Author: Norman Uphoff
Title: Opportunities to Raise Agricultural Production with Water-Saving and with Climate-Change Resilience for Diverse Crops and CountriesOpportunities to Raise Agricultural Production with Water-Saving and with Climate-Change Resilience for Diverse Crops and Countries
Presented at: The Brown Bag Lunch with Foreign Agricultural Service, USDA
Date: November 6, 2017
Venue: FAS/USDA, Washington D.C.
Author: Norman Uphoff
Title: Opportunities to Raise Agricultural Production with Water-Saving and with Climate-Change Resilience for Diverse Crops and CountriesOpportunities to Raise Agricultural Production with Water-Saving and with Climate-Change Resilience for Diverse Crops and Countries
Presented at: The Brown Bag Lunch with Foreign Agricultural Service, USDA
Date: November 6, 2017
Venue: FAS/USDA, Washington D.C.
Authors: Amod K. Thakur and Norman Uphoff
Title: 1707 - Climate Smart agriculture: How modified crop/water management with SRI can contribute to climate-resilience and higher water productivity
Date: October 23-25, 2017
Presented at: 2017 Annual Meetings of ASA-CSSA-SSSA on ‘Managing Global Resources for a Secure Future
Venue: Tampa, Florida, USA
Author: Norman Uphoff
Title: Agroecological Management of Soil Systems for Food, Water, Climate Resilience, and Biodiversity
Date: December 6, 2019
Presented at: The Knowledge Dialogue on the Occasion of World Soil Day
Venue: United Nations, New York
Speaker: Norman Uphoff
Title: Agroecological Opportunities with the System of Rice Intensification (SRI) and the System of Crop Intensification (SCI)
Date: June 25, 2021
Venue: online, presented in the International Webinar Series on Agroecology and Community Series
Poster presentation at the 4th International Rice Congress
Authors: Nurul Hidayati, Triadiati, and Iswandi Anas
Sukmasakti, and Rahayu Widyastuti
Title: Root morphology and anatomy of rice plants cultivated under SRI
Venue: Bangkok International Trade and Exhibition Centre (BITEC), Bangkok, Thailand
Date: October 28-31, 2014
Title: Development of integrated rice-azolla-duck-fish farming systems with SRI methods for rice production in the Mekong River region, Vietnam
Presenter: Nghia Nguyen Soil Biology Laboratory, Department of Soil Science, College of Agriculture & Applied Biology, Cantho University, Cantho City, Vietnam
Venue: Cornell University
Date: July 1, 2015
Presented by: Norman Uphoff, CIIFAD, Cornell University, USA
Presented at: ECHO Conference on Asian Agriculture Chiangmai, Thailand
Presented on: September 21, 2009
Presented by: Norman Uphoff, CIIFAD, Cornell University, USA
Presented at: BioVision Alexandria 2010 New Life Sciences: Future Prospects
Date Presented: 04/14/2010
Authors: Amod K. Thakur, K.G. Mandal, R.K. Mohanty and S.K. Ambast
Title: Impacts of cultivation practices and water management in the post-vegetative stage on rice grain yield and water productivity
Presented at: 2017 International Annual Meetings of ASA-CSSA-SSSA on ‘Managing Global Resources for a Secure Future’
Date: October 22-25, 2017
Venue: Tampa, Florida
Speaker: Khidhir Abbas Hameed,
Al Mishkhab Rice Research Station
Title: System of Rice Intensification SRI
Date: December 9, 2020
Organizer: Central and West Asian Rice Center (CWA Rice)
Venue: online
Poster presentation at the 4th International Rice Congress
Authors: Nurul Hidayati, Triadiati, and Iswandi Anas
Title: Physiological and morphological changes in rice plants under SRI
Venue: Bangkok International Trade and Exhibition Centre (BITEC), Bangkok, Thailand
Date: October 28-31, 2014
Authors: Amod K. Thakur and Norman Uphoff
Title: 1707 - Climate Smart agriculture: How modified crop/water management with SRI can contribute to climate-resilience and higher water productivity
Date: October 23-25, 2017
Presented at: 2017 Annual Meetings of ASA-CSSA-SSSA on ‘Managing Global Resources for a Secure Future
Venue: Tampa, Florida, USA
Author: Norman Uphoff
Title: Agroecological Management of Soil Systems for Food, Water, Climate Resilience, and Biodiversity
Date: December 6, 2019
Presented at: The Knowledge Dialogue on the Occasion of World Soil Day
Venue: United Nations, New York
Speaker: Norman Uphoff
Title: Agroecological Opportunities with the System of Rice Intensification (SRI) and the System of Crop Intensification (SCI)
Date: June 25, 2021
Venue: online, presented in the International Webinar Series on Agroecology and Community Series
Poster presentation at the 4th International Rice Congress
Authors: Nurul Hidayati, Triadiati, and Iswandi Anas
Sukmasakti, and Rahayu Widyastuti
Title: Root morphology and anatomy of rice plants cultivated under SRI
Venue: Bangkok International Trade and Exhibition Centre (BITEC), Bangkok, Thailand
Date: October 28-31, 2014
Title: Development of integrated rice-azolla-duck-fish farming systems with SRI methods for rice production in the Mekong River region, Vietnam
Presenter: Nghia Nguyen Soil Biology Laboratory, Department of Soil Science, College of Agriculture & Applied Biology, Cantho University, Cantho City, Vietnam
Venue: Cornell University
Date: July 1, 2015
Presented by: Norman Uphoff, CIIFAD, Cornell University, USA
Presented at: ECHO Conference on Asian Agriculture Chiangmai, Thailand
Presented on: September 21, 2009
Presented by: Norman Uphoff, CIIFAD, Cornell University, USA
Presented at: BioVision Alexandria 2010 New Life Sciences: Future Prospects
Date Presented: 04/14/2010
Authors: Amod K. Thakur, K.G. Mandal, R.K. Mohanty and S.K. Ambast
Title: Impacts of cultivation practices and water management in the post-vegetative stage on rice grain yield and water productivity
Presented at: 2017 International Annual Meetings of ASA-CSSA-SSSA on ‘Managing Global Resources for a Secure Future’
Date: October 22-25, 2017
Venue: Tampa, Florida
Speaker: Khidhir Abbas Hameed,
Al Mishkhab Rice Research Station
Title: System of Rice Intensification SRI
Date: December 9, 2020
Organizer: Central and West Asian Rice Center (CWA Rice)
Venue: online
Poster presentation at the 4th International Rice Congress
Authors: Nurul Hidayati, Triadiati, and Iswandi Anas
Title: Physiological and morphological changes in rice plants under SRI
Venue: Bangkok International Trade and Exhibition Centre (BITEC), Bangkok, Thailand
Date: October 28-31, 2014
Presentation at the Workshop on Crop Production Equipment for the System of Rice Intensification (SRI)
Presenter: Sopheavy Ty: Oxfam, Cambodia
Title: Rice Dragon Weeder
Date: November 3, 2014
Venue: ACISAI, Asian Institute of Technology, Thailand
Presentation by Ngin Chhay, Director of the Department of Rice Crop, MAFF,
Presented at the Workshop on Consolidation of SRI Experiences, Lessons and Networking, a national SRI workshop convened in Hanoi, Vietnam, January 21-22, 2010
Presentation at the 4th International Rice Congress
Presenter: Erika Styger
Title: System of Rice Intensification Research - A Review: 1993-2013
Venue: Bangkok International Trade and Exhibition Centre (BITEC), Bangkok, Thailand
Date: October 31, 2014
Author: Norman Uphoff
Title: Improving Food Production for Health in a Water-Constrained World: Opportunities from Agroecological Knowledge and Experience (SRI)
Presented at: Water for Health Lecture Series, Nebraska Water Center
Date: February 24, 2016
PowerPoint presented Erika Styger at the First First Workshop on the System of Rice Intensification (SRI) in Latin America at EARTH University in Costa Rica, Oct. 31-Nov. 1, 2011
Presented by: Norman Uphoff, CIIFAD, Cornell University, USA
Presented at: 12th European Rice Millers Convention. Venice
Presented on: September 18, 2009
Authors: Febri Doni and Rizky Riscahya Pratama Syamsuri
Title: System of Rice Intensification in Indonesia: Research adoption and Opportunities
Presented at: The International Conference on System of Crop Intensification (SCI) for Climate-Smart Livelihood and Nutritional Security
Date: December 12-14, 2022
Venue: ICAR, Hyderabad, India
Author: Bancy Mati
Title: Improving Rice Production and Saving Water in Africa
Presented at: The International Conference on System of Crop Intensification for Climate-Smart Livelihood and Nutritional Security (ICSCI22)
Date: December 12-14 2022
Venue: ICAR, Hyderabad, India
Author: Lucy Fisher
Title: Overview of the System of Rice Intensification SRI Around the World
Presented at: The International Conference on The System of Crop Intensification (ICSCI22)
Date: December 12, 2022
Author: Khidhir Abbas Hameed
Title: Estimated Water Savings, Yield and Income Benefits from Using SRI Methods in Iraq
Event: International Conference on System of Crop Intensification (ICSCI2022)
Date: December 12-14, 2022
(Partial slideset related to the System of Rice Intensification (SRI)
Presentation at COP26, Glasgow, Scotland
Date: November 2021
Presentation by: Ministereo Desarrollo Agropecuario, Panama
This is a presentation about the SRI activities of the LINKS program, Catalysing Economic Growth for Northern Nigeria, which is implemented by Tetra Tech International Development
Author: Tetra Tech International Development
Title: Reduced Methane Emissions Rice Production Project in Northern Nigerian with System of Rice Intensification (SRI)
Date: October 25, 2021
Author: Reinaldo Cardona
Instituto de Investigaciones Agrícolas del estado Portuguesa: UNEFA-Núcleo Portuguesa Universidad Nacional Experimental Politécnica de la Fuerza Armada
Date: 2017
Title: Sistema Intensivo del Cultivo del Arroz para la Producción y Sustentabilidad del Rubro
Author/Presenter: Karla Cordero Lara
Title: Towards a More Sustainable Rice Crop: System of Rice Intensification (SRI) Experience in Chilean Temperate Japonica Rice
Date: November 29-30, 2018
Presented at: The Third International Symposium on Rice Science in Global Health
Venue: Kyoto, Japan
Title: Proyecto IICA - MIDA/ Sistema Intensivo de Arroz (SRI) Evaluación del primer ensayo de validación realizado en coclé para enfrentar al Cambio Climático (alternativa) Localizada en el Sistema de Riego El Caño. Diciembre /2018 - Abril/ 2019 - Octubre/ 2019
Title: Smallholder Rice Production Practice and Equipment: What about the Women?
Presenter: Lucy Fisher
Venue: 2nd Global Sustainable Rice Conference and Exhibition
United Nations Conference Centre, Bangkok Thailand
Date: October 2, 2019
Author: Pascal Gbenou
Title: Rice cultivation in Africa: How traditional practices relate to modern opportunities
Date: June 26-29, 2019
Presented at: The International Rice Development Conference and Seminar on China-Africa Development
Location: Changsha, China
Authors: Christopher B. Barrett, Asad Islam, Abdul Malek, Deb Pakrashi, Ummul Ruthbah
Title: The Effects of Exposure Intensity on Technology Adoption and Gains: Experimental Evidence from Bangladesh on the System of Rice Intensification
Date: July 21, 2019
Presented at: USDA Multi-state Research Project NC-1034 annual research conference on
The Economics of Agricultural Technology & Innovation
Location: Atlanta, GA
Author: Bancy Mati
Title: Improving Productivity of Rice under Water Scarcity in Africa: The Case for the System of Rice Intensification
Date: June 26-29, 2019
Presented at: The International Rice Development Conference and Seminar on China-Africa Development
Location: Changsha, China
Author: Miguel Aguero
Title: SRI en Venezuela - Resena Historica de la Parcela 234
Venue: Online (webinar): Sistema Intensivo de Cultivo de Arroz (SRI) - Experiencia Venezuela
Date: February 15, 2019
Organized by: Inter-American Institute for Cooperation on Agriculture (IICA)
(Author: Nestlé)
Title: SRI en Venezuela - Informe Resultados SICA Parcela 75 Norte Verano Calabozo 2018
Venue: Online (webinar): Sistema Intensivo de Cultivo de Arroz (SRI) - Experiencia Venezuela
Date: February 15, 2019
Organized by: Inter-American Institute for Cooperation on Agriculture (IICA)
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0502 The System of Rice Intensification's Potential for Food Security in Cambodia Fact or Fallacy?
1. SRI’s Potential for Food Security in Cambodia: Fact or Fallacy? Ministry of Agriculture, Forestry and Fisheries Norman Uphoff, CIIFAD March 21, 2005
22. Plant Physical Structure and Light Intensity Distribution at Heading Stage (Tao et al., CNRRI, 2002)
23. Change of Leaf Area Index (LAI) during growth cycle (Zheng et al., SAAS, 2003)
24. Roots’ Oxygenation Ability with SRI vs. Conventionally-Grown Rice Research done at Nanjing Agricultural University, Wuxianggeng 9 variety (Wang et al. 2002)
25.
26. Mrs. Im Sarim (Takeo) with rice plant grown from single seed, using SRI methods and traditional variety -- yield of 6.72 t/ha
27. Tillering with SRI practices: single rice plant grown by Dr. Musliar Kasim (Andalas Univ. West Sumatra, Indonesia)
28. SRI field in Cuba – CFA Camilo Cienfuegos, Bahia Honda, 14 t/ha – Los Palacios 9 cv. -- 2003
29. SRI field in Sri Lanka – with many panicles having 400+ grains
30. Two rice fields in Sri Lanka -- same variety, same irrigation system, and same drought : conventional methods (left), SRI (right)
31.
32.
33. What Can Explain these Anomalies? Soil differences assessed in biological terms IRRI trial results with SRI – average 2.1 t/ha WHY? Soils at Los Banos have been in rice continuously rice for 30+ years – same root exudations reduce soil biodiversity They have been mostly kept flooded – anaerobic conditions change soil biota Huge amounts of agrochemicals have been added, affecting soil biota adversely
34. Roots of a single rice plant (MTU 1071) grown at Agricultural Research Station Maruteru, AP, India, kharif 2003
41. Roller-marker devised by Lakshmana Reddy, East Godavari, AP, India, to save time in transplanting operations; his yield in 2003-04 rabi season was 16.2 t/ha paddy (dry weight)
42. 4-row weeder designed by Gopal Swaminathan, Thanjavur, TN, India AERATE SOIL at same time weeds are removed/incorporated
44. Seeder Developed in Cuba Direct seeding will probably replace transplanting in future Essential principle is to avoid trauma to the young roots
45.
46.
47.
48. SRI Comes at Opportune Time Green Revolution is losing momentum Water scarcities are becoming more and more severe SRI concepts and practices are showing relevance to other crops : wheat, sugar cane, ragi, bajra, etc. SRI may show us the way to achieve “ post-modern agriculture ”
49. Liu Zhibin, Meishan Inst. of Science & Technology, in raised-bed,no-till SRI field with certified yield of 13.4 t/ha
50.
51. MEASURED DIFFERENCES IN GRAIN QUALITY Characteristic SRI (3 spacings) Conventional Diff. Paper by Prof. Ma Jun, Sichuan Agricultural University, presented at 10th conference on Theory and Practice for High-Quality, High-Yielding Rice in China, Haerbin, 8/2004 + 17.5 38.87 - 39.99 41.81 - 50.84 Head milled rice (%) + 16.1 41.54 - 51.46 53.58 - 54.41 Milled rice outturn (%) - 65.7 6.74 - 7.17 1.02 - 4.04 General chalkiness (%) - 30.7 39.89 - 41.07 23.62 - 32.47 Chalky kernels (%)
52.
Editor's Notes
Slides for presentation to national workshop on SRI, Ministry of Agriculture, Forestry and Fisheries, Phnom Penh, Cambodia, March 21, 2005.
This was the message which started presentation on SRI to the 10 th scientific meeting on the theory and practice of high-quality, high-yielding rice in China, held in Haerbin, August, 2004. This is a ‘bottom-line’ message summarizing what has been learned from SRI experience: the rice plant has much more potential for productivity than has been achieved because common practices constrain the expression of this potential.
Summary of main benefits from SRI seen in many countries now. Others are discussed, such as conservation of rice biodiversity, and resistance to abiotic stresses, in extra slides following those chosen for this presentation.
Summary of main benefits from SRI seen in many countries now. Others are discussed, such as conservation of rice biodiversity, and resistance to abiotic stresses, in extra slides following those chosen for this presentation.
Summary of main benefits from SRI seen in many countries now. Others are discussed, such as conservation of rice biodiversity, and resistance to abiotic stresses, in extra slides following those chosen for this presentation.
This field was harvested in March 2004 with representatives from the Department of Agriculture present to measure the yield. Picture provided by George Rakotondrabe, Landscape Development Interventions project, which has worked with Association Tefy Saina in spreading the use of SRI to reduce land pressures on the remaining rainforest areas.
The Center for Integrated Agricultural University in the College of Humanities and Development at China Agricultural University did a socioeconomic evaluation of SRI in August 2004. The village selected had only 7 SRI users least year, but 398 this year. The size of SRI plot had also increased 14-fold, with a very positive attitude in the village toward SRI, for reasons seen on the next slide.
2003 was a drought year. The regular rice methods gave one-third lower yield; average yield that year with SRI methods (for the 7 farmers who tried them) was about a 4% increase, with SRI producing almost 50% more than regular methods. That has spurred the spread of SRI. In 2004, with more normal weather, SRI increased another 15%. The water saving calculated is also an incentive. But the survey of farmers found that LABOR SAVING with SRI methods was the most attractive advantage in their opinion.
Picture provided by Dr. Zhu Defeng, China National Rice Research Institute, September 2004.
Two fields of rice growth with normal methods and the 3-S system. The phenotypical differences are evident, much as seen with SRI.
Seedlings are started in heated greenhouses when there is still snow on the ground.
This is a 3-S seedling in upper left, and a 3-S plant in lower right.
This is a brief historical background. Fr. de Laulanie came to Madagascar from France in 1961 and started working on improvement of rice opportunities for the people there. It was not even tried anywhere outside China until 1999 (Nanjing Agricultural University), but it is now spreading rapidly. Vietnam is the 21 st country where SRI results have been demonstrated and documented. The 19 th and 20 th were Mozambique and Senegal.
This picture was provided by Association Tefy Saina, showing Fr. de Laulanie the year before his death in 1995, at age 75.
These are the president and secretary of Association Tefy Saina, the NGO set up by Fr. de Laulanie, Sebastien, Justin and some other Malagasies in 1990 to promote SRI and rural development in Madagascar more generally.
This figure shows research findings from the China National Rice Research Institute, reported at the Sanya conference in April 2002 and published in the Proceedings. Two different rice varieties were used with SRI and conventional (CK) methods. The second responded more positively to the new methods in terms of leaf area and dry matter as measured at different elevations, but there was a very obvious difference in the phenotypes produced from the first variety's genome by changing cultivation methods from conventional to SRI. Both leaf area and dry matter were significantly increased by using SRI methods.
Figure from Sichuan Academy of Agricultural Sciences research on SRI, comparing leaf area of SRI rice with conventional rice, same variety and otherwise same growing conditions.
This figure from a report by Nanjing Agricultural University researchers to the Sanya conference, and reproduced from those proceedings, shows that the oxygenation ability of rice roots growing under SRI conditions are about double the ability, throughout the growth cycle, compared to the same variety grown under conventional conditions. At maturity, the SRI roots have still almost 3x the oxygenation ability of conventionally grown rice plants.
This is the most succinct statement of what SRI is all about.
Picture provided by Dr. Koma Yang Saing, director, Cambodian Center for the Study and Development of Agriculture (CEDAC), September 2004.
Picture provided by Dr. Rena Perez of SRI field in 2002 at the cooperative where SRI got its start in Cuba. This field gave yields of about 6 t/ha before. This cooperative has expanded from 2 ha to 20 ha in SRI.
Picture provided by Gamini Batuwitage, at the time Sr. Asst. Secretary of Agriculture, Sri Lanka, of SRI field that yielded 13 t/ha in 2000, the first year SRI was used in that country. Such performance got SRI started there..
This picture from Sri Lanka shows two fields having the same soil, climate and irrigation access, during a drought period. On the left, the rice grown with conventional practices, with continuous flooding from the time of transplanting, has a shallower root system that cannot withstand water stress. On the right, SRI rice receiving less water during its growth has deeper rooting, and thus it can continue to thrive during the drought. Farmers in Sri Lanka are coming to accept SRI in part because it reduces their risk of crop failure during drought.
This is the most succinct statement of what SRI is all about.
This is the most succinct statement of what SRI is all about.
Picture provided by Dr. P. V. Satyanarayana, the plant breeder who developed this very popular variety, which also responds very well to SRI practices.
These two rice plants are ‘twins,’ planted on the same day in the same nursery from the same seed bag. The one on the right was taken out at 9 days and transplanted into an SRI environment. The one on the left was kept in the flooded nursery until its 52 nd day, when it was taken out for transplanting (in Cuba, transplanting of commonly done between 50 and 55 DAP). The difference in root growth and tillering (5 vs. 42) is spectacular. We think this difference is at least in part attributable to the contributions of soil microorganisms producing phytohormones in the rhizosphere that benefit plant growth and performance.
These data were reported in Prof. Robert Randriamiharisoa's paper in the Sanya conference proceedings. They give the first direct evidence to support our thinking about the contribution of soil microbes to the super-yields achieved with SRI methods. The bacterium Azospirillum was studied as an "indicator species" presumably reflecting overall levels of microbial populations and activity in and around the plant roots. Somewhat surprisingly, there was no significant difference in Azospirillum populations in the rhizosphere. But there were huge differences in the counts of Azospirillum in the roots themselves according to soil types (clay vs. loam) and cultivation practices (traditional vs. SRI) and nutrient amendments (none vs. NPK vs. compost). NPK amendments with SRI produce very good results, a yield on clay soil five times higher than traditional methods with no amendments. But compost used with SRI gives a six times higher yield. The NPK increases Azospirillum (and other) populations, but most/much of the N that produced a 9 t/ha yield is coming from inorganic sources compared to the higher 10.5 t/ha yield with compost that depends entirely on organic N. On poorer soil, SRI methods do not have much effect, but when enriched with compost, even this poor soil can give a huge increase in production, attributable to the largest of the increases in microbial activity in the roots. At least, this is how we interpret these findings. Similar research should be repeated many times, with different soils, varieties and climates. We consider these findings significant because they mirror results we have seen in other carefully measured SRI results in Madagascar. Tragically, Prof. Randriamiharisoa, who initiated this work, passed away in August, 2004, so we will no longer have his acute intelligence and probing mind to advance these frontiers of knowledge.
SRI is often hard to accept because it does not depend on either of the two main strategies of the Green Revolution, not requiring any change in the rice variety used (genotype) or an increase in external inputs. The latter can be reduced.
SRI may contribute to a revised strategy for agricultural development in the 21 st century.
SRI defies usual logic – that to get more, you have to invest more. But “less” can produce “more,” for a number of different, but reinforcing reasons, well grounded in the scientific literature. USDA research by Kumar and associates (Proceedings of the National Academy of Sciences, US, 2004) shows how changed growing conditions in the root zone affects the expression of genes in leaf tissue cells, affecting senescence and disease resistance. This research gives clues for explaining how SRI practices produce different phenotypes.
Despite (or maybe because of) the positive feedback coming on SRI from many countries, there has been this year a small spate of journal articles critiquing (dismissing) SRI. These are respected agronomists who, however, are making these claims with little or no systematic, empirical evidence to support them. The FCR article relied on data from three small trials done in China, not following any protocol that we would recognize as proper SRI methodology. The Hunan trials had so much N fertilizer applied that the SRI rice lodged, something rare (because SRI should be done with little external fertilization and preferably with organic fertilizers). The researchers ignored the 4-5 years of research results from leading rice research institutions in China (CNRRI, CNHRRDC, SAAS, NAU, CAU) in making these unfounded claims. Fortunately, a growing number of excellent scientists in China and elsewhere are engaging with SRI so that soon the accumulation of scientifically-acceptable data will make these dismissive claims irrelevant. The growing use of SRI by farmers will be the final refutation.
This was developed in 2003 by Mr. L. Reddy, to replace the use of strings and sticks to mark lines for planting, or the use of a wooden “rake” that could mark lines when pulled across the paddy in two directions. This implement, which can be built for any spacing desired, enables farmers, after it is pulled across the paddy in one direction, to plant SRI seedlings in a 25x250 cm square pattern. It saves as lot of labor time for transplanting because only one pass is needed across the field, and this is wider than a rake could be. Even wider ones have been built. Mr. Reddy is a very innovative and successful SRI farmer, with a superb yield last rabi season, measured and reported by the Department of Extension in Andhra Pradesh.
Mr. Gopal Swaminthan, an educated farmer in the Cauvery Delta of Tamil Nadu, India, built this weeder which can cultivate four rows at a time, removing weeds and aerating the soil, cutting labor time for this operation by half or more. He has also devised an innovative system for crop establishment, suited to hot climates, called the Kadiramangalam system, described on our SRI home page (http://ciifad.cornell.edu/sri/)
Mr. Ariyaratna has 2 ha and thus found it difficult to manage the weeding of his SRI field himself. So he designed and built this weeder which he says enables him to weed his field in one day’s work. The cost of construction, with a Chinese motor attached, was $800. This could be lowered if the weeder were mass produced.
Built by Luis Romero, one of the most successful SRI farmers in Cuba, to plant germinated seeds at 40x40 cm spacing. The seeds are put in the respective bins and dropped at the bins rotate. For his field, Luis found that 40x40 cm was too wide, because of weed problems. He has built one for 30x30 cm now. His neighbor built a seeder with 12 bins, four times as wide, that can be pulled by oxen to further save labor. The important thing to know is that farmers are working on their own ways to reduce SRI labor requirements because they see the benefits of wide spacing, aerated soil, etc.
Yield is a simple, usually dramatic number to talk about, but it is less important than profitability (at which SRI excels) and factor productivity (SRI is the only innovation to raise the productivity of all four simultaneously, something that most economists would regard as impossible, because they expect always tradeoffs). By utilizing existing biological processes and potentials, SRI can break out of the usual constraint of zero-sum relations and diminishing returns. This makes it hard for many to understand and accept at first, but over the last few years, we have gained a still-incomplete but nevertheless reasonable understanding of SRI processes from experience, from controlled experiments, and from the literature. SRI is not magic. It is fully understandable and explainable within what is already known in the realms of plant physiology and genetics and soil biology and ecology.
Yield is a simple, usually dramatic number to talk about, but it is less important than profitability (at which SRI excels) and factor productivity (SRI is the only innovation to raise the productivity of all four simultaneously, something that most economists would regard as impossible, because they expect always tradeoffs). By utilizing existing biological processes and potentials, SRI can break out of the usual constraint of zero-sum relations and diminishing returns. This makes it hard for many to understand and accept at first, but over the last few years, we have gained a still-incomplete but nevertheless reasonable understanding of SRI processes from experience, from controlled experiments, and from the literature. SRI is not magic. It is fully understandable and explainable within what is already known in the realms of plant physiology and genetics and soil biology and ecology.
Yield is a simple, usually dramatic number to talk about, but it is less important than profitability (at which SRI excels) and factor productivity (SRI is the only innovation to raise the productivity of all four simultaneously, something that most economists would regard as impossible, because they expect always tradeoffs). By utilizing existing biological processes and potentials, SRI can break out of the usual constraint of zero-sum relations and diminishing returns. This makes it hard for many to understand and accept at first, but over the last few years, we have gained a still-incomplete but nevertheless reasonable understanding of SRI processes from experience, from controlled experiments, and from the literature. SRI is not magic. It is fully understandable and explainable within what is already known in the realms of plant physiology and genetics and soil biology and ecology.
This is a growing concern of many scientists, farmers, policy makers and citizens.
This is Liu Zhibin with a plot that was harvested just before my visit, with an official certificate for a yield of 13.4 t/ha. I was most interested in his experimentation with no-till methods and SRI.
The Paraboowa Farmers Association has a dozen ‘wild rice’ varieties that it can grow for marketing or for export. The rice is grown ‘organically’ so can get a premium price in overseas markets. 17 tons have been exported to Italy already. The farmers want to preserve these varieties for future generations, and SRI enables them to do this.l
Prof. Ma Jun in his paper to the Haerbin conference included data on rice quality that he had collected. They showed SRI rice grains (from three different spacings within the SRI range) to be clearly superior in two major respects to conventionally-grown grains (two spacings). A reduction in chalkiness makes the rice more palatable. An increase in outturn is a ‘bonus’ on top of the higher yields of paddy (unmilled) rice that farmers get with SRI methods. We have seen this kind of improvement in outturn rates in Cuba, India and Sri Lanka, about 15%. More research on other aspects of SRI grain quality should be done, including nutritional content.
Tefy Saina is more comfortable communicating in French language, though it can handle English. CIIFAD has worldwide contacts on SRI through the internet.