Wetlands play an important role in the global carbon cycle as they can be sources or sinks for greenhouse gases.Groundwater discharge into wetlands can affect the water chemistry and act as a source of dissolved greenhouse gases,including CO2 and CH4.In this study,surface water quality parameters and CO2 and CH4 concentrations were evaluated in a tidal wetland(Hunter Wetlands National Park,Australia)using time series measurements.Radon(222Rn),a natural ground water tracer,was used to investigate the role of groundwater as a pathway for transporting dissolved CO2 and CH4 into the wetland.In addition,water-to-air CO2 and CH4 fluxes from the wetland were also estimated.The results showed a high concentration of radon in wetland surface water,indicating the occurrence of ground water discharge.Radon concentration had a strong negative relationship with water depth with a determination coefficient(R2)of 0.7,indicating that tidal pumping was the main driver of groundwater discharge to the wetland.Radon concentration also showed a positive relationship with CO2 and CH4 concentrations(R2=0.4 and 0.5,respectively),while the time series data revealed that radon,CO2,and CH4 concentrations peaked concurrently during low tides.This implied that groundwater discharge was a source of CO2 and CH4 to the wetland.The wetland had an average water-to-air CO2 flux of 99.1 mmol/(m2·d),twice higher than the global average CO2 flux from wetlands.The average CH4 flux from the wetland was estimated to be 0.3 mmol/(m2 d),which is at the higher end of the global CH4 flux range for wetlands.The results showed that groundwater discharge could be an important,yet unaccounted source of CO2 and CH4 to tidal wetlands.This work has implications for tidal wetland carbon budgets and emphasizes the role of groundwater as a subsurface pathway for carbon transport.

Zhi-lin Wang;Mahmood Sadat-Noori;William Glamore

Water Research Laboratory,School of Civil&Environmental Engineering,University of New South Wales Sydney,Sydney,NSW 2052,Australia

水科学与水工程

[1]Zhi-lin Wang;Mahmood Sadat-Noori;William Glamore-.Groundwater discharge drives water quality and greenhouse gas emissions in a tidal wetland)[J].水科学与水工程,2022(02):141-151

unaccounted

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