Carbon stock assessment of bamboo plantations in Northern Mindanao, Philippines

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Research Paper 01/12/2016
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Carbon stock assessment of bamboo plantations in Northern Mindanao, Philippines

Rubelisa S. Pongon, Edgardo C. Aranico, Frandel Louis S. Dagoc, Ruben F. Amparado Jr
J. Bio. Env. Sci.9( 6), 97-112, December 2016.
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Abstract

Mitigating the impacts of climate change has been a global effort of the century. Studies show the potential of bamboo as carbon sink which helps lowering the risks of climate change. This paper conducted a research study on carbon stock assessment of the three bamboo plantations located at Claveria, Misamis Oriental, Malaybalay City and Maramag Bukidnon with the following species Dendrocalamus asper, Bambusa philippinensis and Schizostachyum lumampao, respectively. Destructive method was conducted for the estimation of aboveground biomass (culms, twigs and leaves) and for its carbon stored. For the aboveground biomass D. asper obtained the highest (264.37 ton/ha) followed by B. philippinensis (48.29 ton/ha) and S. lumampao (34.49 ton/ha). The mean organic carbon content of the aboveground biomass was determined which had a range value from 52.09-54.24%. The data revealed that culms comprised the highest aboveground carbon yield (64.06-84.37%). Generally, the total carbon stock of D. asper (234.46 ton/ha) was higher compared to B. philippinensis (149.87 ton/ha) and S. lumampao (63.55 ton/ha). D. asper obtained the highest carbon stock in the aboveground (143.39 ton C/ha) which was 61.16% of the total, followed by soil (57.52 ton C/ha) 24.53% and belowground (33.55 ton C/ha) 14.31%. While both the B. philippinensis and S. lumapao, the carbon stored in soil yielded the highest percentage which were (118.19 ton C/ha) 78.86% and (41.22 ton C/ha) 64.86% respectively, followed by aboveground (17.05-28.26%) and lastly, belowground (4.09-6.89%). In these findings, it was D. asper showed a greater capacity to store more carbon, hence a good mitigation strategy for global warming.

VIEWS 47

Bijaya DGC. 2008. Carbon Sequestration Potential and Uses of Dendrocalamus strictus. BSc thesis. Tribhuvan University Institute of Forestry Pokhara Campus, Nepal pp. 1-46.

Bishaw B, Neufeldt H, Mowo J, Abdelkadir A, Muriuki J, Dalle G, Assefa T, Guillozet K, Kassa H, Dawson IK, Luedeling E, Mbow C. 2013. Farmers’ strategies for adapting to and mitigating climate variability and change through agroforestry in Ethiopia and Kenya. In: Davis, C.M., Bernart,       B. & Dmitriev, A. (Eds.). Forestry Communications Group, Oregon State University, Corvallis Oregon.

Bystriakova N, Kapos V, Lysenko I, Stapleton C. 2003. Distribution and conservation status of forest bamboo biodiversity in the Asia‐Pacific region. Biodiversity and Conservation 12, 1833-1841.

Chavan BL, Rasal GB. 2010. Sequestered standing carbon stock in selective tree species grown in University campus at Aurangabad, Maharashtra, India. International Journal of Environmental Science and Technology 2, 3003-3007.

Chen XG, Zhang XQ, Zhang YP, Booth T, He XH. 2009. Changes of carbon storages in bamboo stands China during 100 years. Forest Ecology and Management 258,1489-1496.

Choudhary ML. 2008. One Year of National Bamboo Mission in the states of NE Region, West Bengal, Orissa, Jharkhand & Bihar 2007-2008. Cane & Bamboo Technology Centre Guwahati, Assam India.

Christanty L, Kimmins JP, Mailly D. 1997. Without bamboo, the land dies: A conceptual model of the biogeochemical role of bamboo in an Indonesian agroforestry system. Forest Ecology and Management 91, 83-91.

Darcha G, Birhane E. 2015. Biomass and Carbon Sequestration Potential of Oxytenanthera abyssinica in the Homestead Agroforestry System of  Tigray, Ethiopia. Journal of Natural Sciences Research 5, 69-77.

Fu W, Jiang P, Zhao K, Zhou G, Li Y, Wu J, Du H. 2013. The carbon storage in moso bamboo plantation and its spatial variation in Anji County of southeastern China. Journal of Soils Sediments 14, 320-329.

Herrera E. 2005. Soil Test Interpretations. Guide A-122. College of Agriculture and Home Economics, New Mexico State University.

Hosur GC, Dasog GS. 1995. Effects of tree species on soil properties.

Hunter IR, Junqui W. 2002. Bamboo biomass. International Network of Bamboo and Rattan, 11p.

INBAR. 2006. In partnership for a better world – strategy to the year 2015. Beijing, China: INBAR p. 23.

IPCC (Intergovernmental Panel for Climate Change). 1992. The 1992 IPCC supplement scientific assessment. Working group I. Intergovernmental panel on climate change. Geneva p. 1-22.

IPCC (Intergovernmental Panel for Climate Change). 2006. IPCC Guidelines for National Greenhouse Gas Inventories. Prepared by the National Greenhouse Gas Inventories Programme, Eggleston H.S., Buendia L., Miwa K., Ngara T., Tanabe K., (Eds). Published: IGES Japan.

IPCC (Intergovernmental Panel for Climate Change). 2008. Climate change 2007. Synthesis report. Contribution of Working Groups I, II and III to the fourth assessment report. In: Pachauri, R.K., Reisinger, A. (Eds.), Intergovernmental Panel on Climate Change (IPCC), Geneva-Switzerland p.104.

Landsberg JJ, Linder S, McMurtrie RE. 1995. Effects of global change on Managed forests-A strategic plan for research on managing forest ecosystems in a globally changing environment. GCTE report no. 4. IUFR occasional paper no.1. Global Change Terrestrial Ecosystems and International Union of Forest Research Organizations p. 1-17.

Lasco RD. 2002 Forest carbon budgets in Southeast Asia following harvesting and land cover change. Science in China 45, 55-64.

Lin H. 2002. Study on dynamic law of biomass in Bamboo (Phyllostachys heterocycla) Forest Ecosystem. Forest Science Technology Development 16, 25-27.

Lobovikov M, Lou Y, Schoene D, Widenoja R. 2009. The Poor Man’s Carbon Sink. Bamboo in Climate Change and Poverty Alleviation, Food and Agricultural Organization, Rome, Italy p. 72.

Locsin MEP. 2000. Bamboo. Manila: Centro Escolar University.

MacDicken KG. 1997. A guide to monitoring carbon storage in forestry and agroforestry projects. Winrock international institute for Agricultural Development. Virginia, USA p. 87.

Nath AJ, Das AK. 2011. Carbon storage and sequestration in bamboo-based small holder home gardens of Barak Valley, Assam. Current Science 100, 229-233.

Nath AJ, Das AK. 2012. Carbon pool and sequestration potential of village bamboos in the agro-forestry system of northeast India. Tropical Ecology 53, 287-293.

Nath AJ, Das G, Das AK. 2008. Above ground biomass, production and carbon sequestration in farmer managed village bamboo grove in Assam, northeast India. Journal American Bamboo Society 21, 32-40.

Nath AJ, Das G, Das AK. 2009. Above ground standing biomass and carbon storage in village bamboos in north east India. Biomass and Bio-energy 33, 1188-1196.

Nath AJ. 2008. Studies on the Ecology and Management of Bamboos in Traditional Homegardens of Barak Valley, North East India. Ph.D. Thesis, Assam University Silchar.

Pan Y, Birdsey R, Fang J, Houghton R, Kauppi P, Kurz W, Phillips O, Shvidenko A, Lewis S, Canadell J, Ciais P, Jackson R, Pacala S, Mcguire A, Piao S, Rautainen A, Sitch S, Hayes D. 2011. A large and persistent carbon sink in the world’s forests. Science 333, 988-993.

Patricio JHP, Dumago SWL. 2014. Comparing Aboveground Carbon Sequestration of Three Economically Important Bamboo Species Grown in Bukidnon. Journal of Multidisciplinary Studies 3, 1-15.

Patricio JHP, Tulod AM. 2010. Carbon sequestration potential of Benguet Pine (Pinus kesiya) plantation in Bukidnon, Philippines. Journal of Nature Studies 9, 1-7.

Post WM, Peng TH, Emanuel WR, King AW, Dale VH, Angelis DL. 1990. The Global Carbon Cycle. American Scientist 78, 310-326.

Reyes TDJr,  Ludevese EG. 2015. Rapid Carbon Stock Appraisal (RACSA) Implementation in Wahig-Inabanga Watershed, Bohol, Philippines. International Journal of Environmental and Rural Development 6, 102-109.

Rojo J. 1999. Bamboo resources of the Philippines. In proceedings of the first national conference on bamboo. Iloilo City, Philippines p. 65-70.

Roxas CA. 2012. Handbook on Erect Bamboo Species Found in the Philippines. Ecosystems Research and Development Bureau, Department of Environment and Natural Resources, College, Laguna.

Scurlock JMO, Dayton DC, Hames B. 2000. Bamboo: an overlooked biomass resource. Biomass and Bioenergy 19, 229- 244. 

Shanmughavel P, Francis K. 1996. Aboveground biomass production and nutrient distribution in growing bamboo (Bambusa bambos (L.) Voss). Biomass and Bioenergy 10, 383-391.

Shanmughavel P, Peddappaiah RS, Muthukumar T. 2001. Biomass production in an age series of Bambusa bambos plantations. Biomass and Bioenergy 20, 113-117.

Singh AN, Singh JS. 1999. Biomass, net primary production and impact of bamboo plantation on soil redevelopment in a dry tropical region. Forest Ecology Management 119, 195-207.

Sohel MSI, Alamgir M, Akhter S, Rahman M. 2015. Carbon storage in a bamboo (Bambusa vulgaris) plantation in the degraded tropical forests: Implications for policy development. Land Use Policy 49,142-151.

Suwannapinunt W. 1983. A study on the biomass of Thyrsostachys siamensis (Gamble) forest at Hin-Lap, Kanchanaburi. Journal of Bamboo Research 2, 227-237.

Tariyal K, Upadhyay A, Tewari S, Melkania U. 2013. Plant and soil carbon stock and carbon sequestration potential in four major bamboo species of North India. Journal of Advanced Laboratory Research in Biology 90-98.

Tulod AM. 2015. Carbon stocks of second growth forest and reforestation stands in Southern Philippines: baseline for carbon sequestration monitoring. Advances in Environmental Sciences -International Journal of the Bioflux Society 7, 422-431.

Virtucio FD, Manipula BM, Schlegel FM. 1994. Culm yield and productivity of laak (Sphaerobambos  philipinensis) In: Proceedings 4thInternational Bamboo Workshop on Bamboo in Asia and the Pacific. Chiangmai, Thailand, November 27-30, 1991. Technical Document Forspa Publication.

Wang B, Wang Y, Guo H, Zhao GD, Bai XL. 2009a. Carbon storage and spatial distribution in Phyllostachys pubescens forest in Dagangshan Mountain of Jiangxi Province. Journal of Beijing Forestry University 31, 39-42.

Yen TM, Ji YJ, Lee JS. 2010. Estimating biomass production and carbon storage for a fast-growing makino bamboo (Phyllostachys makino) plant based on the diameter distribution model. Forest Ecology and Management 260, 339-344.

Zaragoza MJG, Amparado RFJr, Aranico EC, Tampus AD. 2016. Carbon stock assessment of three different vegetative covers in Kapatagan, Lanao del Norte, Philippines. Advances in Environmental Sciences -International Journal of the Bioflux Society 8, 205-220.

Zhou GM, Jiang PK. 2004. Density, storage and spatial distribution of carbon in Phyllostachy pubescens. Forestry Science 40, 20-24.

Zhuang S, Ji H, Zhang H, Sun B. 2015. Carbon storage estimation of Moso bamboo (Phyllostachys pubescens) forest stands in Fujian, China. Tropical Ecology 56, 383-391.

Zhuang S, Sun X, Liu G, Wong M, Cao Z. 2011. Carbon Sequestration in Bamboo Plantation Soil with Heavy Winter Organic Mulching Management. Botanical Review 77, 252-261.