Inheritance of 'domestication' traits in bambara groundnut (Vigna subterranea (L.) Verdc.)

Controlled crosses in bambara groundnut were attempted between a range of thirty-six bambara groundnut landraces (thirty domesticated (V. subterranea var. subterranea) and six wild (V. subterranea var. spontanea)). Ten F₁ seed were produced. Of these, eight germinated producing F₂ populations. On se...

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Veröffentlicht in:	Euphytica 2007-09, Vol.157 (1-2), p.59-68
Hauptverfasser:	Basu, Shravani, Mayes, Sean, Davey, Michael, Roberts, Jeremy A, Azam-Ali, Sayed N, Mithen, Richard, Pasquet, Remy S
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Schlagworte:	agronomic traits Agronomy. Soil science and plant productions Arachis hypogaea Biological and medical sciences carbon carbon isotope discrimination Carbon isotopes color Domestication domestication traits flowering Fundamental and applied biological sciences. Psychology Generalities. Genetics. Plant material Genetics and breeding of economic plants hundred seed weight hybridization hybrids inheritance (genetics) internodes isotopes landraces leaf area Leaves legumes Origin, evolution, domestication phenology Plant breeding: fundamental aspects and methodology Plant material Plants seed germination seedling emergence Seeds Stems testa Vigna subterranea wild relatives yield components
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creator	Basu, Shravani Mayes, Sean Davey, Michael Roberts, Jeremy A Azam-Ali, Sayed N Mithen, Richard Pasquet, Remy S
description	Controlled crosses in bambara groundnut were attempted between a range of thirty-six bambara groundnut landraces (thirty domesticated (V. subterranea var. subterranea) and six wild (V. subterranea var. spontanea)). Ten F₁ seed were produced. Of these, eight germinated producing F₂ populations. On seed set, four populations could be unambiguously confirmed as true crosses by F₃ seed coat colour. A single F₂ population, derived from a domesticated landrace from Botswana (DipC; female parent) crossed with a wild accession collected in Cameroon (VSSP11; male parent) was used to study a range of agronomic and domestication traits. These included; days to emergence, days to flowering, internode (fourth) length at harvest, number of stems per plant, leaf area, Specific Leaf Area (SLA), Carbon Isotope Discrimination (CID), 100 seed weight, testa colour and eye pattern around the hilum. On the basis of variation for internode length and stems per plant, 14 small F₃ families were selected and grown under field conditions to further investigate the genetic basis of the 'spreading' versus 'bunched' plant character, a major difference between wild and cultivated bambara groundnut. Results presented suggest that traits including leaf area, SLA, CID and 100 seed weight are controlled by several genes. In contrast, the variation for traits such as internode length, stems per plant, days to emergence and seed eye pattern around the hilum are likely to be under largely monogenic control. The results of this work are discussed in relation to the domestication of bambara groundnut.
doi_str_mv	10.1007/s10681-007-9396-4
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A single F₂ population, derived from a domesticated landrace from Botswana (DipC; female parent) crossed with a wild accession collected in Cameroon (VSSP11; male parent) was used to study a range of agronomic and domestication traits. These included; days to emergence, days to flowering, internode (fourth) length at harvest, number of stems per plant, leaf area, Specific Leaf Area (SLA), Carbon Isotope Discrimination (CID), 100 seed weight, testa colour and eye pattern around the hilum. On the basis of variation for internode length and stems per plant, 14 small F₃ families were selected and grown under field conditions to further investigate the genetic basis of the 'spreading' versus 'bunched' plant character, a major difference between wild and cultivated bambara groundnut. Results presented suggest that traits including leaf area, SLA, CID and 100 seed weight are controlled by several genes. 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Verdc.)</title><title>Euphytica</title><description>Controlled crosses in bambara groundnut were attempted between a range of thirty-six bambara groundnut landraces (thirty domesticated (V. subterranea var. subterranea) and six wild (V. subterranea var. spontanea)). Ten F₁ seed were produced. Of these, eight germinated producing F₂ populations. On seed set, four populations could be unambiguously confirmed as true crosses by F₃ seed coat colour. A single F₂ population, derived from a domesticated landrace from Botswana (DipC; female parent) crossed with a wild accession collected in Cameroon (VSSP11; male parent) was used to study a range of agronomic and domestication traits. These included; days to emergence, days to flowering, internode (fourth) length at harvest, number of stems per plant, leaf area, Specific Leaf Area (SLA), Carbon Isotope Discrimination (CID), 100 seed weight, testa colour and eye pattern around the hilum. On the basis of variation for internode length and stems per plant, 14 small F₃ families were selected and grown under field conditions to further investigate the genetic basis of the 'spreading' versus 'bunched' plant character, a major difference between wild and cultivated bambara groundnut. Results presented suggest that traits including leaf area, SLA, CID and 100 seed weight are controlled by several genes. In contrast, the variation for traits such as internode length, stems per plant, days to emergence and seed eye pattern around the hilum are likely to be under largely monogenic control. The results of this work are discussed in relation to the domestication of bambara groundnut.</description><subject>agronomic traits</subject><subject>Agronomy. 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Verdc.)</atitle><jtitle>Euphytica</jtitle><date>2007-09-01</date><risdate>2007</risdate><volume>157</volume><issue>1-2</issue><spage>59</spage><epage>68</epage><pages>59-68</pages><issn>0014-2336</issn><eissn>1573-5060</eissn><coden>EUPHAA</coden><abstract>Controlled crosses in bambara groundnut were attempted between a range of thirty-six bambara groundnut landraces (thirty domesticated (V. subterranea var. subterranea) and six wild (V. subterranea var. spontanea)). Ten F₁ seed were produced. Of these, eight germinated producing F₂ populations. On seed set, four populations could be unambiguously confirmed as true crosses by F₃ seed coat colour. A single F₂ population, derived from a domesticated landrace from Botswana (DipC; female parent) crossed with a wild accession collected in Cameroon (VSSP11; male parent) was used to study a range of agronomic and domestication traits. These included; days to emergence, days to flowering, internode (fourth) length at harvest, number of stems per plant, leaf area, Specific Leaf Area (SLA), Carbon Isotope Discrimination (CID), 100 seed weight, testa colour and eye pattern around the hilum. On the basis of variation for internode length and stems per plant, 14 small F₃ families were selected and grown under field conditions to further investigate the genetic basis of the 'spreading' versus 'bunched' plant character, a major difference between wild and cultivated bambara groundnut. Results presented suggest that traits including leaf area, SLA, CID and 100 seed weight are controlled by several genes. In contrast, the variation for traits such as internode length, stems per plant, days to emergence and seed eye pattern around the hilum are likely to be under largely monogenic control. The results of this work are discussed in relation to the domestication of bambara groundnut.</abstract><cop>Dordrecht</cop><pub>Dordrecht : Springer Netherlands</pub><doi>10.1007/s10681-007-9396-4</doi><tpages>10</tpages></addata></record>
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subjects	agronomic traits Agronomy. Soil science and plant productions Arachis hypogaea Biological and medical sciences carbon carbon isotope discrimination Carbon isotopes color Domestication domestication traits flowering Fundamental and applied biological sciences. Psychology Generalities. Genetics. Plant material Genetics and breeding of economic plants hundred seed weight hybridization hybrids inheritance (genetics) internodes isotopes landraces leaf area Leaves legumes Origin, evolution, domestication phenology Plant breeding: fundamental aspects and methodology Plant material Plants seed germination seedling emergence Seeds Stems testa Vigna subterranea wild relatives yield components
title	Inheritance of 'domestication' traits in bambara groundnut (Vigna subterranea (L.) Verdc.)
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