Inducing the rhizosphere microbiome by biofertilizer application to suppress banana Fusarium wilt disease

Worldwide, banana production is severely hindered by Fusarium wilt, a devastating disease caused by the soil-borne fungus Fusarium oxysporum f. sp. cubense (Foc). With no widely adopted efficient method of control or prevention, the emergence of a new Foc variant, tropical race 4 (Foc TR4), has led...

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Published inSoil biology & biochemistry Vol. 104; pp. 39 - 48
Main Authors Fu, Lin, Penton, C. Ryan, Ruan, Yunze, Shen, Zongzhuan, Xue, Chao, Li, Rong, Shen, Qirong
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.01.2017
Subjects
Bacillus amyloliquefaciens
Banana Fusarium wilt
bananas
Biofertilizer
biofertilizers
biological control
biological control agents
Burkholderia
community structure
composts
crop production
disease control
Disease suppression
Dyadobacter
fungal communities
Fusarium oxysporum f. sp. cubense
Fusarium wilt
microbiome
plantations
Ralstonia
Reclaimed field
rhizosphere
Rhizosphere microbiome
soil
soil bacteria
soil fungi
Sphingomonas
Biofertilizer
Banana Fusarium wilt
Reclaimed field
Disease suppression
Rhizosphere microbiome
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Abstract Worldwide, banana production is severely hindered by Fusarium wilt, a devastating disease caused by the soil-borne fungus Fusarium oxysporum f. sp. cubense (Foc). With no widely adopted efficient method of control or prevention, the emergence of a new Foc variant, tropical race 4 (Foc TR4), has led to the widespread destruction of plantations in Cavendish-producing areas. Recently, banana Fusarium wilt has been controlled by the consecutive application of biofertilizer (BIO) in newly reclaimed fields. In this study we examine the temporal effects of BIO versus compost application in newly converted banana fields on the composition and abundance of the rhizosphere bacterial and fungal communities and the survival of the biocontrol inoculant, Bacillus amyloliquefaciens NJN-6. Our findings show that BIO-amended rhizosphere soils increased the abundance of bacteria while decreasing fungal abundance. This corresponded to higher bacterial richness and diversity in the BIO amendment, while no trends were observed with the fungal community. Rhizosphere soil bacterial and fungal community composition were significantly different between BIO and compost amendment and treatment, not time, exhibited the largest impact. Other potential taxa involved in disease suppression were also identified, such as increased abundances of Sphingobium, Dyadobacter, and Cryptococcus and lower abundances of Fusarium, Ralstonia, and Burkholderia. Overall, decreased abundances of F. oxysporum and a lack of variability in the abundance of the biocontrol agent NJN-6 over three years contributed to disease suppression, in combination with alterations in fungal and bacterial composition and abundance, pointing to the sustainability of BIO as an amendment for disease suppression. •Fusarium wilt disease was pre-controlled by biofertilizer (BIO) in reclaimed field.•Higher bacterial richness and diversity were identified in BIO treated soils.•Bacterial and fungal community composition was altered by BIO treatment.•BIO application significantly reduced the abundance of Fusarium oxysporum.•The inoculum Bacillus amyloliquefaciens NJN-6 exhibited little temporal variation.
AbstractList Worldwide, banana production is severely hindered by Fusarium wilt, a devastating disease caused by the soil-borne fungus Fusarium oxysporum f. sp. cubense (Foc). With no widely adopted efficient method of control or prevention, the emergence of a new Foc variant, tropical race 4 (Foc TR4), has led to the widespread destruction of plantations in Cavendish-producing areas. Recently, banana Fusarium wilt has been controlled by the consecutive application of biofertilizer (BIO) in newly reclaimed fields. In this study we examine the temporal effects of BIO versus compost application in newly converted banana fields on the composition and abundance of the rhizosphere bacterial and fungal communities and the survival of the biocontrol inoculant, Bacillus amyloliquefaciens NJN-6. Our findings show that BIO-amended rhizosphere soils increased the abundance of bacteria while decreasing fungal abundance. This corresponded to higher bacterial richness and diversity in the BIO amendment, while no trends were observed with the fungal community. Rhizosphere soil bacterial and fungal community composition were significantly different between BIO and compost amendment and treatment, not time, exhibited the largest impact. Other potential taxa involved in disease suppression were also identified, such as increased abundances of Sphingobium, Dyadobacter, and Cryptococcus and lower abundances of Fusarium, Ralstonia, and Burkholderia. Overall, decreased abundances of F. oxysporum and a lack of variability in the abundance of the biocontrol agent NJN-6 over three years contributed to disease suppression, in combination with alterations in fungal and bacterial composition and abundance, pointing to the sustainability of BIO as an amendment for disease suppression. •Fusarium wilt disease was pre-controlled by biofertilizer (BIO) in reclaimed field.•Higher bacterial richness and diversity were identified in BIO treated soils.•Bacterial and fungal community composition was altered by BIO treatment.•BIO application significantly reduced the abundance of Fusarium oxysporum.•The inoculum Bacillus amyloliquefaciens NJN-6 exhibited little temporal variation.
Worldwide, banana production is severely hindered by Fusarium wilt, a devastating disease caused by the soil-borne fungus Fusarium oxysporum f. sp. cubense (Foc). With no widely adopted efficient method of control or prevention, the emergence of a new Foc variant, tropical race 4 (Foc TR4), has led to the widespread destruction of plantations in Cavendish-producing areas. Recently, banana Fusarium wilt has been controlled by the consecutive application of biofertilizer (BIO) in newly reclaimed fields. In this study we examine the temporal effects of BIO versus compost application in newly converted banana fields on the composition and abundance of the rhizosphere bacterial and fungal communities and the survival of the biocontrol inoculant, Bacillus amyloliquefaciens NJN-6. Our findings show that BIO-amended rhizosphere soils increased the abundance of bacteria while decreasing fungal abundance. This corresponded to higher bacterial richness and diversity in the BIO amendment, while no trends were observed with the fungal community. Rhizosphere soil bacterial and fungal community composition were significantly different between BIO and compost amendment and treatment, not time, exhibited the largest impact. Other potential taxa involved in disease suppression were also identified, such as increased abundances of Sphingobium, Dyadobacter, and Cryptococcus and lower abundances of Fusarium, Ralstonia, and Burkholderia. Overall, decreased abundances of F. oxysporum and a lack of variability in the abundance of the biocontrol agent NJN-6 over three years contributed to disease suppression, in combination with alterations in fungal and bacterial composition and abundance, pointing to the sustainability of BIO as an amendment for disease suppression.
Author Li, Rong
Ruan, Yunze
Xue, Chao
Penton, C. Ryan
Shen, Qirong
Fu, Lin
Shen, Zongzhuan
Author_xml – sequence: 1
  givenname: Lin
  surname: Fu
  fullname: Fu, Lin
  organization: Jiangsu Key Lab for Organic Solid Waste Utilization, National Engineering Research Center for Organic-based Fertilizers, Jiangsu Collaborative Innovation Center for Solid Organic Waste Resource Utilization, Nanjing Agricultural University, Nanjing, China
– sequence: 2
  givenname: C. Ryan
  surname: Penton
  fullname: Penton, C. Ryan
  organization: College of Integrative Sciences and Arts, Julie Ann Wrigley Global Institute for Sustainability, Fundamental and Applied Microbiomics Institute, Arizona State University, Mesa, AZ, USA
– sequence: 3
  givenname: Yunze
  surname: Ruan
  fullname: Ruan, Yunze
  organization: Hainan Key Laboratory for Sustainable Utilization of Tropical Bio-resources, College of Agriculture, Hainan University, 570228, Haikou, China
– sequence: 4
  givenname: Zongzhuan
  surname: Shen
  fullname: Shen, Zongzhuan
  organization: Jiangsu Key Lab for Organic Solid Waste Utilization, National Engineering Research Center for Organic-based Fertilizers, Jiangsu Collaborative Innovation Center for Solid Organic Waste Resource Utilization, Nanjing Agricultural University, Nanjing, China
– sequence: 5
  givenname: Chao
  surname: Xue
  fullname: Xue, Chao
  organization: Jiangsu Key Lab for Organic Solid Waste Utilization, National Engineering Research Center for Organic-based Fertilizers, Jiangsu Collaborative Innovation Center for Solid Organic Waste Resource Utilization, Nanjing Agricultural University, Nanjing, China
– sequence: 6
  givenname: Rong
  surname: Li
  fullname: Li, Rong
  email: lirong@njau.edu.cn
  organization: Jiangsu Key Lab for Organic Solid Waste Utilization, National Engineering Research Center for Organic-based Fertilizers, Jiangsu Collaborative Innovation Center for Solid Organic Waste Resource Utilization, Nanjing Agricultural University, Nanjing, China
– sequence: 7
  givenname: Qirong
  surname: Shen
  fullname: Shen, Qirong
  organization: Jiangsu Key Lab for Organic Solid Waste Utilization, National Engineering Research Center for Organic-based Fertilizers, Jiangsu Collaborative Innovation Center for Solid Organic Waste Resource Utilization, Nanjing Agricultural University, Nanjing, China
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Keywords Biofertilizer
Banana Fusarium wilt
Reclaimed field
Disease suppression
Rhizosphere microbiome
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Snippet Worldwide, banana production is severely hindered by Fusarium wilt, a devastating disease caused by the soil-borne fungus Fusarium oxysporum f. sp. cubense...
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SubjectTerms Bacillus amyloliquefaciens
Banana Fusarium wilt
bananas
Biofertilizer
biofertilizers
biological control
biological control agents
Burkholderia
community structure
composts
crop production
disease control
Disease suppression
Dyadobacter
fungal communities
Fusarium oxysporum f. sp. cubense
Fusarium wilt
microbiome
plantations
Ralstonia
Reclaimed field
rhizosphere
Rhizosphere microbiome
soil
soil bacteria
soil fungi
Sphingomonas
Title Inducing the rhizosphere microbiome by biofertilizer application to suppress banana Fusarium wilt disease
URI https://dx.doi.org/10.1016/j.soilbio.2016.10.008
https://www.proquest.com/docview/2000125193
Volume 104
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