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  • Please use this identifier to cite or link to this item: https://repositorio.uti.edu.ec//handle/123456789/3618
    Title: Legume diversity patterns in West Central Africa: Influence of species biology on distribution models
    Authors: De-la-Estrella, Manuel
    Mateo, Rubén
    Mackinder, Barbara
    Muñoz, Jesús
    Wieringa, Jan
    Issue Date: 2012
    Publisher: PLoS ONE. Volume 7, Issue 7
    Abstract: Objectives: Species Distribution Models (SDMs) are used to produce predictions of potential Leguminosae diversity in West Central Africa. Those predictions are evaluated subsequently using expert opinion. The established methodology of combining all SDMs is refined to assess species diversity within five defined vegetation types. Potential species diversity is thus predicted for each vegetation type respectively. The primary aim of the new methodology is to define, in more detail, areas of species richness for conservation planning. Methodology: Using Maxent, SDMs based on a suite of 14 environmental predictors were generated for 185 West Central African Leguminosae species, each categorised according to one of five vegetation types: Afromontane, coastal, non-flooded forest, open formations, or riverine forest. The relative contribution of each environmental variable was compared between different vegetation types using a nonparametric Kruskal-Wallis analysis followed by a post-hoc Kruskal-Wallis Paired Comparison contrast. Legume species diversity patterns were explored initially using the typical method of stacking all SDMs. Subsequently, five different ensemble models were generated by partitioning SDMs according to vegetation category. Ecological modelers worked with legume specialists to improve data integrity and integrate expert opinion in the interpretation of individual species models and potential species richness predictions for different vegetation types. Results/Conclusions: Of the 14 environmental predictors used, five showed no difference in their relative contribution to the different vegetation models. Of the nine discriminating variables, the majority were related to temperature variation. The set of variables that played a major role in the Afromontane species diversity model differed significantly from the sets of variables of greatest relative important in other vegetation categories. The traditional approach of stacking all SDMs indicated overall centers of diversity in the region but the maps indicating potential species richness by vegetation type offered more detailed information on which conservation efforts can be focused. © 2012 de la Estrella et al.
    URI: https://journals.plos.org/plosone/article?id=10.1371/journal.pone.0041526
    http://repositorio.uti.edu.ec//handle/123456789/3618
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