蚯蚓堆肥水提物分离真菌体外抑制茄疫病菌及抑制番茄早疫病的潜力

N. Istifadah, Retno Anjani Putri, F. Widiantini, S. Hartati
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引用次数: 1

摘要

番茄早疫病(Alternaria solani, Sorr)是番茄的重要病害。生物防治是环境友好型防治措施之一。蚯蚓堆肥是植物病害生物防治拮抗微生物的潜在来源。本研究旨在从蚯蚓堆肥水提液中分离真菌,并考察其对番茄番茄枯萎病病原菌的体外抑制作用和对番茄果实和叶片病原菌感染的抑制作用。从牛粪蚯蚓堆肥和山羊粪蚯蚓堆肥两种蚯蚓堆肥的水提物中分离出真菌。采用双培养法对分离得到的真菌进行了体外对茄蚜的拮抗能力测试。体外试验采用完全随机设计。研究了所选菌株对番茄果实侵染和番茄叶片早疫病的抑制能力。体内实验采用随机完全区组设计。从两种蚯蚓堆肥水提物中分离出14株真菌,其中从牛粪蚯蚓堆肥中分离出9株,从羊粪蚯蚓堆肥中分离出5株。14株真菌分离株中,有7株在体外抑制茄蚜的生长。在番茄果实中,6株真菌在接种5天后对茄蚜的抑制率为64% ~ 76%。然而,两株分离菌(木霉属)在培养7天后在果实表面定植。在番茄植株中,两株真菌(木霉属)对叶片早疫病的抑制作用为55.3% ~ 58.2%。研究结果表明,从蚯蚓堆肥水提物中分离出的部分真菌对番茄枯萎病具有拮抗作用,具有作为番茄早疫病生物防治剂的潜力。
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The Potential of Fungal Isolates from Vermicompost Water Extract to Inhibit Alternaria solani in Vitro and Suppress Early Blight Disease in Tomato
Early blight disease caused by Alternaria solani, Sorr is an important disease in tomato. Biological control is one of the environmentally-friendly control measures of the disease. Vermicompost is a potential source of antagonistic microbes for biological control of plant diseases. The objective of this study were to isolate fungi from vermicompost water extract and examine their abilities to inhibit the growth of A. solani in vitro and suppress the pathogen infection in tomato fruits and leaves. The fungi were isolated from water extract of two types of vermicompost which were cattle manure vermicompost and goat manure vermicompost. The fungal isolates obtained were tested for their antagonistic abilities against A. solani in vitro using adual culture method. The in vitro experiment was arranged in Completely Randomized Design. The selected isolates were examined their abilities in suppressing A. solani infection in tomato fruits and early blight disease in tomato leaves. The in vivo experiments were arranged in Randomized Complete Block Design. The isolation of fungi from the water extract of two types of vermicompost resulted in 14 fungal isolates, which were nine isolates from cattle manure vermicompost and five isolates from goat manure vermicompost. Among 14 fungal isolates, there were seven isolates that inhibited the growth of A. solani in vitro. In tomato fruits, six fungal isolates inhibited A. solani infection by 64%-76% at five days after inoculation. However, two isolates (Trichoderma spp.) colonized the fruit surface after seven days of incubation. In tomato plants, two fungal isolates (Trichoderma spp.) suppressed early blight disease in the leaves by 55.3%-58.2%. This finding showed that some fungal isolates from the water extract of vermicompost were antagonistic to A. solani in vitro and had potential as the biological control agents of early blight disease in tomato.
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