolism
nitrogen cycle
remineralization
inorganic nitrogen
biogeochemistry
carbon cycle
basin
microbial activity
sea
respiration
bacterium
nutrient
nitrogen

Keywords

  • microbial metabolism
  • bacteria
  • net community production
  • Kuroshio current intrusion
  • Northern South China Sea

Cite this

@article{565fe9120efb40fe97ce380f967ccad7,
title = "Stimulation of heterotrophic and autotrophic metabolism in the mixing zone of the Kuroshio Current and northern South China Sea: implications for export production",
abstract = "To evaluate the influences of the Kuroshio Current intrusion on the biogeochemistry of the northern South China Sea (NSCS), we conducted field observations of the responses of microbial metabolism to the intrusions of the Kuroshio Current into the NSCS. We used an isopycnal mixing model to quantitatively assess the extent of the Kuroshio intrusion into the NSCS and found that bacterial abundance, production, and growth efficiency were unimodal functions of the fraction of Kuroshio water. Values were maximal at ~60{\%} Kuroshio water and decreased monotonically as the percent of Kuroshio water deviated from 60{\%}. The patterns of gross primary production and nitrate concentration were similar, but the peaks occurred at ~50{\%} Kuroshio water. The Kuroshio intrusion, however, had little impact on bacterial and community respiration. The observed elevation of nitrate concentrations at ~50{\%} Kuroshio water was quantitatively consistent with estimates of the amount of inorganic nitrogen released by remineralization of dissolved organic nitrogen by bacteria. Based on these observations, we hypothesize that dissolved organic matter (DOM) in the Kuroshio water stimulates bacterial activity, and catabolism of the DOM releases inorganic nutrients that stimulate primary production in the NSCS basin. The concomitant elevation of net community production subsequently enhances export production and thereby strengthens the biological pump in the nitrogen‐limited NSCS basin. Recognition of this mechanism underscores the role of horizontal currents in regional carbon and nitrogen cycles and broadens understanding of the processes that sustain export production in the oligotrophic ocean.",
keywords = "microbial metabolism, bacteria, net community production, Kuroshio current intrusion, Northern South China Sea",
author = "Yibin Huang and Laws, {Edward A.} and Bingzhang Chen and Bangqin Huang",
note = "Accepted for publication in Journal of Geophysical Research: Biogeosciences. Copyright 2019 American Geophysical Union. Further reproduction or electronic distribution is not permitted.",
year = "2019",
month = "8",
day = "16",
doi = "10.1029/2018JG004833",
language = "English",

}

TY - JOUR

T1 - Stimulation of heterotrophic and autotrophic metabolism in the mixing zone of the Kuroshio Current and northern South China Sea

T2 - implications for export production

AU - Huang, Yibin

AU - Laws, Edward A.

AU - Chen, Bingzhang

AU - Huang, Bangqin

N1 - Accepted for publication in Journal of Geophysical Research: Biogeosciences. Copyright 2019 American Geophysical Union. Further reproduction or electronic distribution is not permitted.

PY - 2019/8/16

Y1 - 2019/8/16

N2 - To evaluate the influences of the Kuroshio Current intrusion on the biogeochemistry of the northern South China Sea (NSCS), we conducted field observations of the responses of microbial metabolism to the intrusions of the Kuroshio Current into the NSCS. We used an isopycnal mixing model to quantitatively assess the extent of the Kuroshio intrusion into the NSCS and found that bacterial abundance, production, and growth efficiency were unimodal functions of the fraction of Kuroshio water. Values were maximal at ~60% Kuroshio water and decreased monotonically as the percent of Kuroshio water deviated from 60%. The patterns of gross primary production and nitrate concentration were similar, but the peaks occurred at ~50% Kuroshio water. The Kuroshio intrusion, however, had little impact on bacterial and community respiration. The observed elevation of nitrate concentrations at ~50% Kuroshio water was quantitatively consistent with estimates of the amount of inorganic nitrogen released by remineralization of dissolved organic nitrogen by bacteria. Based on these observations, we hypothesize that dissolved organic matter (DOM) in the Kuroshio water stimulates bacterial activity, and catabolism of the DOM releases inorganic nutrients that stimulate primary production in the NSCS basin. The concomitant elevation of net community production subsequently enhances export production and thereby strengthens the biological pump in the nitrogen‐limited NSCS basin. Recognition of this mechanism underscores the role of horizontal currents in regional carbon and nitrogen cycles and broadens understanding of the processes that sustain export production in the oligotrophic ocean.

AB - To evaluate the influences of the Kuroshio Current intrusion on the biogeochemistry of the northern South China Sea (NSCS), we conducted field observations of the responses of microbial metabolism to the intrusions of the Kuroshio Current into the NSCS. We used an isopycnal mixing model to quantitatively assess the extent of the Kuroshio intrusion into the NSCS and found that bacterial abundance, production, and growth efficiency were unimodal functions of the fraction of Kuroshio water. Values were maximal at ~60% Kuroshio water and decreased monotonically as the percent of Kuroshio water deviated from 60%. The patterns of gross primary production and nitrate concentration were similar, but the peaks occurred at ~50% Kuroshio water. The Kuroshio intrusion, however, had little impact on bacterial and community respiration. The observed elevation of nitrate concentrations at ~50% Kuroshio water was quantitatively consistent with estimates of the amount of inorganic nitrogen released by remineralization of dissolved organic nitrogen by bacteria. Based on these observations, we hypothesize that dissolved organic matter (DOM) in the Kuroshio water stimulates bacterial activity, and catabolism of the DOM releases inorganic nutrients that stimulate primary production in the NSCS basin. The concomitant elevation of net community production subsequently enhances export production and thereby strengthens the biological pump in the nitrogen‐limited NSCS basin. Recognition of this mechanism underscores the role of horizontal currents in regional carbon and nitrogen cycles and broadens understanding of the processes that sustain export production in the oligotrophic ocean.

KW - microbial metabolism

KW - bacteria

KW - net community production

KW - Kuroshio current intrusion

KW - Northern South China Sea

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