Rodent species composition, relative abundance, and habitat association in the Mabira Central Forest Reserve, Uganda

A study was conducted in Mabira Central Forest Reserve in Uganda to determine rodent species composition, relative abundance, and habitat association. A total of 1,030 rodents belonging to 14 species were captured on 10,584 trap nights. Rodent species recorded include: Lophuromys stanleyi, Hylomyscu...

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Bibliographic Details
Published in:Journal of Vertebrate Biology
Main Authors: Ssuuna, James, Makundi, Rhodes H., Isabirye, Moses, Sabuni, Christopher A., Babyesiza, Waswa S., Mulungu, Loth S.
Format: Article in Journal/Newspaper
Language:unknown
Subjects:
African ecology
small mammal community
lowland tropical forest
Rodentia
Stella
Triton
Rattus rattus
Online Access:https://kramerius.lib.cas.cz/view/uuid:686d7011-492f-44a9-9f4c-3086c92616cd
https://doi.org/10.25225/jvb.20021
Description
Summary:A study was conducted in Mabira Central Forest Reserve in Uganda to determine rodent species composition, relative abundance, and habitat association. A total of 1,030 rodents belonging to 14 species were captured on 10,584 trap nights. Rodent species recorded include: Lophuromys stanleyi, Hylomyscus stella, Praomys jacksoni, Mastomys natalensis, Lophuromys ansorgei, Lemniscomys striatus, Aethomys hindei, Mus triton, Mus minutoides, Deomys ferrugineus, Gerbilliscus kempi, Rattus rattus, Grammomys kuru, and Hybomys univittatus. Overall, L. stanleyi (23.7%) was the most dominant species followed by H. stella, P. jacksoni, and M. natalensis. Species richness and evenness was highest in the regenerating forest habitat and least in the intact forest habitat. Rodent abundance was significantly affected by habitat type. The regenerating forest habitat had the highest number of animals, while the lowest numbers were observed in the depleted forest habitat. Species diversity was higher in regenerating forest habitat and lowest in the intact forest. The three habitats appeared distinct in terms of rodent species composition and there was a strong association between the two trapping grids in the same habitat type. All ordination plots showed that different rodent species consistently associated with distinct habitats. Habitat type and seasonal changes influenced rodent composition, relative abundance and habitat association. Composition of rodent community reflected the level of habitat degradation and can be used as a proxy for evaluating the biodiversity of lowland tropical forests.

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