Long-Term In Situ Conservation Drove Microevolution of Solina d’Abruzzo Wheat on Adaptive, Agronomic and Qualitative Traits

Solina is an example of a bread wheat landrace that has been conserved in situ for centuries in Central Italy. A core collection of Solina lines sampled in areas at different altitudes and climatic conditions was obtained and genotyped. A clustering analysis based on a wide SNP dataset generated fro...

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Autores principales: Morcia, Caterina, De Flaviis, Riccardo, Terzi, Valeria, Gasparelli, Maria Eugenia, Ghizzoni, Roberta, Badeck, Franz-W., Rizza, Fulvia, Santarelli, Veronica, Tumino, Giorgio, Sacchetti, Giampiero
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2023
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10057728/
https://www.ncbi.nlm.nih.gov/pubmed/36986994
http://dx.doi.org/10.3390/plants12061306
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author Morcia, Caterina
De Flaviis, Riccardo
Terzi, Valeria
Gasparelli, Maria Eugenia
Ghizzoni, Roberta
Badeck, Franz-W.
Rizza, Fulvia
Santarelli, Veronica
Tumino, Giorgio
Sacchetti, Giampiero
author_facet Morcia, Caterina
De Flaviis, Riccardo
Terzi, Valeria
Gasparelli, Maria Eugenia
Ghizzoni, Roberta
Badeck, Franz-W.
Rizza, Fulvia
Santarelli, Veronica
Tumino, Giorgio
Sacchetti, Giampiero
author_sort Morcia, Caterina
collection PubMed
description Solina is an example of a bread wheat landrace that has been conserved in situ for centuries in Central Italy. A core collection of Solina lines sampled in areas at different altitudes and climatic conditions was obtained and genotyped. A clustering analysis based on a wide SNP dataset generated from DArTseq analysis outlined the existence of two main groups, which, after F(st) analysis, showed polymorphism in genes associated with vernalization and photoperiod response. Starting from the hypothesis that the different pedoclimatic environments in which Solina lines were conserved may have shaped the population, some phenotypic characteristics were studied in the Solina core collection. Growth habit, low-temperature resistance, allelic variations at major loci involved in vernalization response, and sensitivity to photoperiod were evaluated, together with seed morphologies, grain colour, and hardness. The two Solina groups showed different responses to low temperatures and to photoperiod-specific allelic variations as well as the different morphology and technological characteristics of the grain. In conclusion, the long-term in situ conservation of Solina in environments sited at different altitudes has had an impact on the evolution of this landrace which, despite its high genetic diversity, remains clearly identifiable and distinct so as to be included in conservation varieties.
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spelling pubmed-100577282023-03-30 Long-Term In Situ Conservation Drove Microevolution of Solina d’Abruzzo Wheat on Adaptive, Agronomic and Qualitative Traits Morcia, Caterina De Flaviis, Riccardo Terzi, Valeria Gasparelli, Maria Eugenia Ghizzoni, Roberta Badeck, Franz-W. Rizza, Fulvia Santarelli, Veronica Tumino, Giorgio Sacchetti, Giampiero Plants (Basel) Article Solina is an example of a bread wheat landrace that has been conserved in situ for centuries in Central Italy. A core collection of Solina lines sampled in areas at different altitudes and climatic conditions was obtained and genotyped. A clustering analysis based on a wide SNP dataset generated from DArTseq analysis outlined the existence of two main groups, which, after F(st) analysis, showed polymorphism in genes associated with vernalization and photoperiod response. Starting from the hypothesis that the different pedoclimatic environments in which Solina lines were conserved may have shaped the population, some phenotypic characteristics were studied in the Solina core collection. Growth habit, low-temperature resistance, allelic variations at major loci involved in vernalization response, and sensitivity to photoperiod were evaluated, together with seed morphologies, grain colour, and hardness. The two Solina groups showed different responses to low temperatures and to photoperiod-specific allelic variations as well as the different morphology and technological characteristics of the grain. In conclusion, the long-term in situ conservation of Solina in environments sited at different altitudes has had an impact on the evolution of this landrace which, despite its high genetic diversity, remains clearly identifiable and distinct so as to be included in conservation varieties. MDPI 2023-03-14 /pmc/articles/PMC10057728/ /pubmed/36986994 http://dx.doi.org/10.3390/plants12061306 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 Article
Morcia, Caterina
De Flaviis, Riccardo
Terzi, Valeria
Gasparelli, Maria Eugenia
Ghizzoni, Roberta
Badeck, Franz-W.
Rizza, Fulvia
Santarelli, Veronica
Tumino, Giorgio
Sacchetti, Giampiero
Long-Term In Situ Conservation Drove Microevolution of Solina d’Abruzzo Wheat on Adaptive, Agronomic and Qualitative Traits
title Long-Term In Situ Conservation Drove Microevolution of Solina d’Abruzzo Wheat on Adaptive, Agronomic and Qualitative Traits
title_full Long-Term In Situ Conservation Drove Microevolution of Solina d’Abruzzo Wheat on Adaptive, Agronomic and Qualitative Traits
title_fullStr Long-Term In Situ Conservation Drove Microevolution of Solina d’Abruzzo Wheat on Adaptive, Agronomic and Qualitative Traits
title_full_unstemmed Long-Term In Situ Conservation Drove Microevolution of Solina d’Abruzzo Wheat on Adaptive, Agronomic and Qualitative Traits
title_short Long-Term In Situ Conservation Drove Microevolution of Solina d’Abruzzo Wheat on Adaptive, Agronomic and Qualitative Traits
title_sort long-term in situ conservation drove microevolution of solina d’abruzzo wheat on adaptive, agronomic and qualitative traits
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10057728/
https://www.ncbi.nlm.nih.gov/pubmed/36986994
http://dx.doi.org/10.3390/plants12061306
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