Seed source environment predicts response to water availability in Plantago patagonica

The intensity, duration, and severity of drought increasing across the American Southwest. Plant restoration efforts are often thwarted by drought‐induced effects (i.e. drought‐induced mortality or failure to reproduce). Careful selection of plant materials to match future environmental conditions c...

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Published in:Restoration ecology 2024-02, Vol.32 (2), p.n/a
Main Authors: Klein, Zoë, Mitchell, Rachel M.
Format: Article
Language:English
Subjects:
Adaptation
Arid lands
Arid zones
Climate change
common garden
Drought
Environmental conditions
Environmental restoration
Flowering
Gardens & gardening
Geographical locations
greenhouse
Greenhouses
Leaf area
Mortality
Phenotypic plasticity
Plant growth
plant traits
Plantago patagonica
Plants
Plants (botany)
Plastic properties
Plasticity
Populations
Precipitation
Restoration
Seeds
Water availability
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Mitchell, Rachel M.
description The intensity, duration, and severity of drought increasing across the American Southwest. Plant restoration efforts are often thwarted by drought‐induced effects (i.e. drought‐induced mortality or failure to reproduce). Careful selection of plant materials to match future environmental conditions could improve restoration success under climate change. Here, we focus on Plantago patagonica, a priority arid land restoration species in the southwestern US. Using experimental drought in a greenhouse and supplemental watering in a common garden experiment, we quantified how the seed‐collection site environment influenced plant growth, performance, phenotypic plasticity, and evidence of local adaptation in 12 populations of P. patagonica. In the greenhouse, we found plants from hotter and drier environments had higher root:shoot ratios, while those from more variable precipitation regimes had greater total biomass in response to drought. Populations sourced from warmer environments exhibited sevenfold greater plasticity in root:shoot ratio compared to those from cooler environments, and there was strong evidence for local adaptation in phenology, as populations sourced from geographic locations nearer the common garden exhibited five times more flowering individuals than those sourced furthest from that garden. In the common garden, we found that plants sourced from wetter locations and those with more consistent precipitation regimes had lower mortality and higher specific leaf area, a proxy for growth, under unwatered ambient conditions. These results suggest plant performance of P. patagonica under reduced water availability is strongly shaped by the seed‐collection site environment and may be a useful tool for improving restoration outcomes in a changing world.
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source Wiley-Blackwell Read & Publish Collection
subjects Adaptation
Arid lands
Arid zones
Climate change
common garden
Drought
Environmental conditions
Environmental restoration
Flowering
Gardens & gardening
Geographical locations
greenhouse
Greenhouses
Leaf area
Mortality
Phenotypic plasticity
Plant growth
plant traits
Plantago patagonica
Plants
Plants (botany)
Plastic properties
Plasticity
Populations
Precipitation
Restoration
Seeds
Water availability
title Seed source environment predicts response to water availability in Plantago patagonica
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