System of Rice Intensification - SRI Journal Articles

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JOURNAL ARTICLES ABOUT THE SYSTEM OF RICE INTENSIFICATION (SRI)

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The following bibliography includes 1,500+ journal articles and communications about the System of Rice Intensification (SRI) that are published in scientific journals. They are arranged alphabetically within years. [Read more about the SRI-Rice research acquisition project.]

To search the metadata of these articles, go to the Zotero database. While the collection below does not include conference proceedings or theses, many of these items can be found in the complete searchable Zotero database. [NOTE! By joining the SRI Research Network, you can access many full text items that are difficult acquire. Write to sririce@cornell.edu for more info on this.]
Unfortunately, many of the journal articles listed below are not free. The red dot (•) below indicates free access to an article. Pay-per-view items may also be accessible through nearby libraries or research institutions, TEEAL or AGORA (for those who are eligible), or by contacting the author. See also notes on using the CNKI database for accessing Chinese articles.
SRI-Rice also sponsors the Zotero-based System of Rice Intensification Research Network (though we still maintain archives through 2014 on Mendeley). You can join the Research Network to find research papers in the database, meet group members or comment on group activity. [Read more about the SRI Research Network here.]

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Improving crop productivity through sustainable intensification

South Asian Research Journal of Agriculture and Fisheries

• Singh, A., and M. Chakraborti. 2019. Water and nitrogen use efficiency in SRI through AWD and LCC. Indian Journal of Agricultural Sciences 89(12): 2059-63.
• Singh, R., and S. M. Feroze. 2019. Evolution of system of rice intensification (SRI) and economic security in Tripura state of North East hill region of India. e-planet 17(2): 89-97.
• Singh, S. K., et al. 2019. Mechanized weed management to enhance productivity and profitability in system of rice intensification. Indian Journal of Weed Science 51(3): 232-235.
• Suriani, Ni Luh, et al. 2019. Antagonism Trichoderma SP for pressing blast disease on red Bali rice plants (Oryza Sativa). Journal of Advanced Research in Dynamic and Control Systems 11(10) 70-76.
Thakur, A, K., K. G. Mandal, and S. Raychaudhuri. 2019. Impact of crop and nutrient management on crop growth and yield, nutrient uptake and content in rice. Paddy and Water Environment (online first August 3, 2019). 1-13p. doi:10.1007/s10333-019-00770-x
Thatchinamoorthy. 2019. Diffusion of System of Rice Intensification (SRI) across Tirunelveli District in Tamil Nadu. International Journal of Advance and Innovative Research 6(2): 28-31
Varma, Poornima. 2019. Adoption and the impact of system of rice intensification on rice yields and household income: an analysis for India. Applied Economics (online first April 25, 2019) doi: 10.1080/00036846.2019.1606408
• Waris, Amtul, et al. 2019. Climate resilient production practices: Extent of adoption and barriers faced by rice farmers in Telangana state of India. Journal of Cereal Research 11(3): 293-299. 10.25174/2249-4065/2019/94868
• Widyatami, Linda Ekadewi, and Ardhitya Alam Wiguna. 2020. Daya saing dan dampak kebijakan pemerintah terhadap usahatani padi SRI di Kecamatan Rogojampi Kabupaten Banyuwangi. AGRARIS: Journal of Agribusiness and Rural Development Research 5(2): 99-111. doi:10.18196/agr.5279
Yahaya, Iddrisu, et al. 2019. Complementarity of technology adoption and social capital participation: The case of Systems of Rice Intensification in Ghana. Journal of International Development (online first July 1). doi: 10.1002/jid.3420
Yogananda, S.B., P. Thimmegowda, and G.K. Shruthi. 2019. Effect of weed-management practices on system of rice (Oryza sativa) intensification under southern dry zone of Karnataka. Indian Journal of Agronomy 64(4): 471-475.
• Zoundou, Sidnoma Daniel, and Yu-min Wang. 2019. Assessment of probiotic bacteria effects on rice growth and yield at reduced doses of chemical fertilizers in Pingtung, Southern Taiwan. International Journal of Science and Research 8(8): 2073 - 2080.

2018 ARTICLES (• = free access)

• Aasif, M., et al. 2018. Influence of integrated nutrient management practices on yield and nutrient uptake of rice under System of Rice Intensification. International Journal of Advances in Agricultural Science and Technology 5(7): 10-16.
Abirami, P., and S. Senthilnathan S. 2018. Comparative analysis of traditional and SRI method of rice cultivation and its adoption behaviour in Tamil Nadu. Agricultural Economics Research Review 31(conf): 215.
Arif, Sigit Supadmo, et al. 2018. GA1-5: The role of University in System of Rice Intensification development model and its implication: UGM Case. 한국농업기계학회 학술발표논문집 Korean Society of Agricultural Engineers 23(1): 45
• Arsil, Poppy, et al. 2018. Perceived importance and performance of System of Rice Intensification (SRI) between adopters and dis-adopters: Insights from Indonesia. The Journal of Social Sciences Research 6: 16-21.
• Aziez, A.F., E. Hanudin, and S. Harieni. 2018. Impact of water management on root morphology, growth and yield component varieties of lowland rice under the organic system of rice intensification. Journal of Degraded and Mining Lands Management 5(2): 1035-1045. doi:10.15243/jdmlm.2018.052.1035
• Azmi, Kahirul, and Chusnul Arif. 2018. Analisis sensitivitas emisi gas metana (CH4) pada sawah dengan metode korelasi rank spearman. Jurnal Teknik Sipil dan Lingkungan 3(1): 10-22.
• Chandankutte, R. K., et al. 2018. Effect of crop establishment methods and integrated nutrient management practices on nutrient uptake and quality attributes of rice (Oryza sativa L.). Global Journal of Bio-Science and Biotechnology 7(2): 230-233.
Choudhary, Anil K., and Vinod K. Suri. 2018. System of rice intensification in short duration rice hybrids under varying bio-physical regimes: New opportunities to enhance rice productivity and rural livelihoods in North-Western Himalayas under a participatory-mode technology transfer program. Journal of Plant Nutrition (online first November 11, 2018) doi:10.1080/01904167.2018.1510515
• Debberma, B., D. Ram, M.K. Singh, and M. Deepa Devi. 2018. Extent of adoption of System of Rice Intensification (SRI) technology by the farmers of Tripura. International Journal of Current Microbiology and Applied Sciences. 7(4): 1853-1861. doi:10.20546/ijcmas.2018.704.211
• Dhaliwal, L. K., et al. 2018. Effect of meteorological parameters on incidence of brown leaf spot in rice crop under different planting methods. Journal of Agrometeorology 20(1):53-56.
• Dwipa, Indra, et al. 2018. Emergence of phyllochron of 3 rice varieties in different time of land flooding in System of Rice Intensification (SRI). International Journal of Environment, Agriculture and Biotechnology 3(6): 2177-2181. doi:10.22161/ijeab/3.6.30
• Effendi, Arman, Aswaldi Anwar, and Reni Mayern. 2018. The effects of planting range and weed management on growth and yield of rice (Oryza sativa L.) using modified SRI (The System of Rice Intensification). International Journal on Advanced Science, Engineering and Information Technology 8(1): 272-279. doi:10.18517/ijaseit.8.1.2159
• Eyhorn, Frank, et al. 2018. Does organic farming provide a viable alternative for smallholder rice farmers in India? Sustainability 10(12), 4424; doi:10.3390/su10124424
Fathurrahman, Akmal. 2018. Motivasi petani muda dalam penerapan teknik budidaya padi sawah secara organik dengan metode System of Rice Intensification (Studi kasus di Kelompok Tani Mekar Sari IV, Desa Ciapus, Kecamatan Banjaran, Kabupaten Bandung, Jawa Barat). Agricore 3:1
Ghoshal, R. and D. Basu. 2018. Comparative analysis of System of Rice Intensification (SRI) and traditional technology of rice cultivation with respect to some selected parameters in farmers' field conditions. 14(2): 199-201.
Hansda, Regina. 2018. Small-scale farming and gender-friendly agricultural technologies: the interplay between gender, labour, caste, policy and practice. Gender, Technology and Development 21(3): 189-205. doi:10.1080/09718524.2018.1434990
• Hastuti et al. 2018. IbM implementation of SRI method in semi organic rice farm in Pasarean Village, Pamijahan Subdistrict, Bogor District. Agrokreatif 4(20): 125-134. doi: 10.29244/agrokreatif.4.2.125-134
• Hidayati, Nurul, Triadiati Triadiati, and Iswandi Anas. 2018. Rooting system of rice cultivated under System of Rice Intensification (SRI) method which improving rice yield. HAYATI Journal of Biosciences 25(2): 63-69.
• Hosain, T., et al. 2018. Response of physiological characteristics and productivity of hybrid rice varieties under System of Rice Intensification (SRI) over the traditional cultivation. International Journal of Plant Biology & Research 6(2): 1085.
Hossain, A. 2018. Crop establishment and weed management techniques to control in wet-rice weeds under lateritic soils of West Bengal. Indian Journal of Weed Science 50(2): 116-119. doi:10.5958/0974-8164.2018.00029
• Islam, Asadul, Philip Ushchev, Yves Zenou, and Xin Zhang. 2018. The value of information in technology adoption: Theory and evidence from Bangladesh. SSRN. 55p.
• Istiqomah, Nurul, et al. 2018. Ketersediaan nitrogen dan populasi bakteri tanah dalam SRI (System of Rice Intensification). Buana Sains 18(1): 35-36.
• Johnson, J., et al. 2018. Farmers' perceptions on mechanical weeders for rice production in Sub-Saharan Africa. Experimental Agriculture, 1-15. doi:10.1017/S001447971700059X
• Kangile, R. J., H. S. Ng’elenge, and I. M. Busindeli. 2018. Socio-economic and field performance evaluation of different rice varieties under System of Rice Intensification in Morogoro, Tanzania. Agricultural Research & Technology: Open Access Journal 17(2): 556021. doi:10.19080/ARTOAJ.2018.17.556021
• Khandai, S., A. Tripathi, et al. 2018. Modification of existing power weeder and study on the cost economics of different weeding methods. International Journal of Pure & Applied Bioscience 6(6): 60-63. doi:10.18782/2320-7051.7108.
• Kirar, Shiv Singh, Ram Pratap Bain, and Jeetendra Kumar Soni. 2018. A comparative study on production realized in traditional and SRI methods of paddy cultivation in District Katni (M.P.). International Journal of Current Microbiology and Applied Sciences 7(01): 1936-1939. doi:10.20546/ijcmas.2018.701.23
• Kumar, Sunil, and Amrendra Kumar. 2018. System of Rice Intensification: A new pathway of rice crop establishment method. International Journal of Current Microbiology and Applied Sciences 7(9): 3076-3086. doi:10.20546/ijcmas.2018.709.384
Lalrinpuia, Vangchhia, and Lawmchullova Immanuel. 2018. Towards self-sufficiency in rice: A comparative study of rice cultivation practices in Mizoram. Geographic 13(1): 73-85.
Lee, Yun-ho, et al. 2018. On-farm study of the System of Rice Intensification (SRI) of rainfed lowland in southern Cambodia (캄보디아 남부 천수답지역의 벼 집약관리재배 시스템(SRI)에 대한 현장 연구). Korea International Agricultural Development Association 30(4): 285-291
• López, Cristian Valdivieso, and Vera Montenegro. 2018. Tiempo do trasplante en la productividad del cultivo de arroz, Oryza sativa INIAP-11. Revista ESPAMCIENCIA 9(1): 7-12.
• Maulana, Mohamad. 2018. Comparing social costs of the conventional rice production system and System of Rice Intensification: A case study of Indonesia. International Journal of Environment & Sustainability 7(1):10-29. doi:10.24102/ijes.v7i1.879
Maftukhah, Rizki, et al. 2018. BE1-1: System of Rice Intensification in terrace rice field: Plant growth rate and nitrogen availability. 한국농업기계학회 학술발표논문집 Korean Society of Agricultural Engineers 23(1): 47
• Mahmud, Amir. 2018. Pengendalian gulma dengan beberapa jenis mulsa pada beberapa varitas tanaman padi sawah (Oryza sativa L.) dengan metode System of Rice Intensification (SRI). Jurnal AGROHITA 2(2): 30-40.
• Maulana, Mohamad. 2018. Comparing social costs of the conventional rice production system and System of Rice Intensification: A case study of Indonesia. International Journal of Environment & Sustainability 7(1):10-29. doi:10.24102/ijes.v7i1.879
• Maryono. 2018. Indeks keberlanjutan usahatani padi di Tasikmalaya. Jurnal Agribisnis Indonesia 6(2): 109-120. doi:10.29244/jai.2018.6.2.109-120
• Mittal, Shreyansh, and Sanjay K. Sharma. 2018. Effect of different approaches of fertilizer recommendations on yield, nutrient uptake and economics of rice under SRI. Journal of Pharmacognosy and Phytochemistry 7(2): 761-765.
• Mittal, Shreyansh, et al. 2018. Soil physico-chemical properties under target yield approach based fertilizer recommendations in system of rice intensification (SRI). International Journal of Chemistry Studies 2(2): 1-4.
Mondal, Dibyendu, et al. 2018. Influence of herbicide mixture on composite weed flora and yield of transplanted rice under system of rice intensification. Journal of Hill Agriculture 9(1): 49-54. doi:10.5958/2230-7338.2018.00009.5
• Muralikrishnan, L.. and R. N. Padaria. 2018. Climate resilient water conservation technologies for sustainable rice production. Trends in Biosciences 11(39): 4017-4022
• Nahar, L., A. Sarker, M. Mahbub, and R. Akter. 2018. Effect of crop establishment method and nutrient management on yield and yield attributes of short duration T. Aman rice. Bangladesh Agronomy Journal 21(1): 117-123. 10.3329/baj.v21i1.39390
Narayanamoorthy, A., and P. Jothi. 2018. Water saving and productivity benefits of SRI: a study of tank, canal and groundwater irrigated settings in South India. Water Policy. doi:10.2166/wp.2018.199
• Dipak Nath and Das, D.K. 2018. Knowledge on SRI (System of Rice Intensification) of farmers in Tripura, India. International Journal of Current Microbiology and Applied Sciences 7(3): 3586-3592. doi:10.20546/ijcmas.2018.703.412
• Nath, Dipak, and D.K. Das. 2018. Knowledge on SRI (System of Rice Intensification) of farmers in Tripura, India. International Journal of Current Microbiology and Applied Sciences 7(3): 3586-3592. doi:10.20546/ijcmas.2018.703.412
• Nayak, Amruta, and Sabyaschi Biswal. 2018. Performance of rice in modified conventional System over of Rice Intensification (SRI). International Journal of Current Microbiology and Applied Sciences 6: 2163-2168
• Nisha, Fitriani Nurhayatin. 2018. Pengembangan model denitrification decomposition (DNDC) untuk pendugaan emisi gas metana (CH4) dari lahan padi sawah. Jurnal Teknik Sipil dan Lingkungan 3(2): 1-11.
Nugroho, Bayu Dwi Apri, and Chusnul Arif. 2018. PA1-2 : Field monitoring system and adaptation strategy of System of Rice Intensification (SRI) cultivation against regional climate change in the southern part of Indonesia. 한국농업기계학회 학술발표논문집 Korean Society of Agricultural Engineers 23(1): 51
Oo, Aung Zaw, et al. 2018. Methane and nitrous oxide emissions from conventional and modified rice cultivation systems in South India. Agriculture, Ecosystems & Environment 252: 148-158. doi:10.1016/j.agee.2017.10.014 [SRI conditions in this article are called "YW-AWD"]
Pandey, D.K., and S.K. Kamal. 2018. System of Rice Intensification: An opportunity for marginal and small farmers. Journal of Krishi Vigyan 7(special): 151-154. 10.5958/2349-4433.2018.00182.4
• Pandiangan, S., S.T. Trina and S. Saragih. 2018. Response of rice (Oryza sativa L.) on seedling age and number of seedlings per planting hole. IOP Conference Series: Materials Science and Engineering420(conference 1): 1-9. doi: 10.1088/1757-899X/420/1/012082
Pasaribu, Pinta Omas, Triadiati, and Iswandi Anas. 2018. Rice ratooning using the Salibu System and the System of Rice Intensification method influenced by physiological traits. Pertanika Journal of Tropical Agricultural Science 41(2): 637-654.
• Pogula, Sowmya, and K. K. Rout, 2018. Effect of different manurial practices on soil microbial activity under SRI method of rice planting. International Journal of Current Microbiology and Applied Sciences 7(4): 3221-3227. doi:10.20546/ijcmas.2018.704.365
• Potkile, S.N. 2018. Influence of Planting methods and varieties on yield and economics of paddy. International Journal of Pure & Applied Bioscience 6(6):202-206. doi:10.18782/2320-7051.6668
• Quynh, Vu Duong, and Mai Van Trinh. 2018. Assessment of economic, ecological efficiency and resistant ability to unforable climate condition of System of Rice Intensification (SRI) in comparison with conventional rice cultivation in Bihn Dinh province. Journal of Vietnam Agricultural Science and Technology 6(91): 27-34.
• Rozen, Nalwida. 2018. Response of two rice varieties grown using SRI method in two different locations. JERAMI Indonesian Journal of Crop Sciences 1(1), 39-45.
Salgotra, R. K., et al. 12018. Morphological and grain quality analysis of basmati rice (Oryza sativa L.) under different systems in north-west plains of Himalaya. Electronic Journal of Plant Breeding 9(3): 1146-1156. doi: 10.5958/0975-928X.2018.00143.6
Sen, Dhiman, et al. 2018. Studies on nutrient uptake of crop and residual soil fertility affected by planting time, organic sources of nutrient and LCC based N application under SRI. Research on Crops 19(2): 163-168. doi:10.5958/2348-7542.2018.00025.6
Shahane, Amit Anil, and Yashbir Singh Shivay. 2018. Effect of rate and sources of nitrogen, phosphorus and zinc fertilization on potassium nutrition of rice in different cultivation methods. International Journal of Bio-Resource & Stress Management 9(4): 460-467.
• Shamshiri, Redmond Ramin, et al. 2018. An overview of the System of Rice Intensification for paddy fields of Malaysia. Journal of Agricultural Studies 6(1):133-156. doi: 10.5296/jas.v6i1.1253
• Sharma, Ravi Chandra, Nobuhiko Fuwa, and Pabitra Banik. System of Rice Intensification verses conventional rice system: Off-farm field studies. NASS Journal of Agricultural Sciences 1(1): 7-17.
• Silitonga, Yusnita Wahyuni. 2018. Pengaruh beberapa jenis bahan organik terhadap pertumuhan vegetatif tanaman padi (Oryza sativa L) metode SRI (the System of Rice Intensification). Jurnal AGROHITA 2(2): 20-29.
Singh, A. K., and Mandira Chakraborti. 2018. The effects of crop establishment method, soil–water regime and integrated nutrient management practices on sustainability of rice yield in North-Eastern India. Agricultural Research (online first July 4, 2018) 1-7. 10.1007/s40003-018-0336-4
• Singh, Chandan, et al. 2018. Effect of INM modules and different cultural practices on properties of silty clay loam. International Journal of Current Microbiology and Applied Sciences 7(1): 653-658. doi: 10.20546/ijcmas.2018.701.079
• Singh, Chandran, et al. 2018. Performance of INM modules and different cultural practices on growth, yield and yield attributes of Basmati rice. International Journal of Current Microbiology and Applied Sciences 7(special issue): 5140-5146
• Soentoro, Edy Anto, et al. 2018. Optimization of irrigation water use to increase the benefit of agricultural products. MATEC Web of Conferences 159. doi:10.1051/matecconf/201815901026. [Presented at the 2nd International Joint Conference on Advanced Engineering and Technology (IJCAET 2017) and International Symposium on Advanced Mechanical and Power Engineering (ISAMPE 2017)]
• Suprianto Suprianto et al. 2018. Penerapan teknologi budidaya padi sawah metode System of Rice Intensification (SRI) hubunganya dengan produktifitas di Desa Maluka Baulin Kecamatan Kurau Kabupaten Tanah Laut (The technology application on rice cultivation with System of Rice Intensification (SRI) method and its relation to rice productivity in Maluka Baulin Village Kurau Sub-District Tanah Laut Regency]. Frontier Agribisnis 2(1): 54-59.
• Syafrullah, Syafrullah. 2018. Pemanfaatan batubara dan sumber daya lokal pedesaan sebagai pupuk batubara plus dan penagarunya terhadap pertumbuhan dan produksi tanaman padi System of Rice Intensification (SRI) di lahan pasang surut. Klorofil 13(2): 71-77.
Thakur, Amod K. 2018. Rice root growth, photosynthesis, yield and water productivity improvements through modifying cultivation practices and water management. Agricultural Water Management 206: 67-77. doi:10.1016/j.agwat.2018.04.027
• Toungos, Mohammed Dahiru. 2018. Comparative analysis on the cropping System of Rice Intensification and traditional method of rice production in Mubi North, Adamawa State, Nigeria. International Journal of Innovative Agriculture & Biology Research 6(2): 7-26.
• Thirupathi, I. et al. 2018. Assessment of energetics of rice with irrigation and nitrogen management practices under different establishment methods. International Journal of Current Microbiology and Applied Sciences 7(1): 2313-2319. doi:10.20546/ijcmas.2018.701.279
• Umami, Wahuni, et al. 2018. Effect inundation period to summed dominant ratio (SDR) and biomass rice weeds of method SRI (System of Rice Intensification) in Indonesia. International Journal of Environment, Agriculture and Biotechnology 3(6): doi:10.22161/ijeab/3.6.2
• Verma, Divyansh, and Thomas Abraham. 2018. Evaluation of system of planting with different foliar application of liquid organic formulation under organic rice [Oryza sativa (L.)] production. International Journal of Current Microbiology and Applied Sciences 7(8): 3278-3283. doi:10.20546/ijcmas.2018.708.349

2017 ARTICLES (• = free access)

• AR, Arman Effendi, et al. 2017. Effects of ditch distance in rice fields on the growth and production of rice (Oryza sativa L.). Pakistan Journal of Nutrition 16(8): 638-644. doi:10.3923/pjn.2017.638.644
• Adhikari, Prabhakar, et al. 2017. System of crop intensification for more productive, resource-conserving, climate-resilient, and sustainable agriculture: experience with diverse crops in varying agroecologies. International Journal of Agricultural Sustainability (Online first Nov. 20, 2017) 1-28.
• Adrianto, Joko, Harianto Harianto, Manuntun Parulian Hutagaol. 2016. Peningkatan produksi padi melalui penerapan SRI (System of Rice Intensification) di Kabupaten Solok Selatan. Agribusiness Indonesia 4(2):107-122.
Agarwal, Punit Kumar, and Ajay Kumar. 2017. A socioeconomic study on pros and cons of SRI method of paddy cultivation in ormanjhi block of Ranchi district, Jharkhand. Indian Journal of Agricultural Research 51(1): 74-77. doi: 10.18805/ijare.v0i0.7008
• Al-Hasanie, L. N. H., and A. D. Al-Maadhedi. 2017. Influence of irrigation periods and organic fertilizer on two rice varieties grown under System of Rice Intensification (SRI). The Iraqi Journal of Agricultural Sciences 48(3): 823-840.
• Ali, Md Naiyar, and Tajwar Izhar 2017. Performance of SRI principles on growth, yield and profitability of rice (Oryza sativa L.). Journal of Pharmacognosy and Phytochemistry 6(5): 1355-1358.
• Attia, A. M. E., et al. 2017. Improvement System of Rice Intensification (Sri) for some rice genotypes. Journal of Plant Production, Mansoura Univ. 8(11): 1147-1151.
• Babu, Suresh Chandra, and C. Jayachandran. 2017. Role of knowledge inequality and social entrepreneurship in agricultural transformation: Case of rural South India. International Journal of Business & Applied Sciences 6:(1): 15
• Bagayoko, M., G. Traore, and O. Samake. 2017. Variabilite spatiale des rendements du riz en systeme de riziculture intensive (SRI) en zone office du Niger au Mali. Agronomie Africaine 29(2): 137-147.
Balamatti, Arun, and Norman Uphoff. 2017. Experience with the System of Rice Intensification for sustainable rainfed paddy farming systems in India. Agroecology and Sustainable Food Systems (online first March 20, 2017) doi:10.1080/21683565.2017.1308898
• Dass, Anchal, Subhash Chandra, Norman Uphoff, et al. 2017. Agronomic fortification of rice grains with secondary and micronutrients under differing crop management and soil moisture regimes in the north Indian plains. Paddy and Water Environment (First Online, March 11, 2017) pp 1-16. doi:10.1007/s10333-017-0588-9.
Devi, D. A. Rajini, R. Vijaya Kumari, et al. 2017. Study of economics of paddy cultivation under transplantation, system of rice intensification (SRI) and direct seeding in Warangal district of Andhra Pradesh. Indian Journal of Economics and Development 13(2a): 262- 264. doi:10.5958/2322-0430.2017.00077.4
• Dhakal, Bishal, et al. 2017. Productivity assessment of drought tolerant rice cultivars under different crop management practices in Central Terai of Nepal. International Journal of Environmental & Agriculture Research 3(10): 20-25.
Doni, Febri, C. R. C. M. Zain, et al. 2017. A simple, efficient, and farmer-friendly Trichoderma-based biofertilizer evaluated with the SRI Rice Management System. Organic Agriculture (online first June 2017) pp: 1-19. doi: 10.1007/s13165-017-0185-7
• Dwibedi, Sanat Kumar, Gopal Chandra De, and Sudhi Ranjan Dhua. 2017. Correlation between vegetative parameters and yield with weed biomass of kharif rice genotypes at varying dates of sowing and systems of cultivation in coastal Odisha. Environment & Ecology 35(1): 35-39.
Dwibedi, Sana Kumar, Gopal Chandra De, and Sudhi Ranjan Dhua. 2017. Relative performance of rice (Oryza sativa)-ratoon production system as influenced by date of sowing and system of cultivation of plant rice genotypes. Indian Journal of Agronomy 62(3): 247-254
• Dwibedi, Sanat Kumar, et al. 2017. Influence of system of cultivation and genotypes of preceding rice-ratoon on growth and yield of green gram (Vigna radiata L.) sown at varying dates in coastal alluvium soil of eastern India. Legume Research (online Sept. 15, 2017).
• Harding, S. S., et al. 2017. Assessing the suitability and profitability of the system of rice intensification (SRI) methodology under farmers’ circumstances in Sierra Leone. Agronomie Africaine 29(1): 41-52.
• Hasanah, Nur Aini Iswati, Budi Indra Setiawan, Chusnul Arif, and Slamet Widodo. 2017. Muka air optimum pada System of Rice Intensification (SRI). Jurnal Irigasi 12(1): 55-64.
• Hasanah, N. A. I., B. I. Setiawan, C. Arif, and S. Widodo. 2017. SRI paddy growth simple prediction model. International Journal of Civil Engineering and Technology 8(6): 423-429.
• Hasanah, Nur Aini Iswati, Budi Indra Setiawan, Masaru Mizoguchi, Gary Robert Sands, Chusnul Arif and Slamet Widodo. 2017. Triangle graphs development for estimating methane and nitrous oxide gases emission from the System of Rice Intensification (SRI). Journal of Environmental Science and Technology, 10(4): 206-214. doi:10.3923/jest.2017.206.214

Muka air optimum pada System Of Rice Intensification (SRI)

. Jurnal Irigasi

Jagannath, Madane Ananda, et al. 2017. Effect of irrigation and nitrogen management on rice (Oryza sativa) under system of rice intensification and its residual effect on lentil (Lens culinaris). Indian Journal of Agronomy 62(3): 260-267
• Kesh, Hari, Khushi Ram, and Kuldeep Jangid. 2017. System of Rice Intensification: A review on resource conserving method of rice crop establishment. International Journal of Current Microbiology and Applied Sciences 6(11): 2315-2328. doi:10.20546/ijcmas.2017.611.275
• Kumar, G., L. V. Subba Rao, R.M. Kumar, and K. Keshavulu. 2017. Influence of SRI (System of Rice Intensification) method of cultivation on seed quality parameters of rice (Oryza sativa L.). International Journal of Pure & Applied Bioscience 5(6): 784-788. doi:10.18782/2320-7051.5187
• Kumar, Pradip, et al. 2017. Standardization of system of rice intensification (SRI) and its comparison to conventional system of rice production for resource conservation and yield maximization. Research in Environment and Life Sciences 10(7): 599-601.
• Kumar, R. Mahender, et al. 2017. Influence of different methods of rice (Oryza sativa l.) cultivation on microbes, soil health, water productivity and grain yield. Journal of Pharmacognosy and Phytochemistry SP1: 394-399
Kumari, Tulika, and O. P. Singh. 2017. A comparative economics of System of Rice Intensification and conventional method of paddy cultivation in Gumla District of Jharkhand. Indian Journal of Economics and Development 13(3): 581-585. doi:10.5958/2322-0430.2017.00220.7
Kundu, Surajit, et al. 2017. Growth and yield of rice as influenced by different planting techniques. Journal of Hill Agriculture 8(3): 309-312 doi:10.5958/2230-7338.2017.00061.1
• 林羿汝(Yi-Ju Lin), 邱儀婷(Yi-Tin Chiou), 邱儀婷(Yi-Tin Chiou), 陳清田(Ching-Tien Chen), 陳清田(Ching-Tien Chen), 李振誥(Cheng-Haw Lee), and 李振誥(Cheng-Haw Lee). 2017. 灌溉管理操作對水稻生長期距及灌溉用水效能影響之研究 The effects of Irrigation management practice on growth period and irrigation water use efficiency in paddy rice. Journal of Taiwan Agricultural Engineering 63(2): 1-14.
Majumder, Saddam Hossen, et al. 2017. A comparative economics of SRI with conventional method of rice cultivation in Tripura. International Journal of Plant Sciences (Muzaffarnagar) 12(2): 240-242.
• Mallikarjun, Channa, and Syed Sadaqath. 2017. Constraints and suggestions of SRI method of paddy growers in Dharwad district, Karnataka, India. Agriculture Update 12(3): 361-364 ref.14. doi: 10.15740/has/au/12.3/361-364
• Mamondo, Marianne Reynelda, and Delcen Sopani. 2017. Analisis risiko usahatani padi sawah metode System of Rice Intensification (SRI) dan tanam benih langsung (Tabela) di Desa Tonusu Kecamatan Pamona Puselemba (Risk analysis of rice field farming between methods of System of Rice Intensification (SRI) and direct seed planting (Tabela) at Tonusu Village Pamona Puselemba District). Jurnal ENVIRA 2(1): 28-24. doi: 10.31227/osf.io/dkg6b
• Marrocco, Also Tommaso. 2017. Online informative and educational resources regarding the possibilities for sustainable intensification of agriculture. Journal of Taiwan Disaster Prevention 9(2): 181-195
• Massawe, Ikunda H., Filbert B. Rwehumbiza, and Balthazar M. Msanya. 2017. Effect of water management systems with different nutrient combinations on performance of rice on soils of Mvumi, Kilosa district, Tanzania. International Journal of Current Research in Biosciences and Plant Biology 4(2): 34-44. doi:10.20546/ijcrbp.2017.402.005
J. Prabina. 2017. Impact of the mixed consortium of indigenous Arbuscular Mycorrhizal Fungi (AMF) on the growth and yield of rice (Oryza Sativa L.) under the system of Rice Intensification (SRI). International Journal of Environment, Agriculture and Biotechnology 2(20): 881-885. doi:10.22161/ijeab/2.2.41
• Mishra, Abha. 2017. Dealing with uncertainty with certain principles, and mobilizing farmers’ creativity for sustainable agriculture intensification that contributes to food security. Agricultural Research and Technology: Open Access Journal 4(1): 1-3. doi: 10.19080/ARTOAJ.2017.04.555629.
Mohapatra, S., et al. 2017. Effect of irrigation and methods of weed management on weed dynamics and yield of summer rice (Oryza sativa) under system of rice intensification. Indian Journal of Agronomy 62(3): 315-320
• Mwatete, Gibson, et al. 2017. Comparing the economic performance of two rice technologies in West Kano Irrigation Scheme, Kenya. Africa Environmental Review Journal 2(2): 93-106.
• Nakano, Y., Y. Tanaka, and K. Otsuka. 2017. Impact of training on the intensification of rice farming: evidence from rainfed areas in Tanzania. Agricultural Economics Accepted Author Manuscript. December 18, 2017.
• Nath, Dipak, and Dilip K. Das. 2017. Constraints encountered by rice farmers of Tripura in adoption of system of rice intensification (SRI) technology. International Journal of Farm Sciences 7(1): 110-115.
• Ndiiri, Jackline Alinda, Norman Uphoff, Bancy Mbura Mati, Patrick Gathogo Home, and Benson Odongo. 2017. Comparison of yields of paddy rice under System of Rice Intensification in Mwea, Kenya. American Journal of Plant Biology 2(2): 49-60. doi:10.11648/j.ajpb.20170202.12
• Ochoa, Esteban, et al. 2017. Comparación de un sistema de intensificación del cultivo de arroz (SICA) con sistemas tradicionales de siembra en la zona de Churute, Ecuador (Comparing a system of rice intensification (SRI) with traditional cropping systems in Churute, Ecuador). Ciencia y Tecnología (Cienc Tecn UTEQ) 10(1): 1-6.
• Pascual, Victoriano Joesph, and Yu-Min Wang. 2017. Impact of water management on rice varieties, yield, and water productivity under the System of Rice Intensification in southern Taiwan. Water 9(1): 3. doi:10.3390/w9010003
• Paramasivan, M. 2017. Productivity, water use efficiency and economics of system of rice intensification (SRI) in Nichabanadhi sub basin of southern Tamil Nadu. Journal of Applied and Natural Science 9(1): 286-290
• Patil, Anagha. 2017. Impact of group counseling intervention programme on farmers. International Journal of Indian Psychology 4(3): 144-149.
• Pisante, Michele, and Amir Kassam. 2017. Sustainable crop production intensification. AIMS Agriculture and Food 2(1): 40-42. doi: 10.3934/agrfood.2017.1.40 (Editorial for special edition on sustainable crop intensification.
Poerwanto, Mofit Eko, and Oktavia Sarhesti Padmini. 2017. Impact of “System of Rice Intensification” on the abundance of rice pests, In: Proceeding of the 1st International Conference on Tropical Agriculture, pp. 153-161. Springer Link.
• Praneeth, S., et al. 2017. Comparison of leaf growth in different crop establishment methods with nitrogen management practices. International Journal of Pure & Applied Bioscience 5940: 1376-1381. doi: 10.18782/2320-7051.5390
Raj, Rishi, Amil Kumar, I. S. Solanki et al. 2017. Influence of crop establishment methods on yield, economics and water productivity of rice cultivars under upland and lowland production ecologies of Eastern Indo-Gangetic Plains. Paddy and Water Environment (Online first May 2, 2017). pp. 1-17. doi:10.1007/s10333-017-0598-7
• Rajput, A., S. S. Rajput, and G. Jha. 2017. Physiological parameters leaf area index, crop growth rate, relative growth rate and net assimilation rate of different varieties of rice grown under different planting geometries and depths in SRI. International Journal of Pure & Applied Bioscience 5(1): 362-367. doi:10.18782/2320-7051.2472
Rakotovao, Narindra H., Tantely M. Razafimbelo, et al. 2017. Carbon footprint of smallholder farms in Central Madagascar: The integration of agroecological practices. Journal of Cleaner Production 140(3): 1165–1175. doi:10.1016/j.jclepro.2016.10.045
• Rk, Rajesh Krisnan. 2017. Corroborating the ecological and economic sustainability of SRI in changing climate. Journal of agrometeorology 29(special issue): 303-307.
*• Rana, Lalita, et al. 2017. System of wheat intensification (SWI) – A new approach for increasing wheat yield in small holder farming system. Journal of Applied and Natural Sciences 9(3): 1453-1464.
• Rao, S. Govinda, R. Saritha, and C. Nageswara Rao. 2017. Evaluation of water saving System of Rice Intensification under tankfed system. International Journal of Agriculture and Environmental Research 3(3): 3016-3020.
Sahu, Lekh Ram, et al. 2017. Effect of water regimes and nutrient levels on morpho-physiological traits of rice-rice cropping system under transplanting and modified Modified System of Rice Intensification (MoSRI). Bulletin of Environment, Pharmacology and Life Sciences 6(5): 621-628. [not online, though it can be accessed at the end of Sahu's dissertation.]
Salgotra, R. K., et al. 2018. Morphological and grain quality analysis of basmati rice (Oryza sativa L.) under different systems in north-west plains of Himalaya. Electronic Journal of Plant Breeding 9(3): 1146-1156. doi: 10.5958/0975-928X.2018.00143.6
• Sanou, G., D. Dakouo, and I. Ouedraogo. 2017. Influence du systeme de riziculture intensif (SRI) sur les attaques des principaux insectes depredateurs dans les perimetres rizicoles irrigues de Karfiguela et de la vallee du Kou au Burkina Faso. Agronomie Africaine 29(2): 125-136.
• Sarkar, M.A.R., S.K. Paul, and U. Pau. 2017. Effect of water and weed management in Boro rice (cv. BRRI dhan28) in Bangladesh. Archives of Agriculture and Environmental Science 2(4): 325-329. doi: 10.26832/24566632.2017.020414
• Saritha, R., and M. Srinivas. 2017. On-farm evaluation of low input rice production system under tank-fed system. International Journal of Farm Sciences 7(2): 94-96
• Sen, Debashish, et al. 2017. The Introduction of SRI in Uttarakhand. Anthropologie & développement 46-47: 100-126. doi:10.4000/anthropodev.595
Serpantié, Georges. 2017. Le système de riziculture intensive ou « SRI » à Madagascar. Entre légende urbaine et innovation rurale. Anthropologie & développement 46-47: 67-99. doi: 10.4000/anthropodev.588
Shahane, A. A., et al. 2017. Contribution of microbial inoculation and zinc-fertilization to growth and yield of rice (Oryza sativa) under different cultivation methods in a sub-tropical and semi-arid type climate. Indian Journal of Agronomy 62(3): 301-306
• Sharma, Arpita, D. Kachroo, et al. 2017. Impact of different transplanting dates and nutrient sources on soil microbial population and grain yield of Basmati rice (Oryza sativa L.) grown under SRI. International Journal of Current Microbiology and Applied Sciences 6(3): 778-782.
• Siregar, Ameilia Zuliyanti, Tulus and Kemala Sari Lubis. 2017. Diversity of pest insects in paddy field cultivation: A case study in Lae Parira, Dairi. International Journal of Trend in Research and Development 4(5): 58-62.
Sowmyalatha, B. S. 2017. Influence of seedling age on growth and yield of rice (Oryza sativa L.) under mechanized system of rice intensification (MSRI). Journal of Progressive Agriculture 8(20): 40-45.
• Srinivas, D., et al. 2017. Evaluation of rice (Oryza sativa L.) hybrids for system of rice intensification (SRI) with limited water input. Agriculture Update 12(TECHSEAR-9): 1-8.
• Stoop, W. A., et al. 2017. Opportunities for ecological intensification: lessons and insights from the System of Rice/crop Intensification - their implications for agricultural research and development approaches. CAB Reviews 12(036): 1-19.
• Sudhakara, T.M., et al. 2017. Productivity of rice as influenced by irrigation regimes and nitrogen management practices under SRI. Annals of Plant and Soil Research 19(3): 253-259
• Suhastyo, Arum Asriyanti, and Bondan Hary Setiawan. 2017. Aplikasi pupuk cair mol pada tanaman padi metode SRI (system of Rice Intensification). Agritech : Jurnal Fakultas Pertanian 19(1): 26-34.
• Sylla, M., et al. 2017. Evaluation des pratiques de gestion des adventices en riziculture irriguee dans la localite de Daloa, centre-ouest de la Cote d’Ivoire. Agronomie Africaine 29(1); 49-64.
• Thakur, Amod K., and Norman T. Uphoff. 2017. How the System of Rice Intensification can contribute to Climate-Smart Agriculture. Agronomy Journal 109(4): 1-20. doi:10.2134/agronj2016.03.0162
• Thapa, Shobit, et al. 2017. Influence of fertilizers and rice cultivation methods on the abundance and diversity of phyllosphere microbiome. Journal of Basic Microbiology 1-15 (e-pub ahead of print).
• Tiwari, B. K., et al. 2017. Assessment of planting geometry in rice under system of rice intensification (SRI). Plant Archives 17(2): 1693-1696.
Truong, Tuyet Thi Anh Truong, John Fry, Phu Van Hoang, and Hoang Huy Ha. 2017. Comparative energy and economic analyses of conventional and System of Rice Intensification (SRI) methods of rice production in Thai Nguyen Province, Vietnam. Paddy and Water Environment (online first July 17, 2017) pp. 1-11. doi: 10.1007/s10333-017-0603-1
Tumusiime, Emmanuel. 2017. Suitable for whom? The case of system of rice intensification in Tanzania. The Journal of Agricultural Education and Extension 1-16. doi:10.1080/1389224X.2017.1310660.
Uphoff, Norman. 2017. SRI: An agroecological strategy to meet multiple objectives with reduced reliance on inputs. Agroecology and Sustainable Food Systems 41(7): 825-854. doi: 10.1080/21683565.2017.1334738
Varma, Poornima. 2017. Adoption of System of Rice Intensification under information constraints: An analysis for India. The Journal of Development Studies (online first, June 15, 2017) pp. doi: 10.1080/00220388.2017.1336541
Vibhute, Sagar, et al. 2017. Comparative evaluation of water budgeting parameters under different rice (Oryza sativa L.) cultivation methods. Journal of Applied and Natural Science 9(3): 1373-1380.
• Vijayakumar, M., et al. 2017. Refinement of fertilizer recommendation based on Soil Test Crop Response technology for rice under System of Rice Intensification. Journal of Applied and Natural Sciences 9(2): 855-859
• Wang, Sonam Wangyel, Woo-Kyun Lee, and Yowhan Son. 2017. Low Carbon Development Pathways in Indian Agriculture. Change and Adaptation in Socio-Ecological Systems 3(1): doi:18-26.10.1515/cass-2017-0002.
• Waris, Amtul. 2017. Gender dimensions and training needs of farm women in system of rice intensification in selected districts of Bihar state. Agriculture Update 12(1): 109-112. doi: 10.15740/HAS/AU/12.1/109-112
• Wayayok, Aimrun, and Umar Mohammed, et al. 2017. Comparative study on the performance of rice seedlings raised by single seedling nursery tray method and conventional system. American Journal of Plant Biology 2(1): 1-4. doi:10.11648/j.ajpb.20170201.11
• Yadav, Rahul, and Thomas Abraham. 2017. Agronomic performance of rice (Oryza sativa L.) as affected by planting system, date of transplanting, source and dose of nitrogen. International Journal of Current Microbiology and Applied Sciences 6(8): 387-394.

2016 ARTICLES

• Abdulkadir, Tukur Daiyabu, Wan Ishak Wan Ismail, et al. 2016. Suitability of capsule as a paddy coating material for the System of Rice Intensification (SRI). Jurnal Teknologi 78(1–2):105-110. doi:10.11113/jt.v78.7277
Alam, Md., Wahidul K. Biswas, and Richard W. Bell. 2016. Greenhouse gas implications of novel and conventional rice production technologies in the Eastern-Gangetic plains. Journal of Cleaner Production 112(5): 3977–3987 doi:10.1016/j.jclepro.2015.09.071.
• Ardiansyah, Ardiansyah, Chusnul Arif, and Krissandi Wijaya. 2016. Nitrogen uptake of SRI paddy field compared to conventional field. Jurnal Teknologi 78(1–2):45-49. doi:10.11113/jt.v78.7259
Balamatti, Arun, and Norman Uphoff. 2017. Experience with the System of Rice Intensification for sustainable rainfed paddy farming systems in India. Agroecology and Sustainable Food Systems (online first March 20, 2017) doi:10.1080/21683565.2017.1308898
• Bassey, Jimmy Ijogu. 2016. Comparative analysis of System of Rice Intensification and traditional system of rice intensification in Abi L.G.A., Cross River State, Nigeria. European Journal of Agriculture and Forestry Research 4(2): 9-23.
Batara, Lily Noviani, Iswandi Anas, Dwi Andreas Santosa, and Yulin Lestari. 2016. Application of indigenous microorganism enriched with beneficial microbes on organic System of Rice Intensification. Jurnal Tanah dan Iklim 40(1): 71–78.
• Bhadoria, Pratapbhanu Singh. 2016. Technological interventions for food security. International Journal of Advances in Agricultural & Environmental Engineering 3(1): 121–25.
• Bouet, A. et al. 2016. Performance agronomique du systeme de riziculture intensive (SRI) en Cote d’Ivoire. Asian Journal of Science and Technology 7(8): 3447-3451.
• Chakraborty, K., M. N. Moitra, A K. Sanyal, et al. 2016. Important natural enemies of paddy insect pests in the upper Gangetic plains of West Bengal, India. International Journal of Plant, Animal and Environmental Sciences 6(1): 35–40.
Chen, Yeping 陈叶平, et al. 2016. The influence of SRI seedling method and plant density on rice yields and characteristics-水稻机插强化栽培不同育秧方式与密度对产量及其性状的影响. Agricultural Development & Equipment - 农业开发与装备 5: 73-74.
Ches, Sophy, and Yamaji Eiji. 2016. Labor requirements of system of rice intensification (SRI) in Cambodia. Paddy and Water Environment 14(2): 335-342. doi:10.1007/s10333-015-0503-1
• Darmawan, M. 2016. Analysis of Legowo row planting system and System of Rice Intensification (SRI) of paddy field (Oryza Sativa L.) toward growth and production. Agrotech Journal 1(1): 14-18.
• Dastan, Salman, et al. 2016. CO2 emission and global warming potential (GWP) of energy consumption in paddy field production systems. Būm/shināsī-i kishāvarzī 6(4): 823-835.
Deng, Hongrui. 邓洪睿 2016. Study on Yield and Economic Characters of Rice under Different Cultivation －水稻不同栽培方式下产量与经济性状研究. Agricultural Technology Service农技服务 4: 94.
Dai, Jinfen.代金芬 and Cai Lanying. 蔡兰英. 2016. The comparison between three-dimensional measurement technology and the wide-and narrow-row rice cultivation technology -杂交稻三围立体栽培与宽窄行栽培对比试验示范. Primary Agricultural Technology Extension-基层农技推广 5 (2016): 014.
• Doni, Febri, Anizan Isahak, et al. 2016. Transforming the economy of small scale rice farmers in Malaysia via system of rice intensification (SRI). Ecology, Environment and Conservation 22(3):1151-1157.
Doni, F., Zain, C.R.C.M. Zain, A. Isahak, et al. 2016. Relationships observed between Trichoderma inoculation and characteristics of rice grown under System of Rice Intensification (SRI) vs. conventional methods of cultivation. Symbiosis pp1-15. [Online first July 8, 2016] doi:10.1007/s13199-016-0438-3
• Dwibedi, Sanat Kumar, Gopal Chandra De, and Sudhi Ranjan Dhua. 2017. Dynamics of soil chemical properties influenced by sowing time, systems of cultivation and genotypes of kharif rice in coastal Odisha. Environment & Ecology 34(1) : 1201-1206.
• Dwibedi, S. K., G. C. De and S. R Dhua. 2016. Weed dynamics and grain yield as influenced by sowing time and system of cultivation of rice genotypes. Journal of Crop and Weed 12(1): 107-111.
• Dwibedi, Sanat Kumar, Gopal Chandra De, and Sudhi Ranjan Dhua. 2016. Dynamics of soil chemical properties influenced by sowing time, systems of cultivation and genotypes of kharif rice in coastal Odisha. Environment & Ecology 34(3A ):1201-1206.
• Dwibedi, Sanat Kumar, Gopal Chandra De, et al. 2016. Energetics of rice-ratoon-green gram production system in coastal Odisha. International Journal of Agriculture Sciences 8(9):1096-1099.
• Dzomeku, I. K., E. N. K. Sowley, and I. S. Yussif. 2016. Evaluation of System of Rice Intensification (SRI) for enhanced rice (Oryza sativa L.) production in the Guinea Savannah Zone of Ghana. Current Agriculture Research Journal 4(1): 84-93. doi:10.12944/CARJ.4.1.09
• Fuadi, Najla Anwar, Muhammad Yanuar J. Purwanto, and Suria Darma Tarigan. 2016. Kajian kebutuhan air dan produktivitas air padi sawah dengan sistem pemberian air secara SRI dan konvensional menggunakan irigasi pipa. Jurnal Irigasi 11:(1): 23-32.
Ganai, Manzoor A., M. Anwar Bhat, et al. 2016. Effect of water regimes and weed management practices on nutrient uptake by rice and weeds under the system of rice intensification. Applied Biological Research 18(3): 277-283. doi:10.5958/0974-4517.2016.00043.4
Gandroli, Vandana A., and Jagdeesh G. Angadi. 2016. Advances in Life Sciences 5(8): 3121-3123. Effectiveness of videoshow and its combinations in promotion of SRI (System of Rice Intensification) method of paddy cultivation.

Advances in Life Sciences
• Garbaa, A., and R. Kumeri. 2016. Transplanting rice (Oryza sativa L) using different seedling rates under rainfed condition in Bauchi, Nigeria. International Journal of Engineering & Scientific Research 4(3)

Gathorne-Hardy, Alfred, D. Narasimha Reddy, M. Venkatanarayana, and Barbara Harriss-White. 2016. System of Rice Intensification provides environmental and economic gains but at the expense of social sustainability - A multidisciplinary analysis in India. Agricultural Systems 143: 159-168. doi:10.1016/j.agsy.2015.12.012

• Gbenou, Pascal, Anne-Marie Mitchell, et al. 2016. Farmer evaluations of the System of Rice Intensification (SRI) compared with conventional rice production in Benin. European Scientific Journal 12(30): 280-296.

• Hembram, S. K., Satyajit Sarkar, and Rambilash Mallick. 2016. Effective weed management practices in system of rice infestation. Environment and Ecology. 34(3C): 1490-1494.

• Hidayati, Nurul, Triadiati, and Iswandi Anas. 2016. Photosynthesis and transpiration rates of rice cultivated under the System of Rice Intensification and the effects on growth and yield. HAYATI Journal of Biosciences 23(2): 67–72. doi: 10.1016/j.hjb.2016.06.002

Huang, Yingquan 黄应权. 2016. Application and practice of rice intensive cultivation technology -水稻强化栽培技术的应用与实践. Agricultural Engineering - 农业工程 04: 94-95.

• Islam, M. Mokidul, and D. C. Kalita. 2016. Weed dynamics and productivity of wetland rice as influenced by establishment methods and irrigated weed management. Bangladesh Journal of Botany 45(1): 9–16.

Kassam, Amir, and Hugh Brammer. 2016. Environmental implications of three modern agricultural practices: Conservation Agriculture, the System of Rice Intensification and Precision Agriculture. International Journal of Environmental Studies (in press, online July 19, 2016) doi: 10.1080/00207233.2016.1185329

• Katambara, Zacharia Saimon, Marco Mng’ong’o, Consolatha Chambi, el al. 2016. Characteristics of rice produced under direct and indirect SRI practices in Chimala Area in Mbarali district Tanzania. Journal of Agriculture and Sustainability 9(1): 15–30.

• Khadka, R. B., and K. Dahal. 2016. Performance of rice varieties under conventional and SRI practices in far western Tarai of Nepal. Journal of Agriculture and Environment 17: 148-156.

Kumar, Manoj, et al. 2016. Productivity enhancement of rice through crop establishment techniques for livelihood improvement in Eastern Himalayas. ORYZA- An Internaltional Journal of Rice 53(3): 300-308. doi:10.18782/2582-2845.8131

Kumar, R. Mahender, T. Vidhan Singh et al. 2016. Mechanized weed management to enhance productivity in System of Rice Intensification (SRI). Indian Journal of Weed Science 3(48): 259-261. doi: 10.5958/0974-8164.2016.00063.0

Kumar, Suresh, S. K. Tiwari, et al. 2016. Effect of nutrient management on soil fertility and productivity under SRI method of cultivation. Journal of the Indian Society of Soil Science 64(2): 157-162. doi:10.5958/0974-0228.2016.00020.7

• Kumari, Tulike, and O. P. Singh. 2016. Factors favour the adoption of SRI system of paddy cultivation and problems in its adoption in Gumla district of Jharkhand. IOSR Journal Of Humanities And Social Science 21(11): 53-55.

Kunnathadi, Musthafa, P. R. Jayan, and C. T. Abraham. 2016. Development and testing of self-propelled cono-weeder for mechanized rice cultivation. Indian Journal of Weed Science 48(1): 25–28. doi:10.5958/0974-8164.2016.00005.8 .

• Lamtinhoi, Hoinu Kipgen. 2016. Coping with climate change - The story of the Maltos of Jharkhand. Economic & Political Weekly 51(52): Dec. 2016.

Li, Shuhua 李淑华. 2016. Analysis the effects of different patterns of rice cultivation in Jialing District in Sichuan Province-嘉陵区水稻不同模式栽培效果分析. Agricultural Science and Technology-农业科技通讯 02: 65-67.

Liu, Yusheng.刘玉生 2016. The research on three-dimensional measurement technologies on the rice intensification application - 水稻种植的 “三围立体” 强化栽培技术应用研究. Shanxi Agricultural Economy-山西农经 6 : 68-69.

• Ludong, Daniel, and Dan Nio Ai Song. 2016. Irigasi hemat air pada padi lokal dengan variasi ketebalan tanah olah menggunakan pola tanam SRI (System of Rice Intensification). [Efficient irrigation in the local rice with thickness variation of cultivated soil using the System of Rice Intensification method]. Eugenia 22(2): 93-98.

Lv, Hongjie 吕红杰. 2016. The key steps of system of rice intensification - 水稻超高产强化栽培措施. The Friends of Farmers - 农民致富之友 11: 56.

Ly, Proyuth, Lars Stoumann Jensen, et al. 2016. Factors explaining variability in rice yields in a rain-fed lowland rice ecosystem in Southern Cambodia. NJAS - Wageningen Journal of Life Sciences (in press). doi:10.1016/j.njas.2016.05.003

Ma, Junhua 马俊华. 2016. The use of three-dimensional technology in system of rice intensification method-水稻种植“三围立体“强化栽培技术应用分析. China Agricultural Information-中国农业信息 3: 036.

• Maulana, Mohamad. 2016. Externalities inclusion into production cost of System of Rice Intensification. Jurnal Agro Ekonomi 34(1): 17-33.

• Manivannan, V., Jahanmohan, K.R., Pandian, B.J. and Harisudhan, C. 2016. Study on the impact of the system of rice intensification in less water endowed areas of Tamil Nadu, India. International Journal of Agricultural Sciences 12(2): 234-237. doi:10.15740/HAS/IJAS/12.2/234-237.

• Mevada, K. D., M. V. Patel and ,N. P. Chauhan. 2016. Performance of System of Rice Intensification (SRI) technique in rice (Oryza Sativa L.) on farmer's field. Gujarat Journal of Extension Education 27(1): 27-29

• Mgaya, A. M., P. Thobunluepop, T. Sreewongchai, et al. Integral effect of seed treatments and production systems for sustainability of rice production under acid soil. Journal of Agronomy 15 (3): 122-129. doi: 10.3923/ja.2016.122.129

• Mishra, Abha, Prabhat Kumar, and Jan Willem Ketelaar. 2016. Improving rice-based rainfed production systems in Southeast Asia for contributing towards food security and rural development through sustainable crop production intensification. AIMS Agriculture and Food 1(2): 102-123. doi: 10.3934/agrfood.2016.2.102

• Mohammed, U., W. Aimrun, M. S. M. Amin, A. Khalina, and U. B. Zubairu. 2016. Influence of soil cover on moisture content and weed suppression under system of rice intensification (SRI). Paddy and Water Environment 14:(1): 159-167.

Mohapatra, Sanjukta, A. K. Mohanty, et al. 2016. Integrated weed management under modified water regimes in System of Rice Intensification. Indian Journal of Weed Science 48(1): 17-20. doi:10.5958/0974-8164.2016.00003.4

• Nayak, Chinmayee, Ratikanta Mahunta and Soubhagya Dash. 2016. Economic benefits of System of Rice Intensification (SRI) in Kendrapara District of Odisha. International Journal of Applied and Pure Science and Agriculture 2(6): 220-225.

• Nugroho, Virgus Amin, Cahyo Prayogo. 2016. Dapatkah status unsur hara dan produktivitas tanaman padi metode SRI (System of Rice Intensification) ditingkatkan? Jurnal Tanah dan Sumber Daya Lahan 3(2): 365-374.

• Othman, Siti Norezam, Zakirah Othman, and N. A. Yaacob. 2016. The value chain of system of Rice Intensification (SRI) organic rice of rural farms in Kedah. International Journal of Supply Chain Management 2016 (pp.1-8)

Ou, Gengyou 欧根友. 2016. The analysis of system of rice intensification method-水稻强化栽培技术分析. Practical Information of Rural Science and Technology-农村实用科技信息 4:19.

Pandey, Aviral. 2016. System of Rice Intensification (SRI) methods in Bihar: A district level study. NIRD &PR: Journal of Rural Development 35(2).

Paramasivam, R., S. Varadha Raj, T. R. Shanmugam, et al. 2016. Decadal changes in rice cultivation in Tamil Nadu: Resurvey approach. International Research Journal of Agricultural Economics and Statistics 7(1).

Parasar, Ishani, J. P. Hazarika, and Nivedita Deka. 2016. Resource use efficiency in rice production under SRI and conventional method in Assam, India. Agricultural Science Digest 36(2): 152-154. doi:10.18805/asd.v36i2.10638

• Pascual, Victoriano Joesph, and Yu-Min Wang. 2016. Evaluation for high water productivity and yield assessment of lowland paddy rice under controlled drainage and irrigation using the System of Rice Intensification (SRI). International Journal of Scientific & Technology Research 5(11): 263-268.

Poonam, Annie, Sanjoy Saha, and Sushmita Munda. 2016. Weed management in rice under SRI method of crop establishment. Research on Crops 17(2): 205–209. doi:10.5958/2348-7542.2016.00036.X.

Pono, Maat, et al. 2016. Explaining determinant of post adoption behaviour of small scale farmers: Evident of System of Rice Intensification (SRI) practices in Indonesia. 34(5): 637-634. doi: 10.5829/idosi.wasj.2016.34.5.15641

• Prasad, Shambu C. 2016. Innovating at the margins: the System of Rice Intensification in India and transformative social innovation, Ecology and Society 21(4):7. doi:10.5751/ES-08718-210407

• Prasad C., Shambu. 2016. Indigenous knowledge as emergent Science: Insights from SRI in India. Jindal Journal of Public Policy 3(1): 51-71.

• Priyanka, G., K. V. R. Murthy, and A. V. Ramana. 2016. Weed dynamics and yield of rice under mechanized system of rice intensification. Journal of Crop and Weed 12(2): 141-144.

• Rajendran, T. 2016. Impact of System of Rice Intensification [SRI] technology in Tamil Nadu. International Journal of Advance Multidisciplinary Research 3(12): 1-5. doi:10.22192/ijamr.2016.03.12.001

Rajput, Archana, Girish Jha, and Sujit Singh Rajput. 2016. Root traits responses of improved varieties of rice grown under different planting geometries and depths of planting in SRI. Green Farming 7(6): 1423-1426

• Rani, S., and P. Sukumaril. 2016. Productivity and economics of medicinal rice Njavara (Oryza sativa L.) as influenced by different establishment techniques in lowland condition of Kerala, India. African Journal of Agricultural Research 11(22): 1984-1989. doi:10.5897/AJAR2013.7566

*Rao, K. V. R., et al. 2016. Maximising water productivity of wheat crop by adopting drip irrigation. Research on Crops 17(1): 163-168. doi: 10.5958/2348-7542.2016.00029.2

Ray, Plabita, and T. Barik. 2016. Effect of fertility levels, genotypes, planting pattern and spacing from plant to plant in the same hill on yield and economics of rice under SRI during dry season. Environment and Ecology 34(1): 65–69.

• Reuben, P., Z. Katambara, et al. 2016. Influence of transplanting age on paddy yield under the System of Rice Intensification. Agricultural Sciences 7(3): 154-163. doi: 10.4236/as.2016.73015.

• Samaila, Suleiman, Wan Ishak Bin Wan Ismail, and Muhamad Saufi Mohd Kassim. The System of Rice Intensification (SRI) practices and mechanization needs. Asian Journal of Agricultural Sciences 8(3): 1017. doi:10.19026/ajas.8.2988

• Senthilvalavan, P., and M. Ravichandran. 2016. Residual effect of nutrient management practices on the yield, NPK uptake and profitability of rice fallow blackgram. Asian Journal of Science and Technology 7(1): 2305–10.

• Seo, Jiyeon, Baekhyung Park, et al. 2016. Evaluation of SRI water management on the reduction of irrigation supply and NPS pollution in paddies. Journal of Korean Society on Water Environment 32(2): 183-190. doi:10.15681/KSWE.2016.32.2.183

• Shakya, H. B., M. R. Parmar, M. T. Kumpavat, and R. Swarnkar. 2016. Development and performance evaluation of manually operated cono-weeder for paddy crop. International Refereed Journal of Engineering and Science. 5(7): 6-17.

Shewale, R. R. 2016. Effect of different weed control methods on summer Gujari rice. International Journal of Agricultural Sciences 12(1).

Shewale, R. R. 2016. Response of summer Gujari rice to various establishment techniques and weed control methods on different yield attributes. International Journal of Agricultural Sciences 12(1).

Shirsat, N. A., S. S. Chavan, et al. 2016. Cono weeder: An economic hand tool for women labour in paddy field. Agriculture Update 11(2): 154-157. doi:10.15740/HAS/AU/11.2/154-157.

• Shukla, Shivkant, Joanna Bloese, and Tapan Ray. 2016. Effect of yield, quality attributes and cost of rice (Oryza sativa L.) variety under System of rice intensification (SRI) organic and conventional methods of rice cultivation. International Journal of Scientific and Research Publications 6(6): 313-316.

Singh, D. K., Z. Akhtar, S. Gupta, et al. 2016. Production strategies of organic basmati rice in Tarai region of Uttarakhand, India. Organic Agriculture. January (2016) 1-10. doi:10.1007/s13165-015-0143-1.

Singh, N. Anando, Kalipada Pramanik, et al. 2016. Response of hybrid rice to transplanting date and nitrogen fertilization under System of Rice Intensification in rainfed lowland ecosystem. International Journal of Bio-Resource & Stress Management. 7(4): 855-861.

Singh, Ram, and S. M. Feroze. 2016. Impact of SRI method on livelihood and food security of rice grower in Tripura: An empirical analysis. Agricultural Economics Research Review 29(conf): 225.

• Sukarya, Yaya, et al. 2016. Analisis komparatif usahatani padi SRI (System of Rice Intensification) dengan PTT (Pengalolaan Tanaman Terpadu) “Studi kasus di Kecamatan Kebon Pedes Kabupaten Sukabumi Jawa Barat”. E-Jurnal: Penyuluhan Pertanian 11(2): 91-104.

• Sutarto, Widiyastuti Emi Widiyanti. 2016. Persepsi petani terhadap pengembangan System of Rice Intensification (SRI) di kecamatan Moga kapbuten Pemalang. AGRISTA 4(3): 476-485.

Thakur, Amod K., Amir Kassam, Willem A. Stoop and Norman Uphoff. 2016. Modifying rice crop management to ease water constraints with increased productivity, environmental benefits, and climate-resilience. Agriculture, Ecosystems & Environment 235: (November 2016) 101–104. doi:10.1016/j.agee.2016.10.011

Thakur, Amod K , Norman T. Uphoff, Willem A. Stoop. 2016. Scientific underpinnings of the System of Rice Intensification (SRI): What is known so far? Advances in Agronomy 135: 147-179. doi:10.1016/bs.agron.2015.09.004

• Uphoff, Norman, and Frank B. Dazzo. 2016. Making rice production more environmentally-friendly. Environments 3(2), 12. doi: 10.3390/environments3020012.

• Usman, Made, Kadekoh Indrianto, and Mahfudz and Sakka Samudin. 2016. The effect of System of Rice Intensification cultivation (SRI) implementation on growth and yield of wetland rice, and changes in soil nitrogen, phosphor and potassium. Journal of Scientific and Engineering Research 3(5): 234-239.

• Venkatachalam, S., K. Ranjan, R. Prasanna, et al. 2016. Diversity and functional traits of culturable microbiome members, including cyanobacteria in the rice phyllosphere. Plant Biology: 1-11. doi:10.1111/plb.12441.2

Vishwakarma, Akhilesh, J.K. Singh, Rajesh Singh, and A.J. Lat. 2016. Productivity and profitability of rice (Oryza sativa) hybrids as influenced by date of transplanting and age of seedling under system of rice intensification. Indian Journal of Agronomy 61(3): 315-320

Wang, Yabo 王亚波. 2016. Planting performance and Cultural techniques of "Chuanyou 6203" in Shallow Hills Region of An County, in Sichuan Province.-川优 6203’水稻在安县浅丘地区的种植表现及栽培技术. South China Agriculture-南方农业2016 年 12 (2016): 73.

• Wani, Javaid Ahmad, and Amit Sharma. 2016. Response of jhelum rice variety to different crop management practices towards morphological and yield parameters in temperate Kashmir Valley. International Journal of Advance Research, Ideas and Innovations in Technology 2(6): 1-7.

• Wichelns, Dennis. 2016. Managing water and soils to achieve adaptation and reduce methane emissions and arsenic contamination in Asian rice production. Water 8(4): 141. doi:10.3390/w8040141.

Xie, Baochen 谢保臣. 2016. The three-dimensional measurement technology application on rice plantation-三围立体”强化栽培技术在水稻种植中的应用. South China Agriculture 南方农业 (18)：40-41

Xu, Xiaopeng.徐晓鹏 2016. Anti-embedding: Community Dilemma in Extending Agricultural Ecological Environmental Protection Technology from Ecological Civilization Perspective——Taking Extension of SRI in Sichuan as an Example-反嵌入: 生态文明视阈下农业生态环保技术推广的社区困境——以 SRI 在四川省 X 村的推广为例. Journal of Agro-Forestry Economics and Management农林经济管理学报 (1)3: 327-334.

• Yasodha, P., and P. Senthil. 2016. Impact of System of Rice Intensification (SRI) in increasing agricultural yield in India an analytical study. International Journal of Scientific Research 5(9): 595-596.

Yu, Xiaoyu 于晓羽. 2016. The discussion about system of rice intensification methodology - 水稻强化栽培技术的探析. The Friends of Farmers - 农民致富之友 09: 155.

Yuan, Zihua. 袁子华 2016. The development of system of rice intensification-水稻强化栽培体系的新发展. Jiangxi Agriculture- 江西农业 11:19

• Zaidi, Mohamad Faizal Ahmad, Siti Norezam Othman, and Noor Hidayah Abu. 2016. Technology readiness for the System of Rice Intensification (SRI). International Journal of Academic Research in Business and Social Sciences 6(1): 143–53.

Zhang, Weidong 张卫东 et al 2016. The study of system of rice intensification application on new rice varieties in Xinjiang Province, China－新疆水稻超高产强化栽培生态区域特性及模式研究. China Agricultural Information－中国农业信息 10: 59-60.

Zhao, Xiaohong 赵小洪. 2016. The promotion and application of SRI in Longxiang Village, Sichuan Province, China －水稻旱育秧强化栽培技术在浅丘平坝的推广与应用. Jiangxi Agriculture -江西农业 15：8.

2015 ARTICLES (• = free access)

• Abu Bakar, Rosenani, Zahidah Abdul Razak, et al. 2015. Influence of oil palm empty fruit bunch biochar on floodwater pH and yield components of rice cultivated on acid sulphate soil under rice intensification practices. Plant Production Science 18(4): 491-500. doi:10.1626/pps.18.491

• Ahmed, A. R., B. K. Dutta and D. C. Ray. 2015. Response of some rice varieties to different crop management practices towards morphological and yield parameters. International Journal of Scientific and Research Publications 5(2): 6p.

• Alam, Md. Jahangir, Najrul Islam, and Md. Abdur Rahman Sarker. 2015. Effect of age of seedling and depth of transplanting on the performance of transplant aman rice under System of Rice Intensification. Bangladesh Research Publications Journal 11(4): 288-293.

• Arif, Chusnul, Budi Indra Setiawan, Slamet Widodo, et al. 2015. Pengembangan model jaringan saraf tiruan untuk menduga emisi gas rumah kaca dari lahan sawah dengan berbagai rejim air [Development of artificial neural network to predict greenhouse gas emissions from rice fields with different water regimes]. Jurnal Irigasi 10(1): 1-10.

• Bhatt, K.N. 2015. System of Rice Intensification for increased productivity and ecological security: A Report. Journal of Rice Research 3:147. doi:10.4172/2375-4338.1000147

• Bokaria, Kanta. 2015. Importance of System of Rice Intensification method for mitigation of arsenic in rice. International Journal of Advanced Research 3(5): 1398-1409.

• Chakrabortty, Sudip, S. Islam, P. K. Biswas, et al. 2015. Response of seedling age to growth and yield of boro rice (BRRI Dhan 50) under SRI. International Journal of Business, Social, and Scientific Research 3(2): 97-101.

Chang, Yu-Chuan, Norman T. Uphoff, and Eiji Yamaji. 2015. A conceptual framework for eco-friendly paddy farming in Taiwan, based on experimentation with System of Rice Intensification (SRI) methodology. Paddy and Water Environment (SpringerLink March 2015): 1-15. doi:10.1007/s10333-015-0488-9

• Chaudhari, P. R., A. P. Patel, V. P. Patel, et al. 2015. Effect of age of seedlings and fertilizer management on yield, nutrient content and uptake of rice (Oryza sativa L.). The Bioscan 10(1): 351–53.

Ches, S., and Y. Eiji. 2015. The System of Rice Intensification (SRI): assessment on SRI farmers’ contribution to the rice markets. International Journal of Environmental and Rural Development 6(1): 69–74.2

• Dagar, Vishal, Usha Tuteja, Nandini Pandey, et al. 2015. Perceptions of farmers about adoption of System of Rice Intensification (SRI). Journal of Stock & Forex Trading 5(2): 1–6. doi: 10.4172/2168-9458.1000166

Dass, Anchal, Subhash Chandra, Anil K. Choudhary, et al. 2015. Influence of field re-ponding pattern and plant spacing on rice root-shoot characteristics, yield, and water productivity of two modern cultivars under SRI management in Indian Mollisols. Paddy and Water Environment 1-15. doi:10.1007/s10333-015-0477-z

Dass, Anchal, Ramanjit Kaur, et al. 2015. System of rice (Oryza sativa) intensification for higher productivity and resource use efficiency – A review. Indian Journal of Agronomy 60(1): 1-19.

Doni, Febri, Norela Sulaiman, Anizan Isahak, et al. 2015. Impact of System of Rice Intensification (SRI) on Paddy Field Ecosystem: Case Study in Ledang, Johore, Malaysia. Journal of Pure and Applied Microbiology 9(2), p. 927-933.

• Durga, K. Kanaka, P. Sambasiva Rao, P, and K. Raju. 2015. Effect of seedling age and spacing schedule on the productivity and quality traits of rice under system of rice intensification (SRI). Journal of Cereals and Oilseeds 6(3): 15–19.

• Efendi, et al. 2015. Morpho-agronomic performances of rice (Oryza sativa L.) landraces under organic cultivation of SRI method. International Journal of Agricultural Research 10(2): 74-82. doi:10.3923/ijar.2015.74.82

Gabhane, Meenakshi, et al. 2015. Utilization of information sources by SRI growers. Indian Journal of Extension Education 51(3&4): 86-89.

• Ghosh, Biswajit, and Namita Chakma. 2015. Impacts of rice intensification system on two C. D. blocks of Barddhaman district, West Bengal. Current Science 109(2): 342-346.

• Hameed, K. A. 2015. Different plant density by transplanting square pattern with wide spacing and its influence on yield and components of yield. Qadisiya Journal for Agricultural Sciences 5 (1): 36-43.

• Hameed, K. A., and Jaber, F. A. 2015. Effect of seedlings age and its effect on growth and grain yield and components of yield of two rice cultivars. Journal of Karbala University 13(1): 119-131.

• Haque, Muhammed Maksudul, Ratna Rani Majumder, Tapas Kumer Hore, and Md. Romel Biswash. 2015. Yield contributing characters effect of submerged water levels of boro Rice (Oryza sativa L.). Scientia Agriculturae 9(1): 23-29. doi:110.15192/PSCP.SA.2015.9.1.2329

• Hassan, D. and R. R. Upasani. 2015. Effect of crop establishment and weed control methods on productivity of rice (Oryza sativa ). Journal of Crop and Weed 11 (special issue): 228-230.

• Jana, Kalyan, G. K. Mallick, S. Ghosh, and G. Sarda. 2015. Study on yield potentiality and spatial requirement of rice varieties (Oryza sativa L.) in system of rice intensification (SRI) under red and laterite zone of West Bengal, India. Journal of Applied and Natural Sciences 7 (1) : 353-357.

Johnson, B., et al. 2015. Economic impacts of system of rice intensification (SRI) in India. Green Farming 6 (1) 168-171.

• Karhale, S. S., S. P. Lambe, and P. S. Neharkar. 2015. Mechanical weed control by conoweeder in SRI method of paddy production. International Journal of Advance Research in Science and Engineering 4(2): 744-752.

Kumar, Rakesh, Manoj Kumar, and Bidyut C. Deka. 2015. Production potential, profitability and energetics of transplanted rice as influenced by establishment methods and nutrient management practices in eastern Himalaya. Research on Crops 16(4):625-633. doi:10.5958/2348-7542.2015.00088.1

Kumari, C. Radha, P. Lakshmi Reddy, and M. John Sudheer. 2015. Evaluation of system of rice intensification (SRI) in farmers fields of Anantapuram district of Andhra Pradesh. International Journal of Agricultural Sciences 11(1): 73–76. doi:10.15740/HAS/IJAS/11.1/73-76

• Kunnathadi, Musthafa, C. T. Abraham, C. George Thomas, and T. Girija. 2015. Comparative evaluation of SRI with conventional system in the irrigated rice tracts of Kerala. Journal of Tropical Agriculture 53(1): 8–16.

• Lenka, Subhrasini, and J. M. L. Gulati. 2015. Root traits of rice (Oryza sativa L.) varieties under two hydrological situations as influenced by different methods of establishments. Middle-East Journal of Scientific Research 23(6): 1204–9. doi:10.5829/idosi.mejsr.2015.23.06.22139

• Maftukhah, Rizki, Erni R., Benito H. Purwanto, et al. 2015. Pengelolaan genangan air dangkal untuk meningkatkan hasil padi dengan kerangka kerja System of Rice Intensification (SRI) [Shallow water depth management to enhance rice performances under System of Rice Intensification (SRI)]. Jurnal Irigasi 10(1): 41-48.

Mandal, S., Somnath Roy, et al. 2015. Energy efficiency and economics of rice cultivation systems under subtropical Eastern Himalaya. Energy for Sustainable Development 28: 115-121. doi:10.1016/j.esd.2015.08.002

Mohandas, S., M. Naveen Saviour, and B. J. Pandian. 2015. Performance of SRI under different N sources in sandy loam soils of Agniyar sub-basin, India. Indian Journal of Agricultural Research 49(2): 170-174. doi:10.5958/0976-058X.2015.00025.6

Mohanty, Tushar Ranjan, Swapan Kumar Maity and Pravat Kumar Roul. 2015. Response of rice to establishment methods and nutrient management practices in medium land. ORYZA- An International Journal on Rice 51(2): 136-142.

• Narbaria, Sunil, M. L. Sharma, et al. 2015. System of Rice Intensification technology: An analysis of constraints perceived by the farmers in adoption of SRI technology. Plant Archives 15(1): 159-162.

Nath, S. K., L. Soren, S. K. Sahoo, D. K. Mohanty, and K. C. Barik. 2015. Performance of different rice (Oryza Sativa) transplanting methods in farmer’s field under plateau eco-system of Odisha. Environment and Ecology 33(3a): 1214–1217.

Nirala, Y. S., C. M. Sahu, S. K. Ghirtlahre, et al. 2015. Studies on the seasonal incidence of leaf folder, Cnaphalocrocis medinalis guenee in midland SRI and normal transplanted rice ecosystem. International Journal of Tropical Agriculture 33(2): 547–51.

Palanisami, Kuppanan, Krishna Reddy Kakumanu, C. R. Ranganathan, and Nagothu Udaya Sekhar. 2015. Farm-level cost of adaptation and expected cost of uncertainty associated with climate change impacts in major river basins in India. International Journal of Climate Change Strategies and Management 7(1): 76-96. doi:10.1108/IJCCSM-04-2013-0059

Pandey, Pragya, Trilochan Barik, and Sahaja Deva. 2015. Effect of planting of geometry and timing and source of nitrogen application on growth attributing characters and yield of rice (Oryza Sativa L.) under System of Rice Intensification (SRI). Advance Research Journal of Crop Improvement 6(1):

• Prasad, C. Shambu. 2015. A green economy of permanence: Innovation insights from grassroots knowledge. International Journal on Green Growth and Development 1(1): 53-36.

Prasanna, Radha, Anurup Adak, Shikha Verma, et al. 2015. Cyanobacterial inoculation in rice grown under flooded and SRI modes of cultivation elicits differential effects on plant growth and nutrient dynamics. Ecological Engineering 84(2015): 532–41. doi:10.1016/j.ecoleng.2015.09.033.

• Putri, Eka Wulandari Srihadi, et al. 2015. Evaluasi kinerja Daerah Irigasi Jragung Kabupaten Demak. Jurnal Teknik Pengairan 6(1): 66-75

• Razali, Rabibah, Salmah Yaakop. 2015. Insect species composition in an under SRI management in Tanjung Karang, Selangor, Malaysia. Malaysian Applied Biology 44(4): 73–80.

Rajendran, K. and V. Ganesa Raja. 2015. Effect of system rice intensification on microbial population, nutrient status, growth and yield of rice. International Journal of Agricultural Sciences 11(1): 24-29. doi:10.15740/HAS/IJAS/11.1/24-29

Ram, Hardev, J .P. Singh, J.S. Bohra, A. S. Yadav, and J. M Sutaliya. 2015. Assessment of productivity, profitability and quality of rice (Oryza sativa) under System of Rice Intensification in eastern Uttar Pradesh. The Indian Journal of Agricultural Sciences 85(1): 38-42.

Ravichandran, V. K., and K. C. Prakash. 2015. Socio-economic impact of system of rice intensification (SRI) and traditional rice cultivation in Villupuram district of Tamil Nadu: experiences from TN-IAMWARM Project. International Journal of Agricultural Sciences 11(1): 166-171. doi:0.15740/HAS/IJAS/11.1/166-171.

• Ravichandran, V. K., Vibhu Nayar, and K. C. Prakash. 2015. An evaluation of the SRI on increasing yield, water productivity and profitability; experiences from TN-IAMWARM project. Irrigation & Drainage Systems Engineering 4(2): 1–6. doi:10.4172/2168-9768.1000137

Ray, Plabita, and T. Barik. 2015. Effect of fertility, genotypes and spacing on yield and soil properties of rice under SRI during dry season in coastal Odisha. Advance Research Journal of Crop Improvement 6(1):

• Rodenburg, Jonne, Kazuki Sait, et al. 2015. Labor-saving weed technologies for lowland rice farmers in sub-Saharan Africa. Weed Technology 29(4): 751-757. doi:10.1614/WT-D-15-00016.1

Sarkar, Satyajit, Dilip Kumar Das and Ajit Kumar Dolui. 2016. Effect of integrated nutrient management on soil fertility and yield of rice (Oryza sativa L.) under System of Rice Intensification in Indian sub-tropics. Communications in Soil Science and Plant Analysis (online version Oct. 24) doi:10.1080/00103624.2016.1225075

• Setiawan, Budi Indra, Chusnul Arif, Rudiyanto, and Muhamad Askari. 2015. Optimizing irrigation drainage rates in SRI paddy fields. Jurnal Teknologi 76(15): 139-145.

• Shahane, Amit A., Yudh Vir Singh, Dinesh Kumar, et al. 2015. Effect of planting methods and cyanobacterial inoculants on yield, water productivity and economics of rice cultivation. Journal of Agriculture and Rural Development in the Tropics and Subtropics (JARTS) 116(2): 107-121.

• Shanmugasundaram. B. 2015. Adoption of System of Rice Intensification (SRI) in Kerala. Journal of Indian Journal of Extension Education 51(3&4): 121-124

• Singh, C.S., Mohit Singh, et al. 2015. Growth and yield response of rice cultivars under System of Rice Intensification and conventional method of rice production system. The Ecoscan 9(3&4): 1077-1081.

• Sivagnanam, S., K. Arivazhagan, V. Arunkumar, and S. Natarajan. 2015. Effect of timing and graded levels of nitrogen and potassium in SRI cultivation. Journal of Applied and Natural Science 7(2): 616–20.

• Sridevi, V, V. Chellamuthu. 2015. Nutrient harvest index and soil available nutrients of rice (Oryza Sativa) as influenced by System of Rice Intensification (Sri) practices. International Journal of Scientific Research 4(6): 744-746.

Subhash, Babu, Singh Raghavendra, R. K. Avasthe, et al. 2015. Effect of organic nitrogen sources on growth, yield, quality, water productivity and economics of rice (Oryza sativa L.) under different planting methods in mid-hills of Sikkim Himalayas. Research in Crops 16(3): 389–400. doi:10.5958/2348-7542.2015.00054.6.

• Supriyadi, Supriyadi, Dwi Priyo Ariyanto, and Arlin Santoso. 2015. Organic fertilizer with silk tree litter (Albizia falcataria L.) to enhance magnesium availability for paddy (Oryza sativa L.) in alfisol. Sains Tanah - Journal of Soil Science and Agroclimatology 12(1): 32–38. doi:10.15608/stjssa.v0i0.267

• Surekha, K., R. Mahender Kumar, and Ch. Padmavathi. 2015. Evaluation of crop establishment methods for their productivity, nutrient uptake and use efficiency under rice-rice system. Journal of Rice Research 8(1): 41–47.

Thakur, Amod K., Rajeeb K. Mohanty, Rajbir Singh, and Dhiraj U. Patil. 2015. Enhancing water and cropping productivity through Integrated System of Rice Intensification (ISRI) with aquaculture and horticulture under rainfed conditions. Agricultural Water Management 161: 65-76. doi:10.1016/j.agwat.2015.07.008

• Uphoff, Norman, Vasilia Fasoula, Anas Iswandi, Amir Kassam, and Amod K. Thakur. 2015. Improving the phenotypic expression of rice genotypes: Rethinking “intensification” for production systems and selection practices for rice breeding. The Crop Journal 3(3): 174-189. doi: 10.1016/j.cj.2015.04.001.

Uphoff, Norman. 2014. Systems thinking on intensification and sustainability: systems boundaries, processes and dimensions. Current opinion in environmental sustainability 8: 89-100. doi:10.1016/j.cosust.2014.10.010.

• Uphoff, Norman, and Frank B. Dazzo. 2016. Making rice production more environmentally-friendly. Environments 3(2), 12. doi: 10.3390/environments3020012

Wu, Wei, and Norman Uphoff. 2015. A review of the system of rice intensification in China. Plant and Soil 393(1): 361-381. doi: 10.1007/s11104-015-2440-6

2014 ARTICLES

• Abraham, Binju, Hailu Araya, et al. 2014. The system of crop intensification: Reports from the field on improving agricultural production, food security, and resilience to climate change for multiple crops. Agriculture & Food Security 3(4): 1-26. doi:10.1186/2048-7010-3-4 (review article) [see also longer SCI monograph]

Ansari, Hanafi, et al. 2014. Pengaruh dosis pupuk dan jerami padi terhadap kandungan unsur hara tanah serta produksi pad sawah pada sistem padi SRI (System of Rice Intensification). Agrotekoteknologi 2(3): 1048-1055.

• Arif, Chusnul, Budi Indra Setiawan, Masaru Mizoguchi. 2014. Penentuan kelembaban tanah optimum untuk budidaya padi sawah SRI (System of Rice Intensification) menggunakan algoritma genetika [Determining optimal soil moisture for System of Rice Intensification paddy field using genetic algorithms]. Jurnal Irigasi 9(1): 29-40. doi: 10.31028/ji.v9.i1.29-40

• Babu, P. Surendra, A. Madhavi, and P. Venkata Reddy. 2014. Root activity of rice crop under normal (flooded) and SRI method of cultivation. The Journal of Research ANGRAU 42(2): 1-3.

Babu, Subhash, Raghavendra Singh, et al. 2014. Production potential, economics and energetics of rice (Oryza sativa) genotypes under different methods of production in organic management conditions of Sikkim Himalayas. Indian Journal of Agronomy 59(4): 602-606.

Bashar, Zubairu Usman, Aimrun Wayayok, Amin M. S. M., and Razif M. Mahadi. 2014. Quality seed: An innovative sorting technique to sustainable, uniform and effective seedling establishment in nursery for System of Rice Intensification. Journal of Agricultural Science (Canadian Center of Science and Education) 6(7): 185-193. doi:10.5539/jas.v6n7p185

Bhattacharjee, Suchiradipta, and R. Saravanan. 2014. Who makes it click? Understanding the stakeholders in agricultural innovation systems in Tripura state of India. Tropical Agricultural Research 25(4): 479-494.

Berkhout, Ezra, Dominic Glover, and Arie Kuyvenhoven. 2014. On-farm impact of the System of Rice Intensification (SRI): Evidence and knowledge gaps. Agricultural Systems. doi:10.1016/j.agsy.2014.10.001

• Bhuvaneswari, K., V. Geethalakshmi, et al. 2014. Climate change impact assessment and developing adaptation strategies for rice crop in western zone of Tamil Nadu. Journal of Agrometeorology 16(1): 38-43.

• Borole, Pravin Y., Mahesh R. Patel, and Arun Patel. 2014. Development of scale to measure attitude of demonstrated paddy growers towards the SRI technique. Gujarat Journal of Extension Education 25(2): 163-165.

Bunting, Stuart W., Rajeshwar Mishra, Kevin G. Smith, and Dhanajay Ray. 2014. Evaluating sustainable intensification and diversification options for agriculture-based livelihoods within an aquatic biodiversity conservation context in Buxa, West Bengal, India. International Journal of Agricultural Sustainability. doi:10.1080/14735903.2014.966530

Chen, Shih-Kai, et al. 2014. Assessing the groundwater recharge under various irrigation schemes in Central Taiwan. Geophysical Research Abstracts 16 (EGU2014-1444)

• Chadhar, A. R., M. A. Nadeem, A. Tanveer, and M. Yaseen. 2014. Weed management boosts yield in fine rice under system of rice intensification (Influência do manejo de plantas daninhas no aumento da produção de arroz fino no sistema de intensificação de arroz) Planta daninha 32(2): 291-299. doi:10.1590/S0100-83582014000200006

• Chakrabortty, Sudip, P. K. Biswas, T. S. Roy, et al. 2014. Growth and yield of boro rice (BRRI Dhan 50) as affected by planting geometry under System of Rice Intensification. Journal of Bioscience and Agricultural Research 2(1): 36-43.

Chaudhary, S.K., Shiveshwar Pratap Singh, Y. Singh, and Dharminde. 2014. Influence of integrated use of fertilizers and manures on SRI grown rice (Oryza sativa) and their residual effect on succeeding wheat (Triticum aestivum) in calcareous soil. Indian Journal of Agronomy 59(4): 527-533

Cheng, Chaojian-程健超, and Huo Hairong-霍海榕. 2014. The experiment of the rice intensification density－水稻免耕强化栽培适宜密度试验. Agriculture and Technology-农业与技术 34(1): 91–92.

Cheng, J. 程健超, and H. Huo 霍海榕. 2014. Optimal planting density for no-till SRI - 水稻免耕强化栽培适宜密度试验. Agriculture and Technology - 农业与技术 1: 91-92, 96.

• Chhogyal, Ngawang, Cheku Dorji, et al. 2014. Assessing potential of the System of Rice Intensification (SRI) principles in sustainable rice production. Journal of Renewable Natural Resources Bhutan 10: 19-26.

Choi, Joongdae, Gunyeob Kim, et al. 2014. Effect of SRI water management on water quality and greenhouse gas emissions in Korea. Irrigation and Drainage. (published online first March 18, 2014) doi:10.1002/ird.1843

• Chowdhury, Md. Riton, Vinod Kumar, Abdus Sattar, and Koushik Brahmachari. 2014. Studies on the water use efficiency and nutrient uptake by rice under system of intensification. The Bioscan 9(1): 85-88.

• Dahal, Khem Raj. 2014. System of Rice Intensification (SRI): A potential approach to enhance rice productivity and food security. Journal of Forest and Livelihood 12(1): 75-81

• Dass, Anchal, and Shiva Dhar. 2014. Irrigation management for improving productivity nutrient uptake and water-use efficiency in system of rice intensification: A review. Annals of Agricultural Research 35(2): 107-122.

• Doi, Ryoichi and Supachai Pitiwut. 2014. From maximization to optimization: A paradigm shift in rice production in Thailand to improve overall quality of life of stakeholders. The Scientific World Journal ID604291: 1-11. doi:10.1155/2014/604291

• Engla, Ravindra, Gaurav Mahajan, and C. M. Mishra. 2014. Response of rice (Oryza sativa L.) cultivars to different sowing methods under rainfed condition of Kymore plateau. Environment and Ecology 32(3): 942-945.

• Fazli, Pardis, and Hasfalina Che Man. 2014. Comparison of methane emission from conventional and modified paddy cultivation in Malaysia. Agriculture and Agricultural Science Procedia 2: 272–279. doi:10.1016/j.aaspro.2014.11.039

• Ghosh, R. K., S. Sentharagai, and D. Shamurailatpam. 2014. SRI: A methodology for substantially raising rice productivity by using farmer’s improved thinking and practice with farmer’s available resources. Journal of Crop and Weed 10(2): 4-9.

Gongotchame, Sylvestre, Ibnou Dieng, Kokou Ahouanton, et al. 2014. Participatory evaluation of mechanical weeders in lowland rice production systems in Benin. Crop Protection 61: 32-37. doi:10.1016/j.cropro.2014.03.009

• Gopalakrishnan, S., R. Mahender Kumar, P. Humayun, et al. 2014. Assessment of different methods of rice (Oryza sativa L.) cultivation affecting growth parameters, soil chemical, biological, and microbiological properties, water saving, and grain yield in rice–rice system. Paddy and Water Environment 12: 9–87. doi:10.1007/s10333-013-0362-6

Gopalakrishnan, Subramaniam, et al. 2014. Evaluation of Streptomyces strains isolated from herbal vermicompost for their plant growth-promotion traits in rice. Microbiological Research 169(1): 40-48.

• Hameed, K. A., and R. M. Al-Khzaraji. 2014. Attitude of rice farmers towards rice transplanting according to System of Rice Intensification (SRI) at Al-Muthanna governorate in Iraq and its relationship with some variables. Iraqi Journal

• Hanh, N. H., and P. T. Dung. 2014. Study some technical methods to organic rice production at Hanoi, Vietnam. Journal of Agriculture and Biodiversity Research 3(6): 91-97.

• Hassan, D. and R. R. Upasani. 2015. Effect of crop establishment and weed control methods on productivity of rice (Oryza sativa L.). Journal of Crop and Weed 11 (special issue): 228-230.

He, Shiyin - 何仕银. 2014. The mulching technology in the System of Rice Intensification applied in mountain areas-山区水稻覆膜强化栽培技术. Sichuan Agriculture and Agricultural Machinery-四川农业与农机 3: 42.

• Islam, Mokidul, and D. C. Kalita. 2014. Effect of rice (Oryza sativa L.) establishment methods and integrated weed management on productivity and soil fertility in Eastern Himalayas, India. The Journal of Agriculture and Natural Resources Sciences 1(2): 87-103.

• Islam, M., L. K. Nath, A. Das, and T. Samajdar. 2014. Productivity and economic performance of Sali Rice under System of Rice Intensification and Integrated Crop Management as influenced by weed management practices. Indian Journal of Hill Farming 27(1): 184-192.

Islam, Mokidul, L. K., Nath, D. P. Patel, et al. 2014. Productivity and socio-economic impact of system of rice intensification and integrated crop management over conventional methods of rice establishment in eastern Himalayas, India.12(1): 193-202. (published online first in 2013)

Jeyapandiyan, N., and A. Lakshmanan. 2014. Yield comparison of rice in different cultivation systems. Trends in Biosciences 7(14): 1635-1637

Jung, Chung-Gil, Jong-Yoon Park, Seong-Joon Kim and Geun-Ae Park. 2014. The SRI (system of rice intensification) water management evaluation by SWAPP (SWAT–APEX Program) modeling in an agricultural watershed of South Korea. Paddy and Water Environment 12(1): 251-261. doi:10.1007/s10333-013-0367-1 (technical report) [This was an "online first" article during 2013]

• Khadka, Ram B., Hari P. Acharya, and Norman Uphoff. 2014. Performance of landrace and improved rice varieties under the System of Rice Intensification management in Bajhang district of Nepal. Journal of Agriculture and Environment 15: 1-10.

• Kakde, A. M. and K.G. Patel. 2014. Seasonal incidence of rice yellow stem borer (Scirpophaga Incertulas Wlk.) in relation to conventional and SRI methods of planting and its correlation with weather parameters. IOSR Journal of Agriculture and Veterinary Science 7(6)Ver. II: 5-10.

• Kahimba, F. C., E. E. Kombe, and H. F. Mahoo. 2014. 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 12(2): 10-19.

Kepha G. Omwenga, Kepha G., Bancy M. Mati, and Patrick G. Home. 2014. Determination of the effect of the System of Rice Intensification (SRI) on rice yields and water saving in Mwea Irrigation Scheme, Kenya. Journal of Water Resource and Protection 6: 895-901. doi:10.4236/jwarp.2014.610084

• Khadka, Ram B., Hari P. Acharya, and Norman Uphoff. 2014. Performance of landrace and improved rice varieties under the System of Rice Intensification management in Bajhang district of Nepal. Journal of Agriculture and Environment 15: 1-10.

• Kumar, G. Ashok, V. Sailaja, P. V. Satyagopal, and S. V. Prasad. 2014. Evaluation of profile characteristics of SRI cultivation farmers in relation to their extent of adoption of technologies. Current Biotica 8(1): 36-41.

• Kushwaha, K. S., and A. K. Rai. 2014. Use of ANCOVA technique for inbred and hybrid rice under SRI and conventional planting methods. Jawaharlal Nehru Krishi Vishwa Vidyalaya Research Journal 48(3): 359-366.

Lu, Xiuming - 陆秀明, Huang Qin - 黄庆, Liu Huaizhen - 刘怀珍, Zhang Bin - 张彬, Li Huifen - 李惠芬, and Zou Jixiang - 邹积祥. 2014. Intensification cultivation techniques of super rice wuyou 308 in central and north areas of Guangdong-广东中北部超级稻五优308强化栽培技术. Tillage and Cultivation-耕作与栽培 (3): 54–55.

• Mahmud, Amir. 2018. Pengendalian gulma dengan beberapa jenis mulsa pada beberapa varitas tanaman padi sawah (Oryza sativa L.) dengan metode System of Rice Intensification (SRI). Jurnal AGROHITA 2(2): 30-40.

• Meena, Mamta, M. V. Patel, Tania Das, and H. P. Verma. 2014. Effect of organic sources and nitrogen levels on growth and yield of kharif rice (Oryza sativa L.) under SRI technique. Agriculture for Sustainable Development 2(1): 39-42.

Mohanty, D. K., K. C. Barik, and D. Behera. 2014. Comparative performance of different rice establishment methods for sustainable rice production in Deogarh district of Odisha. Agricultural Engineering Today 38(3): 5-9

Mohanty, A. K., M. Islam, G. A. K. Kumar, and A. Kumar. 2014. Enhancing ice (Oryza sativa) productivity through demonstrations of SRI method of cultivation in mid-altitude region of Indo-Himalayan belt of Sikkim. Indian Research Journal of Extension Education 14(3): 88-92.

• Mohanty, Tushar Ranjan, Pravat Kumar Roul and Swapan Kumar Maity. 2014. Energetics of greengram (Vigna radiata L.) production as affected by residual effect of rice establishment methods and nutrient management practices in rice - greengram cropping system. IOSR Journal of Agriculture and Veterinary Science 7(7)Ver III: 51-54.

• Nayak, B. N. Sandeep, Md. Mujeeb Khan, K. Mosha, and P. Prasuna Rani. 2014. Effect of plant population and weed control treatments on weed population, NPK uptake in direct wetseeded rice (Oryza sativa. L) sown through drum seeder. International Journal of Scientific & Engineering Research 5(5): 343-351.

Nhamo, Nhamo, Jonne Rodenburg, et al. 2014. Narrowing the rice yield gap in East and Southern Africa: Using and adapting existing technologies. Agricultural Systems 131: 45–55 doi:10.1016/j.agsy.2014.08.003 [Review article]

• Nyang'au, W. O., B. M. Mati, K. Kalamwa, R. K. Wanjogu, and L. K. Kiplagat. 2014. Estimating rice yield under changing weather conditions in Kenya using CERES rice model. International Journal of Agronomy 2014 (ID849496): 12p. doi: 10.1155/2014/849496

• Ouma-Onyango, Amos. 2014. Promotion of rice production: A likely Step to making Kenya food secure. An assessment of current production and potential. Developing Country Studies 4: 26-31.

Pandey, Arjun, Van Trinh Mai, Duong Quynh Vu, et al. 2014. Organic matter and water management strategies to reduce methane and nitrous oxide emissions from rice paddies in Vietnam. Agriculture, Ecosystems & Environment 196: 137-146. doi:10.1016/j.agee.2014.06.010

• Pandian, B J., T. Sampathkumar and R. Chandrasekaran. 2014. System of Rice Intensification (SRI): Packages of technologies sustaining the production and increased the rice yield in Tamil Nadu, India. Irrigation & Drainage Systems Engineering 3: 115. doi:10.4172/2168-9768.1000115

Panigrahi, Trinash, L. M. Garnayak, M. Ghosh, D. K. Bastia, and D. C. Ghosh. 2014. Productivity and profitability of basmati rice varieties under SRI. International Journal of Bio-Resource and Stress Management 5(3): 333-339.

Parameswari, Y. S., A. Srinivas, T. Ram Prakash, and G. Narendar G. 2014. Effect of different crop establishment methods on rice (Oryza sativa L.) growth and yield - A review. Agricultural Reviews 35(1): 74-77.

• Patel, K. M., B. J. Patel, J. S. Patel, and M. M. Patel. 2014. Weed management in Kharif Rice (Oryza Sativa L.) under SRI (System of Rice Intensification) technique. Journal of Recent Advances in Agriculture 2(5): 227-232.

Patel, K. M., and M. M. Patel. 2014. Weed management in rice (Oryza sativa L.) under System of Rice Intensification technique. Trends in Biosciences 7(5): 384-387

Patel, L. C. 2014. Assessment of different rice varieties under acidic soils of West Tripura. International Journal of Agricultural Sciences 10(1): 396-401.

Patel, Vipul P., H. D. Mehta, and Patel Amrutbhai. 2015. Effect of nutrient management in System of Rice Intensification (Sri) cultivation under South Gujarat condition. Trends in Biosciences 8(1): 248-250.

Plabita, Ray, and R. K. Raj. 2014. Extent of adoption of practices under System of Rice Intensification in Odisha. ORYZA- An International Journal on Rice 51(1): 81-85

• Prasetya, I Kadek Andrie, I Wayan Tika, and Sumiyati. Kajian pengematan air irigasi pada metoday System of Rice Intensification (SRI) dan teknik irigasi berselang (mgenyatin) pada bidudaya padi studi kasus di Subak Sigaran). Jurnal BETA (Biosistem dan Teknik Pertanian) 2(2): 1-9

Ram, Hardev, J. P. Singh et al. 2014. Effect of seedlings age and plant spacing on growth, yield, nutrient uptake and economics of rice (Oryza sativa) genotypes under system of rice intensification. Indian Journal of Agronomy 59(2): 256-260

• Rajitha, P. SRI and K. I. Reddy. 2014. Effect of different nutrient management options on rice under SRI method of cultivation - A review. International Journal of Plant, Animal and Environmental Sciences 4(1): 201-204.

Ranjan, Rajeev, Vivek Prasad, et al. 2014. The challenges and potentials of the System of Rice Intensification (SRI) in addressing food security and developing resilience to climate change. International Journal of Environmental, Cultural, Economic and Social Sustainability Volume 7(6): 81-94.

S., Alagappan, and Venkitaswamy R. 2015. Performance of different sources of organic manures in comparison with RDF and INM on growth, yield and economics of rice-greengram cropping system. Trends in Biosciences 7(22): 3597–3605.

Saha, Soumya, Y. V. Singh, Sunita Gaind, and Dinesh Kumar. 2014. Water productivity and nutrient status of rice soil in response to cultivation techniques and nitrogen fertilization. Paddy and Water Environment. Early edition September 2014. doi:10.1007/s10333-014-0462-y

• Sankar, A. Siva, B. Ravindra Reddy, K. Nirmal Ravi Kumar. 2014. Low economic efficiency of irrigation water resource in Krishna western delta of Andhra Pradesh demanding water management interventions. Journal of International Academic Research for Multidisciplinary 2(1): 527-545.

• Satar, Mihidjay Abdou, Afraitane Kamaliddine, and Ranorosoa Alice Andrianjaka. 2014. Amendement de la productivité de la riziculture à Mohéli, iles Comores (Rice growing productivity improvement in Moheli, Comoros islands). Journal of Animal & Plant Sciences. 21(3): 3356-3367.

Sarwar, Naeem, Hakoomat Ali, Muhammad Maqsood, Ashfaq Ahmad, Ehsan Ullah, Tasneem Khaliq and James E. Hill. 2014. Influence of nursery management and seedling age on growth and economic performance of fine rice. Journal of Plant Nutrition 37(8): 1287-1303. doi:10.1080/01904167.2014.881490

Senanayakea, Nari, and Aditi Mukherjib. 2014. Irrigating with arsenic contaminated groundwater in West Bengal and Bangladesh: A review of interventions for mitigating adverse health and crop outcomes. Agricultural Water Management 135(31): 90-99. doi: 10.1016/j.agwat.2013.12.015

Setiawan, Budi I., Arief Imansyah, et al. 2014. SRI paddy Growth and GHG emissions at various groundwater levels. Irrigation and Drainage. Published online first Sept. 12. doi:10.1002/ird.1866

Sharma, Pawan Kumar, and Jagmohan Kaur. 2014. Influence of age of rice nursery on productivity and water usage under different nitrogen levels and transplanting systems. Journal of Research 51(2): 132-135.

Srivastava, V. K., J. K. Singh, J. S. Bohra, and S. P. Singh. 2014. Effect of fertilizer levels and organic sources of nitrogen on production potential of hybrid rice (Oryza sativa) and soil properties under system of rice intensification. Indian Journal of Agronomy 59(4): 607-612.

Shukla, U. N., V. K. Srivastava, Smita Singh, A. Sen and V. Kumar. 2014. Growth, yield and economic potential of rice (Oryza sativa) as influenced by different age of seedlings, cultivars and weed management under system of rice intensification. Indian Journal of Agricultural Sciences 84(5):

• Sigdel, Udit P., Durga Devkota, Narayan R. Joshi, et al. 2014. Impact of result demonstration of System of Rice Intensification (SRI) adoption among participant and non-participant farmers in Chitwan, Nepal. International Journal of Agricultural Extension 2(3): 153-158.

• Singh, Jaykrit, Thomas Abraham, et al. 2014. Effect of methods of planting, genotype options and nutrient management on agronomic traits of rain-fed rice in the context of climate change AEZ-6 of FAO. New Agriculturist 25(2): 211–217

• Sridevi, V., and V. Chellamuthu. 2014. Advantages of SRI cultivation in the tail end of Cauvery delta. Journal of Crop and Weed 8(2): 40-44.

• Suciati, Luh Putu, Bambang Juanda, Akhmad Fauzi, et al. 2014. Developing for water resources incentives to support System of Rice Intensification (SRI) in Jatiluhur irrigation area. IOSR Journal of Humanities and Social Science 19(11): 31-41.

Suchiradipta, Bhattacharjee, and Saravanan Raj. 2014. Agricultural Innovation Systems (AIS): A Study of stakeholders and their relations in System of Rice Intensification (SRI). Journal of Agricultural Education and Extension (1-26, iFirst) doi:10.1080/1389224X.2014.939200

Suresh, A., M. Ramesh, and Reddy S. Ram. 2014. Fluorescent pseudomonads contribute to the enhanced growth and yield of rice cultivated under system of rice intensification (SRI). Indian Journal of Agricultural Research 48(4): 287-293. doi:10.5958/0976-058X.2014.00662.3

Sumathi, A., S. Mohandass, S. Ramasamy. 2014. Impact of climate change scenario on rice production in two planting methods: a simulation study. International Journal of Environmental Science and Technology (SpringerLink, February 2014) doi: 0.1007/s13762-014-0517-z

Takahashi, Kazushi, and Christopher B. Barrett. 2014. The System of Rice Intensification and its impacts on household income and child schooling: Evidence from rural Indonesia. American Journal of Agricultural Economics 96(1): 269-289. doi:10.1093/ajae/aat086

• Talla, Arunbabu, and Satya Nanda Jena. 2014. Nutrient composition, uptake by weeds and rice under different crop establishment and weed management practices. International Journal of Agriculture, Environment & Biotechnology 7(4): 811-816. doi:10.5958/2230-732X.2014.01391.6

• Tumusiime, Emmanuel, and Edmund Matotay. 2014. Agriculture sustainability, inclusive growth, and development assistance: Insights from Tanzania. Journal of Sustainable Development 7(4): 181-190. doi:10.5539/jsd.v7n4p181

• Tusekelege, H. K., R. J. Kangile, H. S. Ng’ elenge, et al. 2014. Option for increasing rice yields, profitability, and water saving: a comparative analysis of System of Rice Intensification in Morogoro, Tanzania. International Journal of Recent Biotechnology 2(1): 4-10.

• Tzudir, L., and R. K. Ghosh. 2014. Impact of integrated nutrient management on performance of rice under System of Rice Intensification (SRI). Journal of Crop and Weed 10(2): 331-333.

Uphoff, Norman. 2014. Systems thinking on intensification and sustainability: systems boundaries, processes and dimensions. Current opinion in environmental sustainability 8: 89-100. doi:10.1016/j.cosust.2014.10.010

• Veeraputhiran, R., R. Balasubramanian, and B.J. Pandian. 2014. Effect of mechanical weeding in System of Rice Intensification and its adoption. Indian Journal of Weed Science 46(4): 383-385.

• Verma, Anil K., N. Pandey, and G. K. Shrivastava. 2014. Production potential and economics of hybrid rice under System of Rice Intensification and its manipulation. SAARC Journal of Agriculture 12(2): 71-78.

• Visalaksmi, M., and A. Sireesha. 2014. Evaluation of rice production technologies for higher monetary returns and water use efficiency. The Journal of Research ANGRAU 42(2): 51–53.

• Visalakshmi, V., P. Rama Mohana Rao, and N. Hari Satyanaryan. 2014. Impact of paddy cultivation systems on insect pest incidence. Journal of Crop and Weed 10(1):139-142.

• Watanarojanaporn, Nantida, Nantakorn Boonkerd, et al. 2013. Effect of rice cultivation systems on indigenous arbuscular mycorrhizal fungal community structure. Microbes and Environments 28(3): 316-324. doi:10.1264/jsme2.ME13011

• Wayayok, Aimrun, Mohd Amin Modh Soom, Khalina Abdan, et al. 2014. Impact of mulch on weed infestation in System of Rice Intensification (SRI) farming. Agriculture and Agricultural Science Procedia 2: 353-360. doi:10.1016/j.aaspro.2014.11.049

2013 ARTICLES

Abdelhamed, M. O, Shimaa A. Badawy, W. M. El Khoby, and K.A. Elfeky. 2013. Evaluation of some System of Rice Intensification (SRI) treatments and its effect on rice production. Minufiya Journal of Agricultural Research 138(6): 519-1534.

• Ahmad, Imtiyaj, S. K. Chongtham, Y. V. Singh, M. A. Ansari, and H. Singh. 2013. Resource conservation technologies in rice-wheat cropping system. Popular Kheti 1(3): 43-47.

Ahmad, Riaz, and Shahbaz Hussain. 2013. Improving the performance of direct seeded System of Rice Intensification by seed priming. International Journal of Agriculture & Biology 15(4):791-794.

• Ali, M. S., M. A. Hasan, S. Sikder, M. R. Islam, and M. H. R. Hafiz. 2013. Effect of seedling age and water management on the performance of boro rice (Oryza sativa L.) variety BRRI Dhan28. The Agriculturalists 11(2): 28-37. doi:10.3329/agric.v11i2.17484

Baskar, P., K. Siddeswaran, and N. Thavaprakaash. 2013. Tiller dynamics, light interception percentage and yield of rice cultivars under system of rice intensification (SRI) as influenced by nursery techniques and spacing. Madras Agricultural Journal 100(1-3):131-134.

• Chen, Song, Xi Zheng, Dangying Wang, Chunmei Xu and Xiufu Zhang. 2013. Influence of the improved System of Rice Intensification (SRI) on rice yield, yield components and tillering characteristics under different rice establishment methods. Plant Production Science 16(2): 191-198. (short report)

Choi, J. D., W. J. Park, K. W. Park and K. J. Lim. 2013. Feasibility of SRI methods for reduction of irrigation and NPS pollution in Korea. Paddy and Water Environment 11(1-4): 241-248. doi:10.1007/s10333-012-0311-9

Choudhary, R.L., Dinesh Kumar, Y. S. Shivay, Anjali Anand, and Lata Nain. 2013. Yield and quality of rice (Oryza sativa) hybrids grown by SRI method with and without plant growth promoting rhizobacteria. Indian Journal of Agronomy 58(3): 430-433.

• Dahal, Khem R., and Ram B. Khadka. 2012. Performance of rice with varied age of seedlings and planting geometry under System of Rice Intensification (SRI) in farmer's field in western Terai, Nepal. Nepal Journal of Science and Technology 13(2): 1-6. doi:10.3126/njst.v13i2.7706

• Daisy, M., N. Thavaprakaash, K. Velayudham, and V. Divya. 2013. Effect of System of Crop Intensification (SCI) practices on growth, yield attributes and yield of castor hybrid YRCH. International Journal of Advanced Life Sciences. 6(4): 366-374.

Dass, Anchal, and Subhash Chandra. 2013. Irrigation, spacing and cultivar effects on net photosynthetic rate, dry matter partitioning and productivity of rice under System of Rice Intensification in Mollisols of Northern India. Experimental Agriculture 49(4): 504-523. doi:10.1017/S0014479713000252

Dass, Anchal, and C. Subhash. 2013. Panicle characteristics, yield and their correlation in system of rice (Oryza sativa) intensification and conventional transplanting under variable irrigation, spacing and varieties. Indian Journal of Agronomy 58(1): 54-62.

• Dastan, S., Gh. Noormohamadi, H. Madani, H. R. Mobasser, and M. S. Daliri. 2013. Evaluation of related to lodging characteristics and grain yield in Iranian rice genotypes under modified agronomical systems. Annals of Biological Research 4(2): 267-275.

• Dastan, S., Gh. Noormohamadi, H. Madani, H. R. Mobasser, and M. Sam Daliri. 2013. Agroecological parameters of Iranian rice genotypes in modified systems. Life Science Journal 10(1s): 219-224. (The document is better viewed as an html doc.)

Debbarma, Beauty. 2013. Comparative economics of System of Rice Intensification (SRI) in Tripura State of North-East India. Indian Journal of Economics and Development 9(3): 284-285.

Dewangan, Devendra Kumar, K. V. Sahare, et al. 2013. Integrated weed -management in System of Rice Intensification (SRI). International Journal of Agricultural & Allied Sciences 1(1): July –Sept. 2013.

Dewangan, Devendra Kumar, and A. P. Singh. 2013. Effect of integrated weed management on weed flora distribution, weed dynamics and performance of rice (Oryza sativa L.) under system of rice intensification (SRI) in Chhattisgarh. Journal of Progressive Agriculture 4(1):96-101.

• Dhananchezhiyan, P., C. Divaker Durairaj, and S. Parveen. 2013. Development of nursery raising technique for "system of rice intensification" machine transplanting. Africa Journal of Agricultural Research 8(29): 3873-3882. doi:10.5897/AJAR2013.7465

Doi, Ryoichi, and Masaru Mizoguchi. 2013. Feasibility of system of rice intensification practices in natural and socioeconomic contexts in Thailand. International Journal of Sustainable Development & World Ecology (published online first June 17, 2013). doi:10.1080/13504509.2013.801002

• Engla, Ravindra, Gaurav Mahajan, and C. M. Mishra. 2014. Response of rice (Oryza sativa L.) cultivars to different sowing methods under rainfed condition of Kymore plateau. Environment and Ecology 32(3) 942-945.

• Ferichani, M. 2013. The potential of Ettawa goat manure and urine management to support the productive and sustainable farming. Journal of Crop and Weed 9(2): 76 - 80.

• Gathorne-Hardy, Alfred, D. Narasimha Reddy, and Barbara Harriss-White. A Life Cycle Assessment (LCA) of greenhouse gas emissions from SRI and flooded rice production in SE India. Taiwan Journal of Water Conservancy 61(4): 120-125.

Gautam, Priyanka, G. D. Sharma, Rachana Rana, et al. 2013. Evaluation of integrated nutrient management and plant density on productivity and profitability of rice (Oryza sativa) under system of rice intensification in mid-hills of Himachal Pradesh. Indian Journal of Agronomy 58(3): 421-423.

Glover, Dominic. 2013. Of yield gaps and yield ceilings: Making plants grow in particular places. 2013. Geoforum (published by Elsevier online first, June 28). doi10.1016/j.geoforum.2013.06.001

Gopalakrishnan, Subramaniam, R. Mahender Kumar, et al. 2013. Assessment of different methods of rice (Oryza sativa L.) cultivation affecting growth parameters, soil chemical, biological, and microbiological properties, water saving, and grain yield in rice-rice system. Paddy and Water Environment (Springer Link, March) doi:10.1007/s10333-013-0362-6

• Gopalakrishnan, Subramaniam, Vadlamudi Srinivas, Meesala Sree Vidya, and Abhishek Rathore. 2013. Plant growth-promoting activities of Streptomyces spp. in sorghum and rice. SpringerPlus 2(1): 1-8. doi:10.1186/2193-1801-2-574

• Hameed, K. A., and R. M. Khazraji. 2013. Attitude of rice farmers towards the System of Rice Intensification (SRI) at Al-Muthanna Governorate in Iraq and its relationship with some variables. Qadisiya Journal for Agricultural Sciences 3(1): 84-100.

• Hameed, Khidhir A., F. A. Jaber, and A. J. Mosa. 2013. Irrigation water use efficiency for rice production in southern Iraq under System of Rice Intensification management. Taiwan Journal of Water Conservancy 61(4): 86-93.

Hazra, K. K., and Subhash Chandra. 2013. Mild to prolonged stress increased rice tillering and source-to-sink nutrient translocation under SRI management. Paddy and Water Environment (Springer Link, March 2013). doi:10.1007/s10333-013-0361-7 (short communication)

• Jagannath, Pratyaya, Hemant Pullabhotla, and Norman Uphoff. 2013. Meta-analysis evaluating water use, water saving and water productivity in irrigated production of rice with SRI vs. standard management methods. Taiwan Journal of Water Conservancy 61(4): 14-49.

Jain, Niveta, Rachana Dubey, D. S. Dubey, Jagpal Singh, M. Khanna, H. Pathak, and Arti Bhatia. 2013. Mitigation of greenhouse gas emission with system of rice intensification in the Indo-Gangetic Plains. Paddy and Water Environment (published early by Springer Link August 2013). doi:10.1007/s10333-013-0390-2

Jha, Girish K. 2013. Energy growth linkage and strategy for meeting the energy demand in Indian agriculture. Agricultural Economics Research Review. 26(conf): 119-127.

• Jiaguo, Zheng, Chi Zhongzhi, Li Xuyi, and Jiang Xinlu. 2013. Agricultural water savings possible through SRI for water management in Sichuan, China. Taiwan Journal of Water Conservancy 61(4): 50-62.

• Katambara, Zacharia, Frederick C. Kahimba, Winfred B. Mbungu, Paul Reuben, Muyenjwa Maugo, Fikiri D. Mhenga, and Henry F. Mahoo. 2013. 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 4(2): 235-244.

Kassam, Amir, and Hugh Brammer. 2013. Combining sustainable agricultural production with economic and environmental benefits. The Geographical Journal 179(1): 11-18. doi:10.1111/j.1475-4959.2012.00465.x [See also 1) Sumberg et al response to this article and 2) Kassam and Brammer's reply to Sumberg et al]

Kassam, A. and H. Brammer. 2013. Reply to Sumberg et al. The Geographical Journal. 179(2): 186–187. doi:10.1111/geoj.12010

• Katambara, Zacharia, F. C. Kahimba, et al. 2013. Adopting the system of rice intensification (SRI) in Tanzania: A review. Agricultural Sciences 4(8): 369-375. doi:10.4236/as.2013.48053

Kumar, H. B. Halesh, V. K. Deshpande, B. S. Vyakaranahal, N. G. Hanamarahatti. 2013. Screening of selected promising rice hybrids under modified system of rice intensification (SRI) method in upland eco system. BIOINFOLET-A Quarterly Journal of Life Sciences 10(1A): 45-49.

• Kumar R., Mahender, P. Raghuveer Rao, et al. 2013. SRI - A method for sustainable intensification of rice production with enhanced water productivity. Agrotechnology S11(2013): 1-6. doi:10.4172/2168-9881.S11-009

Kumar R., M., L. V. S. Rao, V. R. Babu et al. 2013. System of Rice Intensification: its present status, future prospects and role in seed production in India. SATSA Mukhaptra Annual Technical Issue 17: 22-43.

• Kumar, R. Mahender, K. Surekha, et al. 2013. Research experiences on System of Rice Intensification and future directions. Journal of Rice Research 2(2): 61-71. (also available from agropedia labs)

Ly, Proyuth, Lars Soutmann Jensen, et al. 2013. Pr Methane (CH4) and nitrous oxide (N2O) emissions from the system of rice intensification (SRI) under a rain-fed lowland rice ecosystem in Cambodia. Nutrient Cycling in Agroecosystems 97(1): 13-27. doi: 10.1007/s10705-013-9588-3

Meena, Mamta, M. V. Patel, et al. 2013. Effects of organic manures and nitrogen fertilizer on growth and yield of paddy grown in system of rice intensification technique under middle Gujarat conditions. Annals of Agri-Bio Research 18(2): 141-145.

Meyyappan, M., M. Ganapathy, M. V. Sriramachandrasekharan, and S. Sujatha. 2013. Economics of weed management practices in System of Rice Intensification (SRI). Journal of Rice Research 6(1): 66-68. [short communication]

Meyyappan, M., M. Ganapathy, M. V. Sriramachandrasekharan, and S. Sujatha. 2013. Effect of age of seedlings and weed management practices on certain growth parameters of rice under System of Rice Intensification (SRI). Journal of Rice Research 6(1): 53-56.

• Mishra, Abha. 2013. Intermittent irrigation enhances morphological and physiological efficiency of rice plants. Agriculture(Polnohospodárstvo) 58(4): 121–130. doi:10.2478/v10207-012-0013-8

• Muhammad, Marinah, and M.H.H. Abdullah. 2013. Modelling and forecasting on paddy production in Kelantan under the implementation of system of rice intensification (SRI). Academia Journal of Agricultural Research 1(7): 106-113.

• Naidu, G. Jogi, K. Tejeswara Rao, A. Upendra Rao, and D. Srinivasulu Reddy. 2013. Age of seedlings and planting pattern on grain yield, protein content, NPK uptake and post-harvest nutrient status of rice under SRI. Journal of Academia and Industrial Research 2(6): 334-337.

• Naveen Saviour, M. , S. Mohandas, and B.J. Pandian. 2013. Upscaling SRI in Agniyar Sub-basin, Thanjavur District,Tamil Nadu under TN-IAMWARM Project. Madras Agricultural Journal 100(4-6): 421-423.

Nay-Htoon, Bhone, Nguyen Tung Phong, Sabine Schlüter, Aldas Janaiah. 2013. A water productive and economically profitable paddy rice production method to adapt water scarcity in the Vu Gia-Thu Bon river basin, Vietnam. Journal of Natural Resources and Development. p.1-8. doi:10.5027/jnrd.v3i0.05

• Ndiiri, J. A., B. M. Mati, P. G. Home, B. Odongo. 2013. Water productivity under the System of Rice Intensification from experimental plots and farmer surveys in Mwea, Kenya. Taiwan Journal of Water Conservancy 61(4): 63-75.

Ndiiri, J. A., B. M. Mati, P. G. Home, B. Odongo, and N. Uphoff, N. 2013. Adoption, constraints and economic returns of paddy rice under the system of rice intensification in Mwea, Kenya. Agricultural Water Management. 129: 44-55. doi:10.1016/j.agwat.2013.07.006

• Nirmala, K. and R. Vasantha. 2013. A study on diffusion status of system of rice intensification (SRI) in Andhra Pradesh. The Journal of Research Angrau 41(1): 101-104.

Noltze, Martin, Stefan Schwarze, and Matin Qaim. 2013. Impacts of natural resource management technologies on agricultural yield and household income: The system of rice intensification in Timor Leste. Ecological Economics 85: 59-68. doi: 10.1016/j.ecolecon.2012.10.009

• Palanisami, K., K. R. Karunakaran, Upali Amarasinghe, C. R. Ranganathan. 2013. Doing different things or doing it differently? Rice intensification practices in 13 states of India. Economic & Political Weekly 48(8): 51-58.

Pandit, Arun, Jyoti Ranjan Mishra, and B. N. Sadangi. 2013. An economic evaluation of system of rice intensification in Odisha. ORYZA - An International Journal on Rice 50(3): 284-290. (Published online June 12, 2014).

Parasar, Ishani, J. P. Hazarika, and Nivedita Deka. 2013. A comparative economic analysis of SRI and traditional methods of rice cultivation in Assam. Agricultural Economics Research Review 26: 236-236.

• Parihar, B. S., B. P. Tripathi, and N. Pandey. 2013. Assessment of quality of scented rice under variable cultural management schedules under SRI. Environment and Ecology 31(4): 1959-1962.

• Parihar, B. S., B. P. Tripathi, and N. Pandey. 2013. Assessment of yield potential of aromatic rice under variable cultural management schedule under SRI. Environment and Ecology 31(4): 1902-1905.

• Prabhakar, S. V. R. K., S. Suryahadi, I. Las, A. Unadi and P. Setyanto. 2013. Mitigation co-benefits of adaptation actions in agriculture: An opportunity for promoting Climate Smart Agriculture in Indonesia. Asian Journal of Environment and Disaster Management 4(4): 1-16.

• Rajakishore, S. K., P. Doraisamy, K.S. Subramanian, and M.Maheswari. 2013. Methane emission patterns and their associated soil microflora with SRI and conventional systems of rice cultivation in Tamil Nadu, India.Taiwan Journal of Water Conservancy 61(4): 126-134.

Rajakumar, R. 2013. A study on impact of SRI on the pattern of Irrigation water consumption under different types of irrigation in Pudukkottai District of Tamil Nadu. E-Journal of Life Sciences 1(3): 161-165.

Raman, Anantanarayanan. 2013. Ecological management of rice agriculture in southern India. International Journal of Ecology and Environmental Sciences 39(1): p?

• Ramzi, Ali Muhammad, and Humayun Kabir. 2013. Rice production under water management constraints with SRI methods in northeastern Afghanistan.Taiwan Journal of Water Conservancy 61(4): 76-85.

Rani, S., and P. Sukumari. 2013. Root growth, nutrient uptake and yield of medicinal rice Njavara under different establishment techniques and nutrient sources. American Journal of Plant Sciences 4:1568-1573. doi:10.4236/ajps.2013.48189

• Ranjitha, P. Sri, R. Mahender Kumar, and G. Jayasree. 2013. Evaluation of rice (Oryza sativa L.) varieties and hybrids in relation to different nutrient management practices for yield, nutrient uptake and economics in SRI. Annals of Biological Research 4(10): 25-28.

Rao, A. U., T. V. P. R Prasad, R. S. N. Rao, D. Vijay, and T. V. Sridhar. 2013. Evaluation of system of rice intensification (SRI) on alluvial soils of Andhra Pradesh. Journal of Soils and Crops 23(1): 36-40.

• Rao, A. Upendra, A. V. Ramana, and T. V. Sridhar. 2013. Performance of system of rice intensification (SRI) in Godavari delta of Andhra Pradesh. Annals of Agricultural Research 34(2): 118-121.

• Razie, Fakhrur, Iswandi Anas, et al. 2013. Efisiensi serapan hara dan hasil padi pada budidaya SRI di persawahan pasang surut dengan menggunakan kompos diperkaya. Jurnal Agronomi Indonesia 41(2): 89-97.

Reddy, B. G. M., R. Ravishankar, S. Balaganhvi, and V. R. Joshi. 2013. Nutrient management of rice (Oryza sativa) under system of rice intensification (SRI). The Indian Journal of Agricultural Sciences 83(6): p?

• Reddy, Rampuram Jayapal, and N.Sandhya Shenoy. 2013. A comparative economic analysis of Traditional and System of Rice Intensification (SRI) rice cultivation practices in Mahabubnagar district of Andhra Pradesh. International Journal of Scientific and Research Publications 3(10): 1-3.

• Reddy, Rampuram Jayapal, and N.Sandhya Shenoy. 2013. Impact of SRI technology on rice cultivation and the cost of cultivation in Mahabubnagar district of Andhra Pradesh. International Journal of Scientific and Research Publications 3(8): 1-2.

• Setiawan, Budi I., Arief Irmansyah, Chusnul Arif, Tsugihiro Watanabe, Masaru Mizoguchi, and Hisaaki Kato. 2013. Effects of groundwater level on CH4 and N2O emissions under SRI paddy management in Indonesia. Taiwan Journal of Water Conservancy 61(4): 135-146.

Shahane, A. A. et al. 2013. Influence of cyanobacterial inoculants and planting methods on nutrient uptake of rice (Oryza sativa) and soil chemical properties. Indian Journal of Agronomy 58 (4): 123-126

• Shihua, Lu, Dong Yujiao, Yuan Jiang, H. Lee, Hilario Padilla. 2013. A high-yielding, water-saving innovation combining SRI with plastic cover on no-till raised beds in Sichuan, China. Taiwan Journal of Water Conservancy 61(4): 94-109.

Singh, Kalyan, S. R. Singh, J. K. Singh, R. S. Rathore, Shishu Pal Singh, and Rina Roy. 2013. Effect of age of seedling and spacing on yield, economics, soil health and digestibility of rice (Oryza sativa) genotypes under system of rice intensification. The Indian Journal of Agricultural Sciences 83(5): p?

Singh, Pushpraj, I. M. Khan, Smita Singh, and Archana Panday. 2013. Relative performance of rice hybrids under system of rice intensification. Agricultural Science Digest - A Research Journal 33 (2): 158-160.

Singh, Y. V. 2012. Crop and water productivity as influenced by rice cultivation methods under organic and inorganic sources of nutrient supply. Paddy and Water Environment 11(1-4): 531-542. doi:10.1007/s10333-012-0346-y

Singh, Y. V., K. K. Singh, and S. K. Sharma. 2013. Influence of crop nutrition on grain yield, seed quality and water productivity under two rice cultivation systems. Rice Science 20(2): 129–138. doi:10.1016/S1672-6308(13)60113-4

Sulaiman, Norela, Anizan Isahak, Ismail B. S. and Maimon Abdullah. 2013. Diversity of pest and non-pest insects in an organic paddy field cultivated under the System of Rice Intensification (SRI): A case study in Lubok China, Melaka, Malaysia. Food, Agriculture and Environment 11(3&4): 2861-2865.

• Suryadi, Y., D. Susilowati, A. Akhdiya, T. S. Kadir, and B. Wibowo. 2013. Efficacy of consortium bacteria for control rice diseases under System of Rice Intensification (SRI) in West Java - Indonesia. Albanian Journal of Agricultural Sciences 12(1): 143-147.

Suryavanshi, Priyanka, Y. V. Singh, R. Prasanna, Arti. Bhatia, and Y. S. Shivay. 2013. Pattern of methane emission and water productivity under different methods of rice crop establishment. Paddy and Water Environment 11(1-4): 321-329. doi:10.1007/s10333-012-0323-5

• Sushant. 2013. Impact of climate change in eastern Madhya Pradesh, India. Tropical Conservation Science 6(3): 338-364.

Takahashi, K. 2013. The role of risk and ambiguity in the adoption of the system of rice intensification (SRI): Evidence from Indonesia. Food Security 5(4): 513-524. doi:10.1007/s12571-013-0270-z

Thakur, Amod K., Rajeeb K. Mohanty, Dhiraj U. Patil, and Ashwani Kumar. 2013. Impact of water management on yield and water productivity with system of rice intensification (SRI) and conventional transplanting system in rice. Paddy and Water Environment (Springer Link September 2013). doi:10.1007/s10333-013-0397-8

Uphoff, Norman. 2013. Rethinking the concept of 'yield ceiling' for rice: Implications of the System of Rice Intensification (SRI) for agricultural science and practice. Journal of Crop and Weed 9(1): 1-19.

• Uphoff, Norman, Amir Kassam, and Amod Thakur. 2013. Challenges of increasing water saving and water productivity in the rice sector: Introduction to the System of Rice Intensification (SRI) and this issue. Taiwan Journal of Water Conservancy 61(4): 1-13.

Thakur, Amod K., Sreelata Rath, and Krishna G. Mandal. 2013. Differential responses of system of rice intensification (SRI) and conventional flooded-rice management methods to applications of nitrogen fertilizer. Plant and Soil 370(1-2): 59-71. doi: 10.1007/s11104-013-1612-5.

• Watanarojanaporn, N., et. al. 2013. Effect of rice cultivation systems on indigenous arbuscular mycorrhiza fungal community structure. Microbes and Environments 28(3): 316-324. doi:10.1264/jsme2.ME13011

Xu, Xiaopeng, Yanli Liu, Yunchang Shi, and Luo Pan. 2013. Discourse analysis of the plight of the extension of the new style modern agricultural technology-take the extension of the System of Rice Intensification(SRI) in Y Village, Sichuan Province as an example - 新型现代农业技术推广困境的话语分析—以水稻强化栽培体系(SRI)在四川省Y村的推广为例. China Agricultural University Journal of Social Sciences Edition-中国农业大学学报(社会科学版) 30(1).

Yang, Zhiyuan, Yongjian Sun, Xu Hui, Qin Jian, Jia Xianwen, and Ma Jun. 2013. Effects of different cultivation methods on accumulation and transformation of assimilation products and lodging resistance of stem-sheaths of no-tillage rice -不同栽培方式对免耕水稻茎鞘物质积累转运与抗倒伏能力的影响. Chinese Journal of Rice Science - 中国水稻科学 7(5): 511-519.

Yang, Zhiyuan, Yongjian Sun, Xu Hui, Qin Jian, Jia Xianwen, and Ma Jun. 2013. Influence of Cultivation Methods and No-Tillage on Root Senescence at Filling Stage and Grain-Filling Properties of Eryou 498-栽培方式与免耕对杂交稻Ⅱ优498灌浆期根系衰老和籽粒灌浆的影响. Scientia Agricultura Sinica-中国农业科学 46(7): 1347-1358.

Zhu, Conghua, Zou Dai, Fengjun Zhang, et al. 2013. Effects of different paddy field drainage degrees and panicle nitrogen fertilizer managements on photosynthetic productivity and nitrogen utilization of rice under Triangle-Planted System of Rice Intensification - 晒田强度和穗肥运筹对三角形强化栽培水稻光合生产力和氮素利用的影响. Acta Agronomica Sinica-作物学报 39(4): 735-743.

2012 ARTICLES

• Amiri Larijani, Bahman, and Sayed Jalal Hoseini. 2012. Comparison of integrated chemical and organic fertilizer management on rice growth and yield under system of rice intensification (SRI). International Journal of Agronomy and Plant Production 3(S): 726-731.

Avasthe, R. K., S. Verma, Ashok Kumar, and H. Rahman. 2012. Performance of rice (Oryza sativa) varieties at different spacing under system of rice intensification (SRI) in mid hill acid soils of Sikkim Himalayas. Indian Journal of Agronomy Year 57(1): 32- 37.

Babar, S. R. and A. Velayutham. 2012. Weed management practices on weed characters, plant growth and yield of rice under System of Rice Intensification. Madras Agricultural Journal 99(1-3): 46-50.

• Babar, S. R. and A. Velayutham. 2012. Weed management practices on nutrient uptake, yield attributes and yield of rice under System of Rice Intensification. Madras Agricultural Journal 99(1-3): 51-54.

• Bagayoko, M. 2012. Effects of plant density, organic matter and nitrogen rates on rice yields in the System of Rice Intensification (SRI) in the "Office du Niger" in Mali. ARPN Journal of Agricultural and Biological Science 7(8): 620-632.

Baskar, P., K. Siddeswaran, N. Thavaprakaash, and P. Muthukrishnan. 2012. Performance of nursery methods and crop geometry of rice varieties under rice low lands. Madras Agricultural Journal 99 (7/9): 563-566.

Basu, Soutrik, Cees Leeuwis. 2012. Understanding the rapid spread of System of Rice Intensification (SRI) in Andhra Pradesh: Exploring the building of support networks and media representation. Agricultural Systems 111: 34-44. doi:10.1016/j.agsy.2012.04.005

Chang, Y., R. Chen, Y. Li, and H. Lu. 2012. SRI- The choice for paddy rice system in dealing with water deficiency and land shortage- 灌溉稻系統在面對水與耕地短缺下的選擇--稻作強化栽培體系. Water Resource Management Society Journal - 水資源管理會刊 14(1): 38-44.

Chowdhury, M. R., V. Kumar, and K. Brahmachari. 2012. Effect of different water and nutrient management practices on rice grown under SRI. Journal of Crop and Weed 8(2): 36-39.

• Dahal, Khem R., and Ram B. Khadka. 2012. Performance of rice with varied age of seedlings and planting geometry under System of Rice Intensification (SRI) in farmer's field in western Terai, Nepal. Nepal Journal of Science and Technology 13(2): 1-6. doi:10.3126/njst.v13i2.7706

Damodaran, V., B. K. Saren, N. Ravisankar, and N. Bommayasamy. 2012 Influence of time of planting, spacing, seedling number and nitrogen management practices on productivity, profitability and energetics of rice (Oryza sativa) in island ecosystem. Madras Agricultural Journal 99(7): 538-544.

Dass, Anchal, and Chandra Subash. 2012. Effect of different components of SRI on yield, quality, nutrient accumulation and economics of rice (Oryza sativa) in tarai belt of northern India. Indian Journal of Agronomy 57(3): 250-254.

Deb, Debal, Jörg Lässig and Marius Kloft. 2012. A critical assessment of the importance of seedling age in the System of Rice Intensification (SRI) in Eastern India. Experimental Agriculture 48(3): 326-346. doi:10.1017/S001447971200004X

Deshmukh, Ghanshyam, and R. K. Tiwari. 2012. Impact of weeders for weed management in system of rice intensification (SRI). Indian Journal of Weed Science 43(3/4): 243-244. [Hardcopy was published in 2011, the online 11/9/12]

Durga, K. K. 2012. Influence of seedling age and spacing on productivity and quality traits of rice under System of Rice Intensification. Madras Agricultural Journal 99(4/6): 301-304.

Gehring, C., et al. 2012. Ecological intensification of rice production in the lowlands of Amazonia – Options for smallholder rice producers. European Journal of Agronomy 4(46): 25-33. doi:10.1016/j.eja.2012.11.006 [acquired 1/8/13]

Ghritlahre, S. K., A. K. Sarial, M. Ram, D. R. Aneja, and R. Singh. 2012. Genetic yield potential of rice (Oryza sativa) through water saving and high-yielding SRI technology. Indian Journal of Agricultural Sciences 82(3): 260-3 [Link accesses abstract only; check for pdf in short communication section of subscription link]

• Gopalakrishnan, S., et al. 2012. Plant growth-promoting traits of biocontrol potential bacteria isolated from rice rhizosphere. SpringerPlus 1(1): 71-84. doi:10.1186/2193-1801-1-71

Gopalakrishnan, S., P. Humayun, S. Vadlamudi, R. Vijayabharathi, R. K. Bhimineni, and O. Rupela. 2012. Plant growth-promoting traits of Streptomyces with biocontrol potential isolated from herbal vermicompost. Biocontrol Science and Technology 22(10): 1199-1210. doi:10.1080/09583157.2012.719151

Hoffmaister, Juan P., Mikael Román. 2012. Pursuing the link between development and climate change adaptation: The case of rice production in Mozambique. Climate and Development (pp.1-15., early printing). doi: 10.1080/17565529.2012.698591

Keen, A., N. Hall, P. Soni, M. D. Gholkar, S. Cooper, and J. Ferdous. 2012. A review of the tractive performance of wheeled tractors and soil management in lowland intensive rice production. Journal of Terramechanics. In press. doi:10.1016/j.jterra.2012.08.001.

• Kasli, and A. R. Arman Effendi. 2012. Effect of various high puddles on the growth of aerenchyma and the growth of rice plants (Oryza sativa L) in pot. Pakistan Journal of Nutrition 11(5): 461-466.

Kayande, N. V., N. S. Kute, L. A. Katre, and P. V. Sawant. 2012. Influence of seedling age and spacing on yield of rice variety pkv hmt. BIOINFOLET 9(4): 470-472.

• Khumairoh, U., J. C. J. Groot, and E. A. Lantinga. 2012. Complex agro-ecosystems for food security in a changing climate. Ecology and Evolution 2(7): 1696-1704. doi:10.1002/ece3.271

Krupnik, Timothy J., Jonne Rodenburg, Van Ryan Haden, Doudou Mbaye, and Carol Shennan. 2012. Genotypic trade-offs between water productivity and weed competition under the System of Rice Intensification in the Sahel. Agricultural Water Management 115: 156-166. doi:10.1016/j.agwat.2012.08.016

Krupnik, Timothy J., Carol Shennan and Jonne Rodenburg. 2012. Yield, water productivity and nutrient balances under the System of Rice Intensification and recommended management practices in the Sahel. Field Crops Research 130: 155-167. doi:10.1016/j.fcr.2012.02.003

Krupnik, Timothy J., Carol Shennan, William H. Settle, Matty Demont, Alassane B. Ndiaye and Jonne Rodenburg. 2012. Improving irrigated rice production in the Senegal River Valley through experiential learning and innovation. Agricultural Systems 109: 101-112. doi:10.1016/j.agsy.2012.01.008

Liu, Shubin, Xuyi Li, Yuanming Xu, and Jun Ma. 2012. Comparative study on Triangle System of Rice Intensification (SRI) with square System of Rice Intensification, throwing-transplanted rice, and traditional cultivation - 水稻三角形强化栽培与正方形强化栽培、抛秧栽培、常规栽培的比较研究. Chinese Agricultural Science Bulletin - 中国农学通报 28(21): 38-45.

Ly, Proyuth, Lars Jensen, Thilde Bruun, Dominik Rutz, and Andreas de Neergaard. 2012. The System of Rice Intensification: Adapted practices, reported outcomes and their relevance in Cambodia. Agricultural Systems 113: 16-27. doi:10.1016/j.agsy.2012.07.005

Mishra, Abha, and Norman Uphoff. 2012. Morphological and physiological responses of rice roots and shoots to varying water regimes and soil microbial densities. Archives of Agronomy and Soil Science (pp. 1-27, iFirst article). doi: 10.1080/03650340.2012.669474

Mishra, Abha, Prabhat Kumar and Andrew Noble. 2012. Assessing the potential of SRI management principles and the FFS approach in Northeast Thailand for sustainable rice intensification in the context of climate change. International Journal of Agricultural Sustainability (published online early by iFirst). doi:10.1080/14735903.2012.658648

Mohapatra, P. C., M. Din, B. C. Parida, S. P. Patel and P. Mishra. 2012. Effect of mechanical planting and weeding on yield, water-use efficiency and cost of production under modified system of rice intensification. Indian Journal of Agricultural Sciences 82(3): 280-3 [Check for pdf under short communications in subscription link]

• Ndiiri, J. A., B. M. Mati, P. G. Home, B. Odongo, and N. Uphoff. 2012. Comparison of water savings of paddy rice under System of Rice Intensification (SRI) growing rice in Mwea, Kenya. International Journal of Current Research and Review 4(6): 63-73

Noltze, M., S. Schwarze, and M. Qaim. 2012. Farm Diversity and Heterogeneous Impacts of System Technologies on Yield, Income and Poverty: The System of Rice Intensification in Timor Leste. Selected Poster Prepared for Presentation at the International Association of Agricultural Economists (IAAE) Triennial Conference, Foz do Iguaçu, Brazil. pp. 1-24.

Noltze, Martin, Stefan Schwarze and Matin Qaim. 2012. Understanding the adoption of system technologies in smallholder agriculture: The system of rice intensification (SRI) in Timor. Agricultural Systems 108: 64-73. doi:10.1016/j.agsy.2012.01.003\

Nyamai, M., B. M. Mati, P. G. Home, B. Odongo, R. Wanjogu, and E. G. Thuranira. 2012. Improving land and water productivity in basin rice cultivation in Kenya through System of Rice Intensification (SRI). Agricultural Engineering International: CIGR Journal 14(2):1-9.

• Parashivamurty, S. Rajendraprasad, R. Siddaraju, and J. Lakshmi. 2012. Study the effect of promising varieties and methods of cultivation on growth, seedyield and quality parameters in rice (Oryza sativa L.). The Mysore Journal of Agricultural Sciences 46(3): 529-537.

Pasha, M. L., L. Krishna, D. Bhadru, and R. B. M. Naik. 2012. Comparative performance of different weed management practices in system of rice intensification. Madras Agricultural Journal 99(7): 473-475.

Pathak, Mahesh, R. C. Shakywar, Dinesh Sah, Shyam Singh. 2012. Prevalence of insect pests, natural enemies and diseases in SRI (System of Rice Intensification) of rice cultivation in North East Region. Annals of Plant Protection Sciences 20(2): 375-379.

• Rani, S., and P. Sukumari. 2012. Growth and yield of medicinal rice Njavara as influenced by nutrient sources under different management systems. Madras Agricultural Journal 99(10-12): 786-788. doi:10.29321/MAJ.10.100195

Revathi, M., N. K. Prabhakaran, C. Chinnusamy, and S. Meena. 2012. Influence of establishment methods and weed management practices on nutrient removal by weeds and uptake by rice in puddled lowland. Madras Agricultural Journal 99(7): 496-499.

Roy, A. K., S. Chakrabarty, H. D. Chuadali, and B. C. Mahato. 2012. System of rice intensification (SRI): An experiment in Purulia under NAIP. Environment and Ecology 30(4): 1280-1284.

• Roy, Shyamashree, and P. S. Bisht. 2012. System of Rice Intensification: A possible way to sustainable rice production. International Journal of Agriculture, Environment and Biotechnology 5(2): 177-184.

• Sathish, H. S., Nagaratna Biradar, J. G. Angadi, S.D. Kololgi and S. Hemalatha. 2012. A study on profile of system of rice intensification (SRI) paddy growers of Karnataka. Karnataka Journal of Agricultural Sciences 25(4): 450-454.

Senthilkumar, T. and V. K. Thilagam. 2012. Comparative study on improved TNAU drum seeder with SRI and conventional methods of transplanting. Madras Agricultural Journal 99(7): 629-630.

Sharma, Y., J. Prabhakara, D. Kachroo, and A. Samanta. 2012. Influence of puddling intensity and organic amendments on water productivity under SRI and conventional transplanting of rice and their residual effect on succeeding wheat crop. Indian Journal of Agricultural Research 46(1): 75-79.

Singh, N., D. Kumar, O. V. S. Thenua, and V. Tyagi. 2012. Influence of spacing and weed management on rice (Oryza sativa) varieties under System of Rice Intensification. Indian Journal of Agronomy 57(2): 138-142.

Sowmya, Ch., and Ramana M. Venkata. 2012. Performance of hybrids/high yielding varieties and nutrient management in System of Rice Intensification - A review. Agricultural Reviews 33(1): 1-15.

Sowmyalatha, B. S., C. Ramachandra, and B. R. Jagadeesh. 2012. Effect of methods of cultivation and fertility levels on nutrient uptake of rice hybrids. Environment and Ecology 30(3): 978-981.

Sowmyalatha, B. S., C. Ramachandra, N. Shivakumar, and K. B. Manjunatha. 2012. Effect of methods of cultivation and fertility levels on growth and yield of rice hybrids. Mysore Journal of Agricultural Sciences 46(1): 171-173.

Sridevi, V. and V. Chellamuthu. 2012. Advantages of SRI cultivation in the tail end of Cauvery delta. Journal of Crop and Weed 8(2): 40-44. [pdf of full article has problems loading.]

Sridevi, V., and V. Chellamuthu. 2012. Influence of System of Rice Intensification on growth, yield and nutrient uptake of rice (Oryza sativa L.). Madras Agricultural Journal 99(4/6): 305-307.

Subari, S., M.D. Joubert, H.A. Sofiyuddin, and J. Triyono. 2012. Pengaruh perlakuan pemberian air irigasi pada budidaya SRI, PTT dan konvensional terhadap produktivitas air. Jurnal Irigasi 7(1): 28-42. doi:10.31028/ji.v7.i1.28-42

Sumberg, J., A. Jens, K. Giller, and J. Thompson. 2012. Response to "Combining sustainable agricultural production with economic and environmental benefits." The Geographical Journal (unpaginated). doi:10.1111/j.1475-4959.2012.00472.x (response to a commentary)

Sumberg, J., J. Thompson, and P. Woodhouse. 2012. Why agronomy in the developing world has become contentious. Journal of the Agriculture, Food, and Human Values Society: 1-13. doi:10.1007/s10460-012-9376-8

Sun, Y., et. al. 2012. Relationship between culm lodging resistance and population quality of hybrids under Triangle-Planted System of Rice Intensification at different nitrogen application rates and planting densities – 不同施氮量和栽插密度下三角形强化栽培杂交稻抗倒伏性与群体质量的关系. Chinese Journal of Rice Science-中国水稻科学 26(2): 189-196. DOI:10.3969/j.issn.1001-7216.2012.02.008

• Swaminathan, M. S., and P. C. Kesavan. 2012. Agricultural research in an era of climate change. Agricultural Research 1(1): 3-11. doi:10.1007/s40003-011-0009-z

Tann, Huyly, Chaiwat Makhonpas, Aram Utthajadee, and Kasem Soytong. 2012. Effect of good agricultural practice and organic methods on rice cultivation under the system of rice intensification in Cambodia. Journal of Agricultural Technology 8(1): 289-303.

• Uphoff, N. 2012. Supporting food security in the 21st century through resource-conserving increase in agricultural production. Agriculture & Food Security 1: 18-30. doi:10.1186/2048-7010-1-18 (review article)

Uphoff, N. 2012. We are not alone: Messages from inner space. International Journal of Agricultural Sustainability 10(4): 263-267. doi:10.1080/14735903.2012.690957

Comments to D. Glover's 2011 article in NJAS - Wageningen Journal of Life Sciences: 'The System of Rice Intensification: Time for an empirical turn':
+ Uphoff, N. 2012. Comment to 'The System of Rice Intensification: Time for an empirical turn', [NJAS - Wageningen Journal of Life Sciences 57 (2011) 217-224]. NJAS - Wageningen Journal of Life Sciences 59(1-2): 53-60. doi:10.1016/j.njas.2012.02.001
+ Glover, D. 2012. Reply to Comment to: ‘The System of Rice Intensification: Time for an empirical turn’, by D. Glover. NJAS - Wageningen Journal of Life Sciences 59(1-2): 61-62.

Veeramani, P., R. Durai Singh, and K. Subrahmaniyan. 2012. Studies on different planting pattern (using rolling marker) in System of Rice Intensification (SRI) through hybrid rice CORH 3. International Journal of Research in Chemistry and Environment 2(1): 58-61.

Veeramani, P., R. D. Singh, and K. Subrahmaniyan. 2012. Study of phyllochron-System of Rice Intensification (SRI) technique. Agricultural Science Research Journal 2(6): 329-334.

Veeraputhiran, R., R. Balasubramanian, B. J. Pandian, M. Chelladurai, R. Tamilselvi, and V. G. Renganathan. 2012. Influence of System of Rice Intensification on yield, water use and economics through farmers' participatory approach. Madras Agricultural Journal 99(4/6): 251-254.

Wen, Jing, Wei Dai, Xinxue Hou, Xiang Song, Tingjian Li, Jianming Luo, and Zhuolin Xie. 2012. Effect of planting density and nitrogen on N absorption,utilization and yield of Rice under Triangle System of Rice Intensification (TSRI) - 三维立体强化栽培密度和氮肥管理对水稻产量及氮素吸收利用的影响. Southwest China Journal of Agricultural Sciences - 西南农业学报. 25(1): 183-187.

Yang, Zhiyuan, Rong Hu, et al. 2012. Effects of nitrogen fertilizer management on yield and nitrogen use efficiency of Eryou 498 in Triangle-Planted System of Rice Intensification – 三角形强化栽培模式下氮肥运筹对II 优498产量及氮肥利用的影响. Acta Agronomica Sinica–作物学报 38(6): 1097-1106. DOI: 10.3724/SP.J.1006.2012.01097.

2011 ARTICLES

NOTE: There is a special issue (March 2011, volume 9) of the Journal of Paddy and Water Environment (PWE) entitled Paddy and Water Management with the System of Rice Intensification (SRI). SRI articles are included on pages 3-180. (see table of contents.) The articles are also included in the 2011 research articles listed below.

• Adusumilli, Ravindra, and S. Bhagya Laxmi. 2011. Potential of the system of rice intensification for systemic improvement in rice production and water use: the case of Andhra Pradesh, India. Paddy and Water Environment 9(1): 89-97. doi: 10.1111/j.1439-037X.2010.00421.x [NOTE: Erratum to this article have been published during Feb. 2011 at doi:10.1007/s10333-011-0255-5]

• Alizadeh, M. R. 2011. Field performance evaluation of mechanical weeders in the paddy field. Scientific Research and Essays 6(25): 5427-5434.

• Anas, Iswandi, O. P. Rupela, T. M. Thiyagarajan and Norman Uphoff. 2011. A review of studies on SRI effects on beneficial organisms in rice soil rhizospheres. Paddy and Water Environment 9(1): 53-64. doi:10.1007/s10333-011-0260-8

• Anas, Iswandi, Joeli Barison, Amir Kassam, et al. 2011. The System of Rice Intensification (SRI) as a beneficial human intervention into root and soil Interaction. Jurnal Tanah Dan Lingkungan 13(2): 72–88.

• Anitha, S. and Mani Chellappan. 2011. Comparison of the system of rice intensification (SRI), recommended practices, and farmers' methods of rice (Oryza sativa L.) production in the humid tropics of Kerala, India. Journal of Tropical Agriculture 49(1-2): 64-71.

• Barison, Joeli and Norman Uphoff. 2011. Rice yield and its relation to root growth and nutrient-use efficiency under SRI and conventional cultivation: an evaluation in Madagascar. Paddy and Water Environment 9(1):65-78. doi:10.1007/s10333-010-0229-z

Barla, Sheela and S. S. Kumar. 2011. Evaluation of rice establishment techniques on Jharkhand plateau. ORYZA 48(1).

• Ceesay, Mustapha. 2011. An opportunity for increasing factor productivity for rice cultivation in The Gambia through SRI. Paddy and Water Environment 9: 129-135. doi:10.1007/s10333-010-0235-1

Chapagain, T., A. Riseman, and E. Yamaji. 2011. Achieving more with less water: Alternate wet and dry irrigation (AWDI) as an alternative to the conventional water management practices in rice farming. Journal of Agricultural Science 3(3):3-13. doi:10.5539/jas.v3n3p3

Chapagain, Tejendra, Andrew Riseman, and Eiji Yamiji. 2011. Assessment of System of Rice Intensification (SRI) and conventional practices under organic and inorganic managements in Japan. Rice Science 18(4): 311-320. doi:10.1016/S1672-6308(12)60010-9

• de Laulanié, H. 2011. Intensive rice farming in Madagascar. Tropicultura 29(3):183-187 (technical notes section). [The Tropicultura editors included this article because it is the 30th anniversary of Laulanié's work with SRI; the original article published in their journal appeared in 1993.]

Dewangan, Devendra, A. P. Singh, H. Nirala and M. VermaI. 2011. Effect of different weed management practices on weed density and weed dry matter production in system of rice intensification (SRI) . Indian Journal of Weed Science 43 (3&4) : 217-221.

Escasinas, Ruth O., and Oscar B. Zamora. 2011. Agronomic response of lowland rice PSB Rc 18 (Oryza sativa L.) to different water, spacing and nutrient management. Philippine Journal of Crop Science 36(1): 37-46.

Ferichani, I. M., and D. A. Prasetya. 2011. Institutionalization of System of Rice Intensification (SRI) in Indonesia: Socio-economic aspects. Journal of Crop and Weed 7(1): 12-16.

Geethalakshmi, Velliangiri, Thanakkan Ramesh and Azhagu Palamuthirsolai. 2011. Agronomic evaluation of rice cultivation systems for water and grain productivity. Archives of Agronomy & Soil Science 57(2): 159-166. doi:10.1080/03650340903286422

Ghritlahre, S. K., and A. K. Sarial. 2011. G x E interaction and adaptability of rice cultivars in SRI and normal production systems. Cereal Research Communications 39(4):589-597. doi:10.1556/CRC.39.2011.4.14

Glover, Dominic. 2011. A system designed for rice? Materiality and the invention / discovery of the System of Rice Intensification. East Asian Science, Technology and Society 5(2): 217-237. doi:10.1215/18752160-1273080

Glover, Dominic. 2011. Science, practice and the System of Rice Intensification in Indian agriculture. Food Policy 36(6): 749-755. doi:10.1016/j.foodpol.2011.07.008

• Glover, Dominic. 2011. The System of Rice Intensification: Time for an empirical turn. NJAS - Wageningen Journal of Life Sciences 57(3-4): 217-224. doi:10.1016/j.njas.2010.11.006

• Hameed, Khidhir Abbas, Abdul-Kadhim Jawad Mosa and Flayeh Abed Jaber. 2011. Irrigation water reduction using System of Rice Intensification compared with conventional cultivation methods in Iraq. Paddy and Water Environment 9(1): 121-127. doi:10.1007/s10333-010-0243-1

• Hameed, K. A., F. A. Jaber, A. Y. Hadi, J. A. Elewi, and N. Uphoff. 2011. Application of System of Rice Intensification (SRI) methods on productivity of Jasmine rice variety in southern Iraq. Jordan Journal of Agricultural Sciences 7(3): 474-481.

He, Yangdong, Ping Tong, Jun Ma, Yuanyuan Sun, Yongjian Sun, Shujin Liu, et al. 2011. Effects of different seedling-ages and planting densities on physiological characteristics and grain yield of hybrid rice Ⅱ You 498 under triangle-planted System of Rice Intensification during filling stage - 三角形强化栽培条件下移栽秧龄和密度对杂交稻Ⅱ优498结实期生理和产量的影响. Chinese Journal of Rice Science - 中国水稻科学 25:508-514. doi:10.3969/j.issn.1001-7216.2011.05.009; CNKI:SUN:ZGSK.0.2011-05-010.

• Johnson, B. and K. Vijayaragavan. 2011. Diffusion of System of Rice Intensification (SRI) across Tamil Nadu and Andhra Pradesh in India. Indian Research Journal of Extension Education 11(3): 72-79.

• Kassam, Amir, Willem Stoop and Norman Uphoff. 2011. Review of SRI modifications in rice crop and water management and research issues for making further improvements in agricultural and water productivity. Paddy and Water Environment 9(1): 163-180. doi: 10.1007/s10333-011-0259-1

Kumar, R. Mahender, K. Surekha, Ch. Padmavathi, P.S. Latha, et al. 2011. Potential of water saving in irrigated rice through System of Rice Intensification (SRI). ORYZA 48(3): 233-237.

Lederer, Marcus. 2011. Practicing agrifood governance. Food Policy 36(6): 756-759. doi:10.1016/j.foodpol.2011.07.009

• Lin, Xianqing, Defeng Zhu and Xinjun Lin, 2010. Effects of water management and organic fertilization with SRI crop practices on hybrid rice performance and rhizosphere dynamics. Paddy and Water Environment 9: 33-39. doi: 10.1007/s10333-010-0238-y

• Mati, B. M., R. Wanjogu, B. Odongo and P. G. Home. 2011. Introduction of the System of Rice Intensification in Kenya: Experiences from Mwea Irrigation Scheme. Paddy and Water Environment 9: 145-154. doi:10.1007/s10333-010-0241-3

Meas, Vannak, Daniel Shon and Young Han Lee. 2011. Effects on rice growth of System of Rice Intensification under no-till paddy in Korea. 한국토양비료학회지 (Korean Journal of Soil Fertility) 44(1): 91-97.

Meas, Vannak, Daniel Shon and Young Han Lee. 2011. Impacts of planting density on nutrients uptake by System of Rice Intensification under no-tillage Paddy in Korea. 한국토양비료학회지 (Korean Journal of Soil Fertility) 44(1): 98-103.

• Mishra, Abha, and Vilas M. Salokhe. 2011. Rice root growth and physiological responses to SRI water management and implications for crop productivity. Paddy and Water Environment 9: 41-52. doi:10.1007/s10333-010-0240-4

Nandhakumar, M. R., K. Velayudham, and N. Thavaprakaash. 2016. Influence of crop geometry, age and number of seedlings on physiological characters in relation to yield of low land rice. Research on Crops 17(1): 1-7. doi:10.5958/2348-7542.2016.00001.2.

• Patra, Partha Sarathi and Samsul Haque. 2011. Effect of seedling age on tillering pattern and yield of rice (Oryza sativa L.) under system of rice intensification. ARPN Journal of Agriculture and Biological Science 6: 33-35.

• Rama Rao, I. V. Y. 2011. Estimation of efficiency, sustainability and constraints in SRI (System of Rice Intensification) vis-a-vis traditional methods of paddy cultivation in North Coastal Zone of Andhra Pradesh. Agricultural Economics Research Review 24: 325-331.

• Sarwar, Naeem, Muhammad Masood et al. 2011. Impact of nursery seeding density, nitrogen, and seedling age on yield and yield attributes of fine rice. Chilean Journal of Agricultural Research 71(3): 343-349

• Sato, Shuichi, Eiji Yamaji, and Takeshi Kuroda. 2011. Strategies and engineering adaptions to disseminate SRI methods in large-scale irrigation systems in Eastern Indonesia. Paddy and Water Environment 9: 79-88. doi:10.1007/s10333-010-0242-2

Seenivasan, N. 2011. Efficacy of Pseudomonas fluorescens and Paecilomyces lilacinus against Meloidogyne graminicola infecting rice under system of rice intensification. Archives of Phytopathology and Plant Protection 44(15): 1467-1482.

• Sharif, Asif. 2011. Technical adaptations for mechanized SRI production to achieve water saving and increased profitability in Punjab, Pakistan. Paddy and Water Environment 9: 111-119.doi:10.1007/s10333-010-0223-5

Sowmya, Ch., and M.V. Ramana. 2011. Performance of hybrids/high yielding varieties and nutrient management in System of Rice Intensification – A review. Agricultural Reviews 33(1): 1-15.

Sridevi, V., V. Chellamuthu, and S. Jeyaraman. 2011. System of Rice Intensification – A review. Agricultural Reviews 32(2): 120-126.

Stoop, Willem A. 2011. The scientific case for system of rice intensification and its relevance for sustainable crop intensification. International Journal of Agricultural Sustainability 9(3): 443-455. doi: 10.1080/14735903.2011.583483

• Styger, Erika, Goumar Aboubacrine, Malick Attaher, and Norman Uphoff. 2011. The system of rice intensification as a sustainable agricultural innovation: introducing, adapting and scaling up a system of rice intensification practices in the Timbuktu region of Mali. International Journal of Agricultural Sustainability 9: 67-75. doi:10.3763/ijas.2010.0549

• Styger, Erika, Malick Ag Attaher, Hamidou Guindo, Harouna Ibrahim, Mahamane Diaty, Ibrahima Abba and Mohamed Traoré. 2011. Application of system of rice intensification practices in the arid environment of the Timbuktu region in Mali. Paddy and Water Environment 9:137-144. doi:10.1007/s10333-010-0237-z

• Surya Prabha, A. C., T. M. Thiyagarajan and M. Senthivelu. 2011. System of Rice Intensification principles on growth parameters, yield attributes and yields of Rice (Oryza sativa L.). Journal of Agronomy 10: 27-33. doi:10.3923/ja.2011.27.33

Talpur, M., J. Changying, S. Junejo, T. Guangzhao, A. Tagar, and F. Chandio. 2011. A review on the enhancement of rice production in paddy field with minimum input of water. African Journal of Agricultural Research 6(33): 6776-6779. doi:10.5897/AJARX11.029

Thakur, Amod K., Sreelata Rath and Ashwani Kumara. 2011. Performance evaluation of rice varieties under the System of Rice Intensification compared with the conventional transplanting system. Archives of Agronomy and Soil Science 57(3):223-238. doi:10.1080/03650340903302302

• Thakur, Amod K., Sreelata Rath, D. U. Patil and Ashwani Kumar. 2011. Effects on rice plant morphology and physiology of water and associated management practices of the system of rice intensification and their implications for crop performance. Paddy and Water Environment 9: 13-24. doi:10.1111/j.s10333-010-0236-0

• Thomas, Vincent and Ali Mohammad Ramzi. 2011. SRI contributions to rice production dealing with water management constraints in northeastern Afghanistan. Paddy and Water Environment 99(1): 101-109. doi:10.1007/s10333-010-0228-0

Toriyama, K., and H. Ando. 2011. Towards an understanding of the high productivity of rice with System of Rice Intensification (SRI) management from the perspectives of soil and plant physiological processes. Soil Science and Plant Nutrition 57(5): 636-649. doi: 10.1080/00380768.2011.602627

• Turmel, Marie-Soleil, Juan Espinosa, León Franco, Candelario Pérez, Horacio Hernández, Eric González, Guillermo Fernández, Carlos Rojas, Daniel Sánchez and Nicolás Fernández. 2010. On-farm evaluation of a low-input rice production system in Panama. Paddy and Water Environment. 9(1): 155-161.doi:10.1007/s10333-010-0227-1

Turmel, Marie-Soleil, Benjamin L. Turner, and Joann K. Whalen. 2011. Soil fertility and the yield response to the System of Rice Intensification. Renewable Agriculture and Food Systems 26(3): 185-192. doi:10.1017/S174217051100007X

Tzudir, L., R. K. Ghosh, and S. Mallick. 2011. Effect of integrated nutrient management on soil microflora using System of Rice Intensification practices. Environment and Ecology 29(2A): 856-859.

• Uphoff, Norman. 2011. The System of Rice Intensification: An Alternate civil society innovation. Technikfolgenabschätzung - Theorie und Praxis 2:45-52.

• Uphoff, Norman, Amir Kassam and Richard Harwood. 2011. SRI as a methodology for raising crop and water productivity: productive adaptations in rice agronomy and irrigation water management. Paddy and Water Environment 9: 3-11. doi:10.1007/s10333-010-0224-4

Veeramani, P., and R. D. Singh. 2011. System of rice intensification in hybrid rice - a review. Agricultural Reviews. 32(1): 32-35.

Weijabhandara, D.M.D.I., G. S. Dasog, P. L. Patil, Manjunath Hebbar. 2011. Effect of nutrient levels on rice (Oryza sativa L.) under System of Rice Intensification (SRI) and traditional methods of cultivation. Journal of the Indian Society of Soil Science 59(1): 67-73.

• Zhao, Limei, Lianghuan Wu, Meiyan Wu and Yongshan Li. 2011. Nutrient uptake and water use efficiency as affected by modified rice cultivation methods with reduced irrigation. Paddy and Water Environment 9: 25-32. doi:10.1007/s10333-011-0257-3

Zhu, Yongchuan, Hong Xiong, Fuxian Xu, Lin Zhang, Xiaoyi Guo, Xingbing Zhou, et al. 2011. Studies of China System of Rice Intensification - 中国水稻强化栽培技术的研究. Chinese Agricultural Science Bulletin - 中国农学通报 10-17. doi:CNKI:SUN:ZNTB.0.2011-05-004

Zhu, Yongchuan, Hong Xiong, Fuxian Xu, XiaoYi Guo, and Lin Zhang. 2011. Research on system of rice intensification (SRI) technology in China- 中国水稻强化栽培技术的研究. Agricultural Science & Technology - 农业科学与技术 12(12): 1818-1825,1836.

2010 ARTICLES

Balakrishnan, T., and Vasanthakumar, J. 2010. Adoption of System of Rice Intensification (SRI) technology among farmers in Cuddalore district of Tamil Nadu. Journal of Global Communication 3(2): 62-65.

Bommayasamy, N., N. Ravisankar and T. Subramani. 2010. Influence of non-monetary inputs on growth and yield of rice (Oryza sativa) under system of rice intensification (SRI). Indian Journal of Agronomy 55(2): 95-99.

Chandrapala, A. G., M. Yakadri, R. Mahender Kumar and G. Bhupal Raj. 2010. Productivity and economics of rice (Oryza sativa)-maize (Zea mays) as influenced by methods of crop establishment, Zn and S application in rice. Indian Journal of Agronomy. 55(3): 171-176.

Chapagain, T. and E. Yamaji. 2010. The effects of irrigation method, age of seedling and spacing on crop performance, productivity and water-wise rice production in Japan. Paddy and Water Environment 8(1): 81-90. doi:10.1007/s10333-009-0187-5

Choudhary, R. L., D. Kumar, Y. S. Shivay, Lata, G. Singh and N. Singh. 2010. Performance of rice (Oryza saliva) hybrids grown by the system of rice intensification with plant growth-promoting rhizobacteria. Indian Journal of Agricultural Sciences 80(10):917-920.

De, Bibhas K. 2010. Employment and income generation in paddy cultivation through SRI in Tripura. Journal of Community Mobilization and Sustainable Development 5(2): 87-91.

• Gardjito, Budi Indra Setiawan, Arief Sabdo Yuwono, I Wayan Astika, and Tasuku Kato. 2010. Analysis on the productivity of organic rice farming in intensification (Analisis produktivitas pada intensifikasi budidaya padi organik). Jurnal Irigasi 5: 24-33. (English abstract only available through Perpustakaan Universitas Indonesia)

• Kaur, B., R. S. Sidhu, and K. Vatta. 2010. Optimal crop plans for sustainable water use in Punjab. Agricultural Economics Research Review 23(2): 273-284.

Kavitha, M. P., V. Ganesaraja, V.K. Paulpandi, and R. B. Subramanian. 2010. Effect of age of seedlings, weed management practices and humic acid application on system of rice intensification. Indian Journal of Agricultural Research 44(4): 294-299.

• Kokate, K. D., A. K. Singh and Lakhan Singh. 2010. Drought mitigation through knowledge advisory. Indian Research Journal of Extension Education 10(1): 1-7.

Lales, Jojee, Artemio Corpuz and Rolando Cruz. 2010. The comparison of system of rice intensification, leaf color chart-based nitrogen management, and growth stage-based nitrogen for yield and ROI. PJCS 35: 50-56.

Long, Xu, Renquan Wang, Yongjian Sun, Jun Ma, 龙旭, 汪仁全, et al. 2010. Characteristics of population development and yield formation of rice under triangle-planted System of Rice Intensification at different nitrogen Application amounts - 不同施氮量下三角形强化栽培水稻群体发育与产量形成特征. Chinese Journal of Rice Science - 中国水稻科学 24: 162-168. doi:10.3969/j.issn.1001-7216.2010.02.10

Karthikeyan, K., Jacob Sosamma, and S. M. Purushothaman. 2010. Incidence of insect pests and natural enemies under SRI method of rice cultivation ORYZA 47(2): 154-157

Kavitha, M. P., V. Ganesaraja, V. K. Paulpandi, and R. Bala Subramanian. 2010. Rhizosphere enzyme activities as influenced by age of seedlings, weed management practices and humic acid application under system of rice intensification. Indian Journal of Agricultural Research 45(2): 151-155.

• Manjunatha, B. N., R. Basavarajappa and B. T. Pujari. 2010. Effect of age of seedlings on growth, yield and water requirement by different system of rice intensification. Karnataka Journal of Agricultural Sciences 23: 231-234.

Manonmani, V. 2010. Quality seed production of paddy variety ADT 39 under system of rice intensification (SRI) method. Green Farming 1:161-162.

• Martín, Yoannis, F. Soto, Y. E. Rodríguez y R. Morejón. 2010. El Sistema Intensivo de Cultivo del Arroz (SICA) disminuye la cantidad de semillas para la siembra, aumenta los rendimientos agrícolas y ahorra el agua de riego. Cultivos Tropicales 31(1): 70-73.

Manzano, Virgilio Julius P., Masaru Mizoguchi, Shoichi Mitsuishi and Tetso Ito. 2010. IT field monitoring in a Japanese system of rice intensification (J-SRI). Paddy and Water Environment 9(2): 249-255. doi:10.1007/s10333-010-0226-2

Meyer, Rolf. 2010. Low-input intensification in agriculture. Chances for small-scale farmers in developing countries. Gaia-Ecological Perspectives for Science and Society 19: 263-268.

Mishra, A. and V. M. Salokhe. 2010. Flooding stress: The effects of planting pattern and water regime on root morphology, physiology and grain yield of rice. Journal of Agronomy and Crop Science 196(5): 368-378. doi:10.1111/j.1439-037X.2010.00421.x

Miyazato, Tetsuro, R. A. Mohammed, and R. C. Lazaro. 2009. Irrigation management transfer (IMT) and system of rice intensification (SRI) practice in the Philippines. Paddy and Water Environment 8(1): 91-97. doi:10.1007/s10333-009-0188-4

Mohanty, D. K., and M. K. Mohanty. 2010. Assessment of yield using cono weeder in SRI method of paddy cultivation. Agricultural Engineering Today 34(1): 21-24.

Pandiselvi, T., R. Veeraputhiran, V. Ganesaraja, J. P. Priya and B. J. Pandian. 2010. Productivity, water use efficiency and economics of system of rice intensification in Sivagangai district of Tamil Nadu. International Journal of Agricultural Sciences 6: 138-140.

Priya, J. P., R. Veeraputhiran, V. Ganesaraja, T. Pandiselvi and B. J. Pandian. 2010. Comparative study of system of rice intensification and conventional method of rice cultivation in Madurai district of Tamil Nadu. International Journal of Agricultural Sciences 6: 186-188.

Rathod, R. K., P. A. Munde, and R. G. Nadre. 2010. Development of tractor drawn inter-row rotary weeder. International Journal of Agricultural Engineering 3(1): 105-109.

Rathod, R. K., P. A. Munde, and R. G. Nadre. 2010. Performance evaluation of tractor drawn inter-raw rotary weeder. International Journal of Agricultural Engineering 3(1): 161-166.

Saha, Anuradha and Vijay Bharti. 2010. Effect of different crop establishment methods on growth, yield and economics of rice (Oryza sativa L.). Environmental Ecology 28(1B): 519-522.

Seenivasan, N., P. M. M. David and P. Vivekanandan. 2010. Population dynamics of rice nematodes under a System of Rice Intensification. Nematologia Mediterranea 38: 159-163.

Sharma, Yeena S. 2010. Influence of puddling intensity and organic amendments on performance of rice under System of Rice Intensification and conventional transplanting. Journal of Research, SKUAST-J 9(2): 215-222.

Singh, S. P. 2010. Ergonomical evaluation of cono-weeder with farm women. Agricultural Engineering Today 34(3): 31-36.

• Sooksa-Nguan, Thanwalee, Phrek Gypmantasiri, Nantakorn Boonkerd, Janice E. Thies, and Neung Teaumroong. 2012. Changes in bacterial community composition in the System of Rice Intensification (SRI) in Chiang Mai, Thailand. Microbes and Environments 23(3): 224-227. doi:10.1264/jsme2.ME09184

• Thakur, A. K., N. Uphoff and E. Antony. 2010. An assessment of physiological effects of System of Rice Intensification (SRI) practices compared with recommended rice cultivation practices in India. Experimental Agriculture 46:77-98. doi:10.1017/S0014479709990548

Thakur, A. K., S. Rath, S. Roychowdhury, and N. Uphoff. 2010. Comparative performance of rice with System of Rice Intensification (SRI) and conventional management using different plant spacings. Journal of Agronomy and Crop Science 196(2): 146-159. doi:10.1111/j.1439-037X.2009.00406.x

• Thakur, Amod K. 2010. Critiquing SRI criticism: beyond scepticism with empiricism. Current Science 98(10): 1294-1299 [Also available with through a subscription]

• Tsurui, Jun, Yamiji Eiji, and Sovannara Suk. 2010. Accepting System of Rice Intensification (SRI) by farmers in rainfed lowland paddy area of Cambodia. International Journal of Environmental and Rural Development 1-2: 129-135.

• Veeramani, P. 2010. Enhancement of mat nursery management and planting pattern (using rolling markers) in System of Rice Intensification (SRI) technique. Libyan Agriculture Research Center Journal International 1(5):279-283

Veeraputhiran, R., R. Balasubramanian, B. J. Pandian, G. Kalidasan, M. Chelladurai and V. Ganesaraja. 2010. Productivity, water use efficiency and economics of system of rice intensification in farmers' field of Southern Tamil Nadu. International Journal of Forestry and Crop Improvement 1(2):139-142. (not online)

Weijabhandara, D.M.D.I., G. S. Dasog, P. L. Patil, and Manjunath Hebbar. 2010. Effect of nutrient levels on rice (Oryza sativa L.) under System of Rice Intensification (SRI) and traditional methods of cultivation. Journal of the Indian Society of Soil Science 59: 67-73.

Sharma, Yeena S. 2010. Influence of puddling intensity and organic amendments on performance of rice under System of Rice Intensification and conventional transplanting. Journal of Research, SKUAST-J 9(2):215-222.

Zhao, Limei, L. Wu, Y. Li, S. Animesh, D. Zhu, and N. Uphoff. 2010. Comparisons of yield, water use efficiency, and soil microbial biomass as affected by the System of Rice Intensification. Communications in Soil Science and Plant Analysis 41(1): 1-12. doi:10.1080/00103620903360247

Zhu, Yongchuan, Hong Xiong, Fuxian Xu, Lin Zhang, Xiaoyi Guo, Xingbin Zhou, et al. 2010. Technical researches on System of Rice Intensification - 水稻强化栽培技术的研究. Hybrid Rice - 杂交水稻 359. doi:CNKI:SUN:ZJSD.0.2010-S1-075.

Zhu, Yongchuan, Hong Xiong, Fuxian Xu, Lin Zhang, Xiaoyi Guo, Xingbing Zhou, et al. 2010. Winter paddy field hybrid rice cultivation technology to strengthen research in the Eastern and Southern Districts of Sichuan Province - 川东南冬水田杂交中稻强化栽培技术研究. Chinese Agricultural Science Bulletin - 中国农学通报 151. doi: CNKI:SUN:ZNTB.0.2010-03-035

2009 ARTICLES

• Abeysiriwardena, D. S. de Z., W. M. W. Weerakoon and W. M. A. D. B. Wickramasinghe. 2009. System of Rice Intensification (SRI) as a method of stand establishment in rice. American-Eurasian Journal of Agricultural and Environmental Science 5:189-195.

Babou, C., G. Poyyamoli and B. Guna. 2009. Impact of LEISA based system of rice intensification (SRI) practices on rice grain yield and soil properties in rice-rice-rice cropping system in Puducherry region International Journal of Agricultural Sciences 5:43-45.

• Barah, B.C. 2009. Economic and ecological benefits of System of Rice Intensification (SRI) in Tamil Nadu. Agricultural Economics Research Review 22 (July-Dec. 2009): 209-214.

Chen, Chuanhua, Qunchang Luo, Yuanmeng Chen, Guanglin Liu, Xianbin Jiang, 陈传华, et al. 2009. Analysis on system of rice intensification (SRI) localization and dry matter production characteristics of high-quality rice - 优质稻SRI本土化研究及其物质生产特性分析. Guangxi Agricultural Sciences - 广西农业科学 40:1418-1423. doi:CNKI:SUN:GXNY.0.2009-11-007

Chen, Yu, Jun Ma, Ping Tong, Ping Zhu, Shuxing Li, Genqi Wang, et al. 2009. Effect of different fertilization application manners on physiological traits and grain yield under planting method of TSRI of older seedlings with 7 leaves - 氮肥运筹对大苗三角强化栽培水稻生理和产量的影响. Southwest China Journal of Agricultural Sciences - 西南农业学报 2:357-363. doi: CNKI:SUN:XNYX.0.2009-02-027

Farooq, M., N. Kobayashi, A. Wahid, O. Ito and S. M. A. Basra. 2009. Strategies for producing more rice with less water. Advances in Agronomy. 101:351-388. doi:10.1016/S0065-2113(08)00806-7

Ghosh, R. K., L. Sharma, S. Barman and A. K. Dolai. 2009. System of intensification: The alternate approach for increasing production of field crops. Journal of Crop and Weed 5(2): 63-67.

Ginigaddara, G. A. S., and S. L. Ranamukhaarachchi. 2009. Effect of conventional, SRI and modified water management on growth, yield and water productivity of direct-seeded and transplanted rice in central Thailand. Australian Journal of Crop Science 3: 278-286.

• Hugar, A. Y., H. Chandrappa, H. M. Jayadeva, A. Sathish, and G. B. Mallikarjun. 2009. Comparative performance of different rice establishment methods in Bhadra command area. Karnataka Journal of Agricultural Sciences 22(5): 992-994.

Hugar, A. Y., H. Chandrappa, H. M. Jayadeva, A. Sathish, and G. B. Mallikarjun. 2009. Influence of different establishment methods on yield and economics of rice. Agricultural Science Digest 29(3): 202-205.

Hussain, A., M. A. Bhat, M. A. Ganai and T. Hussain. 2009. Comparative performance of system of rice intensification and conventional methods of rice cultivation under Kashmir valley conditions. Environmental Ecology 27: 399-402.

Jayadeva, H. M., T. K. P. Setty, M. T. Sanjay and G. B. Mallikarjuna. 2009. Studies on crop management practices for maintaining optimum tiller production under crop establishment techniques. Mysore Journal of Agricultural Sciences 43: 181-188.

Jayadeva, H. M., T. K. P. Setty, R. C. Gowda, R. Devendra, G. B. Mallikarjun and A. G. Bandi. 2009. Methane emission as influenced by different crop establishment techniques and organic manures. Agricultural Science Digest 29:241-245.

Jiang, Xinlu, Jiaguo Zheng, Zhongzhi Chi, Shulin He, Shaohua Wang, 姜心禄, et al. 2009. Study on nitrogen regulation of the System of Rice Intensification (SRI) of hybrid rice - 杂交中稻强化栽培的氮肥运筹研究. Southwest China Journal of Agricultural Sciences - 西南农业学报 22(4):996-1000. doi:CNKI:SUN:XNYX.0.2009-04-027

• Kediyal, Vijyendar. K., and Sandhya Dimri. 2009. Traditional methods of Rice Cultivation and SRI in Uttarakhand Hills. Asian Agri-History 13(4):293-306.

• Krishna, A., and N. K. Biradarpatil. 2009. Influence of seedling age and spacing on seed yield and quality of short duration rice under system of rice intensification cultivation. Karnataka Journal of Agricultural Sciences 22(1):53-55.

• Krishna, A., and N. K. Biradarpatil, K. Manjappa and B. B. Channappagoudar. 2009. Influence of methods of cultivation and nutrition on seed storability of BPT-5204 rice variety. Karnataka Journal of Agricultural Sciences 22:192-193.

Krishnamurthy, A. T., H. K. Basavaraju, V. B. S. Kumar and M. S. Nataraju. 2009. Training need assessment of extension functionaries of Chickmagalur district. Mysore Journal of Agricultural Science 43:518-521.

Latif, M. A., M. Y. Ali, M. R. Islam, M. A. Badshah and M. S. Hasan. 2009. Evaluation of management principles and performance of the System of Rice Intensification (SRI) in Bangladesh. Field Crops Research 114:255-262. doi:10.1016/j.fcr.2009.08.006

• Lin, X. Q., D. F. Zhu, H. Z. Chen, S. H. Cheng and N. Uphoff. 2009. Effect of plant density and nitrogen fertilizer rates on grain yield and nitrogen uptake of hybrid rice (Oryza sativa L.). Journal of Agricultural Biotechnology and Sustainable Development 1(2):044–053.

• Mahajan, Gulshan, and P. S. Sarao. 2009. Evaluation of System of Rice (Oryza sativa L.) Intensification (SRI) in irrigated agro-ecosystem of Punjab. Journal of Research ANGRAU 37(1&2):1-6.

Manjunatha, B. N., A. S. P. Patil, J. V. Gowda and V. Paramesh. 2009. Effect of different system of rice intensification on yield, water requirement and water use efficiency (WUE). Journal of Crop and Weed 5:310-312. [Abstract available for download, subscription required for article]

Manjunatha, B. N., A. S. Policepatil, K. N. Harsha and T. Ahmed. 2009. Effect of age of seedlings under different system of rice intensification (SRI). Journal of Crop and Weed 5:277-280.

Padmavathi, Ch., R. M. Kumar, L. V. S. Rao, K. Surekha, M. S. Prasad, V. R. Babu, et al. 2009. Influence of SRI method of rice cultivation on insect pest incidence and arthropod diversity. ORYZA 46(3): 227-230.

• Prasad, C. Shambu. 2009. Conversations on knowledge and democracy: Fables from SRI. Special Seminar (online journal) issue on 'Knowledge in Question,' May edition.

Radha, Y. K., Yella Reddy, G. Subba Rao, S. Ramesh Chandra and G. Kishore Babu. 2009. Water-saving rice production technologies in Krishna Western Delta Command of Andhra Pradesh – An economic analysis. Agricultural Economics Research Review 22: 397-400.

Shaik, Mohammad. 2009. Modern concepts of agricultural research: Ripples and options for conservation agriculture and resource use efficiency. Indian Journal of Agronomy 54:149-158.

Shekhar, J., B. S. Mankotia and S. P. Dev. 2009. Productivity and economics of rice (Oryza sativa) in system of rice intensification in North-Western Himalayas. Indian Journal of Agronomy 54:423-427.

Sooksa-nguan, T., J. E. Thies, P. Gypmantasiri, N. Boonkerd and N. Teaumroong. 2009. Effect of rice cultivation systems on nitrogen cycling and nitrifying bacterial community structure. Applied Soil Ecology 43:139-149. doi:10.1016/j.apsoil.2009.06.013

Stoop, W. A., A. Adam and A. Kassam. 2009. Comparing rice production systems: A challenge for agronomic research and for the dissemination of knowledge-intensive farming practices. Agricultural Water Management. 96:1491-1501. doi:10.1016/j.agwat.2009.06.022

Sumathi, A. and S. Mohandoss. 2009. Efficacy of RWC, LWP, Proline, LDR and transpiration rate as indices for selection against water deficit in SRI and conventional methods of rice planting. Madras Agricultural Journal 96(7-12):383-385. (not online)

Tang, Maoyan, Guisheng Cui, Shaoming Huang, Ronghua Lu, Kaiqiang Liu, 唐茂艳, et al. 2009. Study on the physiological performance and population development of rice under the condition of no-tillage intensified cultivation - 免耕强化栽培条件下水稻生理及群体发育的研究. Journal of Anhui Agricultural Sciences - 安徽农业科学 doi:CNKI:SUN:AHNY.0.2009-32-044

Thakur, A. K., S. K. Chaudhari, R. Singh and A. Kumar. 2009. Performance of rice varieties at different spacing grown by the system of rice intensification in eastern India. Indian Journal of Agricultural Sciences 79:443-447.

Uphoff, N., and A. Kassam. 2009. System of Rice Intensification. Agriculture for Development 10-14.

Tsujimoto, Yashiro, Takeshi Horie, Hamon Randriamihary, Tatsuhiko Shiraiwa, and Koki Homma. 2009. Soil management: The key factors for higher productivity in the fields utilizing the system of rice intensification (SRI) in the central highland of Madagascar. Agricultural Systems 100(1-3):61-71. doi:10.1016/j.agsy.2009.01.001

Uphoff, N., I. Anas, O. P. Rupela, A. K. Thakur and T. M. Thiyagarajan. 2009. Learning about positive plant-microbial interactions from the System of Rice Intensification (SRI). Aspects of Applied Biology 98:29-53.

Wijebandara, D. M. D. I., G. S. Dasog, P. L. Patil and M. Hebbar. 2009. Effect of nutrient levels and biofertilizer on growth and yield of paddy under System of Rice Intensification (SRI) and conventional methods of cultivation. Tropical Agricultural Research 20:343-353.

• Wijebandara, D. M. D. I., G. S. Dasog, P. L. Patil and Manjunath Hebbar. 2009.Response of rice to nutrients and bio fertilizers under conventional and system of rice intensification methods of cultivation in Tungabhadra command of Karnataka. Karnataka Journal of Agricultural Sciences 22:741-750.

Zhao, Limei, Lianghuan Wu, Yongshan Li, Xinghua Lu, Defeng Zhu and Norman Uphoff. 2009. Influence of the System of Rice Intensification on rice yield and nitrogen and water use efficiency with different N application rates. Experimental Agriculture 45: 275–286. doi:10.1017/S0014479709007583

Zhao, Limei, Lianghuan Wu, Yongshan Li, Meiyan Wu, 赵利梅, 吴良欢, et al. 2009. Effects of the system of rice intensification on soil biological properties - 水稻强化栽培对稻田土壤生物学特性的影响. Acta Pedologica Sinica - 土壤学报 46:321-325. doi:CNKI:SUN:TRXB.0.2009-02-018

Zhao, Limei, Lianghuan Wu, Meiyan Wu, 赵利梅, 吴良欢 and 武美燕. 2009. Effects of SRI on rice yield,water productivity and NH3 volatilization from soil with different N application rates - 水稻强化栽培(SRI)及氮肥用量对产量、水分生产效率和稻田氨挥发的影响. Chinese Journal of Soil Science - 土壤通报 40:576-579. doi:CNKI:SUN:TRTB.0.2009-03-026

2008 ARTICLES

• Basavaraja, H., S. B. Mahajanashetti and P. Sivanagaraju. 2008. Technological change in paddy production: a comparative analysis of traditional and SRI methods of cultivation. Indian Journal of Agricultural Economics 63(4):629-640.

Borkar, L. S., V. S. Khawale, P. B. Raut, T. S. Patil and H. S. Kolte. 2008. Studies on spacing and nitrogen management under system of rice intensification (SRI). Journal of Soils and Crops 18:438-441.

Chen, Chuanhua, Qunchang Luo, Yuanmeng Chen, Xianbin Jiang, Xiaoyong Li, 陈传华, et al. 2008. A preliminary report on intensification system (SRI) localization of high quality rice - 优质稻SRI本土化研究试验初报. Seed - 种子 doi:CNKI:SUN:ZHZI.0.2008-01-017

Chen, Chuanhua, Qunchang Luo, Yuanmeng Chen, Xianbin Jiang, Guanglin Liu, 陈传华, et al. 2008. Planting density test on high quality rice intensification system (SRI) - 优质稻SRI适宜种植密度试验. Crops - 作物杂志 98-100. doi:CNKI:SUN:ZWZZ.0.2008-04-034

Din, M., P. S. Deshmukh, N. Ravisankar, R. C. Srivastava, S. G. Chaudhuri and M. Kumar. 2008. Influence of tillage and planting methods on productivity and energetic of rice (Oryza sativa) under island ecosystem. Indian Journal of Agricultural Sciences 78:702-705.

Jain, Alok and V. B. Upadhyay. 2008. Effect of planting geometry and age of seedlings on the performance of inbred and hybrid rice under system of rice intensification (SRI). Haryana Journal of Agronomy 24:16-18.

• Krishna, A., N. K. Biradarpatil, K. Manjappa and B. B. Channappagoudar. 2008. Evaluation of system of rice intensification cultivation, seedling age and spacing on seed yield and quality in Samba Masuhri (BPT-5204) rice. Karnataka Journal of Agricultural Sciences 21:20-25.

• Krishna, A., N. K. B. Patil and B. B. Channappagoudar. 2008. Influence of system of rice intensification (SRI) cultivation on seed yield and quality. Karnataka Journal of Agricultural Sciences 21:369-372.

• Mao, M., P. Tongdeelert and P. Chumjai. 2008. The adoption of the system of rice intensification (SRI) in Tram Kak District, Takeo Province, Cambodia: The case study of leading farmers. Kasetsart Journal, Social Sciences 29:303-316.

McDonald, A. J., P. R. Hobbs, and S. J. Riha. 2008. Stubborn facts: Still no evidence that the System of Rice Intensification out-yields best management practices (BMPs) beyond Madagascar. Field Crops Research108(2): 188-191. doi: 10.1016/j.fcr.2008.06.002

Menete, M. Z. L., H. M. van Es, R. M. L. Brito, S.D. DeGloria and S. Fambab. 2008. Evaluation of system of rice intensification (SRI) component practices and their synergies on salt-affected soils. Field Crops Research 109(1-3):34-44. doi:10.1016/j.fcr.2008.06.003

Mishra, A. and V. M. Salokhe. 2008. Seedling characteristics and the early growth of transplanted rice under different water regimes. Experimental Agriculture 44:365-383. doi:10.1017/S0014479708006388

Mrunalini, A., and M. Ganesh. 2008. Work load on women using cono weeder in SRI method of paddy cultivation. ORYZA 45(1):58-61.

Nemara, Regassa, Deborah Bossio, Parakrama Weligamage, and Indika Herath. 2008. The practice and effects of the System of Rice Intensification (SRI) in Sri Lanka. Quarterly Journal of International Agriculture 47(1): 5-23.

Orr, S., J. Sumberg, O. Erenstein and A. Oswald. 2008. Funding international agricultural research and the need to be noticed A case study of NERICA rice. Outlook on Agriculture 37:159-168. doi:10.5367/000000008785915449

• Prasad, C. Shambu. 2008. Learning alliances for poverty reduction. Capacity 33: 8-9 (Special issue on organizational learning). (This article is not online, although a later version (2010) is published on the Capacity.org website.)

• Rasolonjatovo, Fulgence. 2008. Diffusion du système de riziculture intensive par les écoles vertes en Isandra (Hautes Terres à Madagascar). Kabaro, revue internationale des Sciences de l’Homme et des Sociétés, Interethnicité et Interculturalité à l’île Maurice, IV (4-5): 143-152.

Rajendra Prasad, V. 2008. Evaluation of economic and yield sustainability in SRI cultivation of rice in Andhra Pradesh. Andhra Agricultural Journal 55(4):527-532.

• Rajeshwar, M. and M. A. A. Khan. 2008. Comparison of System of Rice Intensification (SRI) and conventional method of rice planting under Nagarjuna Sagar project left canal command area of Andhra Pradesh, India. Asian Journal of Soil Science 3:53-57.

Raju, R.A., and Ch. Sreenivas. 2008. Agronomic evaluation of system of rice intensification methods in Godavari delta. ORYZA 45(4): 280-283.

Reddy, Y. R., Tariq Sultan, Shijhat Hussain and S. S. Singh. 2008. Effect of age and number of seedlings per hill on growth and yield of rice grown under system of rice intensification and traditional methods. Environmental Ecology 26:859-861.

Senthilkumar, K., P. Bindraban and T. M. Thiyagarajan. 2008. Modified rice cultivation in Tamil Nadu, India: Yield gains and farmers’ (lack of) acceptance. Agricultural Systems 98:82-94.

Thakkar, H. 2008. Future water solutions for India. Development (London). 51:68-71. doi:10.1057/palgrave.development.1100463

Uphoff, N., A. Kassam and W. Stoop. 2008. A critical assessment of a desk study comparing crop production systems: The example of the 'system of rice intensification' versus 'best management practice'. Field Crops Research 108:109-114. doi:10.1016/j.fcr.2007.12.016

Yang, Xiangtian, Xianqing Lin, Xuhui Wang, Sanzhuo Luo, 杨祥田, 林贤青, et al. 2008. Effects of different transplanting patterns on grain yield and disease resistance of super hybrid rice - 超级稻不同移栽方式对产量及抗病性的影响. Acta Agriculturae Zhejiangensis 20:6-9. doi:CNKI:SUN:ZJNB.0.2008-01-003

Zhang, Jia, Biwu Xie, Chengxing Yan, Renjun Huang, Jianguo Tan, Chengduan Li, et al. 2008. Effects of fertilizer application on grain quality of hybrid rice under cultivation of System of Rice Intensification (SRI) - 强化栽培条件下施肥对杂交水稻主要米质性状的影响. Hybrid Rice - 杂交水稻 23:57-62. doi:CNKI:SUN:ZJSD.0.2008-03-025

Zonde, N. G., V. V. Goud, M. K. Rathod. 2008. System of Rice Intensification modified for Eastern Zone of Vidarbha. Annals of Plant Physiology 22:140-141.

2007 ARTICLES

Chen, Huizhe, Defeng Zhu, Lianghua Wu, Xia-qing Lin, Yuping Zhang. 2007. Effect of different fertilizer-N managements on nitrogen use efficiency of rice and soil microorganism under SRI. Chinese Journal of Soil Science 4(36). doi:CNKI:SUN:TRTB.0.2007-04-014

Choudhury, B. U., A. K. Singh, B. A. M. Bouma, and J. Prasad. 2007. System of Rice Intensification and irrigated transplanted rice: Effect on crop water productivity. Journal of the Indian Society of Soil Science 55(4): 464-470.
Haden, Van R. J. M. Duxbury, A. DiTommaso, and J. E. Losey. 2007. Weed community dynamics in the System of Rice Intensification (SRI) and the efficacy of mechanical cultivation and competitive rice cultivars for weed control in Indonesia. Journal of Sustainable Agriculture 30(4):5-26. doi: 10.1300/J064v30n04_03

• Hasan, Mohammad, and Shuichi Sato. 2007. Water saving for paddy cultivation under the System of Rice Intensification (SRI) in Eastern Indonesia. Jurnal Tanah dan Lingkungan 9(2): 57-62.

Li, Jingyong, Guanping Yu, Yongqun Tang, Yao Lu, Ming Wen, 李经勇, et al. 2007. Study on the increasing production domino effect of hybrid rice by different measures under the System of Rice Intensification (SRI) - 杂交水稻强化栽培措施的增产效应研究. South China Agriculture - 南方农业 doi:CNKI:ISSN:1673-890X.0.2007-01-002

Kabir, Humayun, and Norman Uphoff. 2007. Results of disseminating the System of Rice Intensification with Farmer Field School methods in northern Myanmar. Experimental Agriculture 43(4): 463-476.

Kumar, R. M., C. Padmavathi, K. Surekha, P. C. Latha, P. Krishnamurthy and S. P. Singh. 2007. Influence of organic nutrient sources on insect pests and economics of rice production in India. Indian Journal of Plant Protection 35: 264-267.

• Prasad, C. Shambu. 2007. Rethinking innovation and development: Insights from the System of Rice Intensification (SRI) in India. The Innovation Journal 12(2): 1-25 (article 3).

Reddy, G. K., M. Yakadri and Shaik Mohammad. 2007. Grain yield of cultivars as influenced by different spacing under SRI (System of Rice Intensification). Journal of Research ANGRAU 35: 74-77.

Sato, S. and N. Uphoff. 2007. A review of on-farm evaluations of system of rice intensification methods in Eastern Indonesia. CAB Reviews: Perspectives in Agriculture, Veterinary Science, Nutrition and Natural Resources. 2(54): 1-12.

Satyanarayana, A., T. M. Thiyagarajan and Norman Uphoff. 2007. Opportunities for water saving with higher yield from the system of rice intensification. Irrigation Science 25(2):99-11. doi:10.1007/s00271-006-0038-8

Sharma, P. K., and S. S. Masand. 2008. Evaluation of System of Rice Intensification in a high rainfall area of North-Western Himalayas. ORYZA 45(3): 206-211.

Sinha, S. K. and J. Talati. 2007. Productivity impacts of the system of rice intensification (SRI): A case study in West Bengal, India. Agricultural Water Management 87:55-60.

• Uphoff, N. 2007. Farmer innovations improving the System of Rice Intensification (SRI). Jurnal Ilmu Tanah & Lingkungan 9(2): 45-56.

Wang, Yuying, Bo Zhu, Chunsheng Hu, Yanqiang Wang, Xiumei Ma, 王玉英, et al. 2007. Methane emission from the system of rice intensification (SRI) in paddy field - 水稻强化栽培体系的CH_4排放特征. Ecology and Environment - 生态环境 16: 1276. doi:CNKI:SUN:TRYJ.0.2007-04-043

Wu, Zhaohui, Longping Yuan, Xianguo Qing, Guogui Ma, Xurang Xiong, 吴朝晖, et al. 2007. Effects of cultivation patterns on growth and yield of super hybrid rice and its analysis of grey correlation - 栽培方式对超级杂交稻生理特性和产量的影响及其灰色关联度分析. Journal of Hunan Agricultural University (Natural Sciences) - 湖南农业大学学报(自然科学版) 33: 379-385. doi:CNKI:SUN:HNND.0.2007-04-000

Xie, Biwu, Jia Zhang, Chengxing Yan, Renjun Huang, 谢必武, 张甲, et al. 2007. Structure and control on high yield population of Hybrid Rice D-you 3232 in System of Rice Intensification (SRI) - 强化栽培下杂交稻D优3232高产群体的构建与调控. Hubei Agricultural Sciences - 湖北农业科学 46: 200-201. doi:CNKI:ISSN:0439-8114.0.2007-02-015

Yadao, A. C. and O. B. Zamora. 2007. Responses of rice under the system of rice intensification and conventional production systems in Ilocos Norte, Philippines. Philippine Journal of Crop Science 32:99-107.

Yang, Xiangtian, Xianqing Lin, Xiaoyuan Zeng, Xuhui Wang, Shanzhuo Luo, 杨祥田, et al. 2007. Effect of nitrogen management on grain yield and nitrogen utilization under the System of Intensified Rice cultivation - 水稻强化栽培下不同氮肥管理对产量与氮素利用的影响. Chinese Journal of Soil Science - 土壤通报 38:463-466. doi:CNKI:ISSN:0564-3945.0.2007-03-009

Zhu, Defeng, Huizhe Chen, Xiufu Zhang, Xianqing Lin, Yuping Zhang, 朱德峰, et al. 2007. Evolvement of rice cropping system and planting zonation in Zhejiang province - 浙江水稻种植制的变化与种植区划. Acta Agriculturae Zhejiangensis - 浙江农业学报 19: 423-426. doi:CNKI:SUN:ZJNB.0.2007-06-006

2006 ARTICLES

Bindraban, P. S., H. Hengsdijk, W. Cao, Q. Shi, T. M. Thiyagarajan, W. Van der Krogt, et al. 2006. Transforming inundated rice cultivation. International Journal of Water Resources Development 22:87-100. doi:10.1080/07900620500405338

Ceesay, Mustapha C., William S. Reid, Erick C. M. Fernandes, and Norman T. Uphoff. 2006. The effects of repeated soil wetting and drying on lowland rice yield with System of Rice Intensification (SRI) methods. International Journal of Agricultural Sustainability 4(1):5–14.

Chen, Huizhe, Defeng Zhu, Longbing Rao, 陈惠哲, 朱德峰, 饶龙兵, et al. 2006. Effects of SRI technique on population quality after heading stage and yield formation in rice - 强化栽培对水稻后期群体质量及产量形成的影响. Journal of Huazhong Agricultural University - 华中农业大学学报(自然科学版) 25:483-487. doi:cnki:ISSN:1000-2421.0.2006-05-005

Chen, ShuiXiao, Guomian Xia, Jinxian Li, Jinyao Ying, Youjia Chen, 陈水校, et al. 2006. The effects of plant density on the yield of Yongyou6 using the System of Rice Intensification (SRI) - 甬优6号强化栽培不同密度对产量的影响. China Rice - 中国稻米 22. doi:cnki:ISSN:1006-8082.0.2006-05-012

Chen, Z., and S. T. Yen. 2006. Better technology, better plots, or better farmers? Identifying changes in productivity and risk among Malagasy rice farms: A comment. American Journal of Agricultural Economics 88:763-766.

Fan, Jun Chang, Jun Ma and Guoqiang Xue, 樊均长, 马均 and 薛国祥. 2006. Study on applying rice hull to control weeds in System of Rice Intensification - 水稻强化栽培中应用稻糠抑草的研究. Journal of Xichang College (Natural Science Edition) - 西昌学院学报(自然科学版). doi:cnki:ISSN:1008-4169.0.2006-01-004

Hua, Lin, Wu ChunZan, Chen AiLiu, Ding YuYun and Liao ChuanShuang. 2006. Yield-increasing mechanism of system of rice intensification (SRI) and its key techniques. Hybrid Rice 21:42-43.

• Li, Xiaoyun, Xiuli Xu, and He Li, 徐秀丽, 李小云 and 李鹤. 2006. A socio-economic assessment of the System of Rice Intensification (SRI): a case study from Xinsheng Village, Jianyang County, Sichuan Province - 水稻强化栽培体系的经济影响评估——来自四川省简阳市新胜村的案例研究. Chinese Rural Economy - 中国农村经济 13-22.

• Liang, Yingming, Xianqing Lin and Yongfei Sun, 梁尹明, 林贤青 and 孙永飞. 2006. Effects of different crop management on dry matter accumulation and plant type characteristics of rice (Oryza sativa L.) - 作物不同管理方式对水稻干物质积累与株型特性的影响. Acta Agriculturae Zhejiangensis - 浙江农业学报 18:82-85. doi:cnki:ISSN:1004-1524.0.2006-02-004

Lin, Hua, Chunzan Wu, Ailiu Chen, Yuyun Ding, Chuanshuang Liao, 林华, et al. 2006. Yield-increasing mechanism of system of rice intensification (SRI) and its key techniques - 水稻强化栽培增产机理及其关键技术. Hybrid Rice - 杂交水稻 21:42-43. doi:cnki:ISSN:1005-3956.0.2006-01-017

Lin, Xianqing, Weijun Zhou, Defeng Zhu, Huizhe Chen and Yuping Zhang. 2006. Nitrogen accumulation, remobilization and partitioning in rice (Oryza sativa L.) under an improved irrigation practice. Field Crops Research 96: 448-454. doi: 10.1016/j.fcr.2005.09.003.

Lu, Xiuming, Qing Huang and Huaizhen Liu, 陆秀明, 黄庆 and 刘怀珍. 2006. Research of some physiological characteristics under the System of Rice Intensification - 水稻强化栽培条件下植株的某些生理特性研究. Journal of South China Agricultural University - 华南农业大学学报(自然科学版) 27:5-7. doi:cnki:ISSN:1001-411X.0.2006-02-001.

Kumar, M. S., M. Yakadri and Shaik Mohammad. 2006. Evaluation of genotypic responses for system of rice intensification - a novel technology. Plant Archives 6:329-331.

Mankotia, B. S., J. Shekhar and S. C. Negi. 2006. Performance of rice in SRI (system of rice intensification), ICM (integrated crop management) and conventional transplanting methods with common date of transplanting in the mid hills of HP. Haryana Journal of Agronomy 22:68-70.

McDonald, A. J., P. R. Hobbs and S. J. Riha. 2006. Does the system of rice intensification outperform conventional best management? A synopsis of the empirical record. Field Crops Research 96:31-36.

Mishra, Abha, M. Whitten, J. W. Ketelaar and V. M. Salokhe. 2006. The System of Rice Intensification (SRI): A challenge for science, and an opportunity for farmer empowerment towards sustainable agriculture. International Journal of Agricultural Sustainability 41:193-212.

Moser, C. M., and C. B. Barrett. 2006. The complex dynamics of smallholder technology adoption: the case of SRI in Madagascar. Agricultural Economics 35:373-388.

Qian, Jianlong, Changyu Min and Jianping Zhang, 钱建龙, 闵昌宇 and 张建平. 2006. Study on the application of system of rice intensification - 水稻强化栽培技术(SRI)应用研究. Acta Agriculturae Shanghai - 上海农业学报 22:63-65. doi:cnki:ISSN:1000-3924.0.2006-01-015

Rahman, A. B. M. Z., M. A. Haque, M. A. Hoque, M. S. Pervin and Q. A. Alam. 2006. Evaluation of System of Rice Intensification (SRI) practice for boro rice cultivation in some selected areas of Bangladesh. International Journal of Sustainable Agricultural Technology 2:24-27.

Randriamiharisoa, R., J. Barison and N. Uphoff. 2006. Soil biological contributions to the system of rice intensification. Biological Approaches to Sustainable Soil Systems 113:409-424.

Satyanarayana, A., T. M. Thiyagarajan and N. Uphoff. 2006. Opportunities for water saving with higher yield from the system of rice intensification. Irrigation Science 25:99-115. doi:10.1007/s00271-006-0038-8

Turner, B. L. 2006. Organic phosphorus in Madagascan rice soils. Geoderma 136:279-288.

Vijayakumar, M., S. Ramesh, B. Chandrasekaran and T. M. Thiyagarajan. 2006. Effect of System of Rice Intensification (SRI) practices on yield attributes, yield and water productivity of rice (Oryza Sativa L.). Research Journal of Agriculture and Biological Sciences 2(6): 236-242.

• Vijayakumar, M., S. Ramesh, N. K. Prabhakaran, P. Subbian and B. Chandrasekaran. 2006. Influence of system of rice intensification (SRI) practices on growth characters, days to flowering, growth analysis and labour productivity of rice. Asian Journal of Plant Sciences 5:984-989.

Wang, Renquan, Jun Ma, Ping Tong, Rongping Zhang, Yan Li, Tailu Fu, et al. 2006. Effects of planting method of Triangle of System of Rice Intensification (TSRI) on photosynthetic characteristics and formation of grain yield - 三角形强化栽培技术对水稻光合生理特性及产量形成的影响. Hybrid Rice - 杂交水稻 21:60-65. doi:cnki:ISSN:1005-3956.0.2006-06-025

Wang, Xuhui, Xiangtian Yang, Sanzhuo Luo, Guojuan Mao, Dongen Tao, 王旭辉, et al. 2006. Application of system of rice intensification (SRI) to single cropping rice in Taizhou, Zhejiang - 水稻强化栽培技术在台州单季水稻上的应用. Hybrid Rice - 杂交水稻 21:45-47. doi:cnki:ISSN:1005-3956.0.2006-01-018

Wang, Yuying, Bo Zhu, Yanqiang Wang, Meirong Gao and Xiumei Ma. 2006. N2O emission from paddy field under different rice planting modes. Wuhan University Journal of Natural Sciences - 武汉大学自然科学学报(英文版) 11:989-996. doi:cnki:ISSN:1007-1202.0.2006-04-038

Xu, Fuxian, Hong Xiong, Yongchuan Zhu, Guixiong Wang, 徐富贤, 熊洪, et al. 2006. Preliminary analysis of the hybrids with smaller panicle in the System of Rice Intensification - 杂交中稻小穗型组合适宜强化栽培的因素分析. Southwest China Journal of Agricultural Sciences - 西南农业学报 19:395-399. doi:cnki:ISSN:1001-4829.0.2006-03-011

2005 ARTICLES

He, Yang-Dong, and Ma Jun. 2005. Effect of different kinds of fertilizer on the yield and physical and chemical status of soil in SRI. Southwest China Journal of Agricultural Sciences 18:315-320.

• Horie, T., T. Shiraiwa, K. Homma, K. Katsura, S. Maeda and H. Yoshida. 2005. Can yields of lowland rice resume the increases that they showed in the 1980s? Plant Production Science 8:259-274.

Huang, Aiming, Zhijian Yao, Chunlong Yan, Guolin Li, 黄爱明, 姚志坚, et al. 2005. Improvement of the techniques of System of Rice Intensification and its application - 水稻强化栽培技术的改进与应用. Hybrid Rice - 杂交水稻 20:46-48. doi:cnki:ISSN:1005-3956.0.2005-06-022.

Islam, A. K. M. R., N. Islam, M. M. Hossain, K. M. R. Karim and K. M. Alam. 2005. Performance of growth contributing characters through spacing and variety under the system of rice intensification (SRI) technique. International Journal of Sustainable Agricultural Technology 1:21-29.

• Islam, M. S., G. J. U. Ahmed and A. W. Julfiquar. 2005. Effect of the system of rice intensification on hybrid rice performance and yield. International Rice Research Notes. 30:43-45.

• Latif, M. A., M. R. Islama, M. Y. Alia, and M. A. Saleque. 2005. Validation of the system of rice intensification (SRI) in Bangladesh. Field Crops Research 93(2-3):281–292. doi:10.1016/j.fcr.2004.10.005

Li, Jingyong, Guanping Yu, Yongqun Tang, Ming Wen, Yao Lu, Guangming Wang, et al. 2005. Study on the yield-increasing effects of different measures of the System of Rice Intensification (SRI) for Hybrid Rice - 杂交水稻强化栽培不同措施的增产效应研究. Journal of Southwest Agricultural University - 西南农业大学学报 doi:cnki:ISSN:1000-2642.0.2005-06-013

Lin, Xianqing, Weijun Zhou, Defeng Zhu and Yubing Zhang. 2005. Effect of SWD irrigation on photosynthesis and grain yield of rice (Oryza sativa L.). Field Crops Research 94: 67-75. doi:10.1016/j.fcr.2004.11.007

• Lin, Xianqing, Weijun Zhou, Defeng Zhu, Yuping Zhang, Guohua Yang, 林贤青, et al. 2005. Photosynthetic rate and water use efficiency of leaves at different positions during panicle initiation stage under the System of Rice Intensification (SRI) - 强化栽培下水稻穗分化期叶片光合速率与水分利用率的研究. Chinese Journal of Rice Science - 中国水稻科学 19:132-136. doi:cnki:ISSN:1001-7216.0.2005-02-007

Long, Xu, Jun Ma, Fengying Xu, Hezheng Wang, Qinglong Huang, Zhixiang Yuan, et al. 2005. Study on the seedling-age and planting density in SRI - 水稻强化栽培的适宜秧龄和栽植密度研究. Journal of Sichuan Agricultural University - 四川农业大学学报 373. doi:cnki:ISSN:1000-2650.0.2005-03-023

Lu, Yao, Jingyong Li, Jichun Wang, Yongqun Tang, Guanping Yu, 卢瑶, et al. 2005. Effects of SRI on dry matter production and grain yield of Yuyou 11 - 强化栽培对杂交水稻渝优11号干物质积累及其产量的影响. Southwest China Journal of Agricultural Sciences - 西南农业学报 18:719-723. doi:cnki:ISSN:1001-4829.0.2005-06-010

• Neung, T., S. N. Thanwalee, T. E. Janice and B. Nantakorn. 2005. Comparison of bacterial activities involved in nitrogen cycling between conventional rice cultivation and the system of rice intensification (SRI). Biological Nitrogen Fixation, Sustainable Agriculture and the Environment 41:322-322.

Panda, D. 2005. Chemistry of nitrogen transformation in submerged soil and scientific management of urea fertilizer for higher rice productivity. Journal of the Indian Society of Soil Science 53:500-513.

• Reddy, V. R., P. P. Reddy, M. S. Reddy and D. S. R. Raju. 2005. Water use efficiency: a study of system of rice intensification (SRI) adoption in Andhra Pradesh. Indian Journal of Agricultural Economics. 60:458-472.

• Sheehy, J. E., T. R. Sinclair and K. G. Cassman. 2005. Curiosities, nonsense, non-science and SRI. Field Crops Research 91:355-356.

Stoop, W. A. and A. H. Kassam. 2005. The SRI controversy: A response. Field Crops Research 91(2-3):357-360. doi:10.1016/j.fcr.2004.07.023

Vijayakumar, M., S. D. Sundar Singh, N. K. Prabhakaran, and T. M. Thiyagarajan. 2005. Effect of SRI (System of Rice Intensification) practices on the yield attributes, yield and water productivity of rice (Oryza sativa L.). Acta Agronomica Hungarica 52(4):399-408. doi: 10.1556/AAgr.52.2004.4.9

Xu, Fengying, Jun Ma, Hezheng Wang, Huiyuan Liu, Qinglong Huang, Wenbo Ma, et al. 2005. Rice quality under the cultivation of SRI - 水稻强化栽培下的稻米品质. Acta Agronomica Sinica - 作物学报 31:577-582. doi:cnki:ISSN:0496-3490.0.2005-05-007

Yu, Aiying, Zengqi Wu, Xianqing Lin, Guiping Zhu, Naidi Zhou, Donglian Chen, et al. 2005. Optimization of high-yield cultural practice under the System of Rice Intensification - 水稻强化栽培体系(SRI)优化配套技术探讨. Chinese Agricultural Science Bulletin - 中国农学通报 21:162-164. doi:cnki:ISSN:1000-6850.0.2005-07-050

Yuan, Qianhua, Bing Cao, Xinggui Lu, Kemin Yao, 袁潜华, 曹兵, et al. 2005. Yield formation characters of a hybrid rice variety under SRI cultivation and its ecological factors - 强化栽培水稻产量形成特点及其生态因素研究. Chinese Journal of Eco-Agriculture - 中国生态农业学报 13:75-78. doi:cnki:ISSN:1671-3990.0.2005-01-021

Zeng, Xiang, Yuzhu Zhang, Naimei Tu, Guoying Xiao, Lijun Zhou, Jianhong Xie, et al. 2005. Studies on roots and leaves characteristics of different populations under System of Rice Intensification after flowering stage in hybrid rice - 强化栽培条件下水稻不同群体生育后期的根叶特性研究. Chinese Agricultural Science Bulletin - 中国农学通报 21:193-196. doi:cnki:ISSN:1000-6850.0.2005-05-057

Zhou, Lijun, Xiang Zeng, Yunkai Liu, Xingxia Yang, Xinghuai Zhang, Jianhong Xie, et al. 2005. Demonstrative performance of sparse direct seeding SRI (System of Rice Intensification) of Liangyou Peijiu - 两优培九稀直播强化栽培技术示范表现. Hybrid Rice - 杂交水稻 20:46-48. doi:cnki:ISSN:1005-3956.0.2005-04-022

2004 ARTICLES

Barrett, Christopher B., Christine M. Moser, Oloro V. McHugh, and Joeli Barison. 2004. Better technology, better plots, or better farmers? Identifying changes in productivity and risk among Malagasy rice farmers. American Journal of Agricultural Economics 86(4): 869-888. doi:10.1017/S0014479709990548.

Doberman, A. 2004. A critical assessment of the system of rice intensification (SRI). Agricultural Systems 79(3):261-281. doi:10.1016/S0308-521X(03)00087-8

He, Yangdong, Jun Ma, Wanrong Wei, 贺阳冬, 马均 and 魏万蓉. 2004. Effect of different kinds of fertilizers on the yield and grain quality in the SRI - 不同肥料种类对水稻强化栽培产量及稻米品质的影响. Chinese Agricultural Science Bulletin - 中国农学通报 20:177-181. doi: cnki:ISSN:10006850.0.2004-06-056

He, Yingfei, Feng Jian, Shansheng Ou, Shaojun Huang, Li Lin, Yuexiu Chen, et al. 2004. Trial System of Rice Intensification (SRI) and its prospect in Guangxi - 水稻强化栽培体系及其在广西的应用前景初探. Guangxi Agricultural Science - 广西农业科学 doi:cnki:ISSN:1002-8161.0.2004-05-007.

Liang, Yingming, Xianqing Lin, Yongfei Sun, Defeng Zhu, Guoan Shi, 梁尹明, et al. 2004. Study on yield and its components of Xieyou 9308 under the System of Rice Intensification - 水稻强化栽培下协优9308的产量及穗粒结构研究. Chinese Agricultural Science Bulletin - 中国农学通报 20:84-86. doi:cnki:ISSN:1000-6850.0.2004-03-029.

• Lin, Xianqing, Weijun Zhou, Defeng Zhu, Yuping Zhang, 林贤青, 周伟军, et al. 2004. Effect of water management on photosynthetic rate and water use efficiency of leaves in paddy rice - 稻田水分管理方式对水稻光合速率和水分利用效率的影响. Chinese Journal of Rice Science - 中国水稻科学 18: 333-338. doi:cnki:ISSN:1001-7216.0.2004-04-008.

Liu, Huaizhen, Qing Huang, Xiuming Lu, and Jun Liu. 2004. The impact of SRI planning manner on tillering, panicle formation and panicle characteristics - 水稻强化栽培插植规格对茎蘖成穗和穗部性状影响的研究. Guangdong Agricultural Science - 广东农业科学(1): 12-15. [acquired 3/12/13]

Lu, Shihua, Guangjun Ren, Xiangzhong Zeng, Xuejun Liu, Fusuo Zhang, 吕世华, et al. 2004. Effect of different transplanting periods on the growth and yield of high-quality hybrid rice in the System of Rice Intensification - 不同移栽期对强化栽培优质杂交水稻生长及产量的影响研究. Chinese Journal of Eco-Agriculture - 中国生态农业学报 doi:cnki:ISSN:1671-3990.0.2004-02-043

Lu, Xiuming, Qing Huang, Liu Jun, Liu Huaizhen, 陆秀明, 黄庆, et al. 2004. Research of the experiment on the System of Rice Intensification - 水稻强化栽培试验研究. Journal of South China Agricultural University - 华南农业大学学报(自然科学版). 25:5-8.

• Sasaki, Ryouji. 2004. Characteristics and seedling establishment of rice nursling seedlings. Japan Agricultural Research Quarterly (JARQ) 38 (1): 7-13.

Series on SRI controversy in Nature:
- Surridge, C. (March 25, 2004) Rice cultivation: Feast or famine? Nature 428:360-361.
- Hengsdijk, H. and & P. Bindraban (June 24, 2004) Rice: Location is vital in crop management Nature 429: 803.
- Satyanarayana, A. (June 24, 2004) Rice, research and real life in the field. Nature 429: 803.

Sheehy, J. E., S. Peng, A. Dobermann, P. L. Mitchell, A. Ferrer, J. C. Yang, et al. 2004. Fantastic yields in the system of rice intensification: fact or fallacy? Field Crops Research 88:1-8.

• Sinclair, T. R., and K. G. Cassman. 2004. Agronomic UFOs. Field Crops Research. 88:9-10.

Tao, Shishun, and Jun Ma, 陶诗顺 and 马均. 2004. Studies on the yield structure characteristics of hybrid rice under the System of Rice Intensification (SRI) - 杂交水稻强化栽培穗粒结构特点研究. Hybrid Rice - 杂交水稻 19:39-41. doi:cnki:ISSN:1005-3956.0.2004-06-015

Wang, Yifan, Zhongpeng Min, Shougui Hou, Youfen Wang, Guangxing Yu, Riling Gao, et al. 2004. Discussions on System of Rice Intensification techniques - 水稻强化栽培技术体系的探讨(2). Reclamation and Rice Cultivation - 垦殖与稻作 doi:cnki:ISSN:1007-5003.0.2004-05-006.

Xu, Fuxian, Hong Xiong, Yongchuan Zhu and Guixiong Wang. 2004. Effect of System of Rice Intensification on grain plumpness in association with source-sink ratio in mid-season hybrid rice. Chinese Journal of Rice Science - 中国水稻科学 11:269-273. doi:cnki:ISSN:1672-6308.0.2004-Z1-008. http://www.ricescience.org/EN/abstract/abstract8798.shtml

Xu, Fuxian, Hong Xiong, Yongchuan Zhu, Rong Xie, Guixiong Wang, 徐富贤, et al. 2004. Effect of the System of Rice Intensification on grain plumpness in association with ratio of source to sink in mid-season hybrid rice - 强化栽培对杂交中稻籽粒充实度的影响及其与源库结构的关系. Chinese Journal of Rice Science - 中国水稻科学 18:522-526. doi:cnki:ISSN:1001-7216.0.2004-06-008

Yu, Aiying, Zengqi Wu, Guiping Zhu, Donglian Chen, Huiqin Zhang, Yunxian Ying, and Yimin Shen. 2004. Preliminary report of the System of Rice Intensification (SRI) experiment result in Xianju County - 仙居县水稻强化栽培试验示范结果初报. China Rice - 中国稻米 (5): 39-40.

Yu, Aiying, Guiping Zhu, Donglian Chen, Yimin Shen, Yunxian Ying, 俞爱英, et al. 2004. Effect of different transplanting seeding ages on grain yield in System of Rice Intensification (SRI) - 水稻强化栽培体系不同秧龄移栽对产量的影响. Hybrid Rice - 杂交水稻 19:53-54. doi:cnki:ISSN:1005-3956.0.2004-02-020.

Zhang, Wanli, Zaizhi Yang, and Tingchang Liao. 2004. Preliminary study on the application of System of Rice Intensification in Fenggang County - 凤冈县水稻强化栽培初探. Tillage and Cultivation - 耕作与栽培 (2): 39-40.

Zhang, Z., et. al. 2004. Effects of transplant age in System of Rice Intensification on rice yield and economic characteristics - 秧龄对强化栽培水稻产量及经济性状的影响. Journal of Zhejiang Agricultural Sciences – 浙江农业科学 (2): 78-79.

Zheng, Jiaguo, Xianjun Lu, Xinlu Jiang, Chongde Li, 郑家国, 陆贤军, et al. 2004. Testing modifications for the system of rice intensification (SRI) to achieve super-high-yield in the Sichuan basin - 水稻强化栽培的引进创新与

四川盆地超高产的技术实践. Southwest China Journal of Agricultural Sciences - 西南农业学报 17:169-173. doi:cnki:ISSN:1001-4829.0.2004-02-009.

Zhu, GuiPing, AiYing Yu, PeiYan Zhang, ZeHua Zhou, YunXian Ying and DongLian Chen. 2004. A preliminary study on suitable transplanting density in system of rice intensification (SRI). Hybrid Rice 19:45-46.

2003 ARTICLES

Ao, H., Y. Zou, and Q. Tang. 2003. Study of SRI techniques for super hibrid rice - 超级杂交稻强化栽培技术研究. Tillage and Cultivation - 耕作与栽培 (2):12-13.

Chen, F., Z. Yan, B. Ge, T. Jin, H. Chen, J. You, and S. Shen. 2003. A study on the optimal fertilizer rate and unit transplants density for Liangyou 363 - 两优363最佳施肥量与栽插株数研究. Tillage and Cultivation - 耕作与栽培 (5): 15-17.

• Labonite, Marina A., Jose Labonite, and Severeno Salera. 2003. Yield response of Philippine Seed Board rice cultivars (PSC RC) to System of Rice Intensification (SRI) technology under irrigated alkaline soil condition. Kaplag 1(1): 30-36.

Li, L., Z. Yin, T. Lei, X. Peng, and Q. Tang. 2003. Preliminary report on the relationship between the transplant density of super rice seedlings and yield - 超级稻乳苗稀植不同密度与产量的关系初探. Hunan Agricultural Sciences – 湖南农业科学 (4): 34-35.

• Hossain, M. Z., S. M. A. Hossain, M. P. Anwar, M. R. A. Sarker and A. A. Mamun. 2003. Performance of BRRI Dhan 32 in SRI and conventional methods and their technology mixes. Pakistan Journal of Agronomy 2:195-200.

Lin, Xianqing, Defeng Zhu, Weijun Zhou, YuPing Zhang, 林贤青, 朱德峰, et al. 2003. Relationship between specific leaf weight and photosynthetic rate at panicle initiation stage in super hybrid rice - 超级杂交稻穗分化期叶片比叶重与光合速率的关系. Chinese Journal of Rice Science - 中国水稻科学 17:281-283. doi:CNKI:SUN:ZGSK.0.2003-03-018 (See English abstract)

Liu, Guohua, Liyun Chen, Yinghui Xiao, Wenbang Tang, Yidong Cai, Huabing Deng, et al. 2003. Comparison of the yield differences between rice hybrids under SRI and TCM - 杂交水稻强化栽培与常规栽培的组合间产量性状比较. Journal of Hunan Agricultural University - 湖南农业大学学报(自然科学版) 29:89-91. doi:cnki:ISSN:1007-1032.0.2003-02-001.

Lu, Chuangen, and Jiangshi Zou, 吕川根 and 邹江石. 2003. Comparative analysis on plant type of two super hybrid rice and Shanyou63 - 两个超级杂交稻与汕优63光合株型的比较分析. Scientia Agricultura Sinica - 中国农业科学 36: 633-639. doi:cnki:ISSN:0578-1752.0.2003-06-005

Mao, G. 2003. SRI and its future application in Zhejiang Province - SRI 及其在浙江的应用前景. China Rice – 中国稻米4: 10-11.

Moser, Christine M., and C. B. Barrett. 2003. The disappointing adoption dynamics of a yield-increasing, low external-input technology: The case of SRI in Madagascar. Agricultural Systems 76:1085-1100.

Peng, Jiming, and Xuehua Wang. 2003. Use of Chinese hybrid rice with modified SRI in Guinea. Hunan Agricultural Science & Technology Newsletter 4:13-15. doi:cnki:ISSN:1009-4229.0.2003-03-002

Tao, Shishun, and Jun Ma, 陶诗顺 and 马均. 2003. Improvement of the System of Rice Intensification(SRI) and its application in medium hybrid rice of the double cropping system - 水稻强化栽培体系在两熟制杂交中稻上的改进应用初探. Hybrid Rice - 杂交水稻 18:47-48. doi:cnki:ISSN:1005-3956.0.2003-04-018

Uphoff, N. 2003. Higher yields with fewer external inputs? The system of rice intensification and potential contributions to agricultural sustainability. International Journal of Agricultural Sustainability 1(1):38-50.

Wang, Shaohua, Weixing Cao, Yanfeng Ding, Yongchao Tian and Dong Jiang. 2003. Interactions of water management and nitrogen fertilizer on nitrogen absorption and utilization in rice. Agricultural Sciences in China 2:1091-1096. doi:cnki:ISSN:1671-2927.0.2003-10-004

• Wang, Shaohua, Weixing Cao, Dong Jiang, Tingbo Dai, Yan Zhu, 王绍华, et al. 2003. Effects of SRI technique on physiological characteristics and population development in rice - 水稻强化栽培对植株生理与群体发育的影响. Chinese Journal of Rice Science - 中国水稻科学 17(1):31-36. doi:cnki:ISSN:1001-7216.0.2003-01-006

Xiao, G. and P. Yuan. 2003. Preliminary report on the root-enhancing circular transplanting ridge system for super rice – 超级稻垄体环型健根稀植栽培法研究初报. Hunan Agricultural Sciences – 湖南农业科学 (4): 31-32.

Xu, Fengying, Jun Ma, Hezheng Wang, Huiyuan Liu, Qinglong Huang, Wenbo Ma, et al. 2003. The characteristics of roots and their relation to the formation of grain yield under the cultivation by System of Rice Intensification (SRI) - 强化栽培条件下水稻的根系特征及其与产量形成的关系. Hybrid Rice - 杂交水稻 18:61-65. doi:cnki:ISSN:1005-3956.0.2003-04-023

Yu, Haigen, Fangqian Zhu, Chaolin Wang, 余海根, 朱芳前 and 王朝林. 2003. A preliminary report of the application of the high- yielding techniques of SRI in single cropping hybrid rice - 单季杂交水稻强化栽培高产技术试验初报. Hybrid Rice - 杂交水稻 18:33-35. doi:cnki:ISSN:1005-3956.0.2003-06-014

Zheng, J. and X. Jiang. 2003. Intensification - the breakthrough technique for boosting rice yield - 水稻超高产的突破技术--强化栽培. Sichuan Grain and Oil Technology – 四川粮油科技 2: 8-9.

Zhong, Haiming, Aiming Huang, Jianping Liu, Jican Li, Fangbin Wu, Fengping Ouyang, et al. 2003. Analysis on the yield-increasing effect and economic benefits of the System of Rice Intensification (SRI) in hybrid rice - 杂交水稻强化栽培增产效果及经济效益分析. Hybrid Rice - 杂交水稻 18:45-46. doi:cnki:ISSN:1005-3956.0.2003-04-017

2002 ARTICLES

Stoop, W. A., N. Uphoff, and A. Kassam. 2002. A review of agricultural research issues raised by the system of rice intensification (SRI) from Madagascar: Opportunities for improving farming systems for resource-poor farmers. Agricultural Systems 71:249-274.

Tian, Yanhua, Jinyi Mou, Jun Ma, Nanshan Liang, Daiyin Liu, 田彦华, et al. 2002. A preliminary study on application of the System of Rice Intensification (SRI) in medium maturing hybrid rice - 杂交水稻中熟组合强化栽培体系(SRI) 研究初报. Hybrid Rice - 杂交水稻 17:34-35.doi:cnki:ISSN:1005-3956.0.2002-06-015

Uphoff, Norman T. 2002. System of Rice Intensification (SRI) for enhancing the production of land, labour and water. Journal of Agricultural Resource Management 1(1): 43-49. (not online)

Yan, Zongbu, Yu Gan, Saoshu Cao, Feng Chen, Biqing Ge, 严宗卜, et al. 2002. Culture test of high quality two-line hybrid rice Liangyou 363 under the System of Rice Intensification (SRI) - 优质杂交稻两优363强化(SRI)栽培试验. Guizhou Agricultural Sciences - 贵州农业科学 30:13-16. doi:cnki:ISSN:1001-3601.0.2002-06-005

2000-2001 ARTICLES

Lu, Shihua, Guangjun Ren, Xiangzong Zeng, Yingwei Ai, Xuejun Liu, Fusuo Zhang, et al. 2001. The growth and yield characteristics of high quality hybrid rice Xiangyou 1 under the system of rice Intensification (SRI) - 优质杂交水稻香优1号在强化栽培下的生长与产量表现. Southwest China Journal of Agricultural Sciences - 西南农业学报 doi:cnki:ISSN:1001-4829.0.2001-03-029.

Yuan, Longping. 2001. The System of Rice Intensification - 水稻强化栽培体系. Hybrid Rice - 杂交水稻 16:1-3. doi:cnki:ISSN:1005-3956.0.2001-04-000.

Yuan, Longping. 2000. Super hybrid rice. Chinese Rice Research Newsletter 8:13-15. doi:CNKI:SUN:SDKE.0.2000-01-012

1990-1999

• de Laulanié, Henri. 1993. article in Tropicultura 13:1. [An English translation of a longer technical paper by Laulanié is available from this website]

Uphoff, Norman. 1999. Agroecological implications of the System of Rice Intensification (SRI) in Madagascar. Environment, Development and Sustainability 1(3/4):297-313. doi:10.1023/A:1010043325776

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The SRI International Network and Resources Center (SRI-Rice) is supported by
Ohrstrom Foundation, The Bridging Peace Fund, Marguerite and Norman Uphoff, and Jim Carrey's Better U Foundation
Contact Us | SRI-Rice is associated with International Programs - CALS at Cornell University | ©2015

SRI International Network and Resources Center

About SRI

Countries and Regions

Information Resources

JOURNAL ARTICLES ABOUT THE SYSTEM OF RICE INTENSIFICATION (SRI)

2024 ARTICLES (• = free access)

2023 ARTICLES

2022 ARTICLES (• = free access)

2021 ARTICLES (• = free access)

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2000-2001 ARTICLES

1990-1999

Other Sources of Research information:

The SRI International Network and Resources Center (SRI-Rice) is supported by Ohrstrom Foundation, The Bridging Peace Fund, Marguerite and Norman Uphoff, and Jim Carrey's Better U Foundation Contact Us | SRI-Rice is associated with International Programs - CALS at Cornell University | ©2015

The SRI International Network and Resources Center (SRI-Rice) is supported by
Ohrstrom Foundation, The Bridging Peace Fund, Marguerite and Norman Uphoff, and Jim Carrey's Better U Foundation
Contact Us | SRI-Rice is associated with International Programs - CALS at Cornell University | ©2015