Environmental and genetic determinants of amphicarpy in Pisum fulvum, a wild relative of domesticated pea
•Amphicarpy is subject to a strong edaphic effect.•Early flowering and modest biomass are associated with amphycarpic phenotypes.•Higher prevalence of amphicarpy in drought prone territories subject to heavy grazing.•Amphicarpy is a polygenetic trait likely to be affected by environmental stimuli. P...
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| Published in | Plant science (Limerick) Vol. 298; p. 110566 |
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| Main Authors | , , , , , , , |
| Format | Journal Article |
| Language | English |
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Elsevier B.V
01.09.2020
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| Abstract | •Amphicarpy is subject to a strong edaphic effect.•Early flowering and modest biomass are associated with amphycarpic phenotypes.•Higher prevalence of amphicarpy in drought prone territories subject to heavy grazing.•Amphicarpy is a polygenetic trait likely to be affected by environmental stimuli.
Pisum fulvum is an annual legume native to Syria, Lebanon, Israel and Jordan. In certain locations, P. fulvum individuals were documented to display a reproductive dimorphism – amphicarpy, with both above and below ground flowers and pods. Herein we aimed to study the possible role of soil texture on amphicarpy in P. fulvum, to investigate the possible bio-climatic associations of P. fulvum amphicarpy and to identify genetic markers associated with this phenotype. A set of 127 germplasm accessions sampled across the Israeli distribution range of the species was phenotyped in two common garden nurseries. Land use and bioclimatic data were used to delineate the eco-geographic clustering of accession's sampling sites. Single nucleotide polymorphism (SNP) markers were employed in genome-wide association study to identify associated loci. Amphicarpy was subject to strong experimental site x genotype interaction with higher phenotypic expression in fine textured soil relative to sandy loam. Amphicarpy was more prevalent among accessions sampled in eastern Judea and Samaria and was weakly associated with early phenology and relatively modest above ground biomass production. Twelve SNP markers were significantly associated with amphicarpy, each explaining between 8 and 12 % of the phenotypic variation. In P. fulvum amphicarpy seems to be a polygenetic trait controlled by an array of genes that is likely to be affected by environmental stimuli. The probable selective advantage of the association between amphicarpy and early flowering is in line with its relative prevalence in drought prone territories subject to heavy grazing. |
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| AbstractList | •Amphicarpy is subject to a strong edaphic effect.•Early flowering and modest biomass are associated with amphycarpic phenotypes.•Higher prevalence of amphicarpy in drought prone territories subject to heavy grazing.•Amphicarpy is a polygenetic trait likely to be affected by environmental stimuli.
Pisum fulvum is an annual legume native to Syria, Lebanon, Israel and Jordan. In certain locations, P. fulvum individuals were documented to display a reproductive dimorphism – amphicarpy, with both above and below ground flowers and pods. Herein we aimed to study the possible role of soil texture on amphicarpy in P. fulvum, to investigate the possible bio-climatic associations of P. fulvum amphicarpy and to identify genetic markers associated with this phenotype. A set of 127 germplasm accessions sampled across the Israeli distribution range of the species was phenotyped in two common garden nurseries. Land use and bioclimatic data were used to delineate the eco-geographic clustering of accession's sampling sites. Single nucleotide polymorphism (SNP) markers were employed in genome-wide association study to identify associated loci. Amphicarpy was subject to strong experimental site x genotype interaction with higher phenotypic expression in fine textured soil relative to sandy loam. Amphicarpy was more prevalent among accessions sampled in eastern Judea and Samaria and was weakly associated with early phenology and relatively modest above ground biomass production. Twelve SNP markers were significantly associated with amphicarpy, each explaining between 8 and 12 % of the phenotypic variation. In P. fulvum amphicarpy seems to be a polygenetic trait controlled by an array of genes that is likely to be affected by environmental stimuli. The probable selective advantage of the association between amphicarpy and early flowering is in line with its relative prevalence in drought prone territories subject to heavy grazing. Pisum fulvum is an annual legume native to Syria, Lebanon, Israel and Jordan. In certain locations, P. fulvum individuals were documented to display a reproductive dimorphism – amphicarpy, with both above and below ground flowers and pods. Herein we aimed to study the possible role of soil texture on amphicarpy in P. fulvum, to investigate the possible bio-climatic associations of P. fulvum amphicarpy and to identify genetic markers associated with this phenotype. A set of 127 germplasm accessions sampled across the Israeli distribution range of the species was phenotyped in two common garden nurseries. Land use and bioclimatic data were used to delineate the eco-geographic clustering of accession's sampling sites. Single nucleotide polymorphism (SNP) markers were employed in genome-wide association study to identify associated loci. Amphicarpy was subject to strong experimental site x genotype interaction with higher phenotypic expression in fine textured soil relative to sandy loam. Amphicarpy was more prevalent among accessions sampled in eastern Judea and Samaria and was weakly associated with early phenology and relatively modest above ground biomass production. Twelve SNP markers were significantly associated with amphicarpy, each explaining between 8 and 12 % of the phenotypic variation. In P. fulvum amphicarpy seems to be a polygenetic trait controlled by an array of genes that is likely to be affected by environmental stimuli. The probable selective advantage of the association between amphicarpy and early flowering is in line with its relative prevalence in drought prone territories subject to heavy grazing. Pisum fulvum is an annual legume native to Syria, Lebanon, Israel and Jordan. In certain locations, P. fulvum individuals were documented to display a reproductive dimorphism - amphicarpy, with both above and below ground flowers and pods. Herein we aimed to study the possible role of soil texture on amphicarpy in P. fulvum, to investigate the possible bio-climatic associations of P. fulvum amphicarpy and to identify genetic markers associated with this phenotype. A set of 127 germplasm accessions sampled across the Israeli distribution range of the species was phenotyped in two common garden nurseries. Land use and bioclimatic data were used to delineate the eco-geographic clustering of accession's sampling sites. Single nucleotide polymorphism (SNP) markers were employed in genome-wide association study to identify associated loci. Amphicarpy was subject to strong experimental site x genotype interaction with higher phenotypic expression in fine textured soil relative to sandy loam. Amphicarpy was more prevalent among accessions sampled in eastern Judea and Samaria and was weakly associated with early phenology and relatively modest above ground biomass production. Twelve SNP markers were significantly associated with amphicarpy, each explaining between 8 and 12 % of the phenotypic variation. In P. fulvum amphicarpy seems to be a polygenetic trait controlled by an array of genes that is likely to be affected by environmental stimuli. The probable selective advantage of the association between amphicarpy and early flowering is in line with its relative prevalence in drought prone territories subject to heavy grazing.Pisum fulvum is an annual legume native to Syria, Lebanon, Israel and Jordan. In certain locations, P. fulvum individuals were documented to display a reproductive dimorphism - amphicarpy, with both above and below ground flowers and pods. Herein we aimed to study the possible role of soil texture on amphicarpy in P. fulvum, to investigate the possible bio-climatic associations of P. fulvum amphicarpy and to identify genetic markers associated with this phenotype. A set of 127 germplasm accessions sampled across the Israeli distribution range of the species was phenotyped in two common garden nurseries. Land use and bioclimatic data were used to delineate the eco-geographic clustering of accession's sampling sites. Single nucleotide polymorphism (SNP) markers were employed in genome-wide association study to identify associated loci. Amphicarpy was subject to strong experimental site x genotype interaction with higher phenotypic expression in fine textured soil relative to sandy loam. Amphicarpy was more prevalent among accessions sampled in eastern Judea and Samaria and was weakly associated with early phenology and relatively modest above ground biomass production. Twelve SNP markers were significantly associated with amphicarpy, each explaining between 8 and 12 % of the phenotypic variation. In P. fulvum amphicarpy seems to be a polygenetic trait controlled by an array of genes that is likely to be affected by environmental stimuli. The probable selective advantage of the association between amphicarpy and early flowering is in line with its relative prevalence in drought prone territories subject to heavy grazing. |
| ArticleNumber | 110566 |
| Author | Hellwig, Timo Flor, Almog Main, Dorrie Saranga, Yehoshua Ophir, Ron Abbo, Shahal Sherman, Amir Coyne, Clarice J. |
| Author_xml | – sequence: 1 givenname: Timo orcidid: 0000-0003-4122-8936 surname: Hellwig fullname: Hellwig, Timo email: timo.hellwig@mail.huji.ac.il organization: The Levi Eshkol School of Agriculture, The Hebrew University of Jerusalem, P.O. Box 12, Rehovot, 76100, Israel – sequence: 2 givenname: Almog surname: Flor fullname: Flor, Almog organization: The Levi Eshkol School of Agriculture, The Hebrew University of Jerusalem, P.O. Box 12, Rehovot, 76100, Israel – sequence: 3 givenname: Yehoshua surname: Saranga fullname: Saranga, Yehoshua organization: The Levi Eshkol School of Agriculture, The Hebrew University of Jerusalem, P.O. Box 12, Rehovot, 76100, Israel – sequence: 4 givenname: Clarice J. surname: Coyne fullname: Coyne, Clarice J. organization: USDA-ARS Plant Germplasm Introduction and Testing, Washington State Univ., Pullman, WA, 99164, USA – sequence: 5 givenname: Dorrie surname: Main fullname: Main, Dorrie organization: Dept. of Horticulture, Washington State Univ., Pullman, WA, 99164, USA – sequence: 6 givenname: Amir surname: Sherman fullname: Sherman, Amir organization: Institute of Plant Sciences, The Volcani Center ARO, P.O. Box 6, Bet Dagan, 50250, Israel – sequence: 7 givenname: Ron surname: Ophir fullname: Ophir, Ron organization: Institute of Plant Sciences, The Volcani Center ARO, P.O. Box 6, Bet Dagan, 50250, Israel – sequence: 8 givenname: Shahal surname: Abbo fullname: Abbo, Shahal organization: The Levi Eshkol School of Agriculture, The Hebrew University of Jerusalem, P.O. Box 12, Rehovot, 76100, Israel |
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| Keywords | Edaphic effect G by E interaction Pisum fulvum Genetic control Genome-wide association study Crop wild relative |
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| Snippet | •Amphicarpy is subject to a strong edaphic effect.•Early flowering and modest biomass are associated with amphycarpic phenotypes.•Higher prevalence of... Pisum fulvum is an annual legume native to Syria, Lebanon, Israel and Jordan. In certain locations, P. fulvum individuals were documented to display a... |
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| SubjectTerms | aboveground biomass biomass production Climate Crop wild relative dimorphism drought early flowering Edaphic effect G by E interaction gardens Gene-Environment Interaction genes Genetic control Genetic Markers Genome-Wide Association Study genotype germplasm grazing Israel Jordan land use Lebanon loci peas phenology Phenotype phenotypic variation Pisum fulvum Pisum sativum - physiology pods Polymorphism, Single Nucleotide prevalence Reproduction - genetics Reproduction - physiology sampling sandy loam soils single nucleotide polymorphism Soil - chemistry Syria wild relatives |
| Title | Environmental and genetic determinants of amphicarpy in Pisum fulvum, a wild relative of domesticated pea |
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