%0 Journal Article
%T Climatic, Regional Land-Use Intensity, Landscape, and Local Variables Predicting Best the Occurrence and Distribution of Bee Community Diversity in Various Farmland Habitats in Uganda
%A M. B. Th谷odore Munyuli
%J Psyche
%D 2013
%I Hindawi Publishing Corporation
%R 10.1155/2013/564528
%X This study was conducted in 2006 in central Uganda to provide baseline data on relationships between bee community variables and local, climatic, landscape and regional drivers affecting bee community abundance and diversity in agricultural landscapes. Bee abundance and species richness increased significantly ( ) with increase in percent cover of semi-natural habitats and the abundance of wild and cultivated floral resources in the landscape. There were strong linear declines ( ) in bee species richness and abundance with cultivation intensity. Bee species richness declined very steeply with forest distance. Bee species richness and abundance were negatively affected by land-use intensity ( ). Bee species richness and abundance were strongly negatively correlated ( ) with increase in mean annual temperatures in the previous years than in current years indicating potential vulnerability of local bee species to future climate changes. The percent cover of semi-natural habitats and natural in the farmland predicted best the occurrence and distribution in central Uganda. It is therefore recommended to policy-makers and to farmers to invest in the protection of forest fragments (and related semi-natural habitats) acting as buffer in the mitigation of negative effects of climate change on bee biodiversity and pollination services delivery. 1. Introduction Pollinators provide a crucial ecosystem service through their role in the sexual reproduction of both wild plants and crops [1每3]. Pioneering works highlighted the fact that wild bees are by far the most important providers of vital pollination services in the world [4每7]. Their ongoing decline and potential ecological and economic consequences are therefore of major concern [8每11]. Long-term losses of certain pollinator species may threaten future ability of rural landscapes to maintain current levels of crop production. There exist multitude factors (pressures), but currently suspected drivers (working alone or in synergy to produce negative or positive impacts) with potential effects (e.g., likely causing decline) in bees include land use change, use of pesticides (pesticide exposure) and reductions in population genetic diversity, farming and farm management practices changes, habitat loss and fragmentation, introduction of non native invasive species, species competition for resources, parasites and pathogen spread, heavy metal pollution, and climate change [9, 11每13]. Interactions between these multiple factors and various other factors are likely; for example, nutritional stress, due to a lack of
%U http://www.hindawi.com/journals/psyche/2013/564528/