Your search found 10 records
1 Paul, S.. 1981. The strategic management of development programmes: Evidence from and international study. Ahmedabad, India: Indian Institute of Management. 47p. (Indian Institute of Management working paper no.390)
Management planning ; Development policy ; Developing countries ; Project appraisal ; Strategy planning
(Location: IWMI-HQ Call no: 658.404 G000 PAU Record No: H01042)
2 Ganapathy, R. S.; Ganesh, S. R.; Maru, R. M.; Paul, S.; Rao, R. M. 1985. Public policy and policy analysis in India. New Delhi, India: Sage Publications. 327p.
Policy ; Evaluation ; Analysis ; Public sector ; Rural development ; Energy ; Health ; Population ; Political aspects ; Women ; Research ; Institutions / India
(Location: IWMI-HQ Call no: 361.61 G635 GAN Record No: H03798)
3 Paul, S.. 1984. Strategic management of development programmes: Guidelines for action. Geneva, Switzerland: ILO. vii, 137p. (Management development series no.19)
(Location: IWMI-HQ Call no: 658.4 G000 PAU Record No: H05992)
4 Paul, S.. 1982. Managing development programs: The lessons of success. Boulder, CO, USA: Westview Press. xvi, 247p.
(Location: IWMI-HQ Call no: 338.9 G000 PAU Record No: H06815)
5 Paul, S.. 1987. Community participation in development projects: The World Bank experience. Washington, DC, USA: World Bank. v, 37p. (World Bank discussion paper no.6)
(Location: IWMI-HQ Call no: 338.9 G000 PAU Record No: H07165)
6 Satia, J. K.; Paul, S.. Managerial evaluation of development programmes. In Mathur B. C. et al. Management in government. pp.391-405.
(Location: IWMI-HQ Call no: P 1834 Record No: H08120)
7 Paul, S.; Israel, A. (Ed.) 1991. Nongovernmental organizations and the World Bank: Cooperation for development. Washington, DC, USA: World Bank. x, 162p.
(Location: IWMI-HQ Call no: 338.91 G000 PAU Record No: H010321)
8 Paul, S.. 1994. Does voice matter?: A study of the impact of voice on public accountability. Unpublished report. 66p.
Irrigation management ; Water management ; Administration ; Public sector ; Local government ; Performance evaluation ; Water user associations ; Farmer participation ; Farmers' associations ; Farmer-agency interactions ; Farmers' attitudes ; Communication ; Villages ; Research methods ; Irrigation canals ; Indicators ; Policy / Indonesia
(Location: IWMI-SA Call no: P 4147 Record No: H017835)
Monograph reporting the findings of a study that investigated whether public service providers perform better when their accountability is enhanced through the public's use of voice. The public service selected for study was irrigation in Indonesia.
9 Paul, S.; Panda, S. N.; Kumar, D. N. 2000. Optimal irrigation allocation: A multilevel approach. Journal of Irrigation and Drainage Engineering, 126(3):149-156.
Models ; Water allocation ; Irrigation water ; Irrigation scheduling ; Plant growth ; Stochastic process ; Crop production ; Water deficit ; Water distribution ; Evapotranspiration ; Soil moisture ; Rain ; Percolation ; Distributary canals / India / Punjab / Golewala Distributary Canal
(Location: IWMI-HQ Call no: PER Record No: H026238)
10 Roy, P. S.; Behera, M. D.; Murthy, M. S. R.; Roy, A.; Singh, S.; Kushwaha, S. P. S.; Jha, C. S.; Sudhakar, S.; Joshi, P. K.; Reddy, S.; Gupta, S.; Pujar, G.; Dutt, C. B. S.; Srivastava, V. K.; Porwal, M. C.; Tripathi, P.; Singh, J. S.; Chitale, V.; Skidmore, A. K.; Rajshekhar, G.; Kushwaha, D.; Karnatak, H.; Saran, S.; Amarnath, Giriraj; Padalia, H.; Kale, M.; Nandy, S.; Jeganathan, C.; Singh, C. P.; Biradar, C. M.; Pattanaik, C.; Singh, D. K.; Devagiri, G. M.; Talukdar, G.; Panigrahy, R. K.; Singh, H.; Sharma, J. R.; Haridasan, K.; Trivedi, S.; Singh, K. P.; Kannan, L.; Daniel, M.; Misra, M. K.; Niphadkar, M.; Nagabhatla, N.; Prasad, N.; Tripathi, O. P.; Prasad, P. R. C.; Dash, P.; Qureshi, Q.; Tripathi, S. K.; Ramesh, B. R.; Gowda, B.; Tomar, S.; Romshoo, S.; Giriraj, S.; Ravan, S. A.; Behera, S. K.; Paul, S.; Das, A. K.; Ranganath, B. K.; Singh, T. P.; Sahu, T. R.; Shankar, U.; Menon, A. R. R.; Srivastava, G.; Sharma, N. S.; Mohapatra, U. B.; Peddi, A.; Rashid, H.; Salroo, I.; Krishna, P. H.; Hajra, P. K.; Vergheese, A. O.; Matin, S.; Chaudhary, S. A.; Ghosh, S.; Lakshmi, U.; Rawat, D.; Ambastha, K.; Malik, A. H.; Devi, B. S. S.; Gowda, B.; Sharma, K. C.; Mukharjee, P.; Sharma, A.; Davidar, P.; Raju, R. R. V.; Katewa, S. S.; Kant, S.; Raju, V. S.; Uniyal, B. P.; Debnath, B.; Rout, D. K.; Thapa, R.; Joseph, S.; Chhetri, P.; Ramachandran, R. M. 2015. New vegetation type map of India prepared using satellite remote sensing: comparison with global vegetation maps and utilities. International Journal of Applied Earth Observation and Geoinformation, 39:142-159. [doi: https://doi.org/10.1016/j.jag.2015.03.003]
Satellite imagery ; Remote sensing ; Vegetation ; Climate change ; Temperature ; Precipitation ; Scrublands ; Grasslands ; Ecology ; Global positioning systems ; Land cover ; Assessment ; Cultivation / India
(Location: IWMI HQ Call no: e-copy only Record No: H047008)
(2.48 MB)
A seamless vegetation type map of India (scale 1: 50,000) prepared using medium-resolution IRS LISS-III images is presented. The map was created using an on-screen visual interpretation technique and has an accuracy of 90%, as assessed using 15,565 ground control points. India has hitherto been using potential vegetation/forest type map prepared by Champion and Seth in 1968. We characterized and mapped further the vegetation type distribution in the country in terms of occurrence and distribution, area occupancy, percentage of protected area (PA) covered by each vegetation type, range of elevation, mean annual temperature and precipitation over the past 100 years. A remote sensing-amenable hierarchical classification scheme that accommodates natural and semi-natural systems was conceptualized, and the natural vegetation was classified into forests, scrub/shrub lands and grasslands on the basis of extent of vegetation cover. We discuss the distribution and potential utility of the vegetation type map in a broad range of ecological, climatic and conservation applications from global, national and local perspectives. Weused 15,565 ground control points to assess the accuracy of products available globally (i.e., GlobCover, Holdridge’s life zone map and potential natural vegetation (PNV) maps). Hence we recommend that the map prepared herein be used widely. This vegetation type map is the most comprehensive one developed for India so far. It was prepared using 23.5m seasonal satellite remote sensing data, field samples and information relating to the biogeography, climate and soil. The digital map is now available through a web portal (http://bis.iirs.gov.in).
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