2014
DOI: 10.1007/s10658-013-0369-2
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Biological control of Ralstonia wilt, Phytophthora blight, Meloidogyne root-knot on bell pepper by the combination of Bacillus subtilis AR12, Bacillus subtilis SM21 and Chryseobacterium sp. R89

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Cited by 44 publications
(18 citation statements)
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“…), especially 150 d after treatment. This enhancement of disease control can be partially due to an additive effect as both beneficial microbe and SMS are effective in disease control ( Liu et al., ; Kwak et al., ). Moreover, the enhanced biocontrol efficiency was also possibly attributed to synergistic disease suppression acquired with a rapid and long‐lasting beneficial bacterial growth and colonization supported by the enriched nutrition and appropriate humidity from the agro‐industry waste in the BF+organic fertilizers combination.…”
Section: Discussionmentioning
confidence: 99%
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“…), especially 150 d after treatment. This enhancement of disease control can be partially due to an additive effect as both beneficial microbe and SMS are effective in disease control ( Liu et al., ; Kwak et al., ). Moreover, the enhanced biocontrol efficiency was also possibly attributed to synergistic disease suppression acquired with a rapid and long‐lasting beneficial bacterial growth and colonization supported by the enriched nutrition and appropriate humidity from the agro‐industry waste in the BF+organic fertilizers combination.…”
Section: Discussionmentioning
confidence: 99%
“…One of the major cash crops in China, pepper ( Capsicum annuum L.), like other solanaceous vegetables, suffers a wide range of soil‐borne diseases including bacterial wilt, Phytophthora blight, and root‐knot nematode disease caused by Ralstonia solanacearum, Phytophthora capsici , and Meloidogyne spp., respectively ( Zhou et al., ; Barbary et al., ; Du et al., ). In agriculture practice, soil‐borne diseases tend to occur in a mixed pattern, causing severe economic losses ( Liu et al., ). The rising concerns on the risk of food safety, environmental pollution, and pathogen resistance as well as increasing policy demand for reduction of chemical fertilizers and biocides require alternatives in nutrient application and disease management.…”
Section: Introductionmentioning
confidence: 99%
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“…Trichoderma harzianum 10,11 , Trichoderma viride 12 , Trichoderma asperellum 13 , Trichoderma virens 14 , Pseudomonas fluorescence 15,16 and Bacillus subtilis 17 are used as biocontrol agents to control bacterial wilt. Combination treatment methods using two or more of these agents are more effective in managing the disease than treatment using a single biocontrol agent 10,18,19 . Chemical bactericides and fungicides induce resistance in pathogens during long term use, which ultimately makes the pathogen tolerant to these chemical applications [20][21][22][23] .…”
Section: Introductionmentioning
confidence: 99%
“…Trichoderma harzianum 10, 11 , Trichoderma viride 12 , Trichoderma asperellum 13 , Trichoderma virens 14 , Pseudomonas fluorescens 15, 16 and Bacillus subtilis 17 are used as biocontrol agents to control bacterial wilt. Combination treatment methods using two or more of these agents are more effective in managing the disease than treatment using a single biocontrol agent 10, 18, 19 . Chemical bactericides and fungicides induce resistance in pathogens during long-term use, which ultimately makes the pathogen tolerant to these chemical applications 20– 23 .…”
Section: Introductionmentioning
confidence: 99%