Jiangong Liu scite author profile

The role of coastal mangrove wetlands in sequestering atmospheric carbon dioxide (CO 2) and mitigating climate change has received increasing attention in recent years. While recent studies have shown that methane (CH 4) emissions can potentially offset the carbon burial rates in low-salinity coastal wetlands, there is hitherto a paucity of direct and year-round measurements of ecosystem-scale CH 4 flux (F CH4) from mangrove ecosystems. In this study, we examined the temporal variations and biophysical drivers of ecosystem-scale F CH4 in a subtropical estuarine mangrove wetland based on 3 years of eddy covariance measurements. Our results showed that daily mangrove F CH4 reached a peak of over 0.1 g CH 4-C m −2 day −1 during the summertime owing to a combination of high temperature and low salinity, while the wintertime F CH4 was negligible. In this mangrove, the mean annual CH 4 emission was 11.7 ± 0.4 g CH 4-C m-2 year −1 while the annual net ecosystem CO 2 exchange ranged between −891 and −690 g CO 2-C m −2 year −1 , indicating a net cooling effect on climate over decadal to centurial timescales. Meanwhile, we showed that mangrove F CH4 could offset the negative radiative forcing caused by CO 2 uptake by 52% and 24% over a time horizon of 20 and 100 years, respectively, based on the corresponding sustained-flux global warming potentials. Moreover, we found that 87% and 69% of the total variance of daily F CH4 could be explained by the random forest machine learning algorithm and traditional linear regression model, respectively, with soil temperature and salinity being the most dominant controls. This study was the first of its kind to characterize ecosystem-scale F CH4 in a mangrove wetland with longterm eddy covariance measurements. Our findings implied that future environmental changes such as climate warming and increasing river discharge might increase CH 4 emissions and hence reduce the net radiative cooling effect of estuarine mangrove forests.

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A novel pathway of direct methane production and emission by eukaryotes including plants, animals and fungi: An overview

Liu

Chen

Zhu

et al. 2015

Atmospheric Environment

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Organic fertilization increased soil organic carbon stability and sequestration by improving aggregate stability and iron oxide transformation in saline-alkaline soil

et al. 2022

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Robust H<inf>∞</inf> guaranteed cost satisfactory fault-tolerant control for discrete-time systems with quadratic D stabilizability

Han

Liu

Xie

et al. 2010

J. of Syst. Eng. Electron.

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Jiangong Liu

Subtropical mangrove wetland is a stronger carbon dioxide sink in the dry than wet seasons

Methane emissions reduce the radiative cooling effect of a subtropical estuarine mangrove wetland by half

A novel pathway of direct methane production and emission by eukaryotes including plants, animals and fungi: An overview

Organic fertilization increased soil organic carbon stability and sequestration by improving aggregate stability and iron oxide transformation in saline-alkaline soil

Robust H<inf>∞</inf> guaranteed cost satisfactory fault-tolerant control for discrete-time systems with quadratic D stabilizability

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Jiangong Liu

Subtropical mangrove wetland is a stronger carbon dioxide sink in the dry than wet seasons

Methane emissions reduce the radiative cooling effect of a subtropical estuarine mangrove wetland by half

A novel pathway of direct methane production and emission by eukaryotes including plants, animals and fungi: An overview

Organic fertilization increased soil organic carbon stability and sequestration by improving aggregate stability and iron oxide transformation in saline-alkaline soil

Robust H<inf>&#x221E;</inf> guaranteed cost satisfactory fault-tolerant control for discrete-time systems with quadratic D stabilizability

Contact Info

Product

Resources

About

Robust H<inf>∞</inf> guaranteed cost satisfactory fault-tolerant control for discrete-time systems with quadratic D stabilizability