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Oecologia
Apr, 2016;180 (4): 961-73.

Climatic events inducing die-off in Mediterranean shrublands: are species' responses related to their functional traits?

Francisco Lloret, Enrique G de la Riva, Ignacio M Pérez-Ramos, Teodoro Marañón, Sandra Saura-Mas, Ricardo Díaz-Delgado, Rafael Villar
Author Information
  1. Francisco Lloret: CREAF and Unitat d'Ecologia, Department of Biologia Animal, Biologia Vegetal i Ecologia, Universitat Autònoma Barcelona, Edifici C, Campus UAB, 08193, Cerdanyola del Vallès, Barcelona, Spain. francisco.lloret@uab.cat.
  2. Enrique G de la Riva: Área de Ecología, Facultad de Ciencias, Universidad de Córdoba, 14071, Córdoba, Spain.
  3. Ignacio M Pérez-Ramos: IRNAS, CSIC, Av. Reina Mercedes, 10, 41012, Seville, Spain.
  4. Teodoro Marañón: IRNAS, CSIC, Av. Reina Mercedes, 10, 41012, Seville, Spain.
  5. Sandra Saura-Mas: CREAF and Unitat d'Ecologia, Department of Biologia Animal, Biologia Vegetal i Ecologia, Universitat Autònoma Barcelona, Edifici C, Campus UAB, 08193, Cerdanyola del Vallès, Barcelona, Spain.
  6. Ricardo Díaz-Delgado: EBD, CSIC, c/Americo Vespucio, s/n, Isla de la Cartuja, 41092, Seville, Spain.
  7. Rafael Villar: Área de Ecología, Facultad de Ciencias, Universidad de Córdoba, 14071, Córdoba, Spain.
PMID: 26801493 DOI: 10.1007/s00442-016-3550-4

Abstract

Extreme climatic episodes, likely associated with climate change, often result in profound alterations of ecosystems and, particularly, in drastic events of vegetation die-off. Species attributes are expected to explain different biological responses to these environmental alterations. Here we explored how changes in plant cover and recruitment in response to an extreme climatic episode of drought and low temperatures were related to a set of functional traits (of leaves, roots and seeds) in Mediterranean shrubland species of south-west Spain. Remaining aerial green cover 2 years after the climatic event was positively related to specific leaf area (SLA), and negatively to leaf water potential, stable carbon isotope ratio and leaf proline content. However, plant cover resilience, i.e. the ability to attain pre-event values, was positively related to a syndrome of traits distinguished by a higher efficiency of water use and uptake. Thus, higher SLA and lower water-use efficiency characterized species that were able to maintain green biomass for a longer period of time but were less resilient in the medium term. There was a negative relationship between such syndromes and the number of emerging seedlings. Species with small seeds produced more seedlings per adult. Overall, recruitment was positively correlated with species die-off. This study demonstrates the relationship between plant traits and strong environmental pulses related to climate change, providing a functional interpretation of the recently reported episodes of climate-induced vegetation die-off. Our findings reveal the importance of selecting meaningful traits to interpret post-event resilience processes, particularly when combined with demographic attributes.

Keywords

Climate change Drought Extreme climate episode Recruitment Resilience

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MeSH Term

Biodiversity
Carbon
Climate Change
Droughts
Ecosystem
Mediterranean Region
Phenotype
Plant Leaves
Plant Physiological Phenomena
Plants
Population Dynamics
Seedlings
Seeds
Spain

Chemicals

Carbon
Journal Article Research Support, Non-U.S. Gov't
Article has an altmetric score of 10

Word Cloud

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