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鉴定天然内生拟青霉属真菌,以研究其在体外对蜜环菌的拮抗作用,采用合成和植物基底物。

Identification of native endophytic Trichoderma spp. for investigation of in vitro antagonism towards Armillaria mellea using synthetic- and plant-based substrates.

机构信息

School of Biological Sciences, University of Bristol, Bristol, UK.

Royal Horticultural Society, Department of Plant Health, RHS Wisley, Woking, Surrey, UK.

出版信息

J Appl Microbiol. 2021 Jul;131(1):392-403. doi: 10.1111/jam.14938. Epub 2020 Dec 21.

DOI:10.1111/jam.14938
PMID:33219581
Abstract

AIMS

To isolate endophytic Trichoderma species and investigate the potential for biological control of the root rot pathogen Armillaria mellea.

METHODS AND RESULTS

In all, 40 Trichoderma isolates were obtained from a range of host plants and identities were confirmed by ITS, rpb2 and tef1 sequence. When tested in dual culture assays for antagonism against A. mellea, Trichoderma isolates overgrew the A. mellea colonies within four days and by eight days 38 Trichoderma isolates significantly reduced A. mellea colony size. Armillaria mellea was unable to be recovered from five of eight co-cultivations tested, suggesting Trichoderma had killed the A. mellea in these cases. Pre-colonized hazel disks were used to determine what happens in a more heterogeneous situation with A. mellea and a refined set of eight Trichoderma isolates. Similar to plate-based assays, Trichoderma quickly covered A. mellea stopping any further growth and two Trichoderma isolates were able to eradicate A. mellea.

CONCLUSIONS

Of the Trichoderma spp. tested, endophytic isolates of Trichoderma virens and T. hamatum offered the greatest antagonism towards A. mellea. Using pre-colonized hazel disks was of great importance for this work to demonstrate the fungal interactions in plant material.

SIGNIFICANCE AND IMPACT OF THE STUDY

Controlling Armillaria root rot is difficult with chemical treatments, thus an environmentally benign and cost-effective alternative is required. This study highlights the prospect of biological control as an effective, environmentally friendly alternative to chemicals.

摘要

目的

分离内生拟青霉属物种,并研究其对蜜环菌根腐病病原菌的生物防治潜力。

方法和结果

从多种宿主植物中总共获得了 40 个拟青霉属分离物,并通过 ITS、rpb2 和 tef1 序列确认了它们的身份。在针对蜜环菌的拮抗作用的双培养试验中,拟青霉属分离物在四天内覆盖了蜜环菌菌落,在八天内 38 个拟青霉属分离物显著降低了蜜环菌菌落的大小。在 8 个共培养试验中,有 5 个未能从其中回收蜜环菌,这表明在这些情况下,拟青霉属已杀死了蜜环菌。预先定植的榛子圆盘用于确定在更具异质性的情况下,蜜环菌与经过改进的 8 个拟青霉属分离物的情况。与平板试验相似,拟青霉属迅速覆盖蜜环菌,阻止了其进一步生长,并且有两个拟青霉属分离物能够根除蜜环菌。

结论

在所测试的拟青霉属中,内生拟青霉属和拟青霉属对蜜环菌表现出最大的拮抗作用。使用预先定植的榛子圆盘对于本研究非常重要,因为它证明了真菌在植物材料中的相互作用。

意义和影响

用化学处理控制蜜环菌根腐病很困难,因此需要一种环境友好且具有成本效益的替代方法。本研究强调了生物防治作为一种有效、环保的化学替代品的前景。

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