DOI: 10.1111/j.1466-8238.2008.00416.x © 2008 The Authors 778 Journal compilation © 2008 Blackwell Publishing Ltd www.blackwellpublishing.com/geb Global Ecology and Biogeography, (Global Ecol. Biogeogr.) (2008) 17, 778–787 RESEARCH PAPER Blackwell Publishing Ltd Diversity and species composition of West African ungulate assemblages: effects of fire, climate and soil Erik Klop 1 * and Herbert H. T. Prins 2 ABSTRACT Aim Anthropogenic fires are a major component of the ecology of rangelands throughout the world. To assess the effects of these fires on the diversity patterns of herbivores, we related gradients in fire occurrence, climate and soil fertility to patterns in alpha and beta diversity of African ungulates. Location West Africa. Methods We used a survey-based approach for ungulates in 37 protected areas in desert, savanna and rain forest habitats throughout West Africa, combined with satellite images of fire occurrence and digital maps of actual evapotranspiration and soil fertility. Alpha diversity was related to the environmental variables using conventional and spatial regression models. We investigated beta diversity using partial Mantel tests and ordination techniques, and by partitioning the variance in assemblage composition into environmental and spatial components. Results The species richness of grazers showed a quadratic relationship with actual evapotranspiration, whereas that of browsers and frugivores showed a linear relationship. However, in the multiple regression models fire occurrence was the only variable that significantly correlated with the species richness of grazers. Soil fertility was weakly related to overall beta diversity and the species richness of browsers, but was non-significant in the multiple regression models. Fire occurrence was the most important variable explaining species composition of the overall species set and of grazers, whereas the assemblage composition of browsers and frugivores was explained mostly by actual evapotranspiration. Main conclusions In contrast to previous studies, our analyses show that moisture and nutrients alone fail to adequately predict the diversity patterns of grazing ungulates. Rather, the species richness and assemblage composition of grazers are largely governed by anthropogenic fires that modify the quality and structure of the grass sward. Diversity patterns of browsers and frugivores are markedly different from grazers and depend mainly on the availability of moisture, which is positively correlated with the availability of foliage and fruits. Our study highlights the importance of incorporating major human-induced disturbances or habitat alterations into analyses of diversity patterns. Keywords Actual evapotranspiration, anthropogenic effects, community composition, diversity, fire, soil fertility, spatial effects, species richness, ungulates, variance partitioning. *Correspondence: E. Klop, Thorbeckestraat 160, 6702 BW Wageningen, The Netherlands. E-mail: eklop@cs.com 1 Institute of Environmental Sciences, Leiden University, P.O. Box 9518, 2300 RA, Leiden, The Netherlands, 2 Resource Ecology Group, Wageningen University, Droevendaalsesteeg 3a, 6708 PB Wageningen, The Netherlands INTRODUCTION The factors that drive global or regional patterns in species richness continue to be a main focus of ecological research (Rosenzweig, 1995; Hawkins et al., 2003). Diversity gradients of terrestrial vertebrates have been explained by a plethora of hypotheses, mostly focusing on climate-based parameters such as water, energy or composite measures such as actual evapotranspiration (Hawkins et al., 2003). In a recent paper, Olff et al. (2002) showed that global diversity patterns of mammalian herbivores are largely governed by the