Ecometabolomic Analysis of Wild Populations of Pilocarpus pennatifolius (Rutaceae) Using Unimodal Analyses

Ecometabolomic Analysis of Wild Populations of Pilocarpus pennatifolius (Rutaceae) Using Unimodal Analyses

Studies examining the diversity of plant specialized metabolites suggest that biotic and abiotic pressures greatly influence the qualitative and quantitative diversity found in a species. Large geographic distributions expose a species to a great variety of environmental pressures, thus providing an...

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Published in:Frontiers in plant science Vol. 10; p. 258
Main Authors: Allevato, Daniella M, Kiyota, Eduardo, Mazzafera, Paulo, Nixon, Kevin C
Format: Journal Article
Language:English
Published: Switzerland Frontiers Media S.A 06-03-2019
Subjects:
canonical correlation analyses
chemoecotype
ecological metabolomics
ecophysiology
Pilocarpus pennatifolius
Plant Science
unimodal ordination
unimodal ordination
Pilocarpus pennatifolius
chemoecotype
ecological metabolomics
ecophysiology
canonical correlation analyses
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Summary:Studies examining the diversity of plant specialized metabolites suggest that biotic and abiotic pressures greatly influence the qualitative and quantitative diversity found in a species. Large geographic distributions expose a species to a great variety of environmental pressures, thus providing an enormous opportunity for expression of environmental plasticity. , a neotropical genus of Rutaceae, is rich in alkaloids, terpenoids, and coumarins, and is the only commercial source of the alkaloid pilocarpine for the treatment of glaucoma. Overharvesting of species in this genus for pilocarpine, has threatened natural populations of the species. The aim of this research was to understand how adaptation to environmental variation shapes the metabolome in multiple populations of the widespread species . LCMS data from alkaloid and phenolic extracts of leaf tissue were analyzed with environmental predictors using unimodal unconstrained and constrained ordination methods for an untargeted metabolomics analysis. PLS-DA was used to further confirm the chemoecotypes of each site. The most important variables contributing to the alkaloid variation between the sites: mean temperature of wettest quarter, as well as the soil content of phosphorus, magnesium, and base saturation (V%). The most important contributing to the phenolic variation between the sites: mean temperature of the wettest quarter, temperature seasonality, calcium and soil electrical conductivity. This research will have broad implications in a variety of areas including biocontrol for pests, environmental and ecological plant physiology, and strategies for species conservation maximizing phytochemical diversity.
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This article was submitted to Plant Metabolism and Chemodiversity, a section of the journal Frontiers in Plant Science
Edited by: Hiroyuki Morita, University of Toyama, Japan
Reviewed by: Kazufumi Toume, University of Toyama, Japan; Takahiro Mori, The University of Tokyo, Japan
ISSN:1664-462X
1664-462X
DOI:10.3389/fpls.2019.00258