{"title":"明尼苏达州本地真菌与根腐病病原体 Heterobasidion irregulare 之间的拮抗相互作用","authors":"Eric C. Otto, Robert A. Blanchette","doi":"10.1111/efp.12836","DOIUrl":null,"url":null,"abstract":"<p>The forest pathogen, <i>Heterobasidion irregulare</i>, is a serious threat to conifers in North America including Minnesota. Fungi native to Minnesota were isolated and tested in laboratory and field assays to evaluate their antagonism towards <i>H</i>. <i>irregulare</i>. One management strategy for plant pathogens, and especially <i>H. irregulare</i>, is to use fungi as biological control agents. A successful biological control agent used to manage root rot disease caused by <i>H. irregulare</i> is the fungus <i>Phlebiopsis gigantea</i>. The goal of this research was to screen different native fungi, including <i>P. gigantea</i>, against <i>H. irregulare</i> and examine and quantify their interactions in vitro and ex vitro. A set of four different antagonism assays were conducted. These assays served as a screening process involving both the laboratory and the field. Interactions were first examined with dual inoculation studies on media and wood discs of red pine (<i>Pinus resinosa</i>). These assays demonstrated strong inhibition and limited growth of <i>H. irregulare</i> by select fungi, including <i>Phanerochaete livescens</i> and <i>P. gigantea</i>. Another assay involved using soil microcosms and wood wedges of red pine. This allowed for a different examination, as wood wedges were inoculated with a candidate antagonistic fungus and placed in soil microcosms with <i>H. irregulare</i>. The opposite interaction was also examined with wedges inoculated with <i>H. irregulare</i> and then placed in soil microcosms containing different candidate fungi. In the field, large wood discs were placed around stumps and inoculated with candidate fungi in a red pine plantation infected with <i>H. irregulare</i>. Certain fungi performed well in different assays, but across all assays, <i>P. gigantea</i> performed the best. The antagonism of <i>P. gigantea</i> was most noticeable on wood discs and wood wedges used in vitro, as <i>H. irregulare</i> was not able to be reisolated from these substrates. Overall, these results provide more information on the fungi that appear to be acting as antagonists in forests to prevent <i>H. irregulare</i> from colonizing and provide new information on potential candidate fungi that could be used as a new biological control agent.</p>","PeriodicalId":55153,"journal":{"name":"Forest Pathology","volume":"53 6","pages":""},"PeriodicalIF":1.3000,"publicationDate":"2023-11-15","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://onlinelibrary.wiley.com/doi/epdf/10.1111/efp.12836","citationCount":"0","resultStr":"{\"title\":\"Antagonistic interactions between native fungi of Minnesota and the root rot pathogen Heterobasidion irregulare\",\"authors\":\"Eric C. Otto, Robert A. Blanchette\",\"doi\":\"10.1111/efp.12836\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p>The forest pathogen, <i>Heterobasidion irregulare</i>, is a serious threat to conifers in North America including Minnesota. Fungi native to Minnesota were isolated and tested in laboratory and field assays to evaluate their antagonism towards <i>H</i>. <i>irregulare</i>. One management strategy for plant pathogens, and especially <i>H. irregulare</i>, is to use fungi as biological control agents. A successful biological control agent used to manage root rot disease caused by <i>H. irregulare</i> is the fungus <i>Phlebiopsis gigantea</i>. The goal of this research was to screen different native fungi, including <i>P. gigantea</i>, against <i>H. irregulare</i> and examine and quantify their interactions in vitro and ex vitro. A set of four different antagonism assays were conducted. These assays served as a screening process involving both the laboratory and the field. Interactions were first examined with dual inoculation studies on media and wood discs of red pine (<i>Pinus resinosa</i>). These assays demonstrated strong inhibition and limited growth of <i>H. irregulare</i> by select fungi, including <i>Phanerochaete livescens</i> and <i>P. gigantea</i>. Another assay involved using soil microcosms and wood wedges of red pine. This allowed for a different examination, as wood wedges were inoculated with a candidate antagonistic fungus and placed in soil microcosms with <i>H. irregulare</i>. The opposite interaction was also examined with wedges inoculated with <i>H. irregulare</i> and then placed in soil microcosms containing different candidate fungi. In the field, large wood discs were placed around stumps and inoculated with candidate fungi in a red pine plantation infected with <i>H. irregulare</i>. Certain fungi performed well in different assays, but across all assays, <i>P. gigantea</i> performed the best. The antagonism of <i>P. gigantea</i> was most noticeable on wood discs and wood wedges used in vitro, as <i>H. irregulare</i> was not able to be reisolated from these substrates. 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引用次数: 0
摘要
森林病原体 Heterobasidion irregulare 严重威胁着包括明尼苏达州在内的北美地区的针叶树。我们分离了明尼苏达州原生的真菌,并在实验室和田间试验中对其进行了测试,以评估它们对 H. irregulare 的拮抗作用。针对植物病原体,尤其是 H. irregulare 的一种管理策略是使用真菌作为生物控制剂。一种成功的生物控制剂是拟南芥真菌(Phlebiopsis gigantea)。这项研究的目的是筛选不同的本地真菌,包括千针蘑,以对抗根腐病,并研究和量化它们在体外和体外的相互作用。研究人员进行了四种不同的拮抗试验。这些试验是一个涉及实验室和野外的筛选过程。首先在红松(Pinus resinosa)的培养基和木盘上进行了双重接种研究,以检验它们之间的相互作用。这些试验表明,包括 Phanerochaete livescens 和 P. gigantea 在内的一些真菌对 H. irregulare 有很强的抑制作用,并限制其生长。另一种检测方法涉及使用土壤微生态系统和红松木楔。这可以进行不同的检验,因为木楔接种了候选的拮抗真菌,并与 H. irregulare 一起放置在土壤微生态系统中。此外,还用接种了赤松疫霉的木楔,然后放入含有不同候选真菌的土壤微生态系统中,对相反的相互作用进行了检验。在田间,将大木盘放在树桩周围,然后接种感染了伊红松菌的红松种植园中的候选真菌。某些真菌在不同的试验中表现良好,但在所有试验中,千层塔真菌的表现最好。在体外使用的木盘和木楔上,千头椿的拮抗作用最为明显,因为从这些基质中无法再分离出赤松疫霉。总之,这些结果提供了更多信息,说明森林中的真菌似乎起到了拮抗剂的作用,以防止 H. irregulare 定殖,并提供了可用作新生物防治剂的潜在候选真菌的新信息。
Antagonistic interactions between native fungi of Minnesota and the root rot pathogen Heterobasidion irregulare
The forest pathogen, Heterobasidion irregulare, is a serious threat to conifers in North America including Minnesota. Fungi native to Minnesota were isolated and tested in laboratory and field assays to evaluate their antagonism towards H. irregulare. One management strategy for plant pathogens, and especially H. irregulare, is to use fungi as biological control agents. A successful biological control agent used to manage root rot disease caused by H. irregulare is the fungus Phlebiopsis gigantea. The goal of this research was to screen different native fungi, including P. gigantea, against H. irregulare and examine and quantify their interactions in vitro and ex vitro. A set of four different antagonism assays were conducted. These assays served as a screening process involving both the laboratory and the field. Interactions were first examined with dual inoculation studies on media and wood discs of red pine (Pinus resinosa). These assays demonstrated strong inhibition and limited growth of H. irregulare by select fungi, including Phanerochaete livescens and P. gigantea. Another assay involved using soil microcosms and wood wedges of red pine. This allowed for a different examination, as wood wedges were inoculated with a candidate antagonistic fungus and placed in soil microcosms with H. irregulare. The opposite interaction was also examined with wedges inoculated with H. irregulare and then placed in soil microcosms containing different candidate fungi. In the field, large wood discs were placed around stumps and inoculated with candidate fungi in a red pine plantation infected with H. irregulare. Certain fungi performed well in different assays, but across all assays, P. gigantea performed the best. The antagonism of P. gigantea was most noticeable on wood discs and wood wedges used in vitro, as H. irregulare was not able to be reisolated from these substrates. Overall, these results provide more information on the fungi that appear to be acting as antagonists in forests to prevent H. irregulare from colonizing and provide new information on potential candidate fungi that could be used as a new biological control agent.
期刊介绍:
This peer reviewed, highly specialized journal covers forest pathological problems occurring in any part of the world. Research and review articles, short communications and book reviews are addressed to the professional, working with forest tree diseases caused by fungi, bacteria, nematodes, viruses, and phytoplasms; their biology, morphology, and pathology; disorders arising from genetic anomalies and physical or chemical factors in the environment. Articles are published in English.
Fields of interest: Forest pathology, effects of air pollution and adverse environmental conditions on trees and forest ecosystems.