Transfer of glyphosate resistance: evidence of hybridization in Conyza (Asteraceae)

Transfer of herbicide resistance genes between crops and weeds is relatively well documented; however, far less information exists for weed-to-weed interactions. The hybridization between the weedy diploids Conyza canadensis (2n = 18) and C. ramosissima (2n = 18) was investigated by monitoring trans...

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Published inAmerican journal of botany Vol. 94; no. 4; pp. 660 - 673
Main Authors Zelaya, Ian A, Owen, Micheal D.K, VanGessel, Mark J
Format Journal Article
LanguageEnglish
Published United States Botanical Society of America 01.04.2007
Botanical Soc America
Subjects
allogamy
Asteraceae
Conyza canadensis
Conyza ramosissima
Florets
gene flow
Genetic hybridization
Herbicide resistance
Hybridity
interspecific hybridization
Phenotypes
Phenotypic traits
Plants
Pollen
Quantitative traits
Reproductive Biology
shikimic acid
Taxa
transgressive segregation
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Summary:Transfer of herbicide resistance genes between crops and weeds is relatively well documented; however, far less information exists for weed-to-weed interactions. The hybridization between the weedy diploids Conyza canadensis (2n = 18) and C. ramosissima (2n = 18) was investigated by monitoring transmission of the allele conferring resistance to N-phosphonomethyl glycine (glyphosate). In a multivariate quantitative trait analysis, we described the phylogenic relationship of the plants, whereas we tested seed viability to assess potential postzygotic reproductive barriers (PZRB) thus affecting the potential establishment of hybrid populations in the wild. When inflorescences were allowed to interact freely, approximately 3% of C. ramosissima or C. canadensis ova were fertilized by pollen of the opposing species and produced viable seeds; >95% of the ova were fertilized under no-pollen competition conditions (emasculation). The interspecific Conyza hybrid (Formula ) demonstrated an intermediate phenotype between the parents but superior resistance to glyphosate compared to the resistant C. canadensis parent. Inheritance of glyphosate resistance in the selfed Formula (Formula ) followed the partially dominant nuclear, single-gene model; Formula backcrosses confirmed successful introgression of the resistance allele to either parent. Negligible PZRB were observed in the hybrid progenies, confirming fertility of the C. canadensis x C. ramosissima nothotaxa. The implications of introgressive hybridization for herbicide resistance management and taxonomy of Conyza are discussed.
Bibliography:http://www.amjbot.org/
The authors thank J. Wendel for his valuable discussions on evolutionary biology; M. Graham, P. Tranel, J. Gressel, and R. Hartzler for their critical review of earlier versions of this manuscript; D. Lewis at the Ada Hayden Herbarium (ISC) for mounting the specimens submitted to ISC, the Botanical Research Institute of Texas (BRIT), and the New York Botanical Garden (NY); and P. Knosby, J. Ruhland, and R. van der Laat for assistance with greenhouse endeavors.
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ISSN:0002-9122
1537-2197
DOI:10.3732/ajb.94.4.660