A soil-free method for assessing pathogenicity of fungal isolates from apple roots

Research output: Contribution to journalArticleResearchpeer review

Authors

  • C. Popp
  • Gisela Grunewaldt-Stöcker
  • Edgar Maiß

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Details

Original languageEnglish
Pages (from-to)329-341
Number of pages13
JournalJournal of Plant Diseases and Protection
Volume126
Issue number4
Early online date10 Jun 2019
Publication statusPublished - 1 Aug 2019

Abstract

Apple replant disease is a problem in tree nurseries and apple orchards worldwide. Its cause is still unknown, but fungi are discussed to contribute to a complex of causal biotic factors. Several fungi are claimed to be replant disease pathogens but have not been significantly confirmed in experiments. Therefore, it seems indispensable to study fungal root endophytes in pathogenicity tests. Bioassays conducted in green house pot cultures using peat substrate or disinfected natural soil have been time and labor intensive and often resulted in only low infection rates. A quick biotest using the inert material perlite under controlled conditions is presented as an improved method to assess the effects of fungal isolates from replant-diseased root tissue. In vitro cultivated M26 rootstock plantlets were grown for 3 weeks in a Petri dish growth box with perlite substrate inoculated with selected fungal isolates. Symptom ratings for shoot wilting started after only 2 days; root symptoms appeared later and were assessed microscopically. Necroses in root tissue as well as hyphae, chlamydospores, and macroconidia could be detected. The tested endophytic isolates led to the following plant reactions: (1) negative (Cadophora, Calonectria, Dactylonectria, Ilyonectria, and Leptosphaeria) or (2) neutral (Plectosphaerella, Pleotrichocladium, and Zalerion). After re-isolation, most of the Nectriaceae isolates were confirmed as pathogens for M26 plants by fulfilling Koch’s postulates in a subsequent test. We recommend this perlite biotest to facilitate studies on root endophyte interactions with their hosts.

Keywords

    Apple replant disease, Biotest, Cylindrocarpon-like species, Malus domestica, Nectriaceae, Perlite

ASJC Scopus subject areas

Cite this

A soil-free method for assessing pathogenicity of fungal isolates from apple roots. / Popp, C.; Grunewaldt-Stöcker, Gisela; Maiß, Edgar.
In: Journal of Plant Diseases and Protection, Vol. 126, No. 4, 01.08.2019, p. 329-341.

Research output: Contribution to journalArticleResearchpeer review

Popp C, Grunewaldt-Stöcker G, Maiß E. A soil-free method for assessing pathogenicity of fungal isolates from apple roots. Journal of Plant Diseases and Protection. 2019 Aug 1;126(4):329-341. Epub 2019 Jun 10. doi: 10.1007/s41348-019-00236-6
Popp, C. ; Grunewaldt-Stöcker, Gisela ; Maiß, Edgar. / A soil-free method for assessing pathogenicity of fungal isolates from apple roots. In: Journal of Plant Diseases and Protection. 2019 ; Vol. 126, No. 4. pp. 329-341.
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abstract = "Apple replant disease is a problem in tree nurseries and apple orchards worldwide. Its cause is still unknown, but fungi are discussed to contribute to a complex of causal biotic factors. Several fungi are claimed to be replant disease pathogens but have not been significantly confirmed in experiments. Therefore, it seems indispensable to study fungal root endophytes in pathogenicity tests. Bioassays conducted in green house pot cultures using peat substrate or disinfected natural soil have been time and labor intensive and often resulted in only low infection rates. A quick biotest using the inert material perlite under controlled conditions is presented as an improved method to assess the effects of fungal isolates from replant-diseased root tissue. In vitro cultivated M26 rootstock plantlets were grown for 3 weeks in a Petri dish growth box with perlite substrate inoculated with selected fungal isolates. Symptom ratings for shoot wilting started after only 2 days; root symptoms appeared later and were assessed microscopically. Necroses in root tissue as well as hyphae, chlamydospores, and macroconidia could be detected. The tested endophytic isolates led to the following plant reactions: (1) negative (Cadophora, Calonectria, Dactylonectria, Ilyonectria, and Leptosphaeria) or (2) neutral (Plectosphaerella, Pleotrichocladium, and Zalerion). After re-isolation, most of the Nectriaceae isolates were confirmed as pathogens for M26 plants by fulfilling Koch{\textquoteright}s postulates in a subsequent test. We recommend this perlite biotest to facilitate studies on root endophyte interactions with their hosts.",
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AU - Maiß, Edgar

N1 - Funding information: The authors are grateful to Mrs. Ewa Schneider and to Ms. Jenny Rebentisch for technical assistance. Dr. Christine Dieckhoff provided helpful support in improving the English version of this manuscript. The German Federal Ministry of Research and Education funded this work in the project ORDIAmur (FKZ 031B0025A) within the framework of the BonaRes program.

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