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Avudainayagam, S.
- Organic Carbon Storage by Ailanthus excelsa Plantations
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Indian Forester, Vol 138, No 11 (2012), Pagination: 1041-1046Abstract
This study is related to working out the carbon storage potential of the fast growing species like the Ailanthus excelsa. It is seen that the carbon storage in different tree components, litter and soil increases with the increase in age of the plantation. The carbon concentration in different parts of the tree for all aged plantation followed the decreasing order as stem > ischolar_main > branch > leaf. The carbon content of litter is estimated and it is found that the lowest return is from the youngest and highest return is from the oldest stand and it indicated a direct relationship with age. The carbon content is estimated using two methods, one is by calculating the biomass and carbon content per cent (formula method) and the other by assumption method. The results show that the assumption method leads to an over-estimation of carbon content for the total organic carbon of the same age when compared to the formula method (especially for younger aged plantations). Therefore, it could be suggested that the assumption method should be avoided for younger age plantations and its use must be restricted only to the older plantations.Keywords
Ailanthus, Carbon Sequestration, Above Ground Biomass, Below Ground Biomass- Carbon Storage Potential of Eucalyptus Tereticornis Plantations
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1 Department of Environmental Sciences, Agriculture College and Research Institute, T. N. A. U., Coimbatore, Tamil Nadu, IN
2 Department of Environmental Sciences, Agriculture College and Research Institute, T. N. A. U., Coimbatore, Tamil Nadu, IN
1 Department of Environmental Sciences, Agriculture College and Research Institute, T. N. A. U., Coimbatore, Tamil Nadu, IN
2 Department of Environmental Sciences, Agriculture College and Research Institute, T. N. A. U., Coimbatore, Tamil Nadu, IN
Source
Indian Forester, Vol 140, No 1 (2014), Pagination: 53-58Abstract
The carbon storage potential of Eucalyptus tereticornis plantations (one to four years old) was estimated using two different methods. The carbon concentration in different parts of the tree for all aged plantation was found in decreasing order: stem > ischolar_main > branch > leaf. Carbon content of litter showed that the lowest return was from the -1 youngest and highest return was from the oldest stand. The carbon content was found to be 38.10 t ha (one year -1 plantation) and 115.88 t ha (four year plantation) when estimated by biomass and carbon content per cent (formula -1 -1 method) and it was found to be 42.66 t ha (one year plantation)and 129.04 t ha (four year plantation)when estimated by the assumption that carbon fractions is fifty per cent of biomass (assumption method). The results showed that the assumption method leads to an over-estimation of carbon content for the total organic carbon of the same age when compared to the formula method (especially for younger aged plantations).Keywords
Eucalyptus, Carbon Storage, Above Ground Biomass, Below Ground Biomass.References
- Balagopalan, M. and Alexander, T.G. (1985). Soil Organic Carbon Distribution along Transects in Teak and Eucalyptus Plantations. Journal Tree Science, 4 (2): 13-20.
- Bert, D. and Danjon, F. (2006). Carbon concentration variations in the ischolar_mains, stem and crown of mature Pinus pinaster (Ait.). Forest Ecology and Management,222 (1-3): 279-295.
- Bouwman, A.F. (1990). Exchange of green house gases between terrestrial ecosystems and the atmosphere. In: Soils and the Greenhouse Effect (Bouwman, A.F. Ed.) John Willey and sons, New York, USA, 575 pp.
- Chauhan, S.K., Gupta, N., Ritu, S., Yadav and Chauhan, R. (2009). Biomass and carbon allocation in different parts of agroforestry tree species. Indian Forester,135 (7): 981-993.
- Dadhwal, V.K. and Shah, A. (1997). Recent changes in forest phytomass carbon pool in India estimated using growing stock and remote sensing based forest inventories. Journal of Tropical Forestry, 13 (4): 188-192.
- Dey, S.K. (2005). A preliminary estimation of carbon stock sequestrated through rubber (Hevea brasiliensis) plantation in North Eastern region of India. Indian Forester,131 (11): 1429-1436.
- Dhruw, S.K., Singh, L. and Singh, A.K. (2009). Storage and Sequestration of carbon by leguminous and non-leguminous trees on Red-lateritic soil of Chhatisgarh. Indian Forester,135 (4): 531-538.
- Eswaran, H., Berg, E.V.D. and Reich, P. (1993). Organic carbon in soils of the world. Soil Science Society of America Journal, 57: 192-194.
- Gifford, R.M. (2000). Carbon content of wood ischolar_mains. Revised analysis and a comparison with woody shoot components. Australian Greenhouse Office, National Carbon Accounting System Technical Report, 7:18
- Gupta, M.K. and Pandey, R. (2008). Soil organic carbon pool under different plantations in some districts of Uttarakhand and Haryana. Ind. J. Forestry, 31 (3): 369-374.
- Houghton, R.A., Boone, R.D., Melillo, J.M., Palm, C.A., Woodwell, G.M., Myers, N., Moore, B. and Skole, D.L. (1985). Net flux of carbon dioxide from tropical forest in 1980. Nature, 316: 617-620.
- IPCC. (2001). Climate change 2001: The Scientific basis. In: Contribution of working group I to the Third Assessment Report of the International Panel on Climate Change (Houghton, J.T., Ding, Y., Griggs, D. J., Noguer, M., Van der Linden, P.J., Dai, X., Mashell, K. and Johnson C. A. Eds.) Cambridge University Press, Cambridge, UK, 881 pp.
- Jha, M.N., Gupta, M.K. and Raina, A.K. (2001). Carbon sequestration: Forest soil and land use management. Annals of forestry, 9 (2): 249- 256.
- Jha, K.K. (2005). Storage and flux of organic carbon in young Tectona grandis plantations in moist deciduous forest. Indian Forester, 131 (5): 647-659.
- Joas Carlos de M.S., Carlos, C.C., Warren, A.D., Rattan, L., Solismar, P.V.F., Marisa, C.P. and Brigitte, E.F. (2001). Organic matter dynamics and carbon sequestration rates for a little chronosequence in Brasilian Oxisol. Soil Science Society of America Journal,65 (5): 1486-1499.
- Kumar, R., Pandey S. and Pandey, A. (2006). Plant ischolar_mains and carbon sequestration. Current Science,91 (7): 885-890.
- Myers, N. (1990). Tropical forests. In: Global warming, the Greenpeace Report (Leggett, J. Ed.) Oxford: OUP. Pp 372-399.
- Pal, R., Melkania, U. and Dhiman, R.C. (2009). Inter-Clonal variation in carbon pool of Populus deltoides Bartr. Indian Forester, 135 (9): 1209-1216.
- Parthiban, K.T. (1991). Effect of few tree species on soil fertility, microflora, microfauna and enzymes. M.Sc. Thesis, Forest College and Research Institute, Tamil Nadu Agricultural University, Mettupalayam, India.
- Soni, P. (2003). Climate Change and restoration of Tropical Forests. Indian Forester, 129 (7): 865-873.
- Upadhyaya, A.K. and Soni, R.G. (1997). Growth, Biomass production and dry matter distribution of pattern of Eucalyptus camaldulensis grown under irrigated conditions in IGNP area of Rajasthan. Indian Forester,123 (3): 190-195.
- Walkley, A. and Black, T.A. (1934). An examination of the Degtjareff method for determining soil organic matter and proposed modification of the chromic acid titration method. Soil Science, 37: 29-38.
- Yadava, A.K. (2010). Biomass production and carbon sequestration in different agroforestry systems in Tarai region of Central Himalaya. Indian Forester, 136 (2): 234-244.