Your search found 7 records
1 Maithani, B. P. 1988. Strategy for rural development in the north-eastern region. Journal of Rural Development, 7(2):193-212.
(Location: IWMI-HQ Call no: PER Record No: H04972)
2 Sharma, U. C.; Prasad, R. N.; Sonowal, D. K. 1998. An indigenous technique of soil and water conservation in North Eastern Region: The Zabo system of farming. In Bhushan, L. S.; Abrol, I. P.; Rao, M. S. R. M. (Eds.), Soil and water conservation: Challenges and opportunities - Volume 2. New Delhi, India: Oxford & IBH Publishing Co. Pvt. Ltd. pp.969-975.
(Location: IWMI-HQ Call no: 631.4 G000 BHU Record No: H022742)
3 Stockholm International Water Institute. 1998. Workshop 4B: Water harvesting - Water, the key to socio-economic development and quality of life, Stockholm Water Symposium, August 10-13, 1998. Stockholm, Sweden: SIWI. 47p. (SIWI paper 2)
(Location: IWMI-HQ Call no: 333.91 G000 STO Record No: H025011)
4 Dunglena. 1998. Rain water catchment system of Aizawal, the state capital of Mizoram, India. In Stockholm International Water Institute. Workshop 4B: Water harvesting - Water, the key to socio-economic development and quality of life, Stockholm Water Symposium, August 10-13, 1998. Stockholm, Sweden: SIWI. pp.35-39.
(Location: IWMI-HQ Call no: 333.91 G000 STO Record No: H025015)
5 Dunglena. 2001. Rainwater retains relevance – The city of Aizawl depends heavily on rainfall to meet its drinking water requirement but the government continues to give high priority to piped water supply. In Agarwal, A.; Narain, S.; Khurana, I. (Eds.), Making water everybody’s business: Practice and policy of water harvesting. New Delhi, India: Centre for Science and Environment. pp.207-210.
(Location: IWMI-HQ Call no: 333.91 G635 AGA Record No: H030646)
6 Raman, S. 2012. Potential of micro-irrigation in India: a statewise assessment. In Palanisami, Kuppannan; Raman, S.; Mohan, Kadiri (Eds.). Micro-irrigation: economics and outreach. New Delhi, India: Macmillan. pp.11-26.
(Location: IWMI HQ Call no: IWMI Record No: H044864)
7 Bordoloi, R.; Das, B.; Tripathi, O. P.; Sahoo, U. K.; Nath, A. J.; Deb, S.; Das, D. J.; Gupta, A.; Devi, N. B.; Charturvedi, S. S.; Tiwari, B. K.; Paul, A.; Tajo, L. 2022. Satellite based integrated approaches to modelling spatial carbon stock and carbon sequestration potential of different land uses of Northeast India. Environmental and Sustainability Indicators, 13:100166. [doi: https://doi.org/10.1016/j.indic.2021.100166]
(Location: IWMI HQ Call no: e-copy only Record No: H050887)
(4.25 MB) (4.25 MB)
The study aims to estimate and predict the aboveground biomass, carbon stock and carbon sequestration potential of different land uses of Northeast India and relate these estimates with the land use changes. Many applications such as carbon stock and sequestration monitoring, forest degradation monitoring, and climate change mitigation, require precise and timely estimation of forest biomass. Although traditional field inventory can reliably estimate forest biomass, remote sensing is emerging as an alternate and fast approach to cover larger area with relative precision for biomass estimation. In this study, a combined approach of field inventory and Landsat OLI derived vegetation indices were used in spatial modelling of aboveground biomass and carbon stock in different land uses. A stepwise multilinear regression algorithm was used to derive the model that used Landsat derived NDVI, SAVI and ARVI as predicators. The predicted AGB ranged from 14.32 to 185.95 Mg ha-1 with an average of 148.78 Mg ha-1. The developed model that used combined vegetation indices showed correlation of R2 = 0.79 with an RMSE of 51.04 Mg ha-1. The present study also applied the empirical model (CO2FIX) to simulate the future scenario of carbon stock and carbon sequestration potential of the different land uses. The carbon stock potential of different land uses were 182.31 Mg ha-1, 158.91 Mg ha-1, 134.98 Mg ha-1, 169.26 Mg ha-1, 133.84, 89.95 Mg ha-1, 128.3 Mg ha-1 and 61.36 Mg ha-1 in Tropical forest, Subtropical forest, Temperate forest, Tropical plantation, Subtropical plantation, Temperate plantation, Shifting fallows and Agricultural land, respectively.
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