Biogeosciences (Jan 2014)

Distinct bacterial-production–DOC–primary-production relationships and implications for biogenic C cycling in the South China Sea shelf

  • C.-C. Lai,
  • Y.-W. Fu,
  • H.-B. Liu,
  • H.-Y. Kuo,
  • K.-W. Wang,
  • C.-H. Lin,
  • J.-H. Tai,
  • G. T. F. Wong,
  • K.-Y. Lee,
  • T.-Y. Chen,
  • Y. Yamamoto,
  • M.-F. Chow,
  • Y. Kobayashi,
  • C.-Y. Ko,
  • F.-K. Shiah

DOI
https://doi.org/10.5194/bg-11-147-2014
Journal volume & issue
Vol. 11, no. 1
pp. 147 – 156

Abstract

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Based on two summer spatio-temporal data sets obtained from the northern South China Sea shelf and basin, this study reveals contrasting relationships among bacterial production (BP), dissolved organic (DOC) and primary production (PP) in the transition zone from the neritic to the oceanic regions. Inside the mid-shelf (bottom depth 100 days in the outer shelf, indicating that riverine (Pearl River) DOC might be more labile. The actual mechanism for this is unknown, but might relate to higher inorganic nutrient supply from river/terrestrial sources. The positive correlation of the BP / PP ratios vs. phosphate (and nitrate) concentrations in the inner shelf implies that if anthropogenic mineral loading keeps increasing in the foreseeable future, the near-shore zone may become more heterotrophic, rendering the system a stronger source of CO2.