Oak ( Quercus floribunda ) : A Prominent Indigenous Multipurpose Tree for Carbon Storage and Sequestration Potential

A dynamic growth model (CO2FIX) has been used for estimating the carbon sequestration potential of Oak (Quercus floribunda), an indigenous multipurpose tree used for timber, fuel wood, fiber and specially fodder in addition to its ability of soil binder. The present study has been carried out in the campus of V.C.S.G. College of Horticulture, U.U.H.F., Bharsar, Pauri Garhwal, Uttarakhand. It is capable of thriving on snow and heavy rainfall condition. CO2FIX was parameterized for a simulation of 100 years respectively. The results indicate that the long term tree biomass accumulated was 120.11 t/ha in above ground and 79.89 t/ha in below ground (Soil Carbon) component respectively at the end of simulation period assuming a tree density of 825t/ha (approximately). The net annual carbon sequestration for Oak over the entire simulation period was 1.9 Mg C ha-1 yr -1 (t/ha/yr). Useful for scientific planning and effective implementation of Forestry and Agroforestry developmental programmes at district level as well as at State level for the development of country. For future research work following are few suggestions for better planning and development of State. This type of study can be taken including other parameters/resources such as different trees, different area, and different state and different country as well.

The Himalaya, youngest mountain range of the world covers about 18% of total geographical area of India.Forests constitute (50% of India's forest cover) an important natural resource base in the Himalaya, most important being the temperate broad leaf forests, which are largely dominated by different species of oak (Quercus species) 1 .Oaks (Quercus spp.) are the dominant, climax tree species of the moist temperate forests of the Indian Himalayan region 2 where about 35 species of Quercus are extensively distributed between 1000-3500 m elevations.Five species of evergreen oak Viz.Quercus glauca (phaliyant/harinj), Q. leucotrichophora (banj), Q. lanuginosa (rianj), Q. floribunda (tilonj/moru) and Q. semecarpifolia (brown/kharsu) grow naturally in the western Himalaya. 3Bargali et.al.(2013) reported Oaks as dominant tree species for fodder, fuel wood and timber for Kumaun region of Uttarakhand.The oak forests are source of fuel wood, fodder and can be correlated with natural springs and wildlife.
According to 4 Bisht et.al. (2013) the dominant fodder tree species for western Himalayan region are Quercus leucotrichophora, Q. floribunda lindl, Q. semicarpifolia, Myrica esculenta (kafal), Aesculus indica (Himalayan chestnut), Alunus nepalensis (Utees), Ficus palmata (Anjir), Morus alba (shahtoot) woodforida fruticosa (kurz).Among these the most prominent species is Q.Floribanda; therefore it was considered for the study.It is medium size tree; having average height of 15 m and maximum of 24 m. 5 Kumar et.al.(2011) also reported that out of 14 tree species the Q. leucotrichophora found as dominant, best in timber, firewood and leaf fodder in Garhwal Himalayan region.The young seedlings up to two years old are very shadetolerant, thereafter the tree needs moderate to full light It needs moderately fertile soils, growing well on clays derived from shales and clay loams, but does not do well on dry sites.It is sensitive to fires and browsing.
The wood is very heavy, weighing about 1020 kg m -3 .The calorific value of the heartwood and sapwood is 19,100 and 19,400 kJ kg -1 respectively 6 , hence it is a good fuel wood.It is not a good timber as it warps and splits badly, but is used occasionally for low-grade construction and, agricultural implements.Blackjack Oak is an evergreen tree found in the Himalayas.It is a large or medium sized tree, with leathery dull green leaves, sharply toothed leaves, 6-16 cm long.Leaves have dense white-woolly hairs on the underside.Because of its abundance it is a very important fodder tree in these localities.In Dehimando Panchayat of Mahakali Forest Division 78 per cent of all privately owned fodder trees were of this species 7 .
A number of studies have reported the carbon sequestration potential (CSP) of forest and multipurpose trees in India 8,9,10,11,12,13 however the published literature on assessment of carbon sequestration through the existing trees on croplands is scanty.UnFCC (United nations Framework Convention on Climate Change) has recognized the importance of planting multipurpose trees as a greenhouse gas mitigation option, as well as the need to monitor, preserve and enhance terrestrial carbon stocks.In addition, production from plantation trees may relieve pressure on timber extraction from natural forest, and thus contribute to forest conservation A lot of works have been done for the estimation of carbon sequestration potential of different tree species (Under forestry and Agroforestry System) but this is first attempt for Oak tree in western Himalayan region of Uttarakhand for estimation of carbon sequestration potential of Oak on per year basis and also estimated total carbon sequestered on per year and total simulation of carbon at the end of simulation period of 100 years.

MATerIAlS And MeThOdS
The present study has been conducted in the V.C.S.G.College of Horticulture a campus of Uttarakhand University of Horticulture and Forestry, Bharsar, Pauri Garhwal, Uttarakhand,.which is situated at logitude78.59':20.28'E,latitude 79.00':30.05'nand 2000 m MSL altitude.The temperature ranged from -4.0 to 28.0 o c and rainfall of this hilly area lye more than 10000 mm.The campus spread over an area of 174.94ha; out of that area 114.3ha is mixed forest of Pinus roxburghii, Oak (3 species of Quercus), Burans (Rhododendron arbereum), kafal (Myrica esculenta) etc, along with more than 250 spp. of herbs & shrubs.The data has been recorded over selected area of 10 plots, size 5x5 meter in different location of campus.In given plots only number of Oak (Q.floribanda) tree counted along with CBH (Circumference at Brest Height) 3 Bargali et.al.(2013).The numbers of trees were estimated approximately 825 tree/ha.(Fig- 1) The CO2FIX Model used in this present study for simulates the carbon dynamics of single species can handle trees with varied ages.Moreover, CO2FIX outputs the biomass and C separately in above and below ground tree components cohorts wise (i.e.species wise) in addition to soil carbon dynamics.In this study, we are estimating the carbon sequestration potential of existing Oak tree in the dense forest of western Himalayan region of Pauri district of Uttarakhand.CO2FIX v3.2 model is available free of charge for academic/research institutions (http://www.efi.int/projects/casfor/CO2FIX/register32.php).CO2FIX has been used to estimate the carbon storage and sequestration potential of selected trees species in India 14 .The CO2FIX model has been tested and validated for the forest ecosystem in the Phillipines, mixed pine-oak forest of central Mexico, multi-strata AFS and tropical rainforest in Costa Rica and woodlots in Zambia 15 .

Input parameters for the CO2FIX model
The main input parameters relevant to CO2FIX model are the cohort wise values for the stem-CAI (current annual increment in m 3 ha -1 year -1 ) over years; relative growth of the foliage, branches, leaf and root with respect to the stem growth over years; turnover rates for foliage, branches and roots; and climate data of the site (annual precipitation in mm and monthly values of minimum and maximum temperatures in 0 C).Other inputs to the model includes initial surface soil organic carbon (Mg C ha -1 ), rotation length for the tree species, percent carbon contents in different tree parts, wood density and initial values of baseline carbon (Mg C ha -1 ) in different tree parts, when the simulation are being carried out for the existing trees as in the present case.

Basic data required for running the CO2FIX model
For the purpose of simulating carbon stocks under oak forest on per ha basis, the modules taken into considerations are biomass, soil and carbon accounting modules.CO2FIX model requires primary as well as secondary data of tree (called 'cohorts' in CO2FIX terminology) for preparing the account of carbon sequestered under oak forest on per hectare basis.The primary data includes name of the existing tree species on forest land along with their number, diameter at breast height (DBH) (Converted to CBH), whereas the secondary data includes the growth rates of tree biomass components (stem, branch, foliage, root) of Oak.The basic parameters viz.rotation length, wood density, carbon contents for the tree cohorts have been detailed in Table 1.DBH of the surveyed plants has been used to approximately find out the age of the standing trees.To derive the incremental data of tree stem growth, the volume equations published in State Forest Report-2009 by Forest Survey of India (FSI), Dehradun, Ministry of Environment and Forests, were used as the secondary data.

Parameterizations of the tree cohorts
Stem volume equations, available in Forest Survey of India Report (2009) for the Oak has been used to generate the DBH (m) and stem volume (m 3 /tree) data and the Wood density data is obtained from Food and Agriculture Organization (FAO) website.These data sets have been used to fit non-linear functions for stem volume-DBH relationships.This tree wise absolute stem volume-DBH relationship has then converted into hectare wise stem volume-DBH relationships, by multiplying the average number of trees found in the 10 patches.This DBH has transformed back into age to obtain hectare wise stem volume-age relationships.Ultimately, this absolute stem volume values have converted into CAI (Current Annual Increment) values of stem volume by taking the difference of current year value from preceding year value.Thus, we obtained the CAI equations for stem volume-age for the Oak (Table 2).The relative growth data of foliage, branch and root is available for different tree species (classified under the slow, medium and fast growing categories/cohorts) at national Research Centre for Agroforestry (nRCAF), Jhansi were used to find out the relative growth of foliage, branch and root with respect to stem on slow growing and also compared by given example of CO2FIX software.These relative proportions were parameterized in CO2FIX model for branch, foliage and root growth.and Forests, new Delhi (India).The dynamic soil carbon model yASSO describes decomposition and dynamics of soil carbon in well-drained soils.The soil module consists of three litter compartments (non-woody, coarse-woody and fine-woody) and five decomposition compartments (extractives, cellulose, lignin like compound, humus-1 and humus-2).Litter is produced in the biomass module through biomass turnover.For the soil carbon module, the litter is grouped as non-woody litter (foliage and fine roots), fine woody litter (branches and coarse roots) and coarse woody litter (stems and stumps).Since the biomass module makes no distinction between fine and coarse roots, root litter is separated into fine and coarse roots according to the proportion between branch litter and foliage litter.

Fig. 1 :
Fig. 1: Map of the study area

Table 2 : Current Annual Increment (CAI) of the stem volume growth (m 3 ha -1 year -1 ) over years for Oak
tree basis for slow, medium and fast growing trees has been estimated from State Forest Report 2009, Forest Survey of India, Ministry of Environment and Forests, new Delhi India .Wood density data obtained from FAO website.