Quercus ilex recruitment in a drier world: A multi-stage demographic approach

TitleQuercus ilex recruitment in a drier world: A multi-stage demographic approach
Publication TypeJournal Article
Year of Publication2013
AuthorsPérez-Ramos, I. M., Rodriguez-Calcerrada J., Ourcival J. M., & Rambal S.
JournalPerspectives in Plant Ecology, Evolution and Systematics
Volume15
Issue2
Pagination106 - 117
Date Published2013///
Keywordsclimate change, functional traits, Mediterranean woodland, Microhabitats, regeneration niche, seedling growth
Abstract

There is a growing interest in understanding and forecasting the responses of plant communities to projected changes of environmental conditions. Multi-stage demographic approaches, where plant recruitment is explored across multiple and consecutive stages, are essential to obtain a whole overview of the consequences of increasing aridity on tree recruitment and forest dynamics, but they are still rarely used. In this study, we present the results of an experimental rainfall exclusion aimed to evaluate the impact of projected increasing drought on multiple stage-specific probabilities of recruitment in a key tree species typical of late-successional Mediterranean woodlands (Quercus ilex L.). We calibrated linear and nonlinear likelihood models for the different demographic processes and calculated overall probabilities of recruitment along a wide range of microhabitat conditions. Rainfall exclusion altered Q. ilex recruitment throughout ontogeny. Seed maturation, seedling emergence and survival and, to a lesser extent, post-dispersal seed survival were the most sensitive demographic processes to decreased rainfall. Interestingly, both the identity of the most critical stages for recruitment and their specific sensitivity to rainfall manipulation depended largely on the yearly pattern of precipitation. The microhabitat heterogeneity strongly determined the success of recruitment in the study species. The experimental increase in drought displaced the peak of maximum overall recruitment towards the low end of the light gradient, suggesting that the dependence on shrubs for an effective recruitment in Q. ilex could be intensified under future environmental scenarios. In terms of phenotypic plasticity, Q. ilex seedlings responded more strongly to light availability than to experimentally increased drought, which could reduce its ability to persist under on-going environmental conditions due to climate change. Results from this study provide a full picture of the ecological and functional consequences of the projected rainfall reduction on tree recruitment and forest dynamics in two years of contrasting precipitation.

URLhttp://dx.doi.org/10.1016/j.ppees.2012.12.005http://www.sciencedirect.com/science/article/pii/S1433831912000741