Adaptive genetic potential and plasticity of trait variation in the foundation prairie grass Andropogon gerardii across the US Great Plains’ climate gradient: Implications for climate change and restoration

Authors

Matthew Galliart, Kansas State University
Sofia Sabates, Kansas State University
Hannah Tetreault, Kansas State University
Angel DeLaCruz, Kansas State University
Johnny Bryant, Kansas State University
Jake Alsdurf, Kansas State University
Mary Knapp, Kansas State University
Nora M. Bello, Kansas State University
Sara G. Baer, University of Kansas, LawrenceFollow
Brian R. Maricle Ph.D., Fort Hays State UniversityFollow
David J. Gibson, Southern Illinois University at Carbondale
Jesse Poland, Kansas State University
Paul St Amand, USDA Agricultural Research Service, Washington DC
Natalie Unruh, Kansas State University
Olivia Parrish, Kansas State University
Loretta Johnson, Kansas State University

Abstract

Plant response to climate depends on a species’ adaptive potential. To address this, we used reciprocal gardens to detect genetic and environmental plasticity effects on phenotypic variation and combined with genetic analyses. Four reciprocal garden sites were planted with three regional ecotypes of Andropogon gerardii, a dominant Great Plains prairie grass, using dry, mesic, and wet ecotypes originating from western KS to Illinois that span 500–1,200 mm rainfall/year. We aimed to answer: (a) What is the relative role of genetic constraints and phenotypic plasticity in controlling phenotypes? (b) When planted in the homesite, is there a trait syndrome for each ecotype? (c) How are genotypes and phenotypes structured by climate? and (d) What are implications of these results for response to climate change and use of ecotypes for restoration? Surprisingly, we did not detect consistent local adaptation. Rather, we detected co-gradient variation primarily for most vegetative responses. All ecotypes were stunted in western KS. Eastward, the wet ecotype was increasingly robust relative to other ecotypes. In contrast, fitness showed evidence for local adaptation in wet and dry ecotypes with wet and mesic ecotypes producing little seed in western KS. Earlier flowering time in the dry ecotype suggests adaptation to end of season drought. Considering ecotype traits in homesite, the dry ecotype was characterized by reduced canopy area and diameter, short plants, and low vegetative biomass and putatively adapted to water limitation. The wet ecotype was robust, tall with high biomass, and wide leaves putatively adapted for the highly competitive, light-limited Eastern Great Plains. Ecotype differentiation was supported by random forest classification and PCA. We detected genetic differentiation and outlier genes associated with primarily precipitation. We identified candidate gene GA1 for which allele frequency associated with plant height. Sourcing of climate adapted ecotypes should be considered for restoration.

Document Type

Article

Source Publication

Evolutionary Applications

Version

Published Version

DOI

10.1111/eva.13028

Publication Date

10-1-2020

Volume

13

Issue

9

First Page

2333

Last Page

2356

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

Rights

© 2020 S. Christopher Bennett

Comments

For questions contact ScholarsRepository@fhsu.edu

Recommended Citation

Galliart M, Sabates S, Tetreault H, et al. Adaptive genetic potential and plasticity of trait variation in the foundation prairie grass Andropogon gerardii across the US Great Plains’ climate gradient: Implications for climate change and restoration. Evol Appl. 2020;13:2333–2356. https://doi.org/10.1111/eva.13028