PowerPoint by Erika Styger, SRI-Rice, Cornell University, New York, presented at the First Workshop on the System of Rice Intensification (SRI) in Latin America at EARTH University in Costa Rica, Oct. 31-Nov. 1, 2011
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
The document summarizes research on the System of Rice Intensification (SRI) being conducted in China and other countries. SRI is an alternative rice cultivation method that involves wider spacing of young seedlings, reduced water usage, and other practices. Studies have found SRI can lead to higher rice yields, improved grain quality, and reduced costs compared to conventional methods. Researchers are exploring different techniques to adapt SRI principles to local growing conditions. Overall, results suggest SRI has potential to increase rice productivity while reducing environmental impacts.
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
1. The System of Rice Intensification (SRI) is a resource-saving, high-yielding rice farming method that can meet the needs of increased land and water productivity, accessibility for poor farmers, environmental friendliness, pest and drought resistance, and profitability for farmers.
2. SRI practices such as young seedlings, wider spacing, and intermittent flooding have been shown to increase yields by 50-100% with 25-50% less water and 10-20% lower costs of production compared to conventional methods across multiple countries.
3. SRI also provides benefits like reduced methane emissions, greater pest and disease resistance, stronger resistance to stresses like lodging and drought, and improved grain quality.
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
Title: Conservation Agriculture and the System of Rice Intensification
Presented by: Erika Styger
Presented at: Special Exhibit/Event on Rice Production at Agritechnica
Venue and Date: Hannover, Germany November 15, 2013
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
The document summarizes research on the System of Rice Intensification (SRI) being conducted in China and other countries. SRI is an alternative rice cultivation method that involves wider spacing of young seedlings, reduced water usage, and other practices. Studies have found SRI can lead to higher rice yields, improved grain quality, and reduced costs compared to conventional methods. Researchers are exploring different techniques to adapt SRI principles to local growing conditions. Overall, results suggest SRI has potential to increase rice productivity while reducing environmental impacts.
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
1. The System of Rice Intensification (SRI) is a resource-saving, high-yielding rice farming method that can meet the needs of increased land and water productivity, accessibility for poor farmers, environmental friendliness, pest and drought resistance, and profitability for farmers.
2. SRI practices such as young seedlings, wider spacing, and intermittent flooding have been shown to increase yields by 50-100% with 25-50% less water and 10-20% lower costs of production compared to conventional methods across multiple countries.
3. SRI also provides benefits like reduced methane emissions, greater pest and disease resistance, stronger resistance to stresses like lodging and drought, and improved grain quality.
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
Title: Conservation Agriculture and the System of Rice Intensification
Presented by: Erika Styger
Presented at: Special Exhibit/Event on Rice Production at Agritechnica
Venue and Date: Hannover, Germany November 15, 2013
The document summarizes the experiences of the Decentralized Irrigation System Improvement Project in Eastern Indonesia (DISIMP) with introducing the System of Rice Intensification (SRI) method of paddy cultivation. SRI was introduced through DISIMP starting in 2002 and led to significant increases in yield compared to traditional methods, using 40% less water. Key lessons from DISIMP's experience include that SRI can substantially increase productivity with lower input costs and water usage, though it requires more labor; and for successful adoption, technical support is needed from experts and local government.
The document discusses participatory irrigation management lessons learned from projects in Indonesia. It summarizes that projects in eastern Indonesia improved irrigation systems and management, increasing yields and incomes. Water user associations were formed and successfully took over management. The System of Rice Intensification technique was introduced, reducing water and inputs while increasing yields by 50-100%. Its use is expanding rapidly in project areas.
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
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
Title: System of Rice Intensification (SRI): Opportunities for Liberia
By: Erika Styger, Director of Programs, SRI-Rice
Presented at: Agriculture Coordination Committee (ACC), Ministry of Agriculture, Monrovia, Liberia
Date: February 17, 2014
Presenter: Lin Xianqing, CNRRI
Workshop on the System of Rice Intensification, Exchanging Experience in
China, the Democratic People's Republic of Korea and Internationally, organized and
hosted by the China National Rice Research Institute (CNRRI), with support from The
Asia Foundation.
Hangzhou, China, February 28-March 2, 2010
Presented by: Norman Uphoff, CIIFAD, Cornell University, USA
Presented at: Panel on Climate Change and Rice Agriculture 3rd International Rice Congress, Hanoi, Vietnam
Presented on: 9 November 2010
PowerPoint presented by Fernando Neri, Bolivia, at the First Workshop on the System of Rice Intensification (SRI) in Latin America at EARTH University in Costa Rica, Oct. 31-Nov. 1, 2011
Implementer for the Southern Philippines Irrigation Sector Project (SPISP) of ADB, and the Lower Agusan Development Project (LADP) of the Japan Bank for International Cooperation
Subject Country: Philippines
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
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.
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
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: Improving and Scaling up the System of Rice Intensification in West Africa
Presented by: Erika Styger
Presented at: Third Africa Rice Congress
Venue and Date: Yaounde, Cameroon. October 21-24, 2013
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
The document discusses the evaluation and spread of the System of Rice Intensification (SRI) in Asia. It describes how SRI was developed in Madagascar in the 1980s and then spread to many other countries in Asia and other regions through trials conducted by various organizations starting in the late 1990s and 2000s. It provides details on SRI trials, evaluations and adoption in numerous countries in Asia, including China, Indonesia, Bangladesh, Cambodia, the Philippines, Sri Lanka, Nepal, Myanmar, Laos, Thailand and Vietnam. On average, SRI is shown to increase rice yields by 78% while reducing inputs such as water, fertilizer and costs of production.
La Unión Europea ha acordado un embargo petrolero contra Rusia en respuesta a la invasión de Ucrania. El embargo prohibirá las importaciones marítimas de petróleo ruso a la UE y pondrá fin a las entregas a través de oleoductos dentro de seis meses. Esta medida forma parte de un sexto paquete de sanciones de la UE destinadas a aumentar la presión económica sobre Rusia y privar al gobierno de Vladimir Putin de fondos para financiar la guerra.
The document proposes 6 tools to uncover insights on Taiwanese beliefs about rice to shape a campaign recommendation: 1) Ask important questions like Oprah, 2) Absorb information by soaking in details, 3) Immerse in the consumer experience, 4) Take an investigative journalistic approach, 5) Look for patterns creatively, 6) Organize insights into a cohesive plan harmonizing all elements. The goal is to understand declining rice consumption in Taiwan and increase it through an effective marketing strategy.
The document summarizes the experiences of the Decentralized Irrigation System Improvement Project in Eastern Indonesia (DISIMP) with introducing the System of Rice Intensification (SRI) method of paddy cultivation. SRI was introduced through DISIMP starting in 2002 and led to significant increases in yield compared to traditional methods, using 40% less water. Key lessons from DISIMP's experience include that SRI can substantially increase productivity with lower input costs and water usage, though it requires more labor; and for successful adoption, technical support is needed from experts and local government.
The document discusses participatory irrigation management lessons learned from projects in Indonesia. It summarizes that projects in eastern Indonesia improved irrigation systems and management, increasing yields and incomes. Water user associations were formed and successfully took over management. The System of Rice Intensification technique was introduced, reducing water and inputs while increasing yields by 50-100%. Its use is expanding rapidly in project areas.
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
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
Title: System of Rice Intensification (SRI): Opportunities for Liberia
By: Erika Styger, Director of Programs, SRI-Rice
Presented at: Agriculture Coordination Committee (ACC), Ministry of Agriculture, Monrovia, Liberia
Date: February 17, 2014
Presenter: Lin Xianqing, CNRRI
Workshop on the System of Rice Intensification, Exchanging Experience in
China, the Democratic People's Republic of Korea and Internationally, organized and
hosted by the China National Rice Research Institute (CNRRI), with support from The
Asia Foundation.
Hangzhou, China, February 28-March 2, 2010
Presented by: Norman Uphoff, CIIFAD, Cornell University, USA
Presented at: Panel on Climate Change and Rice Agriculture 3rd International Rice Congress, Hanoi, Vietnam
Presented on: 9 November 2010
PowerPoint presented by Fernando Neri, Bolivia, at the First Workshop on the System of Rice Intensification (SRI) in Latin America at EARTH University in Costa Rica, Oct. 31-Nov. 1, 2011
Implementer for the Southern Philippines Irrigation Sector Project (SPISP) of ADB, and the Lower Agusan Development Project (LADP) of the Japan Bank for International Cooperation
Subject Country: Philippines
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
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.
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
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: Improving and Scaling up the System of Rice Intensification in West Africa
Presented by: Erika Styger
Presented at: Third Africa Rice Congress
Venue and Date: Yaounde, Cameroon. October 21-24, 2013
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
The document discusses the evaluation and spread of the System of Rice Intensification (SRI) in Asia. It describes how SRI was developed in Madagascar in the 1980s and then spread to many other countries in Asia and other regions through trials conducted by various organizations starting in the late 1990s and 2000s. It provides details on SRI trials, evaluations and adoption in numerous countries in Asia, including China, Indonesia, Bangladesh, Cambodia, the Philippines, Sri Lanka, Nepal, Myanmar, Laos, Thailand and Vietnam. On average, SRI is shown to increase rice yields by 78% while reducing inputs such as water, fertilizer and costs of production.
La Unión Europea ha acordado un embargo petrolero contra Rusia en respuesta a la invasión de Ucrania. El embargo prohibirá las importaciones marítimas de petróleo ruso a la UE y pondrá fin a las entregas a través de oleoductos dentro de seis meses. Esta medida forma parte de un sexto paquete de sanciones de la UE destinadas a aumentar la presión económica sobre Rusia y privar al gobierno de Vladimir Putin de fondos para financiar la guerra.
The document proposes 6 tools to uncover insights on Taiwanese beliefs about rice to shape a campaign recommendation: 1) Ask important questions like Oprah, 2) Absorb information by soaking in details, 3) Immerse in the consumer experience, 4) Take an investigative journalistic approach, 5) Look for patterns creatively, 6) Organize insights into a cohesive plan harmonizing all elements. The goal is to understand declining rice consumption in Taiwan and increase it through an effective marketing strategy.
El documento describe la historia del Sistema Intensivo de Cultivo Arrocero (SICA) en América Latina. Llegó a Cuba en 2000 a través de correos electrónicos en inglés. Los primeros resultados en 2001 mostraron un 30% menos de ácaros y hongos, y mayores rendimientos. Ahora, después de varios años, el SICA sigue teniendo efectos positivos en Cuba, aunque todavía existen algunos problemas por resolver.
PowerPoint by Matthew Fisher-Post, Cornell University, New York, presented at the First Workshop on the System of Rice Intensification (SRI) in Latin America at EARTH University in Costa Rica, Oct. 31-Nov. 1, 2011
La revolución verde fue un período entre 1960 y 1990 cuando hubo un gran aumento en la productividad agrícola en países en desarrollo a través de la renovación de procesos agrícolas con nuevas máquinas e innovaciones en agroquímicos y fertilizantes. Norman Borlaug, considerado el padre de la Revolución Verde, ganó el Premio Nobel de la Paz en 1970 por su trabajo para aumentar la producción de alimentos.
Retail Visibility for "Special" Brand Rice, Ghana AfricaManav Shrivastav
This document proposes a point of sale branding campaign for the Viet Special rice brand in Ghana. It discusses the current situation of the brand having moderate visibility compared to competitors. It outlines challenges of unmapped retailers and a lack of previous trade marketing efforts. The proposal recommends a simple initial merchandising campaign covering 200 outlets to establish the brand's logo, packaging colors, and floral pattern. It provides examples of potential point of sale materials like signs, posters, banners, umbrellas, and uniforms to use at retailers. Finally, it discusses expanding the campaign using outdoor, digital, and mobile marketing channels.
Presenters: Norman Uphoff and Amir Kassam
Title: Agroecological Strategies for Regenerative, Climate-Smart Agriculture with examples from CA and SRI
Venue: World Bank, Washington, DC
Date: September 29, 2016
Sponsor: The 1818 Society and Agriculture Global Practice, World Bank, Washington, DC
This document was made as an assignment for the course of Economics.
This document was made by the help of several books and online portals. Thanks to the author of that resources.
SISTEMA EXPERTO PARA LA DETECCIÓN Y TRATAMIENTO DE PLAGAS & ENFERMEDADES EN ...Luis Vigo Portilla
Este documento presenta un proyecto de sistema experto para la detección y tratamiento de plagas y enfermedades en el cultivo de arroz en el valle de Jequetepeque en Perú. El proyecto está estructurado en dos partes: la primera describe los sistemas expertos y sus posibilidades de aplicación en la agricultura, mientras que la segunda parte presenta el desarrollo de un sistema experto específico para identificar y tratar plagas y enfermedades comunes que afectan el cultivo de arroz en la región, basado en
Slideshare es un sitio web gratuito donde los usuarios pueden subir presentaciones en PowerPoint u OpenOffice para compartirlas en línea. Los usuarios pueden crear una cuenta en Slideshare insertando su nombre de usuario, correo electrónico y contraseña. Una vez creada la cuenta, los usuarios pueden cargar presentaciones al sitio web eligiendo el archivo, agregando un título, descripción y categoría, y haciendo clic en "Publicar".
The document discusses the System of Rice Intensification (SRI), an agricultural method that can significantly increase rice yields without requiring additional inputs. SRI achieves this by changing the way plants, soil, water and nutrients are managed through practices like wider spacing of young seedlings, soil aeration, and use of organic matter. Research has found SRI can increase yields by 50-100% while reducing water use by 25-50% and not requiring chemicals. SRI utilizes the natural biological processes in soil and plants to induce a more productive phenotype from any rice variety.
The System of Rice Intensification (SRI) is an agricultural method developed in Madagascar in the 1980s that has led to increased rice yields. SRI involves transplanting young seedlings with wider spacing, reducing water levels, and increasing soil aeration. These practices promote increased root and soil biomass growth. Field trials show SRI can increase average rice yields by 50-100% with fewer inputs, while reducing costs, water use, and risks for farmers. SRI is now being adopted by farmers in over 30 countries in Asia, Africa, and Latin America.
The document summarizes the System of Rice Intensification (SRI), a methodology developed in Madagascar to increase rice productivity through changes in plant management practices. SRI involves transplanting young seedlings singly and wider spaced, with minimal flooding. This induces greater root growth and soil biological activity, resulting in more tillers, larger plants and roots, higher yields, and other benefits. Field trials in many countries found SRI yields 30-100% higher than conventional methods with less inputs, water, and sometimes higher profits for farmers. The methodology is still evolving and many questions remain, but offers opportunities to improve rice and possibly other crop production systems.
The document discusses the System of Rice Intensification (SRI), an agricultural method that indicates a path toward post-modern agriculture. SRI was developed in Madagascar in the 1980s and aims to produce more rice with less water and other inputs through changes in plant, soil, and water management rather than external inputs. The document summarizes evidence that SRI leads to higher yields, less water use, lower costs, and greater resilience compared to conventional rice production methods. SRI practices have now spread to over 38 countries across Asia, Africa, and Latin America.
Presented by: Norman Uphoff, CIIFAD, Cornell University, USA
Presented at: Rice Research and Training Institute, Kafr-el-Sheikh
Date Presented: 04/14/2010
The document summarizes the System of Rice Intensification (SRI) methodology for rice production. SRI aims to meet the needs of rice sector in the 21st century through higher yields, lower water use, lower costs, and greater resilience. It achieves this through growing younger seedlings spaced further apart with intermittent flooding. SRI has been shown to increase yields by 50-100% with 25-50% less water in many countries. It enhances soil quality and rice plant growth through improved soil aeration and organic matter.
The document discusses the System of Rice Intensification (SRI), which focuses on managing plants, soil, water and nutrients to induce greater root growth and nurture soil microbial communities. Key points include: SRI practices can lead to higher yields, reduced costs, and environmental benefits compared to conventional rice production. SRI performance may be due to enhanced soil microbial activity and biological nitrogen fixation, which are important for plant nutrition. Further research is needed to fully understand the impacts of SRI management on root and soil microbial dynamics.
The document summarizes the System of Rice Intensification (SRI), an agricultural method that has led to increased rice yields with fewer inputs. SRI involves transplanting young seedlings with wider spacing, reducing flooding of rice paddies, and promoting root and soil microbial growth. Farmers who have adopted SRI have seen rice yields double or more with lower costs, higher profits, and less need for water, fertilizer, and chemicals. SRI is now being practiced in over 30 countries and continues to spread as more farmers and researchers evaluate its methods and results.
The document summarizes the System of Rice Intensification (SRI) method of rice cultivation. SRI uses younger seedlings, wider spacing between plants, less flooding of fields, and other practices. It can significantly increase rice yields, often doubling average yields, while reducing water, seed, and other input needs. SRI goes against conventional agriculture wisdom but evidence shows it improves root and tiller growth, leading to higher productivity from existing rice varieties and genomes.
The document summarizes agroecology and the System of Rice Intensification (SRI) method. It discusses how SRI applies agroecological principles to improve rice growth and yields. Key points include: SRI transplants young seedlings with wide spacing to promote root and soil life; this produces larger root systems and healthier phenotypes with higher productivity. Field trials across Asia and Africa show SRI can increase yields by 50-100% while reducing water, seed and fertilizer needs.
Presented by: Norman Uphoff, CIIFAD, Cornell University, USA
Presented at: BioVision Alexandria 2010 New Life Sciences: Future Prospects
Date Presented: 04/15/2010
- The System of Rice Intensification (SRI) is a set of methods that changes how rice plants, soil, water, and nutrients are managed in order to increase rice productivity with fewer inputs and higher profitability.
- SRI methods promote greater root growth and increase the abundance and diversity of beneficial soil organisms by using younger seedlings, wider spacing between plants, reducing standing water in the soil, and adding organic matter. This allows the plants to achieve higher yields.
- Studies from over 20 countries have found SRI techniques can increase rice yields by 25-100% while reducing water use, costs, and greenhouse gas emissions compared to conventional methods. However, more research is still needed to fully understand S
The document discusses the System of Rice Intensification (SRI), an alternative rice growing methodology developed in Madagascar that can potentially increase rice production while benefiting poor farmers and the environment. SRI involves transplanting young seedlings with wide spacing in unsaturated, aerated soil and can double or triple yields compared to conventional methods using fewer inputs like water, seeds, and fertilizer. Field trials in multiple countries found SRI increased average yields from 2-7 tons/hectare compared to conventional methods. SRI principles aim to help rice plants achieve their genetic yield potential through improved soil and plant management practices tailored to local conditions.
Presented by: Norman Uphoff, CIIFAD, Cornell University, USA
Presented at: International Conference on Sustainable Development in the Context of Climate Change- Asian Institute of Technology
Presented on: September 24, 2009
The document summarizes the System of Rice Intensification (SRI), an agricultural method developed in Madagascar that has led to increased rice yields using fewer external inputs. SRI involves transplanting young seedlings with wide spacing, minimal flooding of fields, and frequent weeding. Using these techniques, farmers have observed increased tiller and root growth, larger panicles, higher grain weights, and yields that are on average twice as high as conventional methods while using 50% less water. SRI raises rice productivity and lowers costs, making it particularly beneficial for poor farmers and more environmentally sustainable. However, it requires different agricultural skills and practices that challenge conventional understanding of rice cultivation.
The document discusses the System of Rice Intensification (SRI), a method for growing rice that modifies standard practices to improve yields. SRI involves changing the management of plants, soil, water, and nutrients to support larger, more extensive root systems and promote soil biota. This agroecological management improves the growing environment and yields better rice phenotypes from any genotype using less water, seeds, and other inputs. SRI has led to increased yields of 50-100% or more in many countries along with other benefits like water savings, increased resistance to stresses, and reduced costs, methane emissions, and environmental impacts.
Similar to 1175 System of Rice Intensification (SRI)Sistema Intensivo de Cultivo Arrocero (SICA) (20)
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
This document summarizes research on using System of Rice Intensification (SRI) methods in Iraq to increase water savings and rice yields. The research found that using SRI with 3-day or 7-day intervals between irrigation used 50% and 72% less water than continuous submergence, and increased yields by 20% and 11% respectively. SRI with 3-day intervals also had the highest water productivity and net economic return, making it a promising strategy for Iraq's water-deficit conditions. The document recommends wider adoption of SRI through incentives, mechanization support, and collaboration with water user associations.
(Partial slideset related to the System of Rice Intensification (SRI)
Presentation at COP26, Glasgow, Scotland
Date: November 2021
Presentation by: Ministereo Desarrollo Agropecuario, Panama
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
Willem A. Stoop presents on ecological intensification lessons learned from the System of Rice Intensification (SRI). He discusses two approaches to intensification - conventional using modern varieties, dense planting, irrigation, and chemicals, and ecological using local varieties, low seeding rates, and organic inputs. SRI is presented as an example of an agro-ecological approach using practices like young seedlings, wide spacing, and alternate wetting and drying of soils. SRI results in increased growth, yields, and resilience through enhanced root and soil biology. However, SRI challenges conventional agricultural sciences' focus on increasing planting densities and fertilizer use over soil health and plant spacing.
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
1. African farmers today are more educated, connected, market-oriented, and aware of issues like climate change than previous generations. They are also more open to new ideas and collective action approaches.
2. Efforts to improve agriculture must consider rural-to-urban migration trends in Africa. While migration is driven by rural challenges, the younger generation remaining in rural areas is more educated and eager for progressive agriculture.
3. Things that should be avoided include mechanization tied to large-scale capital-intensive operations, land grabs, and agricultural models that turn farmers into laborers with no opportunity for management roles. Monoculture and large-scale foreign-owned farming should also be avoided.
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)
Author: Betsaida Soublette
Title: Sistema Intensivo de Cultivo de Arroz (SRI) - Experiencia Venezuela
Presented at: IICA webinar: Sistema Intensivo de Cultivo de Arroz (SRI) - Experiencia Venezuela
Organized by: Inter-American Institute for Cooperation on Agriculture (IICA)
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Letter and Document Automation for Bonterra Impact Management (fka Social Sol...Jeffrey Haguewood
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We believe integration and automation are essential to user experience and the promise of efficient work through technology. Automation is the critical ingredient to realizing that full vision. We develop integration products and services for Bonterra Case Management software to support the deployment of automations for a variety of use cases.
This video focuses on automated letter generation for Bonterra Impact Management using Google Workspace or Microsoft 365.
Interested in deploying letter generation automations for Bonterra Impact Management? Contact us at sales@sidekicksolutionsllc.com to discuss next steps.
HCL Notes und Domino Lizenzkostenreduzierung in der Welt von DLAUpanagenda
Webinar Recording: https://www.panagenda.com/webinars/hcl-notes-und-domino-lizenzkostenreduzierung-in-der-welt-von-dlau/
DLAU und die Lizenzen nach dem CCB- und CCX-Modell sind für viele in der HCL-Community seit letztem Jahr ein heißes Thema. Als Notes- oder Domino-Kunde haben Sie vielleicht mit unerwartet hohen Benutzerzahlen und Lizenzgebühren zu kämpfen. Sie fragen sich vielleicht, wie diese neue Art der Lizenzierung funktioniert und welchen Nutzen sie Ihnen bringt. Vor allem wollen Sie sicherlich Ihr Budget einhalten und Kosten sparen, wo immer möglich. Das verstehen wir und wir möchten Ihnen dabei helfen!
Wir erklären Ihnen, wie Sie häufige Konfigurationsprobleme lösen können, die dazu führen können, dass mehr Benutzer gezählt werden als nötig, und wie Sie überflüssige oder ungenutzte Konten identifizieren und entfernen können, um Geld zu sparen. Es gibt auch einige Ansätze, die zu unnötigen Ausgaben führen können, z. B. wenn ein Personendokument anstelle eines Mail-Ins für geteilte Mailboxen verwendet wird. Wir zeigen Ihnen solche Fälle und deren Lösungen. Und natürlich erklären wir Ihnen das neue Lizenzmodell.
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#MongoDB #VectorSearch #AI #SemanticSearch #TechInnovation #DataScience #LLM #MachineLearning #SearchTechnology
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5. Before 1999: Madagascar 1999/2000: China, Indonesia 2000/01: Bangladesh, Cuba, Laos, Cambodia, Gambia, India, Nepal, Myanmar, Philippines, Sierra Leone, Sri Lanka, Thailand 2002/03: Benin, Guinea, Moz., Peru 2004/05: Senegal, Pakistan, Vietnam 2006: Burkina Faso, Bhutan, Iran, Iraq, Zambia 2007: Afghanistan, Brazil, Mali 2008: Rwanda, Costa Rica, Ecuador, Egypt, Ghana, Japan 2009: Malaysia, Timor Leste 2010: Kenya, DPRK, Panama, Haiti 2011 : Korea, Taiwan 2011: Benefits of SRI management now validated in 44 countries of Asia, Africa, and Latin America
6. Bhutan Cuba Afghanistan Mali Cambodia – Rainfed SRI CON 3.6 t/ha SRI 9.5 t/ha CON 6.5 t/ha SRI 9.5 t/ha CON 5.6 t/ha SRI 9.3 t/ha CON: 5.5 t/ha SRI 9.1 t/ha CON: 1.8 t/ha SRI 4.0 t/ha
19. Faster growth - shorter crop cycle (10 days) Control SRI Plant development II SRI SRI Control Control
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25. Mahto Oraon, Gumla district, Jharkhand state, India, with SRI plant having 65 tillers (Khandagiri, 110-day variety) RAINFED SRI: Adapting SRI principals to rainfed rice and other crops 50,000 farmers in Myanmar 130,000 farmers in Cambodia Central eastern States India
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27. Sugarcane With SRI method Yields are by 20-50% improved 30% reduction in water use 25% reduction in chemical fertilizer Developed in India
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30. Muchas gracias! SRI farmers from the village of Donghoi, Timbuktu, Mali SRI-Rice : http://sririce.org Email : [email_address] , [email_address]
Editor's Notes
Vietnam: October 2011: Over 1 Mio farmers (70% women) applying SRI on > 185,000 hectares India: 2011: 250,000 farmers Cambodia : 2010: 130,000 farmers; yield increases between 30-150%, Ministry of Agriculture included SRI in national strategy in 2006, SRI Secretariat to coordinate and promote SRI
Picture sent by Prativa Sundaray, staff member with the NGO PRADAN which is introducing SRI in poor communities, especially tribal ones in Orissa, Jhakhand and West Bengal, even where there is no irrigation, adapting SRI concepts to rainfed conditions.