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Microbe-induced plant resistance against insect pests depends on timing of inoculation but is consistent across climatic conditions.
Funct. Ecol. 38, 848–860 (2024)
To cope with abiotic and biotic stressors, plants have developed mutualistic associations with beneficial soil microbes, but little is known about how extreme abiotic conditions impact on microbe-induce resistance to insect herbivores. Extreme temperatures are often accompanied by extremes in plant water availability, which together reduce plant growth and change plant physiology. There are potential consequences for increasing plant susceptibility to biotic stresses, and this poses a real challenge for plant productivity. We evaluated how the effects of beneficial soil bacteria (Acidovorax radicis N35e) on barley plant growth and resultant resistance against aphid infestation (Sitobion avenae) were impacted by a single heatwave event across a plant water availability gradient. We also tested if timing of bacterial inoculation (before or after the temperature treatment) affected bacteria-plant interactions on aphids. We found that heatwaves affected plant biomass allocation from above-ground to below-ground tissues. Inoculation with A. radicis led to reduction of aphid numbers, but depended on timing of inoculation, and led to stronger resistance when inoculations occurred closer to aphid infestation. Remarkably, microbe-induced resistance against aphids was consistent across heatwave and water availability treatments. This study provides evidence that beneficial plant-bacteria interactions may represent a potential solution for sustainable agricultural practices to enhance plant growth and response to insect pests under climate change. Future field trials should investigate the consistency of beneficial effects reported here for a better understanding of multispecies interactions in the context of global change. Read the free Plain Language Summary for this article on the Journal blog.
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Publication type
Article: Journal article
Document type
Scientific Article
Keywords
Acidovorax Radicis ; Aphid Suppression ; Bacteria-plant-insect Interactions ; Barley Plant ; Extreme Climatic Effect ; Herbivory ; Plant Water Availability ; Temperature Extremes; Aphid Interactions; Grain Aphid; Stress; Growth; Heat; Rhizobacteria; Responses; Drought; Impact; Photosynthesis
ISSN (print) / ISBN
0269-8463
e-ISSN
0269-2183
Journal
Functional Ecology
Quellenangaben
Volume: 38,
Pages: 848–860
Publisher
Blackwell
Publishing Place
Oxford
Non-patent literature
Publications
Reviewing status
Peer reviewed
Institute(s)
Institute of Network Biology (INET)
Grants
Deutsche Forschungsgemeinschaft
Deutsche Forschungsgemeinschaft