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Phylogenetic Analysis of Local-Scale Tree Soil Associations in a Lowland Moist Tropical Forest

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  • Laura A Schreeg
  • W John Kress
  • David L Erickson
  • Nathan G Swenson

Abstract

Background: Local plant-soil associations are commonly studied at the species-level, while associations at the level of nodes within a phylogeny have been less well explored. Understanding associations within a phylogenetic context, however, can improve our ability to make predictions across systems and can advance our understanding of the role of evolutionary history in structuring communities. Methodology/Principal Findings: Here we quantified evolutionary signal in plant-soil associations using a DNA sequence-based community phylogeny and several soil variables (e.g., extractable phosphorus, aluminum and manganese, pH, and slope as a proxy for soil water). We used published plant distributional data from the 50-ha plot on Barro Colorado Island (BCI), Republic of Panamá. Our results suggest some groups of closely related species do share similar soil associations. Most notably, the node shared by Myrtaceae and Vochysiaceae was associated with high levels of aluminum, a potentially toxic element. The node shared by Apocynaceae was associated with high extractable phosphorus, a nutrient that could be limiting on a taxon specific level. The node shared by the large group of Laurales and Magnoliales was associated with both low extractable phosphorus and with steeper slope. Despite significant node-specific associations, this study detected little to no phylogeny-wide signal. We consider the majority of the ‘traits’ (i.e., soil variables) evaluated to fall within the category of ecological traits. We suggest that, given this category of traits, phylogeny-wide signal might not be expected while node-specific signals can still indicate phylogenetic structure with respect to the variable of interest. Conclusions: Within the BCI forest dynamics plot, distributions of some plant taxa are associated with local-scale differences in soil variables when evaluated at individual nodes within the phylogenetic tree, but they are not detectable by phylogeny-wide signal. Trends highlighted in this analysis suggest how plant-soil associations may drive plant distributions and diversity at the local-scale.

Suggested Citation

  • Laura A Schreeg & W John Kress & David L Erickson & Nathan G Swenson, 2010. "Phylogenetic Analysis of Local-Scale Tree Soil Associations in a Lowland Moist Tropical Forest," PLOS ONE, Public Library of Science, vol. 5(10), pages 1-10, October.
    • Handle: RePEc:plo:pone00:0013685
    DOI: 10.1371/journal.pone.0013685
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    References listed on IDEAS

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    1. Bettina M. J. Engelbrecht & Liza S. Comita & Richard Condit & Thomas A. Kursar & Melvin T. Tyree & Benjamin L. Turner & Stephen P. Hubbell, 2007. "Drought sensitivity shapes species distribution patterns in tropical forests," Nature, Nature, vol. 447(7140), pages 80-82, May.
    2. Marcel G. A. van der Heijden & John N. Klironomos & Margot Ursic & Peter Moutoglis & Ruth Streitwolf-Engel & Thomas Boller & Andres Wiemken & Ian R. Sanders, 1998. "Mycorrhizal fungal diversity determines plant biodiversity, ecosystem variability and productivity," Nature, Nature, vol. 396(6706), pages 69-72, November.
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    1. Nathan G Swenson, 2011. "Phylogenetic Beta Diversity Metrics, Trait Evolution and Inferring the Functional Beta Diversity of Communities," PLOS ONE, Public Library of Science, vol. 6(6), pages 1-9, June.

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