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          Improving Resilience to Drought in Rice and Sorghum through Mutation Breeding

          Closed for Proposals

          Project Type

          Coordinated Research Project

          Project Code

          D23031

          CRP

          2127

          Approved Date

          13/02/2017

          Project Status

          Closed

          Start Date

          10/07/2017

          Expected End Date

          09/07/2021

          Completed Date

          20/04/2023

          Participating Countries

          Bangladesh, Brazil, China, Indonesia, India, Japan, Mali, Malaysia, Pakistan, Sudan, Viet Nam

          Description

          Drought is the most devastating abiotic stress factor worldwide affecting crop production and projected to worsen with anticipated climate change. It severely limits plant growth and development as well as agricultural characteristics resulting in reduction of crop yields. Improving drought tolerance in crops, to increase the efficiency of water use and to enhance agricultural water productivity under rain-fed conditions is among top priority for most countries. Among various agro-ecologies, Africa and South Asia are considered to be the most vulnerable to climate change and both have large numbers of poor populations constrained with meagre access to basic resources of water and productive land. Despite the fact that rice, maize, sorghum and wheat are grown in arid and semi-arid tropical areas of Africa and South Asia, the occurrence of drought stress is a frequent phenomenon across these areas in ?rice, maize, sorghum and wheat belts during growing season, particularly during the flowering to grain filling period.? Drought has been found to be one of the major environmental factors which limit both quantity and quality of rice, maize, sorghum and wheat production in Africa and South Asia. ?This CRP will focus on improving rice and sorghum to drought tolerance for current and future climate change scenarios. These two crops are essential staples in the diets of millions of impoverish and vulnerable populations, and therefore any attempt in increasing their yields under drought stress could have a major and positive impact in terms of food security and improved health and? income generation. Up to ten research contracts are expected to be awarded and five no-cost agreement holders from advanced laboratories and research institutes with recognized expertise in the targeted technologies will be invited to share their experience with the contract holders and contribute to the development and validation of the planned technical packages. In addition, it is foreseen that two technical contracts will be awarded for services in advanced areas such as screening methods development and advanced efficiency enhancing technologies and mutant characterization. Coordination and technical management will be handled by the scientific secretary in the Plant Breeding and Genetics Section.

          Objectives

          Improving drought resilience of rice and sorghum germplasm through induced mutation and development/adaptation of screening techniques for sustainable food security

          Specific Objectives

          To disseminate methods and guidelines to the broader plant breeding and research communities.

          To develop robust protocols for rapid advancement of generation, efficient screening of mutant populations for drought tolerance

          To generate drought tolerant rice and sorghum mutant germplasm

          To disseminate methods and guidelines to the broader plant breeding and research communities.

          To develop robust protocols for rapid advancement of generation, efficient screening of mutant populations for drought tolerance

          To generate drought tolerant rice and sorghum mutant germplasm

          Impact

          The CRP improved human capacity and improved drought resilience of rice and sorghum through induced mutation and development/adaptation of screening techniques that are expected to generate impact on sustainable food security, particularly drought affected countries.

          Relevance

          Improving the delivery of knowledge /experience for meeting resilience of climate change specifically drought stress.

          CRP Publications

          Frontiers in Plant Science
          Article
          2019
          Mutagenesis in Rice: The Basis for Breeding a New Super Plant

          Contact CRP Officer

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