Eco. Env. & Cons. 19 (4) : 2013; pp. (1195-1209) Copyright@ EM International ISSN 0971–765X Life cycle assessment of carbon flow through Harvested wood products Anindita Bhattacharyya 1 , Asis Mazumdar 2 , Pankaj Kumar Roy 3 and Anasua Sarkar 4 1 School of Water Resources Engineering, Jadavpur University, Kolkata 700 032, W.B., India 2 School of Water Resources Engineering; Coordinator, Regional Centre, NAEB & Dean, Faculty Council of Interdisciplinary Studies, Law and Management, Jadavpur University, Kolkata 700 032, W.B., India 3 School of Water Resources Engineering, Jadavpur University, Kolkata- 700032, 4 Government College of Engineering and Leather Technology, Block LV, Sector III, Saltlake City, Kolkata 700 098, W.B., India (Received 5 February 2013; accepted 17 March, 2013) ABSTRACT The paper discusses a life cycle model of wood products of Dalbergia sissoo from Saharanpur and Bijnor to calculate and trace the amount of carbon retained. A simulation model is built to trace the fate of carbon bound in the products produced in the year 2009 for a period of 200 years, until most of the carbon is released back into the atmosphere. The amount of carbon that enters the life cycle is calculated based on the field data collected since 2009 at Saharanpur and Bijnor. The roots (20%) are heavy and left out in the forest for decomposition. The bole and the thick branches (70.45%) are used by the wood based industry and the rest of the thin branches and leaves (9.47%) are used as fuel wood after being dried. As most of the portion is used as timber the amount of carbon being released in the first year is restricted up to 10% only from the burning of fuel wood and the rest of the 20% in root decomposes in many years to form the humus part of the soil. The results of the life cycle analysis are undertaken in business as usual, S 1 and S 2 scenarios. The sensitivity analysis shows that length of the lifespan has only a marginal effect on the amount of carbon sequestered in all over harvested wood products pool, but has significant effect on the amount of carbon stocked in the products pool in use. Thus, an important conclusion from this new scenario analysis is that increasing the life span of the products (i.e. by increasing the durability), carbon can be locked over a period equal to the time needed to grow the timber for these products. Economic tools like environmental benchmarking process (forest certification) can play major role in increasing the life span of the wood products. Apart from this, greater carbon storage can be achieved by promoting fuel efficient energy systems in the production houses instead of burning fossil fuels like diesel. Key words : Life cycle analysis, Harvested wood products, Dalbergia sisso, Sensitivity analysis 1 1. PhD Scholar, 2. Professor & Director, 3. Assistant Professor, 4. Assistant Professor, *Corresponding author’s email: anindita.bh@gmail.com; asismazumdar@yahoo.com; pk1roy@yahoo.co.in; ashru2006@hotmail.com Introduction to Lifecycle Assessment of Harvested Wood Products Land-use change and forest management activities have historically been net sources of carbon to the atmosphere (Brown et al., 1996), but there is also lot of potential for land-uses, land-use change and for- estry (LULUCF) activities to mitigate carbon emis- sions. The carbon mitigation can be achieved through a) emission avoidance or conserving exist-