PJB-2018-703
Tree diversity patterns, above-ground biomass and carbon assessment along elevational gradient in a tropical forest of the Cameroon volcanic line
Moses Nsanyi Sainge, Felix Nchu and A. Townsend Peterson
Abstract
Tropical forests ecosystems remain the most diverse on the planet, and store considerable amounts of biomass and carbon. Despite the importance of tropical forests, sizable knowledge gaps exist regarding species diversity, plant biomass and carbon. These knowledge gaps are particularly large in tropical systems, and even more so in the African tropics. This study provides baseline data on species composition and vegetation structure, and evaluate variation along elevational gradient transecting of four elevation-forest types: lowland, mid-elevation, sub-montane and montane forest in the Rumpi Hills Forest Reserve of Cameroon. We collected data on tree species diversity, above-ground biomass and carbon in 25 1-ha plots sampled in 500 m long x 20 m width transect. Results revealed high species diversity, particularly in lowland forest. Overall, the study enumerated 12,037 individuals (trees ≥ 10 cm dbh) of 441 species. The mean species per plot decreased with increasing elevation, 112 in lowland, 81 in mid-elevation, 60 in submontane and 38 in montane forest. Above-ground carbon averaged 162.88±50 t ha-1. We found the greatest carbon storage and tree and liana species diversity at low elevations. Our results indicate that high species diversity and occurrence of larger tree species are more important in carbon storage in lowland forest than at higher elevations. These findings are useful for management and land use planning of the forests in the Rumpi Hills Forest Reserve.
To Cite this article:
Sainge, M.N., F. Nchu and A.T. Peterson. 2020. Tree diversity patterns, above-ground biomass and carbon assessment along elevational gradient in a tropical forest of the Cameroon volcanic line. Pak. J. Bot., 52(6): DOI: http://dx.doi.org/10.30848/PJB2020-6(39)
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