Gender-specific variation in physiology in the dioecious shrub Corema album throughout its distributional range
Leonor Álvarez-Cansino A B E , Mari Cruz Díaz Barradas C , María Zunzunegui C , Mari Paz Esquivias C and Todd E. Dawson DA University of Wisconsin-Milwaukee, Department of Biological Sciences, PO Box 413, Milwaukee, WI 53201, USA.
B Smithsonian Tropical Research Institute. Apt. 2072, Balboa, Panama.
C Universidad de Sevilla, Departamento de Biología Vegetal y Ecología. Aptdo. 1095 41080. Sevilla, Spain.
D University of California-Berkeley, Department of Integrative Biology and Ecology, Berkeley, CA 94720-5800, USA.
E Corresponding author. Email: alvarel@uwm.edu
Functional Plant Biology 39(12) 968-978 https://doi.org/10.1071/FP12131
Submitted: 27 April 2012 Accepted: 20 August 2012 Published: 5 October 2012
Abstract
Different requirements for reproduction between sexes in dioecious plants can lead to gender-specific physiological responses to environmental constraints. Females generally endure higher reproductive investment and costs than males, displaying lower water and nutrient use efficiency and growth. We studied the ecophysiology of the dioecious shrub Corema album L. (D.) Don. to assess how drought impacts physiological responses and gender dimorphism along an aridity gradient within the species’ range. Leaf gas exchange, photochemical efficiency (Fv/Fm), water potential (Ψ), vegetative growth (VG) and leaf C isotopic discrimination and nitrogen content were measured in three populations under markedly different climatic conditions. Physiological responses and growth indicated higher level of stress in the drier environments, leading to increased WUE (Δ) and lower VG. Physiological stress increases among plants were related to incremental changes in the degree of gender dimorphism, with significant effects on Ψ and Fv/Fm (P < 0.05); males showed higher VG (P < 0.001). Multivariate analysis of instantaneous and integrated measurements revealed gender-related effects across the climatic gradient (P < 0.01). Reproduction investment has an effect on the physiological performance and growth of C. album. Gender responses are site-specific, being influenced by climate. The increase in physiological stress with aridity could lead to the potential retreat and variation in structure in these populations if genders are affected differently by the predicted climate change.
Additional keywords: aridity gradient, distributional range, drought, gender dimorphism, photosynthesis, water relations.
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