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Construction of a Model to Predict Stem Carbon of Eucalyptus grandis Wall ex. Maiden Grown in Upcountry, Sri Lanka

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dc.contributor.author Aththanayake, A.M.H.L.
dc.contributor.author Bandara, W.A.R.T.W.
dc.contributor.author Wahala, W.M.P.S.B.
dc.date.accessioned 2015-12-01T04:54:11Z
dc.date.available 2015-12-01T04:54:11Z
dc.date.issued 2015-12-01T04:54:11Z
dc.identifier.citation Aththanayake, A.M.H.L., Bandara, W.A.R.T.W., & Wahala, W.M.P.S.B. (2015). Construction of a Model to Predict Stem Carbon of Eucalyptus grandis Wall ex. Maiden Grown in Upcountry, Sri Lanka. Proceedings of the 71st Annual Sessions of Sri Lanka Association for the Advancement of Science (Part I), 25.
dc.identifier.uri http://dr.lib.sjp.ac.lk/handle/123456789/1982
dc.description Sri Lanka Association for the Advancement of Science Proceedings of the 71st Annual Sessions – 2015 Part I en_US
dc.description.abstract Eucalyptus grandis is an important timber species in plantation forestry in Sri Lanka. E. grandis was selected for this study, assuming that maintaining of E. grandis plantations for carbon trading projects would provide an additional market value for this species with the current interest on global climate change mitigation, as forest plantations play an important role in carbon sequestration and carbon trading. However, there is no proper mechanism to estimate the amount of sequestered carbon in E. grandis stems. The primary objective of this study was to construct a precise model to predict stem carbon content of E. grandis individuals with the intention of calculating the value addition for E. grandis timber. To collect data, four study sites were selected from Nuwara Eliya (Kandapola and Bogawanthalawa), Badulla (Haputhale) and Ratnapura (Pinnawala) Districts to represent upcountry, intermediate zone and wet zone where E. grandis is confined to. Each plantation was divided into three strata and a 0.05 ha circular sample plot was laid out in each stratum. Each individual in the plot was measured for total tree height, canopy height and diameter at breast height. Plantation age was recorded from FORDATA database of Forest Department of Sri Lanka. Core sample from the stem at breast height was extracted and carbon content was calculated using loss-on-ignition method by oven-drying at 105 oC and igniting at 450 oC. The carbon content in the stem was estimated by aggregating this value. Simple linear regression method was used in model construction using MINITAB statistical package. The selected explanatory variables for the model construction were tree diameter at breast height (DBH) and total tree height (TTH) of individuals. The constructed model to predict stem carbon content of Eucalyptus grandis is; log Carbon content of the stem = - 2.88 + 2.19 log DBH + 1.40 log TTH The final model is able to predict the stem carbon content of E. grandis up to 98% reliability. According to model validation, the model could be used in the real world. Results of comparison of actual, predicted and assumed carbon content showed that there is a significant difference between the three methods (P=0.001). The assumed carbon content, obtained assuming 50% of the biomass is carbon, is significantly different from actual carbon content obtained by laboratory experiment and predicted carbon content, obtained by the constructed model. However, there is no significant difference between actual carbon content and carbon content predicted using the model. A majority (86%) of the collected samples contained a greater stem carbon content than the assumption that 50% of the biomass is carbon. These results indicate that use of the constructed model to predict stem carbon content of E. grandis will provide more precise results than the 50% en_US
dc.language.iso en en_US
dc.publisher Sri Lanka Association for the Advancement of Science, Colombo 07
dc.title Construction of a Model to Predict Stem Carbon of Eucalyptus grandis Wall ex. Maiden Grown in Upcountry, Sri Lanka en_US
dc.type Article en_US
dc.date.published 2015-12-30


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