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dc.contributor.authorValtonen, A
dc.contributor.authorMalinga, G.M
dc.contributor.authorNyafwono, M
dc.contributor.authorNyeko, P.
dc.contributor.authorOwiny, A.
dc.contributor.author& Roininen, H.
dc.date.accessioned2021-01-22T11:37:39Z
dc.date.available2021-01-22T11:37:39Z
dc.date.issued2016-10-29
dc.identifier.urihttps://ir.gu.ac.ug/xmlui/handle/20.500.14270/57
dc.descriptionWe thank P. Latja and the anonymous reviewers for valuable comments to this manuscript, and I. Mwesige, E. Agaba, J. Mwesige, B. Balyeganira, F. Katuramu, J. Koojo, R. Sabiiti, F. Molleman, V. Lehtovaara and staff of Makerere University Biological Field Station (Kibale National Park). Permission to conduct this research was given by the Office of the President (Uganda), the National Council for Science and Technology (Uganda) and the Uganda Wildlife Authority.en_US
dc.description.abstractThe relative importance of different bottom-up-mediated effects in shaping insect communities in tropical secondaryforestsarepoorlyunderstood.Here,weexploretherolesofvegetationstructure,forestage,localtopography (valley vs. hill top) and soil variables in predicting fruit-feeding butterfly and tree community composition, and tree community composition in predicting fruit-feeding butterfly community composition, in different-aged naturally regeneratingandprimaryforestsofKibaleNationalPark,Uganda.Wealsoexaminewhichvariablesarebestpredictors of fruit-feeding butterfly species richness or diversity. Butterflies (88 species) were sampled with a banana-baited trap and trees (98 taxa) with a 40 × 20-m sampling plot at 80 sampling sites. The environmental variables explained 31% of the variation in the tree community composition, the best predictors being local topography, forest age and cover of Acanthuspubescens (a shrub possibly arresting succession). The fruit-feeding butterfly community composition was better predicted by tree community composition (explaining 10% of the variation) rather than vegetation structure, local topography or soil factors. Environmental variables and tree species richness (or diversity) were poor predictors of butterfly species richness (or diversity). Our results emphasize the importance of tree community to recovery of herbivorous insect communities in tropical secondary forests.en_US
dc.description.sponsorshipAcademy of Finland (grants no. 138899 and 14956 to H.R.), Joensuun Yliopiston Tukisa¨ati¨ o and Finnish Cultural¨ Foundation(to A.V.)en_US
dc.language.isoenen_US
dc.publisherCambridge Universityen_US
dc.subjectcommunity composition,en_US
dc.subjectdiversity,en_US
dc.subjectforest regeneration,en_US
dc.subjectinsects,en_US
dc.subjectLepidoptera,en_US
dc.subjectprimary forest,en_US
dc.subjectsecondary forest,en_US
dc.subjectspeciesrichness,en_US
dc.subjectUganda,en_US
dc.subjectvegetation structureen_US
dc.titleThe successional pathway of the tree community and how it shapes the fruit-feeding butterfly community in an Afrotropical foresten_US
dc.typeArticleen_US


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