Inheritance of evolved glyphosate resistance in <Emphasis Type="Italic">Conyza canadensis</Emphasis> (L.) Cronq.

N-(phosphonomethyl)glycine (glyphosate) resistance was previously reported in a horseweed Conyza (=Erigeron) canadensis (L.) Cronq.] population from Houston, DE (P ₀ ^R ). Recurrent selection was performed on P ₀ ^R , since the population was composed of susceptible (5%) and resistant (95%) phenotypes. After two cycles of selection at 2.0 kg ae glyphosate ha^–1, similar glyphosate rates that reduced plant growth by 50%, glyphosate rates that inflicted 50% mortality in the population, and accumulations of half of the maximum detectable shikimic acid concentration were observed between the parental P ₀ ^R and the first (RS₁) and second (RS₂) recurrent generations. In addition, RS₁ and RS₂ did not segregate for resistance to glyphosate. This suggested that the RS₂ population comprised a near-homozygous, glyphosate-resistant line. Whole-plant rate responses estimated a fourfold resistance increase to glyphosate between RS₂ and either a pristine Ames, IA (P ₀ ^P ) or a susceptible C. canadensis population from Georgetown, DE (P ₀ ^S ). The genetics of glyphosate resistance in C. canadensis was investigated by performing reciprocal crosses between RS₂ and either the P ₀ ^P or P ₀ ^S populations. Evaluations of the first (F₁) and second (F₂) filial generations suggested that glyphosate resistance was governed by an incompletely dominant, single-locus gene (R allele) located in the nuclear genome. The proposed genetic model was confirmed by back-crosses of the F₁ to plants that arose from achenes of the original RS₂, P ₀ ^P , or P ₀ ^S parents. The autogamous nature of C. canadensis, the simple inheritance model of glyphosate resistance, and the fact that heterozygous genotypes (F₁) survived glyphosate rates well above those recommended by the manufacturer, predicted a rapid increase in frequency of the R allele under continuous glyphosate selection. The impact of genetics on C. canadensis resistance management is discussed.