Background: Phaeoacremonium parasiticum is a frequently species associated with "Petri's disease" in young plants of grapevine in Peru. One of the main limitations is the use of fungicides and the ...limited molecules for its control. In this scenario, biological control is an important alternative to integrate in the management of grapevine diseases. Objective: The objective of the research was to evaluate the in vivo efficacy of native antagonists to P. parasiticum and their growth promoting effect on grapevine. Methodology: Plant material from mother plants (R-110) underwent thermotherapy (52.5°C for 30 min). Subsequently, the antagonists (bacteria and fungi) were inoculated by partial immersion at a concentration of 1x106 cfu ml-1 (Colony forming units) for 3 h; 30 days later, P. parasiticum was inoculated, measuring shoot length before inoculation (SLBI). Seventy days after inoculation (DAI), shoot length (SL), length of necrotic stria (LNS), root dry weight (RDW) and root fresh weight (RFW) were measured. Results: Isolate Tr-5 (Trichoderma spp.) increased SLBI by 68%. Bacillus spp. (Bac-1, Bac-2), Trichoderma spp. (Tr-5) and T. harzianum (T-22) increase >40% SL 70 DDI. Tr-6 (Trichoderma spp.), T-22 and Act-2 (Actinomycete) reduce >50% LNS. Bacillus spp. (Bac-2: Bac-3) significantly increase RFW (59.29%: 49.39%) and RDW (60.41%: 55.08%). Implications: Biological control with native antagonists reduces the development of Petri disease and promotes grapevine growth. Conclusions: The native antagonists show growth-promoting effect and control of LEN caused by P. parasiticum at the nursery stage.
Background: Biocontrol of grapevine trunk diseases (GTDs) is a friendly alternative to chemical control that cause resistance and contamination of the ecosystems. Objective: isolate native grapevine ...root and rhizosphere microorganisms with biocontrol potential of grapevine trunk fungi diseases. Methodology: The competition for substrate (CS) was studied with the Bell´s scale, contact time (CT) between the antagonist-pathogen (days) and the growth inhibition percentage (GIP). Results: Seven Trichoderma strains were isolated (from roots: Tr-1, Tr-2, Tr-3, Tr-6; and from rhizosphere: Tr-4, Tr-5 Tr-7); six Bacillus spp. (from roots: Bac-4, Bac-5, Bac-6; and from rhizosphere: Bac-1, Bac-2, Bac-3); and two Streptomyces sp. (Act-1, Act-2). The CS results evaluated with the Bell scale showed Tr-1, Tr-7, T.atv (Trichoderma atroviride) and T-22 (Trichoderma harzianum) were placed in class 1 against Lasiodiplodia theobromae and, all isolates were placed in class 1 against Campylocarpon pseudofasciculare and Phaeoacremonium parasiticum. The CT of Trichoderma was 2 days (L. theobromae) and 3 days (C. pseudofasciculare and P. parasiticum). In the antibiosis test, Tr-5 (Trichoderma) and Bac-3 (Bacillus) had the highest GIP values (>50%) against the different evaluated pathogens. The isolate Act-2 (Streptomyces sp.) presented a GIP, >70% (L. theobromae), and >40% (C. pseudofasciculare) and >30% (P. parasiticum). Implications: The use of biological control in the management of grapevine trunk diseases is an effective tool, and can be integrated into an integrated management strategy for these pathologies. Conclusions: The native isolates Bac-3 (Bacillus spp.), Tr-5 (Trichoderma spp.), Act-2 (Streptomyces sp.) demonstrated in vitro control against the pathogens L. theobromae, C. pseudofasciculare and P. parasiticum, pathogens associated to grapevine trunk diseases.
Background: Phaeoacremonium parasiticum is a frequently species associated with "Petri's disease" in young plants of grapevine in Peru. One of the main limitations is the use of fungicides and the ...limited molecules for its control. In this scenario, biological control is an important alternative to integrate in the management of grapevine diseases. Objective: The objective of the research was to evaluate the in vivo efficacy of native antagonists to P. parasiticum and their growth promoting effect on grapevine. Methodology: Plant material from mother plants (R-110) underwent thermotherapy (52.5°C for 30 min). Subsequently, the antagonists (bacteria and fungi) were inoculated by partial immersion at a concentration of 1x106 cfu ml-1 (Colony forming units) for 3 h; 30 days later, P. parasiticum was inoculated, measuring shoot length before inoculation (SLBI). Seventy days after inoculation (DAI), shoot length (SL), length of necrotic stria (LNS), root dry weight (RDW) and root fresh weight (RFW) were measured. Results: Isolate Tr-5 (Trichoderma spp.) increased SLBI by 68%. Bacillus spp. (Bac-1, Bac-2), Trichoderma spp. (Tr-5) and T. harzianum (T-22) increase >40% SL 70 DDI. Tr-6 (Trichoderma spp.), T-22 and Act-2 (Actinomycete) reduce >50% LNS. Bacillus spp. (Bac-2: Bac-3) significantly increase RFW (59.29%: 49.39%) and RDW (60.41%: 55.08%). Implications: Biological control with native antagonists reduces the development of Petri disease and promotes grapevine growth. Conclusions: The native antagonists show growth-promoting effect and control of LEN caused by P. parasiticum at the nursery stage.
Antecedentes: El biocontrol de las enfermedades fúngicas de la madera de la vid (EMV), es una alternativa amigable frente al control químico causante de resistencia y/o contaminación del ecosistema. ...Objetivo: aislar microorganismos nativos de raíz y rizósfera de vid con potencial de biocontrol de hongos de la madera de la vid. Metodología: Se estudió la “competencia por sustrato” (CS) con la escala de Bell, “el tiempo de contacto” (TC) entre antagonista-patógeno” (días) y la antibiosis por el porcentaje de inhibición del crecimiento (PIC). Resultados: Se aislaron e identificaron: siete-cepas de Trichoderma spp. (raíz: Tr-1, Tr-2, Tr3, Tr-6; y rizósfera: Tr-4, Tr-5, Tr-7); seis-Bacillus spp. (raíz: Bac-4, Bac-5, Bac-6; y rizósfera: Bac-1, Bac-2, Bac-3); y dos-Streptomyces sp. (rizósfera: Act-1, Act-2). Los resultados de la CS evaluados con la escala de Bell demostraron a Tr-1, Tr-7, T.atv (Trichoderma atroviride) y T-22 (Trichoderma harzianum) se ubicaron en la clase 1 frente a Lasiodiplodia theobromae y, todos los aislados se ubicaron en la clase 1 frente a Campylocarpon pseudofasciculare y Phaeoacremonium parasiticum. El TC de Trichoderma fue 2 días (L. theobromae) y 3 días (C. pseudofasciculare y P. parasiticum). En la antibiosis Tr-5 (Trichoderma) y Bac-3 (Bacillus) tuvieron el mayor PIC (>50%) frente a los patógenos. El aislado Act-2 (Streptomyces sp.) presentó PIC, >70% (L. theobromae), >40% (C. pseudofasciculare) y >30% (P. parasiticum). Implicaciones: El uso del control biológico en el manejo de enfermedades de la madera de la vid es una herramienta eficaz, y puede integrarse en una estrategia de manejo integrado de estas patologías. Conclusiones: Los aislados nativos Bac-3 (Bacillus spp.), Tr-5 (Trichoderma spp.), Act-2 (Streptomyces sp.) demostraron control in vitro frente a los patógenos L. theobromae, C. pseudofasciculare y P. parasiticum, patógenos asociados a enfermedades de la madera de la vid.
