[Alvaro. R.B., Florencia, M. 2006. Growth, productivity, aboveground biomass and carbon sequestration of pure and mixed native tree plantations in the Caribbean lowlands of Costa Rica. - Forest Ecology and Management, 232, 168-178.]Search in Google Scholar
[Bi, H., Turvey. N.D. 1994. Interspecifi c competition between seedlings of Pinus radiata, Eucalyptus regnans and Acacia melanoxylon. - Australian Journal of Botany, 42, 61-70.]Search in Google Scholar
[Binkley, D, Menyailo, O. (eds.). 2005. Tree species effects on soils: implication for global change. NATO Science Series, IV: Earth and Environmental Sciences, 55, 155-164.]Search in Google Scholar
[Binkley, D., Senock, R, Bird, S., Cole. T.G. 2003. Twenty years of stand development in pure and mixed stands of Eucalyptus saligna and nitrogenfi xing Facaltaria moluccana. - Forest Ecology and Management, 182, 93-102.]Search in Google Scholar
[Bitterlich, W. 1984. The relascope idea: relative measurements in forestry. Commonwealth Agricultural Bureaux, Farnham Royal, Slough, UK.]Search in Google Scholar
[Bristow, M., Vanclaym J., Brooks, L., Hunt, M. 2006. Growth and species interactions of Eucalyptus pellita in a mixed and monoculture plantation in the humid tropics of north Queensland. - Forest Ecology and Management, 233(2-3), 285-294.]Search in Google Scholar
[Cannell, M.G.R. 1985. Dry matter partitioning in tree crops. - Cannell, M.G.R., Jackson, J.E. (eds.). Attributes of trees as crop plants. Institute of Terrestrial Ecology, Abbots Ripton, Huntingdon, Essex, UK, 160-193.]Search in Google Scholar
[Chan, Y.H. 1982. Storage and release of organic carbon in peninsular Malaysia. - International Journal of Environmental Studies, 18, 211-222.]Search in Google Scholar
[Chidumaya, E.N. 1990. Aboveground woody biomass structure and productivity in a Zambezian woodland. - Forest Ecology and Management, 36, 33-46.]Search in Google Scholar
[Cromer, R.N., Cameron, D.M., Rance, S.J., Ryan, P.A., Brown, M. 1993. Response to nutrients in Eucalyptus grandis. 1. Biomass accumulation. - Forest Ecology and Management, 62, 211-230.]Search in Google Scholar
[DeBell, D.S., Whitesell, C.D., Schubert, T.H. 1985. Mixed plantations of Eucalyptus and leguminous trees enhance biomass production. USDA Forest Service Research Paper PSW-175.10.2737/PSW-RP-175]Search in Google Scholar
[Dey, S.K. 2005. A preliminary estimation of carbon stock sequestrated through rubber (Hevea brasiliensis) plantation in North Eastern regional of India. - Indian Forester, 31(11), 1429-1435.]Search in Google Scholar
[ESRl. 2013. Earth Systems Research Laboratory. National Oceanic and Atmospheric Administration (NOAA). [WWW document]. - URL http:// WWW.CO2NOW.org [Accessed 30 August 2015].]Search in Google Scholar
[FAO. 2001a. Global Forest Resources Assessment 2000. Main Report. Forestry Paper No. 140, FAO, Rome, p. 479]Search in Google Scholar
[FAO. 2001b. Food and Agriculture Organization. State of the World’s Forests 2001, Rome, Italy.]Search in Google Scholar
[Giardina, C.P., Ryan, M.G. 2002. Total belowground carbon allocation in a fast-growing Eucalyptus plantation estimated using a carbon balance approach. - Ecosystems, 5, 487-499.]Search in Google Scholar
[Giardina, C.P., Ryan, M.G., Binkley, D., Fownes. J.H. 2003. Primary production and carbon allocation in relation to nutrient supply in a tropical experimental forest. - Global Change Biology, 9, 1438-1450.]Search in Google Scholar
[Hairiah, K., Sitompul, S.M., van Noordwijk, M., Palm, C. 2001. Methodology for sampling carbon stocks above and below ground. ASB Lecture Note 4B. International Centre for Research in Agroforestry, Indonesia. [WWW document]. - URL http:// www.asb.cgiar.org [Accessed 30 August 2015].]Search in Google Scholar
[Haynes, B.E., Gower, S.T. 1995. Belowground carbon allocation in unfertilized and fertilized red pine plantations in northern Wisconsin. - Tree Physiology, 15, 317-325.]Search in Google Scholar
[Holland, E.A. 1997. Variations in the predicted spatial distribution of atmospheric nitrogen deposition and their impact on carbon uptake by terrestrial ecosystems. - Journal of Geophysical Research, 102, 15849-15866.]Search in Google Scholar
[Houghton, R.A., Davidson, E.A., Woodwell, G.M. 1998. Missing sinks, feedbacks, and understanding the role of terrestrial ecosystems in the global carbon balance. - Global Biogeochemical Cycles, 12, 25-34.]Search in Google Scholar
[IPCC. 1999. Land use, land use change and forestry. Intergovernmental Panel of Climate Change. Cambidge University Press, Cambridge, UK.]Search in Google Scholar
[Jha, M.N., Gupta. M.K., Saxena. A., Kumar. R. 2003. Soil organic carbon store in different forests in India. - Indian Forester, 129(6), 714-724.]Search in Google Scholar
[Kaye, J.P., Resh, S.C., Kaye, M.W., Chimner, R.A. 2000. Nutrient and carbon dynamics in a replacement series of Eucalyptus and Albizia trees. - Ecology, 81(12), 3267-3273.]Search in Google Scholar
[Keith, H., Raison, R.J., Jacobsen, K.L. 1997. Allocation of carbon in a mature eucalypt forest and some effects of soil phosphorus availability. - Plant Soil, 196, 81-99.]Search in Google Scholar
[Khanna, P.K. 1997. Comparison of growth and nutrition of young monocultures and mixed stands of Eucalyptus globulus and Acacia mearnsii. - Forest Ecology and Management, 94, 105-113.]Search in Google Scholar
[Koul, D.N., Panwar, P. 2008. Prioritizing land-management options for carbon sequestration potential. - Current Science, 95, 658-663.]Search in Google Scholar
[Lamb, D., Erskine, P.D., Parrotta, J.A. 2005. Restoration of degraded tropical forest landscape. - Science, 310, 1628-1632.]Search in Google Scholar
[Landsberg, J.J. 1997. The biophysical environment. - Nambiar, E.K.S., Brown, A.G. (eds.). Management of soil, nutrients and water in tropical plantation forests. Australian Centre 20 for International Agricultural Research, Canberra, 65-96.]Search in Google Scholar
[Lohani, D.N. 1979. Preliminary trials with high yielding varieties of L. leucocephala. - Indian Forester, 3, 199-202.]Search in Google Scholar
[Luna, R.K. 2005. Plantation trees. International Book Distributors, Dehrudun. 975 pp.]Search in Google Scholar
[McConnaughay, K.D.M., Coleman, J.S. 1999. Biomass allocation in plants: ontogeny or optimality? A test along three resource gradients. - Ecology, 80, 2581-2593.10.1890/0012-9658(1999)080[2581:BAIPOO]2.0.CO;2]Search in Google Scholar
[Miehle, P., Livesley, S.J., Feikema, P.M., Li, C., Arndt, S.K. 2006. Assessing productivity and carbon sequestration capacity of Eucalyptus globulus plantation using the process model Forest-DNDC: calibration and validation. - Ecological Modelling, 192, 83-94.10.1016/j.ecolmodel.2005.07.021]Search in Google Scholar
[Montagnini, F. 2000. Accumulation in above-ground biomass and soil storage of mineral nutrients in pure and mixed plantations in a humid tropical lowland. - Forest Ecology and Management, 134, 257-270.]Search in Google Scholar
[Montagnini, F., Porras. C. 1998. Evaluating the role of plantations as carbon sinks: an example of an integrative approach from the humid tropics. - Environmental Management, 22(3), 459-470.]Search in Google Scholar
[Nadelhoffer, K.J., Emmett, B.A., Gundersen, P., Kjonass, O.J., Koopmans, C.J., Schleppi, P., Tietema, A., Wright, R.F. 1999. Nitrogen deposition makes a minor contribution to carbon sequestration in temperate forests. - Nature, 398, 145-148.]Search in Google Scholar
[Nsabimana, D., Klemedtson, L., Kaplin, B.A., Wallin, G. 2008. Soil carbon and nutrient accumulation under forest plantations in southern Rwanda. - African Journal of Environmental Science and Technology, 2(6), 142-149.]Search in Google Scholar
[Parrotta, J.A. 1999. Productivity, nutrient cycling, and succession in single- and mixed-species plantations of Casuarina equisetifolia, Eucalyptus robusta, and Leucaena leucocephala in Puerto Rico. - Forest Ecology and Management, 124, 45-77.]Search in Google Scholar
[Parrotta, J.A., Baker, D.D., Fried, M. 1996. Changes in dinitrogen fi xation in maturing stands of Casuarina equisetifolia and Leucaena leucocephala. - Canadian Journal of Forest Research, 26, 1684-1691.]Search in Google Scholar
[Peterson, B.J., Melillo, J.M. 1985. The potential storage of carbon caused by eutrophication of the biosphere. - Tellus, 37B, 117-127.]Search in Google Scholar
[Petit, B., Montagnini, F. 2004. Growth equation and rotation age of ten native tree species in mixed and pure plantations in the humid neotropics. - Forest Ecology and Management, 199, 243-257.]Search in Google Scholar
[Piotto, D., Montagnini, F., Ugalde, L., Kanninen, M. 2003. Growth and effects plantations. - Forest Ecology and Management, 50, 31-41.]Search in Google Scholar
[Pongracic, S. 2001. Infl uence of irrigation and fertilization on the belowground carbon allocation in a pine plantation. PhD thesis. The University of New South Wales, Sydney.]Search in Google Scholar
[Pressler, M. 1895. The law of education in Leipzig. (Das Gesetz der Stambildung Leipzig). 153 pp. (In German).]Search in Google Scholar
[Raich, J.W. 1998. Aboveground productivity and soil respiration in three Hawaiian rain forests. - Forest Ecology and Management, 107, 309-318.]Search in Google Scholar
[Rastetter, E.B., McKane, R.B., Shaver, G.R., Melillo, J.M. 1992. Changes in C storage by terrestrial ecosystems: how C-N interactions restrict responses to CO2 and temperature. - Water, Air and Soil Pollution, 64, 327-344.]Search in Google Scholar
[Resh, S.C., Binkley, D., Parrotta, J.A. 2002. Greater soil carbon sequestration under nitrogen-fi xing trees compared with Eucalyptus species. - Ecosystems, 5, 217-231.]Search in Google Scholar
[Ryan, M.G., Hubbard, R.M., Pongracic, S., Raison, R.J., McMurtrie, R.E. 1996. Foliage, fi ne-root, woody-tissue and stand respiration in Pinus radiata in relation to nitrogen status. - Tree Physiology, 16, 333-343.]Search in Google Scholar
[Sage, R.F. 1995. Was low atmospheric CO2 during the Pleistocene a limiting factor for the origin of agriculture. - Global Change Biology, 1, 93-106.]Search in Google Scholar
[Schlesinger, W.H. 1991. Biogeochemistry: an analysis of global change. Academic Press, New York, USA.]Search in Google Scholar
[Sheikh, M.A., Kumar, M., Bussmann, R.W. 2009. Altitudinal variation in soil organic carbon stock in coniferous subtropical and broadleaf temperate forests in Garhwal Himalaya Carbon Balance Management 2009, 4:6. DOI: 10.1186/1750-0680-4-6.10.1186/1750-0680-4-6]Search in Google Scholar
[Smethurst, P., Baillie, C., Cherry, M., Holz, G. 2003. Fertilizer effects on LAI and growth of four Eucalyp tus nitens plantations. - Forest Ecology and Management, 176, 531-542.]Search in Google Scholar
[Stanley, W.G., Montagnini, F. 1999. Biomass and nutrient accumulation in pure and mixed plantations of indigenous tree species grown on poor soils in the tree species in mixed and pure plantations in the humid neotropics. - Forest Ecology and Management, 199, 243-257.]Search in Google Scholar
[Townsend, A., Braswell, B.H., Holland, E.A. 1996. Spatial and temporal patterns in terrestrial carbon storage due to deposition of anthropogenic nitrogen. - Ecological Applications, 6, 806-814.]Search in Google Scholar
[Turner, J., Lambert, M.J., Johnson, D.W. 2005. Experience with patterns of soil carbon resulting from forest plantation establishment in eastern Australia. - Forest Ecology Management, 220, 259-269.]Search in Google Scholar
[van Vliet, O.P.R., Faaij, A.P.C., Dieperink, C. 2003. Forestry projects under the clean development mechanism? Modelling of the uncertainties in carbon mitigation and related costs of plantation forestry projects. - Climatic Change, 61, 123-156.]Search in Google Scholar
[Whipps, J.M. 1990. Carbon Eonomy. - Lynch, J.M. (ed.). The Rhizosphere. Wiley, New York, 59-97.]Search in Google Scholar
[Woomer, P.L. 1999. Impact of cultivation of carbon fl uxes in woody savannas of southern Africa. - Water, Air and Soil Pollution, 70, 403-412.]Search in Google Scholar
[Zak, D.R., Pregitzer, K.S. 1998. Integration of ecophysiological and biogeochemical approaches to ecosystem dynamics. - Pace, M.L., Groffman, P.M. (eds.). Successes, limitations and frontiers in ecosystem science. Springer, New York, 372-403. ]Search in Google Scholar