Clodinafop-Propargyl Resistance Genes in Lolium rigidum Guad. Populations Are Associated with Fitness Costs
Autor
Zangeneh, Hossein Sabet
Chamanabad, Hamid Reza Mohammaddust
Zand, Eskendar
Alcántara-de la Cruz, Ricardo
Travlos, Ilias S.
Alebrahim, Mohammad Taghi
Prado Amián, Rafael de
Editor
MDPIFecha
2018Materia
Fitness costGermination
Light regime
Mutation
Salinity stress
Water stress
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Amino acid substitutions that confer herbicide-resistance may cause fitness costs in mutant
plants at unfavorable levels in contrast to wild-species. The fitness costs in three Lolium rigidum
populations (AH3 (Ile-2041-Asn) and BO2 (Ile-1781-Leu) as resistant (R) to clodinafop-propargyl,
an ACCase (acetyl-CoAcarboxylase) inhibitor, carrying the mutations 1781 and 2041, respectively,
and HF as susceptible (S)) were studied during 2014 and 2016. The germination rates and percentages
of the three L. rigidum populations, and competition between them and Triticum aestivum using
substitution series experiments were assessed. The BO2 and AH3 populations showed resistance to
clodinafop-propargyl due to mutations in their ACCase genes. The germination rate for L. rigidum
decreased as the sowing depth increased, with the lowest germination rate being found at 8 cm.
AH3 and HF populations presented higher seed germination under water and NaCl salinity stress,
but no fitness cost variations were observed among these R populations under optimal growth
conditions. Diverse germination responses to light conditions were observed between the S and R L.
rigidum populations. The highest germination percentage was observed in the HF population at the
two-week lighting + two-week darkness regime. The comparison of relative yield total and relative
crowding coefficient showed that T. aestivum was more competitive than L. rigidum. However, among
ACCase-resistant L. rigidum populations, AH3 population was the most competitive presenting
no fitness costs. This R population was more competitive than the S (HF) one under competitive
conditions. These results show that fitness costs in the R L. rigidum populations vary according to the
specific mutation at the ACCase gene that confers resistance to clodinafop-propargyl. In conclusion,
mutations occurring at the 2041 position in the ACCase gene caused fitness costs, but those occurring
at the 1781 position did not generate fitness costs for L. rigidum. Therefore, non-chemical methods
should be considered unfavorable for resistant populations of this species.