Root iron plaque abundance as an indicator of carbon decomposition rates in a tidal freshwater wetland in response to salinity and flooding

Sea-level rise is projected to influence soil carbon (C) stocks in tidal wetland systems. Although soil C and iron cycling are considered to be related in tidal wetlands, the empirical link between root ferric iron [Fe(III)] plaque formation and C decomposition in response to salinity and flooding i...

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Published inSoil biology & biochemistry Vol. 162; p. 108403
Main Authors Liu, Yuxiu, Luo, Min, Chen, Ji, Ye, Rongzhong, Tan, Ji, Zhai, Zhifeng, Yang, Yang, Huang, Jiafang
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.11.2021
Subjects
Extracellular enzyme activity
Microbial ferric iron reduction
Mineralization
Root ferric iron plaque
Sea-level rise
Tidal wetland soils
Microbial ferric iron reduction
Extracellular enzyme activity
Tidal wetland soils
Root ferric iron plaque
Mineralization
Sea-level rise
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Abstract Sea-level rise is projected to influence soil carbon (C) stocks in tidal wetland systems. Although soil C and iron cycling are considered to be related in tidal wetlands, the empirical link between root ferric iron [Fe(III)] plaque formation and C decomposition in response to salinity and flooding is scarcely known. Here, we established mesocosms loaded with soils from a tidal freshwater wetland and subjected to three salinity treatments (fresh control, oligohaline, mesohaline) plus three flooding (i.e., flooding water-level height) treatments. Root Fe(III) plaque abundance, C-degrading enzyme activities, and potential C mineralization rates (CMRs) and microbial Fe(III) reduction rates (FeRRs) were simultaneously quantified. The oligohaline treatment elevated root Fe(III) plaque abundance relative to fresh control, while the mesohaline treatment suppressed it. Owing to high abundance of root Fe(III) plaque, microbial Fe(III) reduction predominated C mineralization in the oligohaline treatment (56 ± 7%). However, the importance of microbial Fe(III) reduction decreased by up to 25 ± 5% in the mesohaline treatment due to inhibition by salinity. The potential CMRs increased by 17% from fresh control to oligohaline treatment, but declined by 27% from fresh control to mesohaline treatment. The potential CMRs were affected by potential FeRRs and C-degrading enzyme activities. The latter two were associated with root Fe(III) plaque abundance. These results together showed that root Fe(III) plaque abundance was linked to potential CMRs in response to salinity. Flooding did not affect root Fe(III) plaque abundance and had much less of an effect on potential CMRs compared to salinity. Altogether, root Fe(III) plaque abundance could be as an indicator of C decomposition rates in tidal freshwater wetland soils in response to salinity and flooding. Future C decomposition prediction models under sea-level rise could embed root Fe(III) plaque abundance as an indicator for integrating plant-microbe-soil interaction into models. [Display omitted] •Root Fe(III) plaque abundance responds differently across salinity levels.•Root Fe(III) plaque abundance is related with microbial Fe(III) reduction rates.•Root Fe(III) plaque abundance is linked to the C-degrading enzyme activities.•Root Fe(III) plaque abundance could be an indicator of soil carbon decomposition.
AbstractList Sea-level rise is projected to influence soil carbon (C) stocks in tidal wetland systems. Although soil C and iron cycling are considered to be related in tidal wetlands, the empirical link between root ferric iron [Fe(III)] plaque formation and C decomposition in response to salinity and flooding is scarcely known. Here, we established mesocosms loaded with soils from a tidal freshwater wetland and subjected to three salinity treatments (fresh control, oligohaline, mesohaline) plus three flooding (i.e., flooding water-level height) treatments. Root Fe(III) plaque abundance, C-degrading enzyme activities, and potential C mineralization rates (CMRs) and microbial Fe(III) reduction rates (FeRRs) were simultaneously quantified. The oligohaline treatment elevated root Fe(III) plaque abundance relative to fresh control, while the mesohaline treatment suppressed it. Owing to high abundance of root Fe(III) plaque, microbial Fe(III) reduction predominated C mineralization in the oligohaline treatment (56 ± 7%). However, the importance of microbial Fe(III) reduction decreased by up to 25 ± 5% in the mesohaline treatment due to inhibition by salinity. The potential CMRs increased by 17% from fresh control to oligohaline treatment, but declined by 27% from fresh control to mesohaline treatment. The potential CMRs were affected by potential FeRRs and C-degrading enzyme activities. The latter two were associated with root Fe(III) plaque abundance. These results together showed that root Fe(III) plaque abundance was linked to potential CMRs in response to salinity. Flooding did not affect root Fe(III) plaque abundance and had much less of an effect on potential CMRs compared to salinity. Altogether, root Fe(III) plaque abundance could be as an indicator of C decomposition rates in tidal freshwater wetland soils in response to salinity and flooding. Future C decomposition prediction models under sea-level rise could embed root Fe(III) plaque abundance as an indicator for integrating plant-microbe-soil interaction into models. [Display omitted] •Root Fe(III) plaque abundance responds differently across salinity levels.•Root Fe(III) plaque abundance is related with microbial Fe(III) reduction rates.•Root Fe(III) plaque abundance is linked to the C-degrading enzyme activities.•Root Fe(III) plaque abundance could be an indicator of soil carbon decomposition.
ArticleNumber 108403
Author Luo, Min
Tan, Ji
Zhai, Zhifeng
Chen, Ji
Ye, Rongzhong
Huang, Jiafang
Yang, Yang
Liu, Yuxiu
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  givenname: Yang
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  surname: Yang
  fullname: Yang, Yang
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  givenname: Jiafang
  surname: Huang
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  organization: Key Laboratory of Humid Subtropical Eco-Geographical Process, Ministry of Education, Fujian Normal University, Fuzhou, 350007, China
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Keywords Microbial ferric iron reduction
Extracellular enzyme activity
Tidal wetland soils
Root ferric iron plaque
Mineralization
Sea-level rise
Language English
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Snippet Sea-level rise is projected to influence soil carbon (C) stocks in tidal wetland systems. Although soil C and iron cycling are considered to be related in...
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StartPage 108403
SubjectTerms Extracellular enzyme activity
Microbial ferric iron reduction
Mineralization
Root ferric iron plaque
Sea-level rise
Tidal wetland soils
Title Root iron plaque abundance as an indicator of carbon decomposition rates in a tidal freshwater wetland in response to salinity and flooding
URI https://dx.doi.org/10.1016/j.soilbio.2021.108403
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