Effect of inundation on greenhouse gas emissions from temperate coastal wetland soils with different vegetation types in southern Australia

Predicted sea level fluctuations and sea level rise with climate change will lead to inundation of coastal and estuarine soils. Coastal wetlands usually contain large amounts of organic matter, which can be potential sources of greenhouse gas emissions (GHGs; CO2, CH4, N2O) during decomposition, but...

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Published inThe Science of the total environment Vol. 763; p. 142949
Main Authors Xu, C., Wong, V.N.L., Reef, R.E.
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 01.04.2021
Subjects
Coastal wetland
Greenhouse gases
Herbaceous vegetation
Inundation
Redox potential
Soil organic carbon
Woody vegetation
Woody vegetation
Herbaceous vegetation
Coastal wetland
Redox potential
Soil organic carbon
Greenhouse gases
Inundation
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Abstract Predicted sea level fluctuations and sea level rise with climate change will lead to inundation of coastal and estuarine soils. Coastal wetlands usually contain large amounts of organic matter, which can be potential sources of greenhouse gas emissions (GHGs; CO2, CH4, N2O) during decomposition, but there are limited studies on the effects of sea level variation on GHGs in coastal wetlands. We measured the effect of brackish water inundation and wetting and drying cycles on GHG emissions from coastal wetland soil cores that supported four different vegetation types: Apium gravedens (AG), Leptospermum lanigerum (LL), Phragmites australis (PA) and Paspalum distichum (PD) from the estuarine floodplain of the Aire River in south-western Victoria, Australia. Intact soil cores were incubated under either dry, flooded, or a 14 day wet-dry cycle treatments for a total of 56 days at a constant temperature of 23 °C. CO2, CH4, and N2O fluxes were investigated in closed chambers and measured with gas chromatography. In the dry treatment, a positive correlation was found between soil organic carbon (SOC) and CO2 flux, and between SOC and CH4 flux. Higher SOC is indicative of higher amounts of soil organic matter (SOM) which acts as a source of substrate for microbes to produce CO2 or CH4 emissions under aerobic or anaerobic conditions. The NO2− and NO3− concentrations were positively correlated with N2O emissions in the wet-dry cycle treatment. NO2− and NO3− provide a supply of substrate for denitrification. The flooded treatment decreased cumulative CO2 emissions by 34%, 25% and 14% at the LL, PA, PD sites, respectively, and decreased cumulative N2O emissions by 42%, 39% and 43% at the AG, LL and PA sites, compared to the dry treatment. The wet-dry cycle treatment and dry treatment decreased cumulative CH4 emissions for all vegetation types compared to the flooded treatment. The redox potential (Eh) was negatively correlated with CH4 flux and positively correlated N2O flux at all sites. This study highlights the significance of sea level fluctuations when estimating GHG flux from coastal and estuarine floodplains which are highly vulnerable to inundation, and the role of SOC and mineral N as important drivers affecting GHG flux. [Display omitted] •Coastal wetlands usually contain large amounts of organic matter which can be potential sources of greenhouse gas emissions•We subjected soil cores to three inundation treatments; dry, flooded and wet-dry cycles from four vegetation types•Positive correlations were found between soil organic carbon and CO2 flux, and SOC and CH4 flux.•NO2- and NO3- concentrations were positively correlated with N2O emissions when subjected to wet-dry cycles.•Inundation decreased cumulative CO2 emissions and N2O emissions, but increased CH4 emissions.
AbstractList Predicted sea level fluctuations and sea level rise with climate change will lead to inundation of coastal and estuarine soils. Coastal wetlands usually contain large amounts of organic matter, which can be potential sources of greenhouse gas emissions (GHGs; CO , CH , N O) during decomposition, but there are limited studies on the effects of sea level variation on GHGs in coastal wetlands. We measured the effect of brackish water inundation and wetting and drying cycles on GHG emissions from coastal wetland soil cores that supported four different vegetation types: Apium gravedens (AG), Leptospermum lanigerum (LL), Phragmites australis (PA) and Paspalum distichum (PD) from the estuarine floodplain of the Aire River in south-western Victoria, Australia. Intact soil cores were incubated under either dry, flooded, or a 14 day wet-dry cycle treatments for a total of 56 days at a constant temperature of 23 °C. CO , CH , and N O fluxes were investigated in closed chambers and measured with gas chromatography. In the dry treatment, a positive correlation was found between soil organic carbon (SOC) and CO flux, and between SOC and CH flux. Higher SOC is indicative of higher amounts of soil organic matter (SOM) which acts as a source of substrate for microbes to produce CO or CH emissions under aerobic or anaerobic conditions. The NO and NO concentrations were positively correlated with N O emissions in the wet-dry cycle treatment. NO and NO provide a supply of substrate for denitrification. The flooded treatment decreased cumulative CO emissions by 34%, 25% and 14% at the LL, PA, PD sites, respectively, and decreased cumulative N O emissions by 42%, 39% and 43% at the AG, LL and PA sites, compared to the dry treatment. The wet-dry cycle treatment and dry treatment decreased cumulative CH emissions for all vegetation types compared to the flooded treatment. The redox potential (Eh) was negatively correlated with CH flux and positively correlated N O flux at all sites. This study highlights the significance of sea level fluctuations when estimating GHG flux from coastal and estuarine floodplains which are highly vulnerable to inundation, and the role of SOC and mineral N as important drivers affecting GHG flux.
Predicted sea level fluctuations and sea level rise with climate change will lead to inundation of coastal and estuarine soils. Coastal wetlands usually contain large amounts of organic matter, which can be potential sources of greenhouse gas emissions (GHGs; CO2, CH4, N2O) during decomposition, but there are limited studies on the effects of sea level variation on GHGs in coastal wetlands. We measured the effect of brackish water inundation and wetting and drying cycles on GHG emissions from coastal wetland soil cores that supported four different vegetation types: Apium gravedens (AG), Leptospermum lanigerum (LL), Phragmites australis (PA) and Paspalum distichum (PD) from the estuarine floodplain of the Aire River in south-western Victoria, Australia. Intact soil cores were incubated under either dry, flooded, or a 14 day wet-dry cycle treatments for a total of 56 days at a constant temperature of 23 °C. CO2, CH4, and N2O fluxes were investigated in closed chambers and measured with gas chromatography. In the dry treatment, a positive correlation was found between soil organic carbon (SOC) and CO2 flux, and between SOC and CH4 flux. Higher SOC is indicative of higher amounts of soil organic matter (SOM) which acts as a source of substrate for microbes to produce CO2 or CH4 emissions under aerobic or anaerobic conditions. The NO2− and NO3− concentrations were positively correlated with N2O emissions in the wet-dry cycle treatment. NO2− and NO3− provide a supply of substrate for denitrification. The flooded treatment decreased cumulative CO2 emissions by 34%, 25% and 14% at the LL, PA, PD sites, respectively, and decreased cumulative N2O emissions by 42%, 39% and 43% at the AG, LL and PA sites, compared to the dry treatment. The wet-dry cycle treatment and dry treatment decreased cumulative CH4 emissions for all vegetation types compared to the flooded treatment. The redox potential (Eh) was negatively correlated with CH4 flux and positively correlated N2O flux at all sites. This study highlights the significance of sea level fluctuations when estimating GHG flux from coastal and estuarine floodplains which are highly vulnerable to inundation, and the role of SOC and mineral N as important drivers affecting GHG flux. [Display omitted] •Coastal wetlands usually contain large amounts of organic matter which can be potential sources of greenhouse gas emissions•We subjected soil cores to three inundation treatments; dry, flooded and wet-dry cycles from four vegetation types•Positive correlations were found between soil organic carbon and CO2 flux, and SOC and CH4 flux.•NO2- and NO3- concentrations were positively correlated with N2O emissions when subjected to wet-dry cycles.•Inundation decreased cumulative CO2 emissions and N2O emissions, but increased CH4 emissions.
ArticleNumber 142949
Author Xu, C.
Wong, V.N.L.
Reef, R.E.
Author_xml – sequence: 1
  givenname: C.
  surname: Xu
  fullname: Xu, C.
– sequence: 2
  givenname: V.N.L.
  surname: Wong
  fullname: Wong, V.N.L.
  email: vanessa.wong@monash.edu
– sequence: 3
  givenname: R.E.
  surname: Reef
  fullname: Reef, R.E.
BackLink https://www.ncbi.nlm.nih.gov/pubmed/33131859$$D View this record in MEDLINE/PubMed
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Keywords Woody vegetation
Herbaceous vegetation
Coastal wetland
Redox potential
Soil organic carbon
Greenhouse gases
Inundation
Language English
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Snippet Predicted sea level fluctuations and sea level rise with climate change will lead to inundation of coastal and estuarine soils. Coastal wetlands usually...
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SubjectTerms Coastal wetland
Greenhouse gases
Herbaceous vegetation
Inundation
Redox potential
Soil organic carbon
Woody vegetation
Title Effect of inundation on greenhouse gas emissions from temperate coastal wetland soils with different vegetation types in southern Australia
URI https://dx.doi.org/10.1016/j.scitotenv.2020.142949
https://www.ncbi.nlm.nih.gov/pubmed/33131859
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