Effects of mesoscale environmental heterogeneity and dispersal limitation on floristic variation in rain forest ferns

Mirkka M. Jones*, Hanna Tuomisto, David B. Clark, Paulo Olivas

*Corresponding author for this work

Research output: Contribution to journalArticleScientificpeer-review

160 Citations (Scopus)

Abstract

1 Field studies to evaluate the roles of environmental variation and random dispersal in explaining variation in the floristic composition of rain forest plants at landscape to regional scales have yet to reach a consensus. Moreover, only one study has focused on scales below 10 km(2), where the effects of dispersal limitation are expected to be easiest to observe.

2 In the present study, we estimate the importance of differences in some key environmental variables (describing canopy openness, soils and topography) relative to the geographical distances between sample plots as determinants of differences in pteridophyte (ferns and fern allies) species composition between plots within a c. 5.7 km(2) lowland rain forest site in Costa Rica.

3 To assess the relative importance of environmental vs. geographical distances in relation to the length of environmental gradient covered, we compared the results obtained over the full range of soil types, including swamps, with those for upland soils alone.

4 Environmental variability was found to be a far stronger predictor of changes in floristic differences than the geographical distance between sample plots. In particular, differences in soil nutrient content, drainage and canopy openness correlated with floristic differences.

5 The decline in mean floristic similarity with increasing geographical distance was stronger than proposed by the random dispersal model over short distances (up to c. 100 m), which is probably attributable to both dispersal limitation and environmental changes. The scatter around the mean was large at all distances.

6 Our initial expectation was that the effects of dispersal limitation (represented by geographical distance) on observed patterns of floristic similarity would be stronger, and those of environmental differences weaker, than at broader spatial scales. Instead, these results suggest that the niche assembly view is a more accurate representation of pteridophyte communities at local to mesoscales than the dispersal assembly view.

Original languageEnglish
Pages (from-to)181-195
Number of pages15
JournalJournal of Ecology
Volume94
Issue number1
DOIs
Publication statusPublished - 1 Jan 2006
MoE publication typeA1 Journal article-refereed

Keywords

  • Costa Rica
  • Dispersal limitation
  • Environmental heterogeneity
  • Floristic variation
  • La Selva
  • Mesoscale
  • Niche assembly
  • Pteridophytes
  • Variation partitioning
  • Vegetation-environment relationships

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