John Ramana, University of Canterbury
John Ramana
University of Canterbury

John is a broadly trained microbiologist with a background in fungal ecology and plant-microbiome interactions. He obtained his PhD from the University of Canterbury in New Zealand where his research focused on the relationship between plants and arbuscular mycorrhizal fungi. Most of his past research has revolved around the theme of resource allocation between plants and their symbiotic partners and the factors that stabilize these ‘biological markets’. He is currently a postdoctoral researcher at Manaaki Whenua - Landcare Research working on a project examining forest health from multiple spatial scales, from using DNA sequencing to examine microbial communities, to using remote sensing approaches to assess forest health. He has worked in the context of both agricultural, and natural ecosystems and is interested in how we can optimize plant microbiomes to promote plant health and enhance sustainable agriculture.

Research interests: Symbiosis, mycorrhizal fungi, plant health, rhizobia, plant soil interactions
Abstract:

Trait complementarity and functional trade-offs in plant-mycorrhizal symbioses

J. V. RAMANA , J. M. TYLIANAKIS, H. J. RIDGWAY, I. A. DICKIE

Bioprotection Aotearoa, Manaaki Whenua – Landcare Research, Lincoln 7640, New Zealand

The criteria by which plants select symbiotic partners are largely unknown, but functional complementarity of partner traits could be important to symbioses such as arbuscular mycorrhizas. Specifically, coarse-rooted plants are more likely to be limited by nutrient diffusion compared with fine-rooted plants, and therefore more reliant on fungi that can compensate with traits that maximize soil exploration. However there remains no evidence directly linking plant root traits and fungal functional traits. We tested the hypothesis that coarse-rooted plants associate with fungal partners that provide nutrient benefit by increased hyphal exploration. We collected roots from 30 plant species ranging from fine to coarse roots and used Next Generation Sequencing to identify the arbuscular mycorrhizal fungal community associated with each plant species. We found that plant root diameter was correlated with arbuscular mycorrhizal fungal community composition and diversity. We quantified exploration using root fragments from the same 30 species inoculated onto a common host plant grown in multi-compartment pots. Root fragments from coarse-rooted plants were associated with an increase in hyphal exploration away from the roots. Our results provide the first direct evidence of functional complementarity between plants and their arbuscular mycorrhizal fungal partners with important implications for fungal diversity and coexistence.

My Sessions
Trait complementarity and functional trade-offs in plant-mycorrhizal symbioses
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Presentation Bio Sci 111