Plant Diversity and Carbon Storage Assessment in an African Protected Forest: A Case of the Eastern Part of the Dja Wildlife Reserve in Cameroon
Journal of Plant Sciences
Volume 4, Issue 5, October 2016, Pages: 95-101
Received: Jul. 17, 2016; Accepted: Jul. 25, 2016; Published: Aug. 17, 2016
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Authors
Tabue Mbobda Roger Bruno, Department of Plant Biology, Faculty of Sciences, University of Yaoundé, Yaoundé, Cameroon
Zapfack Louis, Department of Plant Biology, Faculty of Sciences, University of Yaoundé, Yaoundé, Cameroon
Noiha Noumi Valery, Department of Biological Sciences, Faculty of Science, University of Ngaoundéré, Ngaoundéré, Cameroon
Nyeck Boris, Department of Biological Sciences, Faculty of Science, University of Ngaoundéré, Ngaoundéré, Cameroon
Meyan-Ya Daghela Raissa Glawdys, Department of Plant Biology, Faculty of Sciences, University of Yaoundé, Yaoundé, Cameroon
Ngoma Louis Roger, Department of Forestry, University of Dschang, Dschang, Cameroon
Kabelong Banoho Louis-Paul, Department of Plant Biology, Faculty of Sciences, University of Yaoundé, Yaoundé, Cameroon
Chimi Djomo Cédric, Department of Plant Biology, Faculty of Sciences, University of Yaoundé, Yaoundé, Cameroon
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Abstract
Although the forests of the Congo basin are known for their richness in species, there are still several works in assessing their biomass. Mindful of this fact, the present study performed in the Dja biosphere reserve aims to assess plant diversity and carbon stocks. 10 transects of 5 ha each were assessed. 9,293 individuals divided into 47 families, 150 genera and 205 species were recorded. Euphorbiaceae was the most important family. The overall carbon stocks assessed was, 354.73 Mg C/ha. In the secondary forest the quantity of carbon stocks evaluated was 330.67±40.07 Mg C/ha. The Raphiales and Wetlands accumulated a quantity of carbon stocks of 15.06±0.08 and 9.00±2.06 Mg C/ha respectively. Euphorbiaceae stored an amount of 68.38 Mg C/ha, followed by the Mimosaceae which stores the amount of 51.07 Mg C/ha and the Irvingiaceae which stores an amount of 26.07 Mg C/ha. Uapaca guineensis stored 53.60 Mg C/ha. Pentaclethra macrophylla, Petersianthus macrocarpus and Desbordesia glaucescens all stored 117.56 Mg C/ha. For an index of diversity of 3.71, secondary forest stores approximately 93% of the total carbon stock. The test of comparison carried out showed a significant difference between the carbon stocks obtained on the land cover type (LCT) (ANOVA, F = 45.76; P < 0.001).
Keywords
Biomass, Carbon Stock, Dja Wildlife Reserve, Plant Diversity, Land Cover Type
To cite this article
Tabue Mbobda Roger Bruno, Zapfack Louis, Noiha Noumi Valery, Nyeck Boris, Meyan-Ya Daghela Raissa Glawdys, Ngoma Louis Roger, Kabelong Banoho Louis-Paul, Chimi Djomo Cédric, Plant Diversity and Carbon Storage Assessment in an African Protected Forest: A Case of the Eastern Part of the Dja Wildlife Reserve in Cameroon, Journal of Plant Sciences. Vol. 4, No. 5, 2016, pp. 95-101. doi: 10.11648/j.jps.20160405.11
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Copyright © 2016 Authors retain the copyright of this article.
This article is an open access article distributed under the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
References
[1]
Ciais P, Tans PP, White JWC, Trolier M, Francey RJ, Berry JA, Randall DR, Sellers PJ, Collatz JG, Schimel DS. 1995. Partitioning of ocean and land uptake of CO2 as inferred by 13C measurements from the NOAA Climate monitoring and diagnostics laboratory global air sampling network. Journal of Geophysical Research 100, 5051-5070.
[2]
Potter CS & Klooster SA. 1999b. Detecting a terrestrial biosphere sink for carbon dioxide: interannual ecosystem modeling for the mid-1980s. Climatic Change 42 (3), 489-503.
[3]
FAO, 2011. La situation des forêts dans le bassin Amazonien, le bassin du Congo et l'Asie du Sud Est. FAO, ITTO, Sommet des trois bassins forestiers tropicaux, Brazzaville, République du Congo, 81 p.
[4]
Ministry of Forestry and Wildlife. 2007. Plan d’Aménagement de la Réserve de Biosphère du Dja. Période d'exécution: 2007-2012. MINFOF. 110 p.
[5]
Canadell JG & Raupach MR. 2008. Managing forests for climate change mitigation. Science 320: 1456.
[6]
Brown S & Lugo AE. 1984. Biomass of tropical forest: a new estimate based on forest volumes. Science 223, 1290–1293.
[7]
Clark DA, Brown S, Kicklighter D, Chambers JQ, Thomlinson JR & Ni J. 2001. Net primary production in tropical forests: an evaluation and synthesis of existing field data. Ecol. Appl. 11, 371-384.
[8]
Zheng Z, Zhill F, Min C, Zhongfei L & Jianhou Z. 2006. Forest structure and biomass of tropical seasonal Rain forest in Xishuangbanna, southwest China. Biotropica 38 (3), 318-327.
[9]
Djuikouo KMN, Jean-Louis Doucet, Charlemagne K, Nguembou, Simon L, Lewis, & Sonke B. 2010. Diversity and aboveground biomass in three tropical forest types in the Dja Biosphere Reserve, Cameroon. Diversity and biomass in three African forests. African Journal of Ecology 48, 1053–1063. 11p.
[10]
Zapfack L, Noiha NV, Dziedjou KPJ, Zemagho L. & Fomete NT. 2013. Deforestation and Carbon Stocks in the Surroundings of Lobéké National Park (Cameroon) in the Congo Basin. Environment and Natural Resources Research 3 (2): 78-86.
[11]
Noiha NV, Zapfack L, Ngueguim JR, Tabue Mbobda RB, Ibrahima A & Mapongmetsem PM. 2015b. Sequestered standing carbon stock in selective exploited timbers grown in tropical forest: a case study from the national park of Lobeke (Cameroon). Journal of Botanical Sciences, 4 (2): 19-24.
[12]
Baker TR, Phillips O, Malhi Y, Almeida S, Arroyo L, Di Fiore A, Erwin T, Higuchi N, Killeen T, Laurence S, Laurence W, Lewis S, Montegudo A, Neill D, Vargas P, Piman N, Silva J & Martinez R. 2004. Variation in wood density determines spatial patterns in Amazonian forest biomass. Glob. Chang. Biol. 14, 545–562.
[13]
Chave J, Condit R, Aguilar S, Hernandez A, Lao S, & Perez R, 2004. Error propagation scaling for tropical biomass estimates. The Philosophical Transactions of the Royal Society 359: 409-420.
[14]
Lewis SL. 2006. Tropical forests and the changing earth system. Philos. Trans. R. Soc. Lond., B, Biol. Sci. 361, 195–210.
[15]
Denman KL Brasseur A, Chidthaisong P, Ciais PM, Cox RE, Dickinson D, Hauglustaine C, Heinze E, Holland D, Jacob U, Lohmann S, Ramachandran PL, Da Silva Dias SC, Wofsy X & Zhang X. 2007. The Physical Science Basis. IN Climate Change 2007 (Eds S. Solomon et al.) Cambridge University Press, Cambridge, UK, pp. 663-745.
[16]
Lewis LS, Lopez-Gonzalez G, Sonké B, Affum-Baffoe K, Baker TR, Ojo LO, Phillips OL, Reitsma J, White L, Comiskey J, Ewango C, Feldpausch TR, Hamilton AC, Gloor M, Hart T, Hladik A, Djuikouo Kamdem MN, Jon L, Lovett J, Makana J-R, Malhi Y, Mbago FM, Ndangalasi HJ, Peacock J, Peh KS-H, Sheil D, Sunderland T, SwaineMD, Taplin J, Taylor D, Sean CT, Votere R & Hannsjörg W. 2009a. Increasing Carbon Storage in Intact African Tropical Forests. Nature 457, 1003–1006.
[17]
Lewis SL, Lloyd J, Sitch S, Mitchard ETA & Laurance WF. 2009b. Changing Ecology of Tropical Forests: Evidence and Drivers. Ann. Rev. Ecol. Evol. Syst. 40, 529-549.
[18]
Le Quéré C, Raupach MR, Canadell JG, Marland G, Bopp L, Ciais P, Conway TJ, Doney SC, Feely RA, Foster P, Friedlingstein P, Gurney K, Houghton RA, House JI, Huntingford C, Levy PE, Lomas MR, Majkut J, Metzl N, Ometto JP, Peters GP, Prentice IC, Randerson JT, Running SW, Sarmiento JL, Schuster U, Stephen Sitch S, Taro Takahashi T, Nicolas Viovy N, Guido R Van Der Werf GR & Woodward FI. 2009. Trends in the sources and sinks of carbon dioxide. Nat Geosci 2, 831–836.
[19]
Van Der Werf GR, Morton DC, Defries RS, Olivier JGJ, Asibhatla PS, Jackson RB, Collatz GJ & Randerson JT. 2009. CO2 emissions from forest loss. Nat Geosci 2, 737-738.
[20]
Sonké B &Kouob S. 2001. Etudes des groupements floristiques de la Réserve de Faune du Dja et sa périphérie (Cameroun): Rapport intermédiaire II Projet Ecofac, Agreco. 43 p.
[21]
McGinley M. 2008. Dja Faunal Reserve. IN Encyclopedia of Earth. (ed. C. J. Cleveland). United Nations Environment Programme World Conservation Monitoring Centre. http://www/eoearth. org/article/Dja_Faunal_Reserve,_Cameroon.
[22]
Gartlan S. 1989. La conseqrvation des e´cosyste`mes forestiers du Cameroun. Programme de l’UICN pour les forêts tropicales. Royaume-Uni, Suisse et Cambridge, p. 186.
[23]
Peh KS. 2009. The relationship between species diversity and ecosystem function in low- and high-diversity tropical African forests. Unpublished Ph. D thesis, University of Leeds, Leeds, UK.
[24]
Chave, J., Rejou-Mechainn, M., Burquez, A., Chidumayo, E., Colgan, S. M., Delitti, B. C. W., Vieilledent, G. 2014. Improved allometric models to estimate the aboveground biomass of tropical trees. Global Change Biology. http://dx.doi.org/10.1111/gcb.12629
[25]
Zanne A. E., Lopez-Gonzalez G., Coomes D. A., Ilic J., Jansen S. Lewis, S. L., Miller R. B., Swenson N. G., Wiemann, M. C., and Chave J. 2009. Global wood density database. Dryad. Identifier: http://hdl.handle.net/10255/dryad.235.
[26]
Brown S. & Pearson T. 2005. Exploration du potentiel de séquestration dans les forêts classées de la République de Guinée. Winrock International. 39 p.
[27]
Sonké B. 1998. Etude floristique et structurale des forêts de la réserve de faune du Dja (Cameroun). Thèse de doctorat, Université libre de Bruxelles. 267 p.
[28]
Sonké B. 2004. Forêts de la réserve du Dja (Cameroun). Etude floristique et structurale. Meise, Jardin Botanique National de Belgique. 144 p.
[29]
Zapfack L. 2005. Impact de l’agriculture itinérante sur brûlis sur la biodiversité végétales et la séquestration du carbone. Thèse de doctorat d’Etat. Université de Yaoundé I, 194 p.
[30]
Kengne OC. 2007. Biodiversité végétale et savoir-faire locaux dans la région de Djoum: cas du village Nkolenyeng. Mémoire du DEA en Biologie végétale, Université de Yaoundé I. 87 p.
[31]
Letouzey R. 1985. Notice de la carte phytogéographique du Cameroun au 1/500.000. Institut de la Carte Internationale de la Végétation, Toulouse, France. 240 p.
[32]
Brown S, Gilespie AJ R &Lugo AE. 1989. Biomass estimation methods for tropical forest with application to forest inventory data. For. Sci., 35, 881-902.
[33]
Noiha NV, Zapfack L & Mbade LF. 2015a. Biodiversity Management and Plant Dynamic in A Cocoa Agroforest (Cameroon). International Journal of Plant & Soil Science 6 (2): 101-108.
[34]
Nasi R, Mayaux P, Devers D, Bayol N, Eba’a Atyi R, Mugnier A, Cassagne B, Billand A, & Sonwa D. 2009. Un aperçu des stocks de carbone et leurs variations dans les forêts du Bassin du Congo. In: les forêts du Bassin du Congo. Etats des forêts 2008. Office des publications de l'Union Européenne. (Eds) Wasseige C., Devers D., Marcken P., Eba'a Atyi R., Nasi R et Mayaux P. 425 p.
[35]
Cubero J, Rojas S. 1999. Fijacion de carbono en plantaciones de Gmelina arborea, Tectona grandis y Bombacopsis quinata. Tesis de Licenciatura. Heredia, Costa Rica, Universidad Nacional, Escuela de Ciencias Ambientales. 94 p.
[36]
Montero M. & Kanninen M. 2002. Biomasa y Carbono en plantaciones de Terminalia amazonia (Gmel.) Excell en la zona Sur de Costa Rica. Revista Forestal Centro americana 39–40: 50–55.
[37]
Perez D & Kanninen M. 2003. Aboveground biomass of Tectona grandis plantations in Costa Rica. J Trop For Sci, 15: 199–213.
[38]
Redondo A & Montagnini F. 2006. Growth, productivity, biomass, and carbon sequestration of pure and mixed native tree plantations in the Atlantic lowlands of Costa Rica. For Ecol Manag, 232: 168–178.
[39]
Redondo A. 2007. Growth, carbon sequestration, and management of native tree plantations in humid regions of Costa Rica. New Forests, 34: 253–268.
[40]
Prakash S& Lodhiyal LS. 2009. Biomass and Carbon Allocation in 8-year-old Poplar (Populus deltoides Marsh) Plantation in Tar Agroforestry Systems of Central Himalaya, India. New York Science Journal, 2 (6): 49-53.
[41]
Chavan BL & Rasal GB. 2012. Carbon sequestration potential of young a reticulate and Annona squamosa from University campus of Aurangabad. International Journal of Physical and Social Sciences, 2 (3): 193-198.
[42]
Subak S. 2000. Forest protection and reforestation in Costa Rica: Evaluation of a clean development mechanism prototype. Environ Manage, 26 (3): 283–297.
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