Structuring an Efficient Organic Wheat Breeding Program

Our long-term goal is to develop wheat cultivars that will improve the profitability and competitiveness of organic producers in Nebraska and the Northern Great Plains. Our approach is to select in early generations for highly heritable traits that are needed for both organic and conventional produc...

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Published in:	Sustainability Vol. 3; no. 8; pp. 1190 - 1205
Main Authors:	Baenziger, P. Stephen, Salah, Ibrahim, Little, Richard S., Santra, Dipak K., Regassa, Teshome, Wang, Meng Yuan
Format:	Journal Article
Language:	English
Published:	Basel MDPI, Open Access Journal 01.08.2011 MDPI AG
Series:	Sustainability
Subjects:	conventional agriculture crop improvement Drought Economics genetics Genotype & phenotype organic agriculture plant breeding Sustainability Triticum aestivum Triticum aestivum L. United States > US Nebraska USA, Nebraska
ISSN:	2071-1050, 2071-1050
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Abstract	Our long-term goal is to develop wheat cultivars that will improve the profitability and competitiveness of organic producers in Nebraska and the Northern Great Plains. Our approach is to select in early generations for highly heritable traits that are needed for both organic and conventional production (another breeding goal), followed by a targeted organic breeding effort with testing at two organic locations (each in a different ecological region) beginning with the F6 generation. Yield analyses from replicated trials at two organic breeding sites and 7 conventional breeding sites from F6 through F12 nurseries revealed, using analyses of variance, biplots, and comparisons of selected lines that it is inappropriate to use data from conventional testing for making germplasm selections for organic production. Selecting and testing lines under organic production practices in different ecological regions was also needed and cultivar selections for organic production were different than those for conventional production. Modifications to this breeding protocol may include growing early generation bulks in an organic cropping system. In the future, our selection efforts should also focus on using state-of-the-art, non-transgenic breeding technologies (genomic selection, marker-assisted breeding, and high throughput phenotyping) to synergistically improve organic and conventional wheat breeding.
AbstractList	Our long-term goal is to develop wheat cultivars that will improve the profitability and competitiveness of organic producers in Nebraska and the Northern Great Plains. Our approach is to select in early generations for highly heritable traits that are needed for both organic and conventional production (another breeding goal), followed by a targeted organic breeding effort with testing at two organic locations (each in a different ecological region) beginning with the F6 generation. Yield analyses from replicated trials at two organic breeding sites and 7 conventional breeding sites from F6 through F12 nurseries revealed, using analyses of variance, biplots, and comparisons of selected lines that it is inappropriate to use data from conventional testing for making germplasm selections for organic production. Selecting and testing lines under organic production practices in different ecological regions was also needed and cultivar selections for organic production were different than those for conventional production. Modifications to this breeding protocol may include growing early generation bulks in an organic cropping system. In the future, our selection efforts should also focus on using state-of-the-art, non-transgenic breeding technologies (genomic selection, marker-assisted breeding, and high throughput phenotyping) to synergistically improve organic and conventional wheat breeding. Our long-term goal is to develop wheat cultivars that will improve the profitability and competitiveness of organic producers in Nebraska and the Northern Great Plains. Our approach is to select in early generations for highly heritable traits that are needed for both organic and conventional production (another breeding goal), followed by a targeted organic breeding effort with testing at two organic locations (each in a different ecological region) beginning with the F sub(6) generation. Yield analyses from replicated trials at two organic breeding sites and 7 conventional breeding sites from F sub(6) through F sub(12) nurseries revealed, using analyses of variance, biplots, and comparisons of selected lines that it is inappropriate to use data from conventional testing for making germplasm selections for organic production. Selecting and testing lines under organic production practices in different ecological regions was also needed and cultivar selections for organic production were different than those for conventional production. Modifications to this breeding protocol may include growing early generation bulks in an organic cropping system. In the future, our selection efforts should also focus on using state-of-the-art, non-transgenic breeding technologies (genomic selection, marker-assisted breeding, and high throughput phenotyping) to synergistically improve organic and conventional wheat breeding.
Author	Salah, Ibrahim Little, Richard S. Santra, Dipak K. Baenziger, P. Stephen Regassa, Teshome Wang, Meng Yuan
Author_xml	– sequence: 1 givenname: P. Stephen surname: Baenziger fullname: Baenziger, P. Stephen – sequence: 2 givenname: Ibrahim surname: Salah fullname: Salah, Ibrahim – sequence: 3 givenname: Richard S. surname: Little fullname: Little, Richard S. – sequence: 4 givenname: Dipak K. surname: Santra fullname: Santra, Dipak K. – sequence: 5 givenname: Teshome surname: Regassa fullname: Regassa, Teshome – sequence: 6 givenname: Meng Yuan surname: Wang fullname: Wang, Meng Yuan
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Title	Structuring an Efficient Organic Wheat Breeding Program
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