"Adopting the system of rice intensification (SRI) in Tanzania: A review"
written by Zacharia Katambara, Frederick C. Kahimba, Henry F. Mahoo, Winfred B. Mbungu, Fikiri Mhenga, Paul Reuben, Muyenjwa Maugo, Anthony Nyarubamba,
published by Agricultural Sciences, Vol.4 No.8, 2013
has been cited by the following article(s):
  • Google Scholar
  • CrossRef
[1] Comparing productivity of rice under system of rice intensification and conventional flooding: A switching regression approach
2020
[2] Performance of SRI rice growth on soil accustomed to conventional cultivation methods
2020
[3] Alternate wetting and drying: A water-saving and ecofriendly rice production system
2020
[4] An Economic Comparison between Alternative Rice Farming Systems in Tanzania Using a Monte Carlo Simulation Approach
2020
[5] Growth of Ichiban Boshi Rice Variety for Different Number of Seedlings Per Hill
Sumerianz Journal of Agriculture and Veterinary, 2019
[6] Complementarity of Technology Adoption and Social Capital Participation: The Case of Systems of Rice Intensification in Ghana
2019
[7] Pathogenicity of the root-lesion nematode, Pratylenchus zeae, on rice genotypes under different hydro-ecologies in Tanzania
2019
[8] SUBSTITUSI PUPUK KIMIA PADA BUDIDAYA PADI SRI PENGARUHNYA TERHADAP PERTUMBUHAN, PRODUKSI DAN ORGANISME TANAH
2019
[9] The Effect of Dry Cultivation on Yield, Water, and Iron Use Efficiency of Rice
2019
[10] THE INFLUENCE OF PRUNING TIME OF TILLER AND COW MANURE DOSES ON GROWTH AND YIELD OF PADDY RICE (Oryza sativa L.) IN THE SRI …
2019
[11] Recuperating dynamism in agriculture through adoption of sustainable agricultural technology-Implications for cleaner production
2019
[12] Effect Of Direct Seeding And Transplanting On Growth And Yield Of Selected Rice (Oryza Sativa L.) Varieties On Rain-Fed And Irrigated Lowlands Of Kenya
2019
[13] Biomass Development in SRI Field Under Unmaintained Alternate Wetting-Drying Irrigation
IOP Conference Series: Earth and Environmental Science, 2018
[14] Rice Ratooning Using the Salibu System and the System of Rice Intensification Method Influenced by Physiological Traits.
2018
[15] Germination responses of local lowland rice variety Sirandah Kuning to application of some Trichoderma strain
2018
[16] Socio-Economic and Field Performance Evaluation of Different Rice Varieties under System of Rice Intensification in Morogoro, Tanzania
Agricultural Research & Technology: Open Access Journal, 2018
[17] EFFECT OF UREA SUPER GRANULE ON THE GROWTH AND YIELD OF POTATO
2017
[18] INFLUENCE OF PLANTING GEOMETRY ON GROWTH AND YIELD OF BLACKGRAM VARIETIES
2017
[19] Optimizing Plant Spacing under the Systems of Rice Intensification (SRI)
2016
[20] Moderate wetting and drying increases rice yield and reduces water use, grain arsenic level, and methane emission
The Crop Journal, 2016
[21] Climate change perception and system of rice intensification (SRI) impact on dispersion and downside risk: a moment approximation approach
2016
[22] Barriers and enablers to uptake and implementation of system of rice intensification: a case study of Mwea irrigation scheme in Kenya
2016
[23] Sifat Fisiologi Dan Agronomi Padi Ratun Dengan Sistem Salibu Pada Budidaya System Of Rice Intensification (Sri).
Dissertations and Theses, 2016
[24] BARRIERS AND ENABLERS TO UPTAKE AND IMPLEMENTATION OF SYSTEM OF RICE INTENSIFICATION
2016
[25] and Mare Sarr
2016
[26] Sustainable Intensification for Food Security and Climate Change Adaptation in Tanzania
Dissertation, Ohio State University, 2016
[27] Photosynthesis and Transpiration Rates of Rice Cultivated Under the System of Rice Intensification and the Effects on Growth and Yield
HAYATI Journal of Biosciences, 2016
[28] Characteristics of rice produced under direct and indirect SRI practices in Chimala Area in Mbarali District Tanzania
2016
[29] Influence of Transplanting Age on Paddy Yield under the System of Rice Intensification
2016
[30] 11 System of rice intensification
2016
[31] The Role of Farmer Field Schools in Adoption and Adaptation of Recommended Rice Production Practices in Mvomero District in Tanzania
2016
[32] DEPARTMENT OF AGRONOMY SHER-E-BANGLA AGRICULTURAL UNIVERSITY DHAKA
2016
[33] The System of Rice Intensification (SRI): Complicating the global narrative
2015
[34] Improving the performance of system of rice intensification by seed priming
Thesis, 2015
[35] ECONOMIC ANALYSIS AND IMPACT ASSESSMENT OF PRODUCTION TECHNOLOGY OF PADDY IN MAHARASHTRA
2015
[36] Evaluation of the performance of system of rice intensification (SRI) in Bumbwisudi rice irrigation scheme, Zanzibar
2015
[37] Fisiologi, Anatomi Dan Sistem Perakaran Pada Budidaya Padi Dengan Metode System Of Rice Intensification (Sri) Dan Pengaruhnya Terhadap Produksi
Dissertations and Theses, 2015
[38] The system of rice intensification (SRI): Complicating the global narrative: An exploratory, qualitative study based on fieldwork in Nepal's Terai
ProQuest Dissertations Publishing, 2015
[39] Impact of Management on Soil Fertility and Rice Yields in Smallholder Farms in Tanzania
2015
[40] The rice value chain in Tanzania
2015
[41] Option for Increasing Rice Yields, Profitability, and Water Saving; A Comparative Analysis of System of Rice Intensification in Morogoro, Tanzania
Int. J. Rec. Biotech, 2014
[42] Ex Ante Analysis of Small-Scale Irrigation Interventions in Mvomero
2014
[43] System of Rice Intensification (SRI): A Potential Approach to Enhance Rice Productivity and Food Security
2014
[44] EVALUATION OF SYSTEM OF RICE INTENSIFICATION (SRI) FOR ENHANCED SEED YIELD AND QUALITY
Thesis, 2014
[45] The Potential of System of Rice Intensification (SRI) to Increase Rice Water Productivity: a Case of Mkindo Irrigation Scheme in Morogoro Region, Tanzania
Tanzania Journal of Agricultural Sciences, 2014
[46] ADOPTION OF RAINFED PADDY PRODUCTION TECHNOLOGIES AMONG SMALLHOLDER FARMERS IN THE CENTRAL DISTRICT, ZANZIBAR
2014
[47] Empowering smallholder rice farmers in Tanzania to increase productivity for promoting food security in Eastern and Southern Africa
Agriculture & Food Security, 2014
[48] 對水稻強化栽培系統與標準管理法進行整合分析以評估灌溉米之生產所需用水, 節水與水生產率
P Jagannath, H Pullabhotla, N Uphoff - 140.112.63.162, 2013
[49] Optimizing System of Rice Intensification Parameters Using Aquacrop Model for Increasing Water Productivity and Water Use Efficiency on Rice Production in Tanzania
Journal of Agriculture and Sustainability, 2013
[50] Assessment of the organic-based system of rice intensification (SRI) under coastal rice field ecosystem
[51] THE INFLUENCE OF PRUNING TIME OF TILLER AND COW MANURE DOSES ON GROWTH AND YIELD OF PADDY RICE (Oryza sativa L.) IN THE SRI METHOD