Differentiated mechanisms of biochar- and straw-induced greenhouse gas emissions in tobacco fields

Addition of biochar and straw has constituted an effective way to improve soil fertility in tobacco fields. However, little is known about the effects of these amendments on CH4 and N2O emissions and their potential microbial mechanisms. Here, we conducted an experiment in tobacco-planted soil using...

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Published inApplied soil ecology : a section of Agriculture, ecosystems & environment Vol. 166; p. 103996
Main Authors He, Tiantian, Yun, Fei, Liu, Tian, Jin, Jiawei, Yang, Yang, Fu, Yunpeng, Wang, Jing
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.10.2021
Subjects
Biochar
Denitrification
Methane emissions
Nitrous oxide emissions
Organic amendment
CEC
SMBN
BD
BF
Nitrous oxide emissions
F
GHG
Methane emissions
TOC
Biochar
AOA
SF
AOB
BSF
Denitrification
SMBC
Organic amendment
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Abstract Addition of biochar and straw has constituted an effective way to improve soil fertility in tobacco fields. However, little is known about the effects of these amendments on CH4 and N2O emissions and their potential microbial mechanisms. Here, we conducted an experiment in tobacco-planted soil using four treatments: mineral fertilizers only (F), biochar with mineral fertilizers (BF), wheat straw with mineral fertilizers (SF), and biochar + wheat straw with mineral fertilizers (BSF). Soil physical and chemical parameters, nitrous oxide (N2O) and methane (CH4) emissions, and the related microorganisms and functional genes (pmoA, mcrA, amoA, nirS, nirK, and nosZ) were analyzed. The results showed that biochar and straw addition significantly increased the uptake of CH4 by 34.2%, 9.3%, and 22.1%, respectively, and significantly increased the relative abundance of pmoA. Compared to the F treatment, the SF and BSF treatments significantly increased cumulative N2O emissions by 1.2- and 1.1-fold, respectively, while the BF treatment significantly decreased N2O emissions from the soil by almost 30%. Correspondingly, decreased relative abundance of amoA-ammonia-oxidizing archaea (AOA), nirS, nirK, and nosZ genes in response to biochar amendment were observed, whereas the relative abundance of amoA- ammonia-oxidizing bacteria (AOB) increased. Conversely, straw addition increased the relative abundance of amoA-AOA and nirS, nirK, and nosZ. Compared to SF, BSF significantly increased the relative abundance of nosZ and decreased the number of denitrifying bacteria. A structural equation model indicated that the important factors affecting N2O emissions were NH4+-N, NO3−-N, pH, and amoA-AOA and nirK genes, while the important factors affecting CH4 emissions were bulk density, pH, SMBC, and pmoA and mcrA genes. Biochar amendment could significantly reduce CH4 and N2O emissions by regulating functional microorganisms and soil physicochemical properties. By contrast, returning straw to the field would increase N2O emissions by increasing the relative abundance of denitrification-related genes. •Biochar and straw amendment significantly increased uptake of CH4 in soil.•Straw increased N2O emissions; biochar decreased N2O emissions and NH4+-N•Biochar decreased amoA-AOA and denitrification-related gene relative expressions.•Straw increased pmoA, mcrA, and denitrification-related gene relative expressions.
AbstractList Addition of biochar and straw has constituted an effective way to improve soil fertility in tobacco fields. However, little is known about the effects of these amendments on CH4 and N2O emissions and their potential microbial mechanisms. Here, we conducted an experiment in tobacco-planted soil using four treatments: mineral fertilizers only (F), biochar with mineral fertilizers (BF), wheat straw with mineral fertilizers (SF), and biochar + wheat straw with mineral fertilizers (BSF). Soil physical and chemical parameters, nitrous oxide (N2O) and methane (CH4) emissions, and the related microorganisms and functional genes (pmoA, mcrA, amoA, nirS, nirK, and nosZ) were analyzed. The results showed that biochar and straw addition significantly increased the uptake of CH4 by 34.2%, 9.3%, and 22.1%, respectively, and significantly increased the relative abundance of pmoA. Compared to the F treatment, the SF and BSF treatments significantly increased cumulative N2O emissions by 1.2- and 1.1-fold, respectively, while the BF treatment significantly decreased N2O emissions from the soil by almost 30%. Correspondingly, decreased relative abundance of amoA-ammonia-oxidizing archaea (AOA), nirS, nirK, and nosZ genes in response to biochar amendment were observed, whereas the relative abundance of amoA- ammonia-oxidizing bacteria (AOB) increased. Conversely, straw addition increased the relative abundance of amoA-AOA and nirS, nirK, and nosZ. Compared to SF, BSF significantly increased the relative abundance of nosZ and decreased the number of denitrifying bacteria. A structural equation model indicated that the important factors affecting N2O emissions were NH4+-N, NO3−-N, pH, and amoA-AOA and nirK genes, while the important factors affecting CH4 emissions were bulk density, pH, SMBC, and pmoA and mcrA genes. Biochar amendment could significantly reduce CH4 and N2O emissions by regulating functional microorganisms and soil physicochemical properties. By contrast, returning straw to the field would increase N2O emissions by increasing the relative abundance of denitrification-related genes. •Biochar and straw amendment significantly increased uptake of CH4 in soil.•Straw increased N2O emissions; biochar decreased N2O emissions and NH4+-N•Biochar decreased amoA-AOA and denitrification-related gene relative expressions.•Straw increased pmoA, mcrA, and denitrification-related gene relative expressions.
ArticleNumber 103996
Author Yun, Fei
Jin, Jiawei
Liu, Tian
Fu, Yunpeng
He, Tiantian
Yang, Yang
Wang, Jing
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  fullname: Liu, Tian
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  givenname: Yang
  surname: Yang
  fullname: Yang, Yang
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  givenname: Yunpeng
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  email: yunpengfu@henau.edu.cn
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  surname: Wang
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  email: jingwang040922@henau.edu.cn
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Keywords CEC
SMBN
BD
BF
Nitrous oxide emissions
F
GHG
Methane emissions
TOC
Biochar
AOA
SF
AOB
BSF
Denitrification
SMBC
Organic amendment
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Snippet Addition of biochar and straw has constituted an effective way to improve soil fertility in tobacco fields. However, little is known about the effects of these...
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StartPage 103996
SubjectTerms Biochar
Denitrification
Methane emissions
Nitrous oxide emissions
Organic amendment
Title Differentiated mechanisms of biochar- and straw-induced greenhouse gas emissions in tobacco fields
URI https://dx.doi.org/10.1016/j.apsoil.2021.103996
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