Reassessing the greenhouse effect of biogenic carbon emissions in constructed wetlands
Liping Hu, Ziqian Li, Lingwei Kong, Jun Wei, Junjun Chang, Wenqing Shi
Abstract
Biogenic carbon emissions , including carbon dioxide (CO 2 ) and methane (CH 4 ), have emerged as a major concern during organic pollutant degradation within constructed wetlands (CWs). Since these organic compounds primarily originate from the photosynthetic fixation of atmospheric CO 2 , it potentially introduces uncertainty when assessing the greenhouse effect of biogenic carbon emissions in CWs based on direct field observations. To objectively assessing this effect, this study proposed a new strategy by quantifying CO 2 -equivalent (CO 2 -eq) changes as carbon passes through CWs and tested it in various types of CWs based on 64 literature records. The findings reveal that CWs can contribute to CO 2 -eq additions, yet are only responsible for 15.6% derived from direct field observations. The type of CWs plays a crucial role in these CO 2 -eq additions, with vertical flow CWs causing the lowest levels (6.8%), followed by surface flow CWs (14.2%). In contrast, horizontal flow CWs are associated with the strongest CO 2 -eq addition (25.7%). The findings provide new insights for the objective assessment of the greenhouse effect of biogenic carbon emissions in CWs, which will be beneficial for future life cycle assessment .