Abstract
Bale Mountains National Park is one of the protected areas in Ethiopia that holds the largest area of Afroalpine habitat in Africa and the second largest stand of moist tropical forest. Nevertheless, human settlements, overgrazing, and recurrent fire are the main problems in the park. This study aimed to determine the effects of human-induced landscape change in floristic composition and structure in the park. The vegetation data were collected systematically from 96 sample plots laid along 24 line transects in the edge and interior habitats of the six land cover types. Vegetation composition and landscape structural analysis were made using R software version 3.5.2 and FRAGSTATS version 4.2.1, respectively. Patch number was strong and positively affected species richness (r = −0.90, p < 0.05 ), diversity (r = −0.96, p < 0.01 ), and basal area (r = −0.96, p < 0.001 ), whereas mean patch size was strong and negatively influenced species richness (r = 0.95, p < 0.05 ), diversity (r = 0.87, p < 0.05 ), and basal area (r = 0.82, p < 0.05 ). The overall species richness, Shannon diversity index, and Margalef index were significantly higher in the edge habitat; however, the mean basal area of woody species was significantly higher in the interior habitat at p < 0.05 . This study uncovered that the park is floristically rich and diverse, and it provides a variety of ecological and economic benefits to the surrounding community and to the nation at large. However, these benefits are gradually declining due to the high level of anthropogenic activities in the park. Thus, integrated environmental management strategy that blends with sustainable use of natural resources should be implemented to minimize the threats.
Highlights
Landscapes all over the world are alarmingly changed and fragmented due to anthropogenic factors such as urbanization, agricultural expansion, forest fire, and climate change [1, 2]
Landscape Structure Change. e analysis of landscape structure in this study revealed that the habitats in the Bale Mountains National Park (BMNP) are progressively transformed. e area has shown an increase in patch number (PN) by 40.2% and a decrease in AREA_MN by
Effects of Landscape Change in Floristic Composition and Structure. e computed regression analysis among the landscape indices and species composition and structural parameters in this study revealed that only PN and AREA_MN significantly affected both the species composition and structural properties of the study area
Summary
Landscapes all over the world are alarmingly changed and fragmented due to anthropogenic factors such as urbanization, agricultural expansion, forest fire, and climate change [1, 2]. Most of the global changes responsible for the reduction in population and biodiversity are exacerbated by fragmentation [3, 4]. E primary causes of global biodiversity reduction are the destruction and degradation of natural ecosystems [5]. Habitat loss and fragmentation are presently the main threats to terrestrial biodiversity [6]. The species richness and abundance usually decrease with reduced patch size [8]. As landscapes become more fragmented, patch diversity increases with subsequent increase in the edge, exotic, and generalist species and leads to the reduction in landscape quality as habitat for species [9]. Species richness in interior habitat, indigenous and specialist species, tends to decrease [10].
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