Contrasting adaptive trait variation in response to drought in two Mediterranean shrubs

• Published in: Environmental and experimental botany Vol. 208; p. 105253
• Main Authors: Blanco-Sánchez, Mario, Franks, Steven J., Ramos-Muñoz, Marina, Pías, Beatriz, Ramírez-Valiente, José Alberto, Escudero, Adrián, Matesanz, Silvia
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 01.04.2023
• Subjects: Functional covariation; Genetic variation for plasticity; Gypsum endemics; Phenotypic plasticity; Potential response to selection; Quantitative genetic variation; Phenotypic plasticity; Functional covariation; Quantitative genetic variation; Gypsum endemics; Genetic variation for plasticity; Potential response to selection
• ISSN: 0098-8472; 1873-7307
• DOI: 10.1016/j.envexpbot.2023.105253

Adaptive evolution and phenotypic plasticity are key mechanisms of climate change responses. However, we still lack a detailed understanding of the strategies different species use to cope with climatic changes such as increased droughts, particularly for species with special edaphic requirements and limited dispersal such as gypsum endemics. In this study, we assessed phenotypic and genotypic selection, phenotypic plasticity and genetic variation in traits potentially related to drought response in two dominant gypsum Mediterranean species, Helianthemum squamatum and Centaurea hyssopifolia. We established a common garden in which 524 plants from 79 maternal families from both species were grown under two contrasting watering treatments. Our results revealed that selection was stronger under drought than well-watered conditions for both species, but we found contrasting adaptive strategies and genetic variation. In H. squamatum, a drought-escape strategy with advanced reproductive phenology and faster growth rates was positively associated with fitness under dry conditions, and most adaptive traits exhibited quantitative genetic variation. In contrast, in C. hyssopifolia, selection under dry conditions favored a drought-tolerance strategy with thicker leaves and longer phenologies, but all traits lacked quantitative genetic variation, indicating that their evolutionary potential may be limited. Most traits exhibited significant plasticity in response to drought and genetic variation for trait plasticity in both species, indicating that trait plasticity can evolve independently of the evolution of trait means in these gypsophiles. Our results show that these gypsum endemic species vary in strategies and adaptive potential in response to drought, which contributes to our understanding of potential adaptive responses to climate change in such edaphic specialists. •Gypsum shrubs have contrasting adaptive strategies and quantitative genetic variation.•The ability to evolve by natural selection varies across species.•There is substantial genetic variation for plasticity to drought in gypsum endemics.•Plasticity and evolution can shape gypsophiles’ evolutionary trajectories under climate change.