Assessment of tree species diversity and abundance as a diagnostic tool for regeneration of the Bali-Ngemba forest reserve, north west region, Cameroon

Paper Details

Research Paper 07/07/2024
Views (230) Download (62)
current_issue_feature_image
publication_file

Assessment of tree species diversity and abundance as a diagnostic tool for regeneration of the Bali-Ngemba forest reserve, north west region, Cameroon

Adela Njamnjubo Njilin, Titus Fondo Ambebe, Nyong Princely Awazi
J. Bio. Env. Sci.25( 1), 94-101, July 2024.
Certificate: JBES 2024 [Generate Certificate]

Abstract

Human encroachment and activities in protected areas has continued to pose a serious threat to biodiversity around the world. This study assessed tree species diversity and abundance in the Bali-Ngemba Forest Reserve (BNFR) in the Bamenda Highlands of Cameroon, in a bid to obtain baseline data that can guide conservation initiatives. Data were collected through an inventory of tree species in disturbed and undisturbed portions of the reserve and indices including the Sørensen similarity coefficient (Cs), Shannon Wiener diversity index (H) and the Margalef species richness index (d) were calculated. Based on the study’s findings, there were 13 tree species in the BNFR belonging to 10 families, with the most common uses being timber, fuelwood, food, medicine, and fodder. Of the species encountered, 61.5% were abundant (Kigelia africana, Canarium indicum, Triplochiton scleroxylon, Cola nitida, Terminalia catappa, Eucalyptus grandis, Manilkara chicle, Eucalyptus globulus), 15.4% were rare (Rapanea melanophloeos, Pinus serotina) while the frequent (Pinus walliciana), occasional (Podocarpus latifolius), and endangered (Sizygium guineense) biodiversity categories were each represented by 7.7% corresponding to a species. Malvaceae and Myrtaceae were the most abundant families with d = 0.389871 and 0.779742, respectively. The undisturbed site was more diverse than the disturbed. Comparing the levels of diversity using Sørensen’s similarity coefficient, both sites were found to be only 21% similar. It was concluded that anthropogenic disturbances are responsible for the decline in the diversity and abundance of indigenous tree species in the BNFR, thus calling for better conservation measures that limit human encroachment.

VIEWS 66

Aah AA, Noulkamol A, Jaruntorn B. 2017. The study of tree species diversity in dry forest of East Nusa Tenggara, Indonesia. Alexandria Science Exchange Journal 38, 752-760.

Alroy J. 2017. Effects of habitat disturbance on tropical forest biodiversity. Proceedings of the National Academy of Sciences, USA.

Ambebe TF, Shibi JM, Fuh EC. 2021. Evidence for regeneration of the Bafut-Ngemba Forest Reserve, Northwest Cameroon, from a probe into biodiversity of disturbed and undisturbed sites. East African Scholars Multidiscip Bulletin 4, 54-59.

Bentsi-Enchilla F, Dampteyb F, Pappoec A, Ekumahd B, Akotoyed H. 2022. Impact of anthropogenic disturbance on tree species diversity, vegetation structure and carbon storage potential in an upland evergreen forest of Ghana, West Africa. Trees, Forests and People 8, 10023.

Bradshaw CJA, Sodhi NS, Brook BW. 2009. Tropical turmoil: A biodiversity tragedy in progress. Frontiers in Ecology and the Environment 7, 79-87.

Cheek M, Sebastian H, Jean Michel O. 2022. Vepris onanae (Rutaceae), a new critically endangered cloud-forest tree species, and the endemic plant species of Bali Ngemba Forest Reserve, Bamenda Highlands Cameroon.

Cheek M, Gosline G, Onana J. 2018. Vepris bali (Rutaceae), a new critically endangered (possibly extinct) cloud forest tree species from Bali Ngemba, Cameroon. Willdenowia 48, 285-292.

CIRAD-FRA, IUFRO-AUT, MUSE-FRA. 2018. Eucalyptus 2018: Managing Eucalyptus plantation under global changes. Abstracts book. Montpellier: CIRAD, Montpellier, France.

D´avalos LM, Sanchez KM, Armenteras D. 2016. Deforestation and coca cultivation rooted in twentieth-century development projects. Bioscience 66, 974-982.

FAO. 2020. Statistics of the Food and Agriculture Organization of the United Nations. FAOSTAT: Rome, Italy.

Hasibuan RH, Angrianto R, Rambu AA, Abdullah D. 2018. Tree species diversity in Momiwaren Forest Reserve in Indonesia. Journal of Physics Conference Series 1114, 012052.

Key Biodiversity Areas Partnership. 2022. Key Biodiversity areas factsheet: Bali-Ngemba Forest Reserve. Extracted from the World Database of Key Biodiversity Areas. Developed by the Key Biodiversity Areas Partnership: BirdLife International, IUCN, American Bird Conservancy, Amphibian Survival Alliance, Conservation International, Critical Ecosystem Partnership Fund, Global.

Konje CN, Abdulai AN, Achiri DT, Nsobinenyui D, Tarla DN, Tita MA. 2019. Identification and management of pests and diseases of garden crops in Santa, Cameroon. Journal of Agriculture and Ecology Research International 18, 1-9.

Kottek M, Grieser J, Beck C, Rudolf B, Rubel F. 2006. World Map of the Köppen-Geiger climate classification updated. Meteorologische Zeitschrift 15, 259-263.

Margalef R. 1958. Temporal succession and spatial heterogeneity in phytoplankton. In: Buzzati Traverso (ed.). Perspectives in Marine biology. University of California Press, Berkeley.

Mueller-Dombois D,  Ellenberge H. 1974. Aims and methods of vegetation ecology. New York, NY: John Wiley and Sons.

Ogwu MC, Osawaru ME, Obayuwana OK. 2006. Diversity and abundance of tree species in the University of Benin, Benin City, Nigeria. Applied Tropical Agriculture 21, 46-54.

Ortiz JC, Espinosa IC, Dahik CQ, Mendoza ZA, Ortiz EC, Gusman E, Weber M, Hildebrandt P. 2019. Influence of anthropogenic factors on the diversity and structure of a dry forest in the Central Part of the Tumbesian Region (Ecuador–Perú). Forests 10, 1-22.

Samba G, Kuma JC, Ndoki D. 2020. Variation in forest dependency and determining factors in Bamenda I council, North West region, Cameroon. Canadian Journal of Tropical Geography 7, 16-22.

Shannon CE, Wiener W. 1949. The mathematical theory of communication. Urbana, University of Illinois Press.

Sørensen T. 1948. A method of establishing groups of equal amplitude in plant sociology based on similarity of species and its application to analyses of the vegetation on Danish commons. Royal Danish Academy of Science and Letters 5, 1-34.

Wardle D, Bardgett R, Klironomos J, Setälä H, Putten W, Wall D. 2004. Ecological linkages between aboveground and belowground biota Science 304, 1629-1633.