Effects of ENSO and temporal rainfall variation on the dynamics of successional communities in old-field succession of a tropical dry forest

PLoS One. 2013 Dec 12;8(12):e82040. doi: 10.1371/journal.pone.0082040. eCollection 2013.

Abstract

The effects of temporal variation of rainfall on secondary succession of tropical dry ecosystems are poorly understood. We studied effects of inter-seasonal and inter-year rainfall variation on the dynamics of regenerative successional communities of a tropical dry forest in Mexico. We emphasized the effects caused by the severe El Niño Southern Oscillation (ENSO) occurred in 2005. We established permanent plots in sites representing a chronosequence of Pasture (abandoned pastures, 0-1 years fallow age), Early (3-5), Intermediate (8-12), and Old-Growth Forest categories (n = 3 per category). In total, 8210 shrubs and trees 10 to 100-cm height were identified, measured, and monitored over four years. Rates of plant recruitment, growth and mortality, and gain and loss of species were quantified per season (dry vs. rainy), year, and successional category, considering whole communities and separating seedlings from sprouts and shrubs from trees. Community rates changed with rainfall variation without almost any effect of successional stage. Mortality and species loss rates peaked during the ENSO year and the following year; however, after two rainy years mortality peaked in the rainy season. Such changes could result from the severe drought in the ENSO year, and of the outbreak of biotic agents during the following rainy years. Growth, recruitment and species gain rates were higher in the rainy season but they were significantly reduced after the ENSO year. Seedlings exhibited higher recruitment and mortality rate than sprouts, and shrubs showed higher recruitment than trees. ENSO strongly impacted both the dynamics and trajectory of succession, creating transient fluctuations in the abundance and species richness of the communities. Overall, there was a net decline in plant and species density in most successional stages along the years. Therefore, strong drought events have critical consequences for regeneration dynamics, delaying the successional process and modifying the resilience of these systems.

MeSH terms

  • Biodiversity
  • Droughts*
  • Ecosystem
  • El Nino-Southern Oscillation*
  • Mexico
  • Plant Dispersal
  • Rain*
  • Seasons
  • Seedlings / physiology*
  • Trees / physiology*
  • Tropical Climate

Grants and funding

This work was supported by a DGAPA-UNAM Posdoctoral Fellowship (to SMV) and by SEMARNAT-CONACyT 2002-C01-0597 grant (to MMR). The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.