Rhizosphere microbial community manipulated by 2 years of consecutive biofertilizer application associated with banana Fusarium wilt disease suppression

Shen, Zongzhuan; Ruan, Yunze; Xue, Cong; Jian, Zhang

doi:10.1007/s00374-015-1002-7

Cited by 179 publications

(133 citation statements)

References 55 publications

(63 reference statements)

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“…However, fungal Shannon diversity was lower in BOF treatment than that in CK and CF treatments. These results were in agreement with the previous reports that BOF application decreased the soil fungal diversity in the rhizosphere of cucumber (Zhang et al, 2013), cotton (Luo et al, 2010), watermelon (Zhao et al, 2011) and banana (Shen et al, 2015a). The principal coordinate (PCoA) ( Figure 2 ) and permutational multivariate analysis (Supplementary Table S2) demonstrated that the fertilizer treatment was the more important factor than soil depth that influenced the soil microbial community composition.…”

Section: Discussionsupporting

confidence: 93%

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Long-Term Application of Bioorganic Fertilizers Improved Soil Biochemical Properties and Microbial Communities of an Apple Orchard Soil

et al. 2016

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Soil biochemical properties and microbial communities are usually considered as important indicators of soil health because of their association with plant nutrition. In this study, we investigated the impact of long-term application of bioorganic fertilizer (BOF) on soil biochemical properties and microbial communities in the apple orchard soil of the Loess Plateau. The experiment included three treatments: (1) control without fertilization (CK); (2) chemical fertilizer application (CF); and (3) bioorganic fertilizer application (BOF). The high throughput sequencing was used to examine the bacterial and fungal communities in apple orchard soil. The results showed that the BOF treatment significantly increased the apple yield during the experimental time (2009–2015). The application of BOF significantly increased the activities of catalase and invertase compared to those in CK and CF treatments. The high throughput sequencing data showed that the application of BOF changed the microbial community composition of all soil depths considered (0–20 cm, 20–40 cm, and 40–60 cm), e.g., the relative abundance of bio-control bacteria (Xanthomonadales, Lysobacter, Pseudomonas, and Bacillus), Proteobacteria, Bacteroidetes, Ohtaekwangia, Ilyonectria, and Lecanicillium was increased while that of Acidobacteria, Chloroflexi, Gp4, Gp6 and Sphaerobacter was decreased. The increase in apple yield after the application of BOF might be due to increase in organic matter, total nitrogen and catalase and invertase activities of soil and change in the bacterial community composition by enriching Bacillus, Pseudomonas, Lysobacter, and Ohtaekwangia. These results further enhance the understanding on how BOFs alter soil microbial community composition to stimulate soil productivity.

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Section: Discussionsupporting

confidence: 93%

“…In the current study, the application of BOF increased the bacterial richness (Chao1) which was consistent with the results of Shen et al (2015a). However, fungal Shannon diversity was lower in BOF treatment than that in CK and CF treatments.…”

Section: Discussionsupporting

confidence: 91%

Long-Term Application of Bioorganic Fertilizers Improved Soil Biochemical Properties and Microbial Communities of an Apple Orchard Soil

et al. 2016

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“…Although Aspergillus did decline during fermentation, from a maximum of 91.48% on day 3 to 48.26% on day 15, Aspergillus oryzae remained a major genus throughout fermentation, indicating a high tolerance to the dry, high salt and high temperature conditions of the second step. Lichtheimia gradually declined in abundance during koji making, but increased during fermentation, from 12.26% on day 1 to 51.05% on day 15, suggesting this genus was adapted to the harsh environment, and indicating a key role in douchi fermentation [56], consistent with previous studies [60,61]. Burgess et al .…”

Section: Resultssupporting

confidence: 85%

High-Throughput Sequencing of Microbial Community Diversity and Dynamics during Douchi Fermentation

Yang

2016

PLoS ONE

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Douchi is a type of Chinese traditional fermented food that is an important source of protein and is used in flavouring ingredients. The end product is affected by the microbial community present during fermentation, but exactly how microbes influence the fermentation process remains poorly understood. We used an Illumina MiSeq approach to investigate bacterial and fungal community diversity during both douchi-koji making and fermentation. A total of 181,443 high quality bacterial 16S rRNA sequences and 221,059 high quality fungal internal transcribed spacer reads were used for taxonomic classification, revealing eight bacterial and three fungal phyla. Firmicutes, Actinobacteria and Proteobacteria were the dominant bacterial phyla, while Ascomycota and Zygomycota were the dominant fungal phyla. At the genus level, Staphylococcus and Weissella were the dominant bacteria, while Aspergillus and Lichtheimia were the dominant fungi. Principal coordinate analysis showed structural separation between the composition of bacteria in koji making and fermentation. However, multivariate analysis of variance based on unweighted UniFrac distances did identify distinct differences (p <0.05), and redundancy analysis identified two key genera that are largely responsible for the differences in bacterial composition between the two steps. Staphylococcus was enriched in koji making, while Corynebacterium was enriched in fermentation. This is the first investigation to integrate douchi fermentation and koji making and fermentation processes through this technological approach. The results provide insight into the microbiome of the douchi fermentation process, and reveal a structural separation that may be stratified by the environment during the production of this traditional fermented food.

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“…Likewise, the genera Fusarium and Sordariales (no rank) dominated in IF-treated soils (Figure 2b). Our results indicating the prevalence of Fusarium in subtropical tea plantations are in agreement with the finding of Shen et al (2015), who reported that Fusarium was the dominant group in the rhizosphere from a different crop, i.e. banana, with quite different soil management practices.…”

Section: Effect Of Fertilization On Fungal Community Compositionsupporting

confidence: 82%

“…The genera unclassified Microascaceae, unclassified Ascomycota, and Agaricomycetes (no rank) are unique in IF-treated plots and rarely found in other two fertilizer treatments ( Figure 2b). These findings were broadly confirmed in arable soils and paddy soils at different sites, respectively (Shen et al, 2015;Chen et al, 2016), indicating that the combined applications of organic manures and chemical fertilizers resulted in the presence of a unique group of fungi in soils. This fungal community structure change may be caused by their responses to variations in soil organic C and N contents associated with integrated fertilization (Lazcano et al, 2013;Chen et al, 2016).…”

Section: Effect Of Fertilization On Fungal Community Compositionsupporting

confidence: 59%

Soil fungal communities in tea plantation after 10 years of chemical vs . integrated fertilization

Wang

Huang

Fang

et al. 2017

Chil. j. agric. res.

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Rhizosphere microbial community manipulated by 2 years of consecutive biofertilizer application associated with banana Fusarium wilt disease suppression

Cited by 179 publications

References 55 publications

Long-Term Application of Bioorganic Fertilizers Improved Soil Biochemical Properties and Microbial Communities of an Apple Orchard Soil

Long-Term Application of Bioorganic Fertilizers Improved Soil Biochemical Properties and Microbial Communities of an Apple Orchard Soil

High-Throughput Sequencing of Microbial Community Diversity and Dynamics during Douchi Fermentation

Soil fungal communities in tea plantation after 10 years of chemical vs . integrated fertilization

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