Abstract
Stand structure, diversity and regeneration status of woody species were investigated in open and exclosed dry woodland sites in Island Safari, Shorobe and Xobe, northeastern Botswana. A total of 105, 111 and 130 quadrats, measuring 20 × 20 m each, were laid down along parallel line transects in the three sites, respectively, to collect data. A total of 47 species, representing 16 families and 24 genera, were recorded in the study sites. Of these, 33 species representing 13 families and 20 genera, 41 species representing 15 families and 23 genera and 27 species representing 10 families and 14 genera were encountered in Island Safari, Shorobe and Xobe, respectively. The most diverse family was Fabaceae followed by Combretaceae and Tiliaceae at all the three sites. The most diverse genus was Acacia, followed by Combretum and Grewia. The diversity of woody species in the study sites were 2.18, 2.15 and 1.5 in Shorobe, Island Safari and Xobe, respectively, while their corresponding evenness values were 0.6, 0.6 and 0.5, respectively. The mean densities of the woody species encountered in Island Safari, Shorobe and Xobe were 2629, 4271 and 2745 individuals haǃ, respectively. The five densest species were Colophospermum mopane, Dichrostachys cinerea, Acacia tortilis, Philenoptera violacea and Terminalia prunioides in Island Safari, C. mopane, A. tortilis, A. erioloba, P. violacea and D. cinerea in Shorobe and Acacia mellifera, A. tortilis, P. nelsii, A. luederitzii and A. erubescens in Xobe. The highest important value index values were exhibited by C. mopane, D. cinerea, A. tortilis, P. violacea and T. prunioides in Island Safari, C. mopane, A. erioloba, A. tortilis, P. violacea and C. imberbe in Shorobe, and A. mellifera, A. tortilis, P. nelsii and A. luederitzii in Xobe. The alarming result was the fact that 71%, 80% and 85% of the woody species recorded in Island Safari, Shorobe and Xobe, respectively, exhibited hampered regeneration and, thus, unhealthy population structures. Therefore, there is an urgent need to address the observed unhealthy population structures of the woody species through investigation of the major causes of their hampered regeneration, and also designing measures that will facilitate natural and artificial regeneration of these species at the three study sites.
Highlights
Tropical forests, which are home to around half of the terrestrial plant and animal species, are being destroyed at rates unprecedented in geological history (WCMC, 1992; Wright & Muller-Landau, 2006; LaFrankie et al, 2006; Lu et al, 2010; Elliot et al, 2013)
Of the three study sites, Shorobe exhibited the highest number of families, genera and species followed by Island Safari and, Xobe
Island Safari and Shorobe exhibited similar diversity values, which were more than 1.4 times higher than that recorded in Xobe
Summary
Tropical forests, which are home to around half of the terrestrial plant and animal species, are being destroyed at rates unprecedented in geological history (WCMC, 1992; Wright & Muller-Landau, 2006; LaFrankie et al, 2006; Lu et al, 2010; Elliot et al, 2013). To meet the increasing demands of rapidly increasing human population, natural forest resources are being utilized far beyond their regenerative capacity. This has resulted in decreasing size and quality of natural forests at alarming rates in Africa and other parts of the world. The effect of human disturbances on species diversity is an issue that has engaged ecologist since long (Pickett & White, 1985; Tilman, 1988; Vetaas, 1997; Sheil, 1999; Wright & Muller-Landau, 2006; Lawes et al, 2007; Sapkota et al, 2009; Lu et al, 2010)
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