Small mammal diversity of Mt. Kenya based on carnivore fecal and surface bone remains

Small mammal diversity of Mt. Kenya based on carnivore fecal and surface bone remains

Ecological dynamics and faunal diversity documentation is normally conducted by direct observation and trapping of live animals. However, surveys of carnivore scat prey and surface bone remains, which are relatively inexpensive, can provide complementary data that expand carnivore diet breadth and m...

Full description

Bibliographic Details
Main Authors: Ogeto Mwebi, Esther Nguta, Veronica Onduso, Ben Nyakundi, Xue-Long Jiang, Esther N. Kioko
Format: Article
Language:English
Published: Science Press, PR China 2019-01-01
Series:Zoological Research
Subjects:
Ecological dynamics
Faunal diversity
Scats
Pellets
Mt. Kenya
Online Access:http://www.zoores.ac.cn/EN/abstract/abstract3920.shtml
id doaj-e5c003cbace9420298a8e7db9522b37d
record_format Article
spelling doaj-e5c003cbace9420298a8e7db9522b37d2020-11-25T01:26:03ZengScience Press, PR ChinaZoological Research2095-81372095-81372019-01-01401616910.24272/j.issn.2095-8137.2018.055Small mammal diversity of Mt. Kenya based on carnivore fecal and surface bone remainsOgeto Mwebi0Esther Nguta1Veronica Onduso2Ben Nyakundi3Xue-Long Jiang4Esther N. Kioko5Osteology Section, Department of Zoology, National Museums of Kenya, Nairobi 40658-00100, KenyaOsteology Section, Department of Zoology, National Museums of Kenya, Nairobi 40658-00100, KenyaOsteology Section, Department of Zoology, National Museums of Kenya, Nairobi 40658-00100, KenyaOsteology Section, Department of Zoology, National Museums of Kenya, Nairobi 40658-00100, KenyaKunming Institute of Zoology, Chinese Academy of Sciences, Kunming Yunnan 650223, China; Sino-African Joint Research Center, Chinese Academy of Sciences, Nairobi 62000-00200, KenyaOsteology Section, Department of Zoology, National Museums of Kenya, Nairobi 40658-00100, KenyaEcological dynamics and faunal diversity documentation is normally conducted by direct observation and trapping of live animals. However, surveys of carnivore scat prey and surface bone remains, which are relatively inexpensive, can provide complementary data that expand carnivore diet breadth and may improve accuracy regarding inferences of the ecological dynamics of a given ecosystem. We used this inexpensive method to document species diversity variation with elevation on the leeward (Sirimon) and windward (Chogoria) areas of Mt. Kenya. Bone and fecal specimens were opportunistically collected by walking 2 km in opposite directions from transect points selected at 200-m intervals along the elevational gradient of the study areas. We collected a total of 220 carnivore fecal and owl pellet specimens from both study sites, which were mainly deposited by the spotted hyena (Crocuta crocuta), leopard (Panthera pardus), serval (Leptailurus serval), genet (Genetta sp.), and Mackinder’s Cape owl (Bubo capensis mackinderi). Serval scats were the most common, followed by those of the spotted hyena. Scats and bones were found at the lowest density at the lowest elevations, peaked at mid-higher elevations, and then declined at the highest elevations. Based on skeletal analysis only, there were more species in Sirimon (19) than in Chogoria (12). Small fauna (rodents to duiker size bovids) formed the bulk of the identified remains, representing 87.9% of the Sirimon fauna and 90.9% of the Chogoria fauna. The genus Otomys was the dominant prey of the owl and serval in both sites. Three giraffe teeth were found at 3 500 m a.s.l. in Chogoria on the edge of Lake Ellis, suggesting that it is an occasional visitor to such high elevations. This study underscores the value of fecal and bone surveys in understanding the diet and diversity of mammals in ecological ecosystems, but such surveys should be complemented with analysis of hairs found in scats to obtain a more complete list of carnivore prey at Mt. Kenya.http://www.zoores.ac.cn/EN/abstract/abstract3920.shtmlEcological dynamicsFaunal diversityScatsPelletsMt. Kenya
collection DOAJ
language English
format Article
sources DOAJ
author Ogeto Mwebi
Esther Nguta
Veronica Onduso
Ben Nyakundi
Xue-Long Jiang
Esther N. Kioko
spellingShingle Ogeto Mwebi
Esther Nguta
Veronica Onduso
Ben Nyakundi
Xue-Long Jiang
Esther N. Kioko
Small mammal diversity of Mt. Kenya based on carnivore fecal and surface bone remains
Zoological Research
Ecological dynamics
Faunal diversity
Scats
Pellets
Mt. Kenya
author_facet Ogeto Mwebi
Esther Nguta
Veronica Onduso
Ben Nyakundi
Xue-Long Jiang
Esther N. Kioko
author_sort Ogeto Mwebi
title Small mammal diversity of Mt. Kenya based on carnivore fecal and surface bone remains
title_short Small mammal diversity of Mt. Kenya based on carnivore fecal and surface bone remains
title_full Small mammal diversity of Mt. Kenya based on carnivore fecal and surface bone remains
title_fullStr Small mammal diversity of Mt. Kenya based on carnivore fecal and surface bone remains
title_full_unstemmed Small mammal diversity of Mt. Kenya based on carnivore fecal and surface bone remains
title_sort small mammal diversity of mt. kenya based on carnivore fecal and surface bone remains
publisher Science Press, PR China
series Zoological Research
issn 2095-8137
2095-8137
publishDate 2019-01-01
description Ecological dynamics and faunal diversity documentation is normally conducted by direct observation and trapping of live animals. However, surveys of carnivore scat prey and surface bone remains, which are relatively inexpensive, can provide complementary data that expand carnivore diet breadth and may improve accuracy regarding inferences of the ecological dynamics of a given ecosystem. We used this inexpensive method to document species diversity variation with elevation on the leeward (Sirimon) and windward (Chogoria) areas of Mt. Kenya. Bone and fecal specimens were opportunistically collected by walking 2 km in opposite directions from transect points selected at 200-m intervals along the elevational gradient of the study areas. We collected a total of 220 carnivore fecal and owl pellet specimens from both study sites, which were mainly deposited by the spotted hyena (Crocuta crocuta), leopard (Panthera pardus), serval (Leptailurus serval), genet (Genetta sp.), and Mackinder’s Cape owl (Bubo capensis mackinderi). Serval scats were the most common, followed by those of the spotted hyena. Scats and bones were found at the lowest density at the lowest elevations, peaked at mid-higher elevations, and then declined at the highest elevations. Based on skeletal analysis only, there were more species in Sirimon (19) than in Chogoria (12). Small fauna (rodents to duiker size bovids) formed the bulk of the identified remains, representing 87.9% of the Sirimon fauna and 90.9% of the Chogoria fauna. The genus Otomys was the dominant prey of the owl and serval in both sites. Three giraffe teeth were found at 3 500 m a.s.l. in Chogoria on the edge of Lake Ellis, suggesting that it is an occasional visitor to such high elevations. This study underscores the value of fecal and bone surveys in understanding the diet and diversity of mammals in ecological ecosystems, but such surveys should be complemented with analysis of hairs found in scats to obtain a more complete list of carnivore prey at Mt. Kenya.
topic Ecological dynamics
Faunal diversity
Scats
Pellets
Mt. Kenya
url http://www.zoores.ac.cn/EN/abstract/abstract3920.shtml
work_keys_str_mv AT ogetomwebi smallmammaldiversityofmtkenyabasedoncarnivorefecalandsurfaceboneremains
AT esthernguta smallmammaldiversityofmtkenyabasedoncarnivorefecalandsurfaceboneremains
AT veronicaonduso smallmammaldiversityofmtkenyabasedoncarnivorefecalandsurfaceboneremains
AT bennyakundi smallmammaldiversityofmtkenyabasedoncarnivorefecalandsurfaceboneremains
AT xuelongjiang smallmammaldiversityofmtkenyabasedoncarnivorefecalandsurfaceboneremains
AT esthernkioko smallmammaldiversityofmtkenyabasedoncarnivorefecalandsurfaceboneremains
_version_ 1725111135393284096

Similar Items