International Network for Bamboo and Rattan. Annual Report. www.Inbar.int. (2005).
Sharma, M. L. & Nirmala, C. Bamboo diversity of India: An Update. Conference Paper. 10th World Bamboo Congress, Korea (2015).
Environment and Forest Department, Government of Mizoram. Bamboos of Mizoram (2010).
Jha, L. K. Bamboo based agroforestry systems to reclaim degraded hilly tracts (jhum) land in North Eastern India: Study on uses, species diversity, distribution, and growth performance of Melocanna baccifera, Dendrocalamus hamiltonii, D. longispathus and Bambusa tulda in natural stands and in stands managed on a sustainable basis. Bamboo Science and Culture. J. Am. Bamboo Soc. 23(1), 1–28 (2010).
Nigatu, A., Wondei, M., Alemu, A., Gebeyehu, D. & Workagegnehu, H. Productivity of highland bamboo (Yushania alpina) across different plantation niches in West Amhara, Ethiopia. Forest Sci. Tech. 16, 116–122 (2020).
Quiroga, R. A. R., Li, T., Lora, G. & Anderson L. E. A measurement of the carbon sequestration potential of Guadua angustifolia in the Carrasco National Park Bolivia. Development Research Working Paper Series 04/2013. Institute for Advanced Development Studies. Bolivia (2013).
Nath, A. J., Lal, R. & Das, A. K. Managing woody bamboos for carbon farming and carbon trading. Glob. Ecol. Conserv. 3, 654–663 (2015).
Wu, W., Liu, Q., Zhu, Z. & Shen, Y. Managing bamboo for carbon sequestration, bamboo stem and bamboo shoots. Small Scale Forest. 14, 233–243 (2015).
Yen, T. M., Ji, Y. J. & Lee, J. S. Estimating biomass production and carbon storage for a fast-growing makino bamboo (Phyllosatchys makinoi) plant based on the diameter distribution model. For. Ecol. Manag. 260, 339–344 (2010).
Singnar, P., Das, M. C., Sileshi, G. W., Brahma, B. & Nath, A. J. Allometric scalling, biomass accumulation and carbon stocks in different aged stands of thin-walled bamboos Schiostachyum dullooa, Pseudostachyum polymorphum and Melocanna baccifera. For. Ecol. Manag. 395, 81–91 (2017).
Directorate of Science and Technology. Climate profile of Mizoram. A publication by Mizoram State Climate Change Cell, 23 (2018).
Soil Survey Staff. Soil taxonomy A basic system of soil classification for making and interpreting soil surveys. U. S. Department of Agriculture Handbook p 436 (1999).
Houba, V., VanderLee, J., Novozamsky, I. & Wallinga, I. Soil and plant analysis. A series of Syllabi Part 5. Soil Analysis Procedures Fourth Edition Wageningen, Netherlands (1989).
Banik, R. L. Silviculture and Field-Guide to Priority Bamboos of Bangladesh and South Asia. Government of the people’s Republic of Bangladesh. Forest Research Institute, Chittagong, 187. (2000).
FAO. Guidelines on Destructive Measurement for Forest Biomass Estimation (FAO, Rome, 2012).
IPCC Good Practice Guidance for LULUCF Sector. Intergovernmental Panel on Climate Change (Cambridge University Press, Cambridge, 2003).
Yuming, Y., Chaomao, H., Jiarong, X. & Fan, D. Techniques of cultivation and integrated development of sympodial bamboo species. In Sustainable Development of Bamboo and Rattan Sectors in Tropical China 48–66 (China Forestry Publishing House, Beijing, 2001).
Embaye, K., Weih, M., Ledin, S. & Christersson, L. Biomass and nutrient distribution in a highland bamboo forest in southwest Ethiopia: Implications for management. For. Ecol. Manag. 204, 159–169 (2005).
Nath, A. J. & Das, A. K. Carbon pool and sequestration potential of village bamboos in the agroforestry system of northeastern India. Trop. Ecol. 53, 287–293 (2012).
Amoah, M., Assan, F. & Dadzie, K. P. Aboveground biomass, carbon storage and fuel values of Bambusa vulgaris, Oxynanteria abbyssinica and Bambusa vulgaris Var. vitata plantations in the Bobiri forest reserve of Ghana. J. Sustain. For. 38, 1–24 (2019).
Xu, M., Ji, H. & Zhuang, S. Carbon stock of Moso bamboo (Phyllostachys pubescens) forests along a latitude gradient in the subtropical region of China. PLoS One 13, 2,e0193024 (2018).
Majumdar, K., Choudhary, B. K. & Datta, B. K. Aboveground woody biomass carbon stocks potential in selected tropical forest patches of Tripura, Northeast India. Open J. Ecol. 6, 598–612 (2016).
Pathak, P. K., Kumar, H., Kumari, G. & Bilyaminu, H. Biomass production potential in different species of hemicelluloses from bamboo in central Utter Pradesh. Ecoscan 10, 41–43 (2016).
Sohel, M. S. I., Alamgir, M., Akhter, S. & Rahman, M. Carbon storage in a bamboo (Bambusa vulgaris) plantation in the degraded tropical forest: Implications for policy development. Land Use Policy 49, 142–151 (2015).
Thokchom, A. & Yadava, P. S. Comparing aboveground carbon sequestration between bamboo forest and Dipterocarpus forests of Manipur, Northeast India. Int. J. Ecol. Environ. Sci. 41, 33–42 (2015).
Xu, L. et al. Structural development and carbon dynamics of Moso bamboo forests in Zhejiang Province, China. For. Ecol. Manag. 409, 479–488 (2017).
Nath, A. J., Das, G. & Das, A. K. Aboveground standing biomass and carbon storage in village bamboos in North East India. Biom. Bioeng. 33, 1188–1196 (2009).
Wang, Y. C. Estimates of biomass and carbon sequestration in Dendrocalamus latiflorus culms. J. For. Prod. Ind. 23(1), 13–22 (2004).
Wang, J. et al. The structures, aboveground biomass, carbon storage of Phyllostachys pubescens stands in Huisun Experimental Forest Station and Shi-Zhuo. Q. For. Res. 31, 17–26 (2009).
Sujarwo, W. Stand biomass and carbon storage of bamboo forest in Penglipuram traditional village, Bali (Indonesia). J. For. Res. 27, 913–917 (2016).
Nfornkah, B. N. et al. Culm allometry and carbon storage capacity of Bambusa vulgaris Schrad. ex J. C. WendL. in the tropical evergreen rain forest of Cameroon. J Sustain For. https://doi.org/10.1080/10549811.2020.1795688 (2020).
Source: Ecology - nature.com
