Record ID No. |
4071 |
Author(s) |
Babikova, Z. , Johnson, D., Bruce, T., Pickett, J., Gilbert, L. , 2014 |
Affiliation |
Institute of Biological and Environmental Sciences, University of Aberdeen, Aberdeen, United Kingdom, email: zdenka.babikova@upol.cz |
Title |
Underground allies: How and why do mycelial networks help plants defend themselves?: What are the fitness, regulatory, and practical implications of defence-related signaling between plants via common mycelial networks? Insights & Perspectives Z. Babikova |
Source. Vol.(no):Page |
BioEssays, 36(1): 21-26p. |
Categories |
Mycorrhiza General |
Subjects |
Physiology |
Host |
Plants |
Organism |
Mycorrhiza |
Country |
UK, Northern Europe |
Abstracts |
Most land plants associate with mycorrhizal fungi that can connect roots of neighboring plants in common mycelial networks (CMNs). Recent evidence shows that CMNs transfer warning signals of pathogen and aphid attack between plants. However, we do not know how defence-related signaling via CMNs operates or how ubiquitous it is. Nor do we know what the ecological relevance and fitness consequences are, particularly from the perspective of the mycorrhizal fungus. Here, we focus on the potential fitness benefits for mycorrhizal fungi and outline hypothetical scenarios in which signal transfer via CMNs is modulated in order to acquire the most benefit for the fungus (i.e. acquisition of carbon) for minimal cost. We speculate that the signal may be quantitative and may elicit plant defence responses on different levels depending on the distance the signal is transferred. Finally, we discuss the possibility of practical applications of this phenomenon for crop protection. Mycorrhizal fungi connect roots of neighboring plants in common mycelial networks. Recent research demonstrates that these networks transfer warning signals of aphid attack between plants. Here, we speculate about the ecological implications of this signaling pathway, how is it regulated, and the benefits to the fungi of transferring the signal. |