Biological Control of Strawberry Fusarium Wilt Caused by Fusarium oxysporum f. sp. fragariae Using Bacillus velezensis BS87 and RK1 Formulation

Nonpathogenic isolates of Fusarium oxysporum were obtained from surface-disinfested, symptomless cucumber roots grown in two raw (nonautoclaved) soils. These isolates were screened for pathogenicity and biological control activity against Fusarium wilt of cucumber in raw soil infested with Fusarium oxysporum f. sp. cucumerinum (F.o.c.). The influence of three isolates effective in inducing suppressiveness and three ineffective isolates on disease incidence over time was tested. The effective isolates reduced the infection rate (R), based on linear regressions of data transformed to loge (1/1 – y). Effective isolate C5 was added to raw soil infested with various inoculum densities of F.o.c. In treatments without C5, the increase in inoculum densities of F.o.c. decreased the incubation period of wilt disease, but there was no significant difference in infection rate among the inoculum density treatments. Isolate C5 reduced the infection rate at all inoculum densities of F.o.c. Various inoculum densities of C5 were added to raw soils infested with 1000 cfu/g of F.o.c. In the first trial, infection rates were reduced only in the treatment with 10 000 cfu/g of C5; in the second trial, infection rates were reduced in treatments with 10 000 and 30 000 cfu/g of C5.

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Biological Control of Fusarium Wilt in Tomato Caused by Fusarium oxysporum f. sp. lycopersici by AMF Glomus intraradices and some Rhizobacteria

Journal of Phytopathology ◽

10.1111/j.1439-0434.2005.01018.x ◽

2005 ◽

Vol 153 (9) ◽

pp. 544-550 ◽

Cited By ~ 71

Author(s):

A. Akkopru ◽

S. Demir

Keyword(s):

Biological Control ◽

Fusarium Oxysporum ◽

Fusarium Wilt ◽

Glomus Intraradices

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Non-Synergistic Effect of Trichoderma harzianum and Glomus spp. in Reducing Infection of Fusarium Wilt in Banana

Pathogens ◽

10.3390/pathogens8020043 ◽

2019 ◽

Vol 8 (2) ◽

pp. 43 ◽

Cited By ~ 2

Author(s):

Arfe Castillo ◽

Cecirly Puig ◽

Christian Cumagun

Keyword(s):

Biological Control ◽

Synergistic Effect ◽

Fusarium Oxysporum ◽

Fusarium Wilt ◽

Trichoderma Harzianum ◽

Root Weight ◽

Biological Control Agents ◽

Competitive Effects ◽

Glomus Spp ◽

Race 4

Philippine banana is currently threatened by Fusarium oxysporum f. sp. cubense Tropical Race 4 (FocR4). This study investigated the use of Trichoderma harzianum pre-treated with Glomus spp, as a means of managing Fusarium wilt on young ‘Lakatan’ banana seedlings. Results showed that Glomus applied basally significantly improved banana seedling growth with increased increment in plant height and pseudostem diameter and heavier root weight. The application of Glomus spp. alone offered 100% protection to the ‘Lakatan’ seedlings against FocR4 as indicated by the absence of the wilting symptom. A combination of T. harzianum and Glomus spp. also gave significant effect against Fusarium wilt through delayed disease progression in the seedlings but was not synergistic. Competitive effects were suspected when application of the two biological control agents on banana roots was done simultaneously.

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Biological Control of Fusarium Wilt of Strawberry by Nonpathogenic Fusarium oxysporum Isolated from Strawberry.

Japanese Journal of Phytopathology ◽

10.3186/jjphytopath.57.506 ◽

1991 ◽

Vol 57 (4) ◽

pp. 506-511 ◽

Cited By ~ 14

Author(s):

Nobuo TEZUKA ◽

Takahiro MAKINO

Keyword(s):

Biological Control ◽

Fusarium Oxysporum ◽

Fusarium Wilt

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Antagonisme Bacillus terhadap Infeksi Layu Fusarium pada Bibit Pisang Hasil Kultur Jaringan

Agrosains: Jurnal Penelitian Agronomi ◽

10.20961/agsjpa.v15i1.18990 ◽

2013 ◽

Vol 15 (1) ◽

pp. 21

Author(s):

Hadiwiyono Hadiwiyono ◽

Arief Widyantoro ◽

Salim Widono

Keyword(s):

Biological Control ◽

Fusarium Oxysporum ◽

Fusarium Wilt ◽

In Planta ◽

Physiological Character ◽

Important Disease

<p>Fusarium wilt (Fusarium oxysporum f.sp. cubense) is an important disease in banana. Fusarium wilt was hard to control because the pathogen can survive in many kind of soils type although there is no host. Therefore, overcoming the disease is urgently needed such as biological control. The endophytic Bacillus of banana was begun to use as antagonist agent to the pathogen. This research aimed to study the mechanism of antagonism and physiological character of Bacillus. There were 27 Bacillus isolates examined in-vitro to test the production of IAA, HCN, chitinase, pectinase, and antagonism. The top ten isolates based on the test in vitro were used to test in planta. The research showed that Bacillus were able to produce IAA, HCN, chitinase, pectinase, and able to retard the growth of Foc colony. The application of isolat B25 on banana seedling could decrease the disease intensity but still unable to prevent the fusarium wilt infection.</p>

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Isolation and characterization of a high iturin yielding Bacillus velezensis UV mutant with improved antifungal activity

PLoS ONE ◽

10.1371/journal.pone.0234177 ◽

2020 ◽

Vol 15 (12) ◽

pp. e0234177

Author(s):

Young Tae Kim ◽

Sung Eun Kim ◽

Won Jung Lee ◽

Zhao Fumei ◽

Min Sub Cho ◽

...

Keyword(s):

Biological Control ◽

Antifungal Activity ◽

Mutant Strain ◽

Fusarium Wilt ◽

Potential Candidate ◽

Wild Type ◽

Bacillus Velezensis ◽

Sclerotinia Rot ◽

Isolation And Characterization

To isolate Bacillus velezensis mutants with improved antifungal activity for use in the biological control of phytopathogenic fungi, wild-type Bacillus velezensis KRF-001 producing iturin, surfactin, and fengycin was irradiated by ultraviolet (UV) rays. The in vitro and in vivo antifungal activities of UV mutants and characterization of the cyclic lipopeptides produced by a selected mutant were examined. A mutant strain yielding high levels of iturin showed over 2-fold higher antifungal activity than the wild-type against Fusarium oxysporum. A potent suppressive effect of the mutant was also observed on spore germination of Botrytis cinerea, the causative agent of cucumber gray mold, at different butanol extract concentrations. Further analysis of the mutant by real-time PCR and high-performance liquid chromatography revealed increased expression of iturin and surfactin biosynthesis genes as well as enhanced production of iturin and surfactin metabolites. However, the amounts of fengycin obtained from the mutant strain BSM54 were significantly lesser than those of iturin and surfactin. Particularly, iturin A production by the mutant was 3.5-fold higher than that of the wild-type, suggesting that the higher antifungal activity of the mutant against F. oxysporum resulted from the increased expression of biosynthesis genes associated with iturin production. The commercial greenhouse experiment using soil naturally infested with Sclerotinia sclerotiorum (sclerotinia rot) and F. oxysporum (fusarium wilt) showed that the mutant strain reduced sclerotinia rot and fusarium wilt diseases (P = 0.05) more effectively than the wild-type and commercially available product Cillus® in Korea. These results suggest that the mutant with high iturin yield is a potential candidate for the development of a biological control agent in agriculture.

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Biological Control Efficiency of Fusarium Wilt of Tomato by Nonpathogenic Fusarium oxysporum Fo-B2 in Different Environments

Phytopathology ◽

10.1094/phyto-95-1072 ◽

2005 ◽

Vol 95 (9) ◽

pp. 1072-1080 ◽

Cited By ~ 43

Author(s):

Masahiro Shishido ◽

Chika Miwa ◽

Toshiyuki Usami ◽

Yoshimiki Amemiya ◽

Kenneth B. Johnson

Keyword(s):

Biological Control ◽

Fusarium Oxysporum ◽

Fusarium Wilt ◽

Logistic Model ◽

Disease Suppression ◽

Response Models ◽

Tomato Roots ◽

Negative Exponential ◽

Field Plots ◽

Best Fit

Efficiency of nonpathogenic Fusarium oxysporum Fo-B2 for the biological control of Fusarium wilt of tomato, caused by F. oxysporum f. sp. lycopersici CU1, was examined in different environments: a growth chamber with sterile soil-less medium, a greenhouse with fumigated or nonfumigated soil, and nonfumigated field plots. Inoculation of Fo-B2 onto tomato roots significantly reduced the severity of disease, but the efficiency of disease suppression decreased as the experimental environment became less controlled. Relationships between the recovery of Fo-B2 from hypocotyls and the disease severity indicated that the biocontrol agent was most effective when it colonized vascular tissues intensively. Moreover, the degree of Fo-B2 colonization was greatly reduced when the seedlings were grown in nonfumigated soil. Dose-response models (negative exponential, hyperbolic saturation, and logistic) were fit to observed data collected over a range of inoculum densities of the pathogen and the antagonist; the logistic model provided the best fit in all environments. The ratios of an 50% effective dose parameter for Fo-B2 to that of CU1 increased as the environment became less controlled, suggesting that environmentally related efficiency reduction impacted the antagonist more than the pathogen. The results suggest that indigenous soil microbes were a primary factor negatively influencing the efficiency of Fo-B2. Therefore, early establishment of the antagonist in a noncompetitive environment prior to outplanting could improve the efficacy of biological control.

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