Wastewater-boosted biodegradation amplifying seasonal variations of pCO₂ in the Mekong–Tonle Sap river system

Water pollution disrupts the ecological integrity of urbanized river systems, but its impacts on riverine metabolic processes and carbon fluxes are poorly studied in developing countries. Three seasonal field surveys were combined with two high-resolution measurements and an in situ incubation exper...

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Bibliographic Details
Published in:Biogeochemistry 2021-09, Vol.155 (2), p.219-235
Main Authors: Park, Ji-Hyung, Jin, Hyojin, Yoon, Tae Kyung, Begum, Most Shirina, Chea, Eliyan, Lee, Eun-Ju, Lee, Seung-Cheol, Oh, Neung-Hwan
Format: Article
Language:English
Subjects:
Biodegradation
Biogeosciences
Carbon dioxide
Carbon dioxide emissions
Developing countries
Dissolved organic carbon
Dry season
Earth and Environmental Science
Earth Sciences
Ecosystem integrity
Ecosystems
Emissions
Environmental Chemistry
Flooding
Floods
Floodwater
Fluorescence
High resolution
Incubation period
LDCs
Life Sciences
Monsoons
Organic matter
ORIGINAL PAPERS
Partial pressure
Photosynthesis
Phytoplankton
Polls & surveys
Resolution
River basins
River systems
River water
Rivers
Seasonal variation
Seasonal variations
Seasons
Sewage
Spatial variations
Surveying
Surveys
Uptake
Wastewater
Water pollution
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Summary:Water pollution disrupts the ecological integrity of urbanized river systems, but its impacts on riverine metabolic processes and carbon fluxes are poorly studied in developing countries. Three seasonal field surveys were combined with two high-resolution measurements and an in situ incubation experiment to investigate the effects of untreated wastewater on organic matter biodegradation and the partial pressure of CO₂ (pCO₂) along the Mekong–Tonle Sap network around Phnom Penh. High-resolution measurements during the dry-season survey exhibited large downstream increases in pCO₂ along the Mekong reaches receiving Tonle Sap inflows carrying urban sewage, contrasting with little spatial variation during a monsoon survey when the Mekong floodwater reversed the Tonle Sap flow. The monsoonal and dry-season surveys revealed flooding-induced homogenization and large spatial divergences in dissolved organic carbon (DOC) concentration and its δ¹³C and Δ¹⁴C between the Tonle Sap and connected Mekong reaches. During the 3-day incubation of Mekong waters, alone or mixed with sewage, a large initial nocturnal increase in pCO₂ in sewage-supplemented river water exceeded the subsequent daytime CO₂ uptake by phytoplankton photosynthesis varying with light exposure. This, combined with the preferential consumption of labile DOC components displaying protein-like fluorescence, implies sewage-enhanced biodegradation of riverine organic matter. These results suggest that neglecting wastewater-enhanced CO₂ production in urbanized river basins during long dry periods can result in a significant underestimation of riverine CO₂ emissions.
ISSN:0168-2563
1573-515X
DOI:10.1007/s10533-021-00823-6