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Anthropogenic Nitrogen‐Induced Changes in Seasonal Carbonate Dynamics in a Productive Coastal Environment
Author(s) -
Kim JaMyung,
Lee Kitack,
Han InSeong,
Lee JoonSoo,
Choi YangHo,
Lee Ju Hyeon,
Moon JiYoung
Publication year - 2020
Publication title -
geophysical research letters
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.007
H-Index - 273
eISSN - 1944-8007
pISSN - 0094-8276
DOI - 10.1029/2020gl088232
Subject(s) - aragonite , remineralisation , dissolved organic carbon , carbonate , organic matter , phytoplankton , surface water , saturation (graph theory) , nitrogen , oceanography , environmental science , seafloor spreading , environmental chemistry , carbonate minerals , geology , chemistry , nutrient , inorganic chemistry , environmental engineering , fluoride , mathematics , organic chemistry , combinatorics
We estimated the seasonal extremes in pH and the aragonite saturation state (Ω arag ) for the Yellow Sea over the past 30 years using recent (2015–2018) carbonate data sets, along with historical data sets of surface N and bottom water dissolved O 2 concentrations. The rate of increase in surface N was assumed to determine the postbloom surface dissolved inorganic C concentration resulting from the complete utilization of N by phytoplankton, while the decrease in bottom water O 2 was assumed to reflect the prebloom surface C, as a consequence of C‐rich bottom water (resulting from the oxidation of greater amounts of organic matter transported from the surface) being brought to the surface. With the increasing loads of anthropogenic N, the net community metabolism (an increase in organic matter production at the surface and subsequent remineralization at the seafloor) has lowered the seasonal amplitude of pH by 0.14 but increased the amplitude of Ω arag by 0.8.