Article, 2024
Terrestrial dissolved organic matter inputs accompanied by dissolved oxygen depletion and declining pH exacerbate CO2 emissions from a major Chinese reservoir
Water Research,
ISSN
1879-2448,
0043-1354,
Volume 251,
Page 121155,
10.1016/j.watres.2024.121155
Contributors
Zhang, Ting
[1]
[2]
Zhou, Lei
0000-0001-5209-2830
(Corresponding author)
[1]
[3]
Zhou, Yongqiang
0000-0003-1402-345X
[1]
[2]
Zhang, Yunlin
0000-0002-3382-4570
[1]
[2]
Guo, Jinxin
[4]
Han, Yicai
[5]
Zhang, Yayan
[4]
Hu, Liang
[4]
Jang, Kyoung-Soon
0000-0001-5451-5788
[6]
Spencer, Robert G M
0000-0003-0777-0748
[7]
Brookes, Justin D
0000-0001-8408-9142
[8]
Dolfing, Jan
0000-0002-7220-530X
[9]
Jeppesen, Erik
0000-0002-0542-369X
[10]
[11]
[12]
[13]
Affiliations
- [1]
Chinese Academy of Sciences
[NORA names:
China; Asia, East];
- [2]
Nanjing Institute of Geography and Limnology
[NORA names:
China; Asia, East];
- [3]
Institute of Soil Science
[NORA names:
China; Asia, East];
- [4]
Chun'an Branch Office, Hangzhou Ecological Environment Bureau, Chun'an 311700, China.
[NORA names:
China; Asia, East];
- [5]
Hangzhou Academy of Ecological and Environmental Sciences, Hangzhou 310005, China.
[NORA names:
China; Asia, East];
(... more)
- [6]
Korea Basic Science Institute
[NORA names:
South Korea; Asia, East; OECD];
- [7]
Florida State University
[NORA names:
United States; America, North; OECD];
- [8]
University of Adelaide
[NORA names:
Australia; Oceania; OECD];
- [9]
Northumbria University
[NORA names:
United Kingdom; Europe, Non-EU; OECD];
- [10]
Aarhus University
[NORA names:
AU Aarhus University;
University; Denmark; Europe, EU; Nordic; OECD];
- [11]
Middle East Technical University
[NORA names:
Turkey; Asia, Middle East; OECD];
- [12]
Sino-Danish Centre for Education and Research
[NORA names:
China; Asia, East];
- [13]
Yunnan University
[NORA names:
China; Asia, East]
(less)
Abstract
Terrestrial inputs and subsequent degradation of dissolved organic matter (DOM) in lake ecosystems can result in rapid depletion of dissolved oxygen (DO). Inputs of terrestrial DOM including organic acids can also lead to decreases in pH. However, to date, few studies have investigated the linkages between terrestrial DOM inputs, DO and pH levels in the water column, and carbon dioxide (CO2) emissions from lake ecosystems. Based on monthly field sampling campaigns across 100 sites in Lake Qiandao, a major man-made drinking water reservoir in China, from May 2020 to April 2021, we estimated an annual CO2 efflux (FCO2) of 37.2 ± 29.0 gC m-2 yr-1, corresponding to 0.02 ± 0.02 TgC yr-1 from this lake. FCO2 increased significantly with decreasing DO, chlorophyll-a (Chl-a) and δ2H-H2O, while FCO2 increased with increasing specific UV absorbance (SUVA254) and a terrestrial humic-like component (C2). We found that DO concentration and pH declined with increasing terrestrial DOM inputs, i.e. increased SUVA254 and terrestrial humic-like C2 levels. Vertical profile sampling revealed that the partial pressure of CO2 (pCO2) increased with increasing terrestrial DOM fluorescence (FDOM), while DO, pH, and δ13C-CO2 declined with increasing terrestrial FDOM. These results highlight the importance of terrestrial DOM inputs in altering physico-chemical environments and fueling CO2 emissions from this lake and potentially other aquatic ecosystems.
Keywords
C2,
C2 levels,
CO2 emissions,
China,
Chinese reservoirs,
Chl-a,
DO concentration,
DOM fluorescence,
DOM inputs,
FCO,
FDOM,
Lake Qiandao,
SUVA,
UV absorbance,
absorber,
acid,
aquatic ecosystems,
campaign,
carbon,
carbon dioxide,
chlorophyll-a,
column,
components,
concentration,
decreasing DO,
degradation,
degradation of dissolved organic matter,
depletion,
depletion of dissolved oxygen,
dioxide,
dissolved oxygen depletion,
drinking water reservoirs,
ecosystem,
efflux,
emission,
environment,
field sampling campaign,
fluorescence,
humic-like components,
i.,
input,
lake,
lake ecosystems,
levels,
linkage,
matter,
matter input,
organic acids,
organic matter,
organic matter input,
oxygen,
oxygen depletion,
pH,
pH levels,
partial pressure,
physico-chemical environment,
pressure,
profile samples,
reservoir,
results,
samples,
sampling campaigns,
sites,
specific UV absorbance,
study,
terrestrial DOM inputs,
terrestrial humic-like components,
terrestrial input,
vertical profile samples,
water,
water column,
water reservoirs
Funders
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