System of crop intensification for more productive, resource-conserving, climate-resilient, and sustainable agriculture: experience with diverse crops in varying agroecologies
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Anil Kumar Verma | Shiva Dhar | Norman Uphoff | Amir Kassam | Humayun Kabir | Sue Edwards | B. C. Barah | Debashish Sen | Tareke Berhe | D. Behera | A. Kassam | N. Uphoff | M. Fulford | H. Ibrahim | Soumi Banerjee | A. Verma | A. Sharif | E. Styger | S. Edwards | B. Gujja | A. Thakur | Soumik Banerjee | A. Tiwari | D. Sen | U. S. Natarajan | R. Khadka | H. Kabir | S. Dhar | Asif Sharif | Prabhakar Adhikari | Hailu Araya | Gerald Aruna | Arun Balamatti | P. Baskaran | Debaraj Behera | Parag Boruah | Mark Fulford | Biksham Gujja | Harouna Ibrahim | Ram B. Khadka | Y. S. Koma | Rena Perez | Gurpreet Singh | Erika Styger | A. K. Thakur | Anoop Tiwari | Gurpreet Singh | T. Berhe | B. Barah | U. Natarajan | A. Balamatti | H. Araya | G. Aruna | P. Baskaran | P. Adhikari | Parag Boruah | Y. Koma | R. Perez | P. Boruah
[1] M. L. Jat. Climate Change and Agriculture: Adaptation Strategies and Mitigation Opportunities for Food Security in South Asia and Latin America , 2016 .
[2] N. Uphoff,et al. Comparative performance of rice with System of Rice Intensification (SRI) and conventional management using different plant spacings. , 2010 .
[3] J. Diepart,et al. The contribution of multi-purpose farming to the food security of small-scale farmers: An agro-economic analysis in the lowland Mekong alluvial plain , 2015 .
[4] B. Abraham. The system of crop intensification: Agroecological innovations for improving agricultural production, food security, and resilience to climate change , 2014 .
[5] A. Vyas,et al. Comparing System of Wheat Intensification (SWI) with standard recommended practices in the northwestern plain zone of India , 2016 .
[6] A. Sharif,et al. Technical adaptations for mechanized SRI production to achieve water saving and increased profitability in Punjab, Pakistan , 2011, Paddy and Water Environment.
[7] V. Pangare. 5% Pit technology technical report, Purulia, West Bengal, India. Poverty-Focused Smallholder Water Management: an IWMI research project supported by DFID. Final report document 6 of 9 , 2003 .
[8] L. Bhatta. Effect of Crop Establishment Methods and Varieties on Tillering Habit, Growth Rate and Yield of Finger-Millet , 2017 .
[9] Hai-Ping Cheng,et al. Ascending Migration of Endophytic Rhizobia, from Roots to Leaves, inside Rice Plants and Assessment of Benefits to Rice Growth Physiology , 2005, Applied and Environmental Microbiology.
[10] Nimalan Arinaminpathy,et al. Understanding the incremental value of novel diagnostic tests for tuberculosis , 2015, Nature.
[11] F. DeClerck,et al. Examining multi-functionality for crop yield and ecosystem services in five systems of agroecological intensification , 2017 .
[12] S. Gliessman. Agroecology: The Ecology of Sustainable Food Systems , 2007 .
[13] R. Logtestijn,et al. A widespread plant-fungal-bacterial symbiosis promotes plant biodiversity, plant nutrition and seedling recruitment , 2015, The ISME Journal.
[14] N. Uphoff,et al. The system of crop intensification: reports from the field on improving agricultural production, food security, and resilience to climate change for multiple crops , 2014, Agriculture & Food Security.
[15] T. Friedrich,et al. Conservation Agriculture , 2023, Medicon Agriculture & Environmental Sciences.
[16] N. Uphoff,et al. AN ASSESSMENT OF PHYSIOLOGICAL EFFECTS OF SYSTEM OF RICE INTENSIFICATION (SRI) PRACTICES COMPARED WITH RECOMMENDED RICE CULTIVATION PRACTICES IN INDIA , 2009, Experimental Agriculture.
[17] Kevin D. Janni. Agroecological Innovations. Increasing Food Production with Participatory Development , 2003 .
[18] Jianliang Huang,et al. Improving Nitrogen Fertilization in Rice by Site-Specific N Management , 2011 .
[19] Rajbir Singh,et al. Enhancing water and cropping productivity through Integrated System of Rice Intensification (ISRI) with aquaculture and horticulture under rainfed conditions , 2015 .
[20] N. Uphoff,et al. A review of studies on SRI effects on beneficial organisms in rice soil rhizospheres , 2011, Paddy and Water Environment.
[21] S. Wani,et al. Evaluation of crop production systems based on locally available biological inputs , 2006 .
[22] M. Kleber,et al. The contentious nature of soil organic matter , 2015, Nature.
[23] N. Uphoff,et al. INFLUENCE OF THE SYSTEM OF RICE INTENSIFICATION ON RICE YIELD AND NITROGEN AND WATER USE EFFICIENCY WITH DIFFERENT N APPLICATION RATES , 2009, Experimental Agriculture.
[24] J. L. W. Rademaker,et al. The beneficial plant growth-promoting association of Rhizobium leguminosarum bv. trifolii with rice roots , 2001 .
[25] Miguel A. Altieri,et al. Agroecology: The Science Of Sustainable Agriculture, Second Edition , 1995 .
[26] M. Laing,et al. Achievements and gaps in tef productivity improvement practices in the marginal areas of Northern Ethiopia: implications for future research directions , 2017 .
[27] Technological and social dimensions of the Green Revolution: connecting pasts and futures , 2012 .
[28] E. Fernandes,et al. Rethinking agriculture for new opportunities. , 2002 .
[29] J. Diepart. Learning for resilience: Insights from Cambodia's rural communities , 2015 .
[30] Ashwani Kumar,et al. 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 , 2011, Paddy and Water Environment.
[31] Willem A. Stoop,et al. 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 , 2002 .
[32] A. Monti,et al. Managing a second‐generation crop portfolio through sustainable intensification: Examples from the USA and the EU , 2013 .
[33] Jianliang Huang,et al. Improving nitrogen fertilization in rice by sitespecific N management. A review , 2010, Agronomy for Sustainable Development.
[34] Willem A. Stoop,et al. Scientific Underpinnings of the System of Rice Intensification (SRI): What Is Known So Far? , 2016 .
[35] N. Uphoff. SRI: An agroecological strategy to meet multiple objectives with reduced reliance on inputs , 2017 .
[36] A. Kassam,et al. The spread of Conservation Agriculture: justification, sustainability and uptake , 2009 .
[37] Differential responses of system of rice intensification (SRI) and conventional flooded-rice management methods to applications of nitrogen fertilizer , 2013, Plant and Soil.
[38] N. Uphoff,et al. How the System of Rice Intensification Can Contribute to Climate‐Smart Agriculture , 2017 .
[39] N. Uphoff. Biological Approaches to Sustainable Soil Systems , 2006 .
[40] D. Kass,et al. Agroecology: The science of sustainable agriculture , 1996, Agroforestry Systems.
[41] J. Groot,et al. Complex agro-ecosystems for food security in a changing climate , 2012, Ecology and evolution.
[42] A. Kassam,et al. Conservation Agriculture: Global Prospects and Challenges , 2013 .
[43] J. Pretty,et al. Sustainable intensification in African agriculture , 2011 .
[44] J. Oard. Asian rice bowls: The returning crisis? , 1998 .
[45] N. Uphoff,et al. Rice yield and its relation to root growth and nutrient-use efficiency under SRI and conventional cultivation: an evaluation in Madagascar , 2011, Paddy and Water Environment.