Plants, People, Planet (Sep 2021)

Vanilla aerial and terrestrial roots host rich communities of orchid mycorrhizal and ectomycorrhizal fungi

  • Lynnaun J. A. N. Johnson,
  • Ma. del Carmen A. Gónzalez‐Chávez,
  • Rogelio Carrillo‐González,
  • Andrea Porras‐Alfaro,
  • Gregory M. Mueller

DOI
https://doi.org/10.1002/ppp3.10171
Journal volume & issue
Vol. 3, no. 5
pp. 541 – 552

Abstract

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Social Impact Statement Vanilla planifolia is the source of the spice vanilla. This study is part of an international initiative to study the biology, including mycorrhizal fungi and cultivation practices of vanilla to improve its production in Mexico. The study focused on documenting mycorrhizal fungal diversity in vanilla. It also provided preliminary data on differences in mycorrhizal fungal communities associated with cultivation practices. A richer mycorrhizal community was observed in vanilla growing in a wild natural farm compared with those from a highly managed farm. Our research provides insights for sustainable vanilla production that can benefit Mexican farming communities. Summary Relatively little is known regarding differences in root symbionts (i.e., mycorrhizae) between epiphytic and terrestrial orchids. We characterized the mycorrhizal fungal communities of aerial and terrestrial roots of the orchid, Vanilla planifolia, from four Mexican farms representing different management systems. Amplicon sequencing identified 40 putative mycorrhizal fungi based on ITS sequence data, these included traditional orchid mycorrhizal fungi such as Ceratobasidium, and Thanatephorus in the order Cantharellales as well as Serendipitaceae in the order Sebacinales, and species of several genera traditionally considered as ectomycorrhizal fungi. Mycorrhizal fungal communities were similar in aerial and terrestrial roots, but differed in read abundances. Plants growing in wild‐natural conditions hosted a richer, but not statistically different, community of mycorrhizal fungi in comparison with plants in the highly managed farm. Soil characteristics including texture, organic matter, N, P, and K do not explain differences between fungal communities at these farms. This is one of the first reports of a diverse community of fungi traditionally considered to form ectomycorrhizas in association with aerial orchid roots. Further research is needed to understand the functional role of these putative mycorrhizal fungi in the ecology of V. planifolia, and if ectomycorrhizal fungi commonly occur in other hemiepiphytic and epiphytic orchids.

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