Breeding Bread-Making Wheat Varieties for Organic Farming Systems: The Need to Target Productivity, Robustness, Resource Use Efficiency and Grain Quality Traits

Agronomic protocols (rotation, tillage, fertilization and crop protection) commonly used in organic and conventional crop production differ significantly and there is evidence that modern varieties developed for conventional high-input farming systems do not have the combination of traits required f...

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Autores principales: Rempelos, Leonidas, Wang, Juan, Sufar, Enas Khalid, Almuayrifi, Mohammed Saleh Bady, Knutt, Daryl, Leifert, Halima, Leifert, Alice, Wilkinson, Andrew, Shotton, Peter, Hasanaliyeva, Gultekin, Bilsborrow, Paul, Wilcockson, Steve, Volakakis, Nikolaos, Markellou, Emilia, Zhao, Bingqiang, Jones, Stephen, Iversen, Per Ole, Leifert, Carlo
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2023
Materias:
Review
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10048768/
https://www.ncbi.nlm.nih.gov/pubmed/36981136
http://dx.doi.org/10.3390/foods12061209
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author Rempelos, Leonidas
Wang, Juan
Sufar, Enas Khalid
Almuayrifi, Mohammed Saleh Bady
Knutt, Daryl
Leifert, Halima
Leifert, Alice
Wilkinson, Andrew
Shotton, Peter
Hasanaliyeva, Gultekin
Bilsborrow, Paul
Wilcockson, Steve
Volakakis, Nikolaos
Markellou, Emilia
Zhao, Bingqiang
Jones, Stephen
Iversen, Per Ole
Leifert, Carlo
author_facet Rempelos, Leonidas
Wang, Juan
Sufar, Enas Khalid
Almuayrifi, Mohammed Saleh Bady
Knutt, Daryl
Leifert, Halima
Leifert, Alice
Wilkinson, Andrew
Shotton, Peter
Hasanaliyeva, Gultekin
Bilsborrow, Paul
Wilcockson, Steve
Volakakis, Nikolaos
Markellou, Emilia
Zhao, Bingqiang
Jones, Stephen
Iversen, Per Ole
Leifert, Carlo
author_sort Rempelos, Leonidas
collection PubMed
description Agronomic protocols (rotation, tillage, fertilization and crop protection) commonly used in organic and conventional crop production differ significantly and there is evidence that modern varieties developed for conventional high-input farming systems do not have the combination of traits required for optimum performance in organic farming systems. Specifically, there is evidence that prohibition on the use of water-soluble, mineral N, P and K fertilizers and synthetic pesticide inputs in organic farming results in a need to revise both breeding and selection protocols. For organic production systems, the focus needs to be on the following: (i) traits prioritized by organic farmers such as high nutrient use efficiency from organic fertilizer inputs, competitiveness against weeds, and pest and disease resistance, (ii) processing quality parameters defined by millers and bakers and (iii) nutritional quality parameters demanded by organic consumers. In this article, we review evidence from variety trials and factorial field experiments that (i) studied to what extent there is a need for organic farming focused breeding programs, (ii) investigated which traits/trait combinations should be targeted in these breeding programs and/or (iii) compared the performance of modern varieties developed for the conventional sector with traditional/older varieties favored by organic farmers and/or new varieties developed in organic farming focused breeding programs. Our review focuses on wheat because there have been organic and/or low-input farming focused wheat breeding programs for more than 20 years in Europe, which has allowed the performance of varieties/genotypes from organic/low-input and conventional farming focused breeding programs to be compared.
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spelling pubmed-100487682023-03-29 Breeding Bread-Making Wheat Varieties for Organic Farming Systems: The Need to Target Productivity, Robustness, Resource Use Efficiency and Grain Quality Traits Rempelos, Leonidas Wang, Juan Sufar, Enas Khalid Almuayrifi, Mohammed Saleh Bady Knutt, Daryl Leifert, Halima Leifert, Alice Wilkinson, Andrew Shotton, Peter Hasanaliyeva, Gultekin Bilsborrow, Paul Wilcockson, Steve Volakakis, Nikolaos Markellou, Emilia Zhao, Bingqiang Jones, Stephen Iversen, Per Ole Leifert, Carlo Foods Review Agronomic protocols (rotation, tillage, fertilization and crop protection) commonly used in organic and conventional crop production differ significantly and there is evidence that modern varieties developed for conventional high-input farming systems do not have the combination of traits required for optimum performance in organic farming systems. Specifically, there is evidence that prohibition on the use of water-soluble, mineral N, P and K fertilizers and synthetic pesticide inputs in organic farming results in a need to revise both breeding and selection protocols. For organic production systems, the focus needs to be on the following: (i) traits prioritized by organic farmers such as high nutrient use efficiency from organic fertilizer inputs, competitiveness against weeds, and pest and disease resistance, (ii) processing quality parameters defined by millers and bakers and (iii) nutritional quality parameters demanded by organic consumers. In this article, we review evidence from variety trials and factorial field experiments that (i) studied to what extent there is a need for organic farming focused breeding programs, (ii) investigated which traits/trait combinations should be targeted in these breeding programs and/or (iii) compared the performance of modern varieties developed for the conventional sector with traditional/older varieties favored by organic farmers and/or new varieties developed in organic farming focused breeding programs. Our review focuses on wheat because there have been organic and/or low-input farming focused wheat breeding programs for more than 20 years in Europe, which has allowed the performance of varieties/genotypes from organic/low-input and conventional farming focused breeding programs to be compared. MDPI 2023-03-13 /pmc/articles/PMC10048768/ /pubmed/36981136 http://dx.doi.org/10.3390/foods12061209 Text en © 2023 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Review
Rempelos, Leonidas
Wang, Juan
Sufar, Enas Khalid
Almuayrifi, Mohammed Saleh Bady
Knutt, Daryl
Leifert, Halima
Leifert, Alice
Wilkinson, Andrew
Shotton, Peter
Hasanaliyeva, Gultekin
Bilsborrow, Paul
Wilcockson, Steve
Volakakis, Nikolaos
Markellou, Emilia
Zhao, Bingqiang
Jones, Stephen
Iversen, Per Ole
Leifert, Carlo
Breeding Bread-Making Wheat Varieties for Organic Farming Systems: The Need to Target Productivity, Robustness, Resource Use Efficiency and Grain Quality Traits
title Breeding Bread-Making Wheat Varieties for Organic Farming Systems: The Need to Target Productivity, Robustness, Resource Use Efficiency and Grain Quality Traits
title_full Breeding Bread-Making Wheat Varieties for Organic Farming Systems: The Need to Target Productivity, Robustness, Resource Use Efficiency and Grain Quality Traits
title_fullStr Breeding Bread-Making Wheat Varieties for Organic Farming Systems: The Need to Target Productivity, Robustness, Resource Use Efficiency and Grain Quality Traits
title_full_unstemmed Breeding Bread-Making Wheat Varieties for Organic Farming Systems: The Need to Target Productivity, Robustness, Resource Use Efficiency and Grain Quality Traits
title_short Breeding Bread-Making Wheat Varieties for Organic Farming Systems: The Need to Target Productivity, Robustness, Resource Use Efficiency and Grain Quality Traits
title_sort breeding bread-making wheat varieties for organic farming systems: the need to target productivity, robustness, resource use efficiency and grain quality traits
topic Review
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10048768/
https://www.ncbi.nlm.nih.gov/pubmed/36981136
http://dx.doi.org/10.3390/foods12061209
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