000			04146nab|a22006737a|4500
001			69594
003			MX-TxCIM
005			20251125113550.0
008			251124s2025||||xxu|||p|op||||00||0|eng|d
022			_a0011-183X
022			_a1435-0653 (Online)
024	8		_ahttps://doi.org/10.1002/csc2.70087
040			_aMX-TxCIM
041			_aeng
100	1		_aBhosale, S. _940665
245	1	0	_aOnerice breeding framework : _ban end-to-end system to develop better varieties faster
260			_aUnited States of America : _bJohn Wiley & Sons, _c2025.
500			_aPeer review
500			_aOpen access
520			_aBreeding in the Consultative Group on International Agricultural Research (CGIAR) system is an intricate process that integrates the contributions of market research, pre-breeding, breeding, breeding operations, and seed systems. Therefore, a well-defined framework is critical for the effective and efficient operation of a breeding program. The OneRice Breeding Framework developed at the International Rice Research Institute (IRRI) integrates these components, from initial market research to establish breeding goals, creating breeding strategies for improved product design and development, and swiftly testing and replacing products through effective seed systems. The framework represents a cutting-edge breeding approach that offers comprehensive guidance on harnessing modern tools and technologies, including genomic selection, speed breeding, sparse testing, and so on. Additionally, the framework outlines strategies for systematically integrating novel genetic variation into elite breeding programs through pre-breeding efforts. It is adaptable across different crops and is dynamic, allowing adjustments in the breeding program based on target objectives, resource availability, and tools. The OneRice Breeding Framework is a comprehensive end-to-end framework that integrates all the components to enhance genetic gains and develop and disseminate better products faster to address food, nutrition, and income security. Consequently, the OneRice Breeding Framework is the fundamental blueprint for modern rice (Oryza sativa) crop breeding.
546			_aText in English
597			_bAccelerated Breeding _dCGIAR Trust Fund _uhttps://hdl.handle.net/10568/175946 _aNutrition, health & food security _cGenetic Innovation
610	2		_aCentro Internacional de Mejoramiento de Maiz y Trigo (CIMMYT) _9978
610	2	0	_aInternational Institute of Tropical Agriculture (IITA) _95145
650		7	_aCrops _2AGROVOC _91069
650		7	_aPlant genetic resources _2AGROVOC _95955
650		7	_aGermplasm _2AGROVOC _91136
650		7	_aPre-breeding _2AGROVOC _927728
650		7	_aMarker-assisted selection _2AGROVOC _910737
650		7	_aSpeed breeding _2ÁGROVOC _929388
650		7	_aSeed systems _2AGROVOC _919811
650		7	_aMarket research _2AGROVOC _92744
650		0	_aGenetic gain _2AGROVOC _92091
650		7	_aGenetic variation _2AGROVOC _91129
650		7	_aFood security _2AGROVOC _91118
650		7	_aNutrition security _2AGROVOC _919010
650		7	_aRice _2AGROVOC _91243
700	1		_8001715696 _aPrakash, P.T. _gBreeding Modernization and Innovation Platform _938223
700	1		_aKadaru, S.B. _940666
700	1		_aHussain, W. _940667
700	1		_aDixit, S. _92966
700	1		_aAli, J. _932795
700	1		_aPlatten, J.D. _940668
700	1		_aIslam, M.R. _915552
700	1		_aSingh, V.K. _917854
700	1		_aMurori, R. _940669
700	1		_aNdayiragije, A. _940670
700	1		_aPanchbhai, A. _940671
700	1		_aNayak, S. _940672
700	1		_aDela Cruz, P. _940673
700	1		_aDemont, M. _920277
700	1		_aBartholomé, J. _939470
700	1		_8001712000 _aCovarrubias-Pazaran, G. _gFormerly Research & Partnership Program _gFormerly Excellence in Breeding _917249
700	1		_aCobb, J.N. _910028
700	1		_aBhardwaj, H. _940674
773	0		_dUnited States of America : John Wiley & Sons, 2025. _gv. 65, no. 3, e70087 _tCrop Science _x0011-183X _wG444244
856	4		_yOpen Access through DSpace _uhttps://hdl.handle.net/10883/36173
942			_cJA _n0 _2ddc
999			_c69594 _d69586