Epidemiology, Biotic Interactions and Biological Control of Armillarioids in the Northern Hemisphere

Armillarioids, including the genera , and , represent white-rot specific fungal saprotrophs with soilborne pathogenic potentials on woody hosts. They propagate in the soil by root-like rhizomorphs, connecting between susceptible root sections of their hosts, and often forming extended colonies in na...

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Published inPathogens (Basel) Vol. 10; no. 1; p. 76
Main Authors Kedves, Orsolya, Shahab, Danish, Champramary, Simang, Chen, Liqiong, Indic, Boris, Bóka, Bettina, Nagy, Viktor Dávid, Vágvölgyi, Csaba, Kredics, László, Sipos, György
Format Journal Article
LanguageEnglish
Published Switzerland MDPI AG 16.01.2021
MDPI
Subjects
Armillaria
biocontrol
Biological control
Chemical control
Deoxyribonucleic acid
DNA
Environmental impact
Epidemiology
Fungi
Genomes
Identification
Impactors
Insects
management
Microbiomes
Mitochondrial DNA
Mycelia
Nematodes
Northern Hemisphere
Pathogens
Plant diseases
Plants
Review
Rhizomorphs
Rhizosphere
RNA polymerase
Root rot
Signs and symptoms
Silviculture
Trees
Virulence
White rot
Wineries & vineyards
Northern Hemisphere
epidemiology
management
biocontrol
Armillaria
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Abstract Armillarioids, including the genera , and , represent white-rot specific fungal saprotrophs with soilborne pathogenic potentials on woody hosts. They propagate in the soil by root-like rhizomorphs, connecting between susceptible root sections of their hosts, and often forming extended colonies in native forests. Pathogenic abilities of and genets can readily manifest in compromised hosts, or hosts with full vigour can be invaded by virulent mycelia when exposed to a larger number of newly formed genets. Armillaria root rot-related symptoms are indicators of ecological imbalances in native forests and plantations at the rhizosphere levels, often related to abiotic environmental threats, and most likely unfavourable changes in the microbiome compositions in the interactive zone of the roots. The less-studied biotic impacts that contribute to armillarioid host infection include fungi and insects, as well as forest conditions. On the other hand, negative biotic impactors, like bacterial communities, antagonistic fungi, nematodes and plant-derived substances may find applications in the environment-friendly, biological control of armillarioid root diseases, which can be used instead of, or in combination with the classical, but frequently problematic silvicultural and chemical control measures.
AbstractList Armillarioids, including the genera Armillaria, Desarmillaria and Guyanagaster, represent white-rot specific fungal saprotrophs with soilborne pathogenic potentials on woody hosts. They propagate in the soil by root-like rhizomorphs, connecting between susceptible root sections of their hosts, and often forming extended colonies in native forests. Pathogenic abilities of Armillaria and Desarmillaria genets can readily manifest in compromised hosts, or hosts with full vigour can be invaded by virulent mycelia when exposed to a larger number of newly formed genets. Armillaria root rot-related symptoms are indicators of ecological imbalances in native forests and plantations at the rhizosphere levels, often related to abiotic environmental threats, and most likely unfavourable changes in the microbiome compositions in the interactive zone of the roots. The less-studied biotic impacts that contribute to armillarioid host infection include fungi and insects, as well as forest conditions. On the other hand, negative biotic impactors, like bacterial communities, antagonistic fungi, nematodes and plant-derived substances may find applications in the environment-friendly, biological control of armillarioid root diseases, which can be used instead of, or in combination with the classical, but frequently problematic silvicultural and chemical control measures.
Armillarioids, including the genera Armillaria , Desarmillaria and Guyanagaster , represent white-rot specific fungal saprotrophs with soilborne pathogenic potentials on woody hosts. They propagate in the soil by root-like rhizomorphs, connecting between susceptible root sections of their hosts, and often forming extended colonies in native forests. Pathogenic abilities of Armillaria and Desarmillaria genets can readily manifest in compromised hosts, or hosts with full vigour can be invaded by virulent mycelia when exposed to a larger number of newly formed genets. Armillaria root rot-related symptoms are indicators of ecological imbalances in native forests and plantations at the rhizosphere levels, often related to abiotic environmental threats, and most likely unfavourable changes in the microbiome compositions in the interactive zone of the roots. The less-studied biotic impacts that contribute to armillarioid host infection include fungi and insects, as well as forest conditions. On the other hand, negative biotic impactors, like bacterial communities, antagonistic fungi, nematodes and plant-derived substances may find applications in the environment-friendly, biological control of armillarioid root diseases, which can be used instead of, or in combination with the classical, but frequently problematic silvicultural and chemical control measures.
Armillarioids, including the genera , and , represent white-rot specific fungal saprotrophs with soilborne pathogenic potentials on woody hosts. They propagate in the soil by root-like rhizomorphs, connecting between susceptible root sections of their hosts, and often forming extended colonies in native forests. Pathogenic abilities of and genets can readily manifest in compromised hosts, or hosts with full vigour can be invaded by virulent mycelia when exposed to a larger number of newly formed genets. Armillaria root rot-related symptoms are indicators of ecological imbalances in native forests and plantations at the rhizosphere levels, often related to abiotic environmental threats, and most likely unfavourable changes in the microbiome compositions in the interactive zone of the roots. The less-studied biotic impacts that contribute to armillarioid host infection include fungi and insects, as well as forest conditions. On the other hand, negative biotic impactors, like bacterial communities, antagonistic fungi, nematodes and plant-derived substances may find applications in the environment-friendly, biological control of armillarioid root diseases, which can be used instead of, or in combination with the classical, but frequently problematic silvicultural and chemical control measures.
Author Kedves, Orsolya
Nagy, Viktor Dávid
Kredics, László
Indic, Boris
Chen, Liqiong
Bóka, Bettina
Vágvölgyi, Csaba
Champramary, Simang
Sipos, György
Shahab, Danish
AuthorAffiliation 1 Department of Microbiology, Faculty of Science and Informatics, University of Szeged, Szeged, Közép fasor 52, H-6726 Szeged, Hungary; kedvesorsolya91@gmail.com (O.K.); danish18581@yahoo.co.in (D.S.); simang5c@uni-sopron.hu (S.C.); liqiongchen2016@163.com (L.C.); boka.tina@gmail.com (B.B.); viktor.david.nagy@gmail.com (V.D.N.); csaba@bio.u-szeged.hu (C.V.)
2 Functional Genomics and Bioinformatics Group, Research Center for Forestry and Wood Industry, University of Sopron, Bajcsy-Zsilinszky str. 4., H-9400 Sopron, Hungary; boris.indjic@phd.uni-sopron.hu
AuthorAffiliation_xml – name: 1 Department of Microbiology, Faculty of Science and Informatics, University of Szeged, Szeged, Közép fasor 52, H-6726 Szeged, Hungary; kedvesorsolya91@gmail.com (O.K.); danish18581@yahoo.co.in (D.S.); simang5c@uni-sopron.hu (S.C.); liqiongchen2016@163.com (L.C.); boka.tina@gmail.com (B.B.); viktor.david.nagy@gmail.com (V.D.N.); csaba@bio.u-szeged.hu (C.V.)
– name: 2 Functional Genomics and Bioinformatics Group, Research Center for Forestry and Wood Industry, University of Sopron, Bajcsy-Zsilinszky str. 4., H-9400 Sopron, Hungary; boris.indjic@phd.uni-sopron.hu
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– sequence: 7
  givenname: Viktor Dávid
  surname: Nagy
  fullname: Nagy, Viktor Dávid
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  surname: Vágvölgyi
  fullname: Vágvölgyi, Csaba
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  givenname: László
  orcidid: 0000-0002-8837-3973
  surname: Kredics
  fullname: Kredics, László
  organization: Department of Microbiology, Faculty of Science and Informatics, University of Szeged, Szeged, Közép fasor 52, H-6726 Szeged, Hungary
– sequence: 10
  givenname: György
  orcidid: 0000-0002-6666-1384
  surname: Sipos
  fullname: Sipos, György
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BackLink https://www.ncbi.nlm.nih.gov/pubmed/33467216$$D View this record in MEDLINE/PubMed
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Issue 1
Keywords epidemiology
management
biocontrol
Armillaria
Language English
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Snippet Armillarioids, including the genera , and , represent white-rot specific fungal saprotrophs with soilborne pathogenic potentials on woody hosts. They propagate...
Armillarioids, including the genera Armillaria, Desarmillaria and Guyanagaster, represent white-rot specific fungal saprotrophs with soilborne pathogenic...
Armillarioids, including the genera Armillaria , Desarmillaria and Guyanagaster , represent white-rot specific fungal saprotrophs with soilborne pathogenic...
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SubjectTerms Armillaria
biocontrol
Biological control
Chemical control
Deoxyribonucleic acid
DNA
Environmental impact
Epidemiology
Fungi
Genomes
Identification
Impactors
Insects
management
Microbiomes
Mitochondrial DNA
Mycelia
Nematodes
Northern Hemisphere
Pathogens
Plant diseases
Plants
Review
Rhizomorphs
Rhizosphere
RNA polymerase
Root rot
Signs and symptoms
Silviculture
Trees
Virulence
White rot
Wineries & vineyards
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Title Epidemiology, Biotic Interactions and Biological Control of Armillarioids in the Northern Hemisphere
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Volume 10
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