Two-year study of biochar: Achieving excellent capability of potassium supply via alter clay mineral composition and potassium-dissolving bacteria activity

At present, there has been renewed interest in biochar research, but most of them were focused on the short-term effects of biochar and the information of long-term application of biochar is still lacking. In addition, the nutrient mechanism of biochar has rarely been the subject of research. This r...

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Published inThe Science of the total environment Vol. 717; p. 137286
Main Authors Zhang, Mengyang, Riaz, Muhammad, Liu, Bo, Xia, Hao, El-desouki, Zeinab, Jiang, Cuncang
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 15.05.2020
Subjects
acid soils
Bacteria
bacterial communities
Bacterial community
Biochar
cation exchange capacity
Charcoal
Clay
Clay minerals
environmental factors
mineral content
Minerals
organic matter
pathogens
peanut hulls
phosphorus
pollutants
Potassium
potassium fertilizers
Potassium-dissolving bacteria
pyrolysis
Soil
soil bacteria
Sphingomonas
Clay minerals
Potassium-dissolving bacteria
Biochar
Potassium
Bacterial community
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Abstract At present, there has been renewed interest in biochar research, but most of them were focused on the short-term effects of biochar and the information of long-term application of biochar is still lacking. In addition, the nutrient mechanism of biochar has rarely been the subject of research. This research explored the effect of potassium (K) nutrient and the response of bacterial communities to biochar in yellow-brown soil based on two-year experiment. In this study, we used peanut shell biochar obtained by pyrolysis at 400 °C, and at the same time, 0%, 20%, 40%, 100% conventional potassium fertilizer were used. The results indicated that the effective improvement of biochar on acidic soil was long-term and 2% biochar replaced 40% conventional potassium fertilizer. Biochar accelerated the conversion of slowly-available K to available K by changing the composition of clay minerals and promoting the growth of K-dissolving bacteria. From the perspective of bacterial community, biochar significantly increased the relative abundance of Sphingomonas, Gaiella, and Elev-16S-1332, which improved the potential ability of soil to degrade pollutants and inhibit pathogens. The pH, organic matter, cation exchange capacity (CEC), and available phosphorus and potassium were important environmental factors that caused significant effects in the bacterial community of yellow-brown soil. Overall, the study demonstrates that biochar is not only an effective alternative to potash fertilizer but also improves soil bacterial communities. [Display omitted] •This research explored the effect of potassium (K) nutrient and bacterial communities to biochar based on two-year experiment.•2% biochar replaced 40% conventional potassium fertilizer.•Biochar accelerated the conversion of slowly-available K to available K.•Biochar stimulated beneficial changes in bacterial community.
AbstractList At present, there has been renewed interest in biochar research, but most of them were focused on the short-term effects of biochar and the information of long-term application of biochar is still lacking. In addition, the nutrient mechanism of biochar has rarely been the subject of research. This research explored the effect of potassium (K) nutrient and the response of bacterial communities to biochar in yellow-brown soil based on two-year experiment. In this study, we used peanut shell biochar obtained by pyrolysis at 400 °C, and at the same time, 0%, 20%, 40%, 100% conventional potassium fertilizer were used. The results indicated that the effective improvement of biochar on acidic soil was long-term and 2% biochar replaced 40% conventional potassium fertilizer. Biochar accelerated the conversion of slowly-available K to available K by changing the composition of clay minerals and promoting the growth of K-dissolving bacteria. From the perspective of bacterial community, biochar significantly increased the relative abundance of Sphingomonas, Gaiella, and Elev-16S-1332, which improved the potential ability of soil to degrade pollutants and inhibit pathogens. The pH, organic matter, cation exchange capacity (CEC), and available phosphorus and potassium were important environmental factors that caused significant effects in the bacterial community of yellow-brown soil. Overall, the study demonstrates that biochar is not only an effective alternative to potash fertilizer but also improves soil bacterial communities.
At present, there has been renewed interest in biochar research, but most of them were focused on the short-term effects of biochar and the information of long-term application of biochar is still lacking. In addition, the nutrient mechanism of biochar has rarely been the subject of research. This research explored the effect of potassium (K) nutrient and the response of bacterial communities to biochar in yellow-brown soil based on two-year experiment. In this study, we used peanut shell biochar obtained by pyrolysis at 400 °C, and at the same time, 0%, 20%, 40%, 100% conventional potassium fertilizer were used. The results indicated that the effective improvement of biochar on acidic soil was long-term and 2% biochar replaced 40% conventional potassium fertilizer. Biochar accelerated the conversion of slowly-available K to available K by changing the composition of clay minerals and promoting the growth of K-dissolving bacteria. From the perspective of bacterial community, biochar significantly increased the relative abundance of Sphingomonas, Gaiella, and Elev-16S-1332, which improved the potential ability of soil to degrade pollutants and inhibit pathogens. The pH, organic matter, cation exchange capacity (CEC), and available phosphorus and potassium were important environmental factors that caused significant effects in the bacterial community of yellow-brown soil. Overall, the study demonstrates that biochar is not only an effective alternative to potash fertilizer but also improves soil bacterial communities.
At present, there has been renewed interest in biochar research, but most of them were focused on the short-term effects of biochar and the information of long-term application of biochar is still lacking. In addition, the nutrient mechanism of biochar has rarely been the subject of research. This research explored the effect of potassium (K) nutrient and the response of bacterial communities to biochar in yellow-brown soil based on two-year experiment. In this study, we used peanut shell biochar obtained by pyrolysis at 400 °C, and at the same time, 0%, 20%, 40%, 100% conventional potassium fertilizer were used. The results indicated that the effective improvement of biochar on acidic soil was long-term and 2% biochar replaced 40% conventional potassium fertilizer. Biochar accelerated the conversion of slowly-available K to available K by changing the composition of clay minerals and promoting the growth of K-dissolving bacteria. From the perspective of bacterial community, biochar significantly increased the relative abundance of Sphingomonas, Gaiella, and Elev-16S-1332, which improved the potential ability of soil to degrade pollutants and inhibit pathogens. The pH, organic matter, cation exchange capacity (CEC), and available phosphorus and potassium were important environmental factors that caused significant effects in the bacterial community of yellow-brown soil. Overall, the study demonstrates that biochar is not only an effective alternative to potash fertilizer but also improves soil bacterial communities. [Display omitted] •This research explored the effect of potassium (K) nutrient and bacterial communities to biochar based on two-year experiment.•2% biochar replaced 40% conventional potassium fertilizer.•Biochar accelerated the conversion of slowly-available K to available K.•Biochar stimulated beneficial changes in bacterial community.
At present, there has been renewed interest in biochar research, but most of them were focused on the short-term effects of biochar and the information of long-term application of biochar is still lacking. In addition, the nutrient mechanism of biochar has rarely been the subject of research. This research explored the effect of potassium (K) nutrient and the response of bacterial communities to biochar in yellow-brown soil based on two-year experiment. In this study, we used peanut shell biochar obtained by pyrolysis at 400 °C, and at the same time, 0%, 20%, 40%, 100% conventional potassium fertilizer were used. The results indicated that the effective improvement of biochar on acidic soil was long-term and 2% biochar replaced 40% conventional potassium fertilizer. Biochar accelerated the conversion of slowly-available K to available K by changing the composition of clay minerals and promoting the growth of K-dissolving bacteria. From the perspective of bacterial community, biochar significantly increased the relative abundance of Sphingomonas, Gaiella, and Elev-16S-1332, which improved the potential ability of soil to degrade pollutants and inhibit pathogens. The pH, organic matter, cation exchange capacity (CEC), and available phosphorus and potassium were important environmental factors that caused significant effects in the bacterial community of yellow-brown soil. Overall, the study demonstrates that biochar is not only an effective alternative to potash fertilizer but also improves soil bacterial communities.At present, there has been renewed interest in biochar research, but most of them were focused on the short-term effects of biochar and the information of long-term application of biochar is still lacking. In addition, the nutrient mechanism of biochar has rarely been the subject of research. This research explored the effect of potassium (K) nutrient and the response of bacterial communities to biochar in yellow-brown soil based on two-year experiment. In this study, we used peanut shell biochar obtained by pyrolysis at 400 °C, and at the same time, 0%, 20%, 40%, 100% conventional potassium fertilizer were used. The results indicated that the effective improvement of biochar on acidic soil was long-term and 2% biochar replaced 40% conventional potassium fertilizer. Biochar accelerated the conversion of slowly-available K to available K by changing the composition of clay minerals and promoting the growth of K-dissolving bacteria. From the perspective of bacterial community, biochar significantly increased the relative abundance of Sphingomonas, Gaiella, and Elev-16S-1332, which improved the potential ability of soil to degrade pollutants and inhibit pathogens. The pH, organic matter, cation exchange capacity (CEC), and available phosphorus and potassium were important environmental factors that caused significant effects in the bacterial community of yellow-brown soil. Overall, the study demonstrates that biochar is not only an effective alternative to potash fertilizer but also improves soil bacterial communities.
ArticleNumber 137286
Author Riaz, Muhammad
Liu, Bo
Zhang, Mengyang
El-desouki, Zeinab
Jiang, Cuncang
Xia, Hao
Author_xml – sequence: 1
  givenname: Mengyang
  surname: Zhang
  fullname: Zhang, Mengyang
  organization: Microelement Research Center, College of Resources and Environment, Huazhong Agricultural University, Wuhan, Hubei Province 430070, PR China
– sequence: 2
  givenname: Muhammad
  surname: Riaz
  fullname: Riaz, Muhammad
  organization: Microelement Research Center, College of Resources and Environment, Huazhong Agricultural University, Wuhan, Hubei Province 430070, PR China
– sequence: 3
  givenname: Bo
  surname: Liu
  fullname: Liu, Bo
  organization: Microelement Research Center, College of Resources and Environment, Huazhong Agricultural University, Wuhan, Hubei Province 430070, PR China
– sequence: 4
  givenname: Hao
  surname: Xia
  fullname: Xia, Hao
  organization: Microelement Research Center, College of Resources and Environment, Huazhong Agricultural University, Wuhan, Hubei Province 430070, PR China
– sequence: 5
  givenname: Zeinab
  surname: El-desouki
  fullname: El-desouki, Zeinab
  organization: Microelement Research Center, College of Resources and Environment, Huazhong Agricultural University, Wuhan, Hubei Province 430070, PR China
– sequence: 6
  givenname: Cuncang
  surname: Jiang
  fullname: Jiang, Cuncang
  email: jcc2000@mail.hzau.edu.cn
  organization: Microelement Research Center, College of Resources and Environment, Huazhong Agricultural University, Wuhan, Hubei Province 430070, PR China
BackLink https://www.ncbi.nlm.nih.gov/pubmed/32092812$$D View this record in MEDLINE/PubMed
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Keywords Clay minerals
Potassium-dissolving bacteria
Biochar
Potassium
Bacterial community
Language English
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Snippet At present, there has been renewed interest in biochar research, but most of them were focused on the short-term effects of biochar and the information of...
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StartPage 137286
SubjectTerms acid soils
Bacteria
bacterial communities
Bacterial community
Biochar
cation exchange capacity
Charcoal
Clay
Clay minerals
environmental factors
mineral content
Minerals
organic matter
pathogens
peanut hulls
phosphorus
pollutants
Potassium
potassium fertilizers
Potassium-dissolving bacteria
pyrolysis
Soil
soil bacteria
Sphingomonas
Title Two-year study of biochar: Achieving excellent capability of potassium supply via alter clay mineral composition and potassium-dissolving bacteria activity
URI https://dx.doi.org/10.1016/j.scitotenv.2020.137286
https://www.ncbi.nlm.nih.gov/pubmed/32092812
https://www.proquest.com/docview/2364044297
https://www.proquest.com/docview/2388741385
Volume 717
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