Fitness effects and genetic architecture of plant-herbivore interactions in sunflower crop-wild hybrids
Fitness effects and genetic architecture of plant-herbivore interactions in sunflower crop-wild hybrids
Introgression of cultivar alleles into wild plant populations via crop–wild hybridization is primarily governed by their fitness effects as well as those of linked loci. The fitness of crop–wild hybrids is often dependent on environmental factors, but less is understood about how aspects of the environment affect individual cultivar alleles.•This study investigated the effects of naturally occurring herbivory on patterns of phenotypic selection and the genetic architecture of plant–herbivore interactions in an experimental sunflower crop–wild hybrid population in two locales.•Phenotypic selection analyses suggested that cultivar alleles conferring increased size were generally favored, but at one site cultivar-like flowering time was favored only if three types of herbivory were included in the selection model. Quantitative trait locus (QTL) mapping identified three regions in which the cultivar allele conferred a selective advantage for a number of co-localized traits. Quantitative trait loci for several measures of insect herbivory were detected and, although the cultivar allele increased herbivory damage at the majority of these QTLs, they rarely colocalized with advantageous cultivar alleles for morphological traits.•These results suggest that a subset of cultivar traits/alleles are advantageous in natural environments but that herbivory may mitigate the selective advantage of some cultivar alleles.
crop–wild hybridization, helianthus annuus (sunflower), herbivory, quantitative trait locus (qtl) analyses, recombinant inbred line (RIL), selection
828-841
Dechaine, J.M.
526f5ab3-65e8-432c-b38b-c8190391e5d0
Burger, J.C.
441d7bf5-cbb9-466a-99aa-624eaed62ccd
Chapman, M.A.
8bac4a92-bfa7-4c3c-af29-9af852ef6383
Seiler, G.J.
09440847-4df9-4c8f-9b1a-c1f6b9a4767f
Brunick, R.
14c579bf-b2cc-4dc5-9d7f-9e1cbd2626d8
Knapp, S.J.
401b196b-cffb-445f-a5df-78666479edf5
Burke, J.M.
5110d8b4-546a-4e5d-9fa0-9ae93a818c09
27 July 2009
Dechaine, J.M.
526f5ab3-65e8-432c-b38b-c8190391e5d0
Burger, J.C.
441d7bf5-cbb9-466a-99aa-624eaed62ccd
Chapman, M.A.
8bac4a92-bfa7-4c3c-af29-9af852ef6383
Seiler, G.J.
09440847-4df9-4c8f-9b1a-c1f6b9a4767f
Brunick, R.
14c579bf-b2cc-4dc5-9d7f-9e1cbd2626d8
Knapp, S.J.
401b196b-cffb-445f-a5df-78666479edf5
Burke, J.M.
5110d8b4-546a-4e5d-9fa0-9ae93a818c09
Dechaine, J.M., Burger, J.C., Chapman, M.A., Seiler, G.J., Brunick, R., Knapp, S.J. and Burke, J.M.
(2009)
Fitness effects and genetic architecture of plant-herbivore interactions in sunflower crop-wild hybrids.
New Phytologist, 184 (4), .
(doi:10.1111/j.1469-8137.2009.03077.x).
Abstract
Introgression of cultivar alleles into wild plant populations via crop–wild hybridization is primarily governed by their fitness effects as well as those of linked loci. The fitness of crop–wild hybrids is often dependent on environmental factors, but less is understood about how aspects of the environment affect individual cultivar alleles.•This study investigated the effects of naturally occurring herbivory on patterns of phenotypic selection and the genetic architecture of plant–herbivore interactions in an experimental sunflower crop–wild hybrid population in two locales.•Phenotypic selection analyses suggested that cultivar alleles conferring increased size were generally favored, but at one site cultivar-like flowering time was favored only if three types of herbivory were included in the selection model. Quantitative trait locus (QTL) mapping identified three regions in which the cultivar allele conferred a selective advantage for a number of co-localized traits. Quantitative trait loci for several measures of insect herbivory were detected and, although the cultivar allele increased herbivory damage at the majority of these QTLs, they rarely colocalized with advantageous cultivar alleles for morphological traits.•These results suggest that a subset of cultivar traits/alleles are advantageous in natural environments but that herbivory may mitigate the selective advantage of some cultivar alleles.
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Published date: 27 July 2009
Keywords:
crop–wild hybridization, helianthus annuus (sunflower), herbivory, quantitative trait locus (qtl) analyses, recombinant inbred line (RIL), selection
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Centre for Biological Sciences
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Local EPrints ID: 352752
URI: http://eprints.soton.ac.uk/id/eprint/352752
ISSN: 0028-646X
PURE UUID: 64bd190b-7177-4c16-92c0-d4e7d8369973
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Date deposited: 20 May 2013 14:07
Last modified: 15 Mar 2024 03:46
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Author:
J.M. Dechaine
Author:
J.C. Burger
Author:
G.J. Seiler
Author:
R. Brunick
Author:
S.J. Knapp
Author:
J.M. Burke
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