Cytological studies of dinitroaniline-resistant Eleusine

Abstract

Ultrastructural studies of primary roots (goosegrass) from dinitroaniline-resistant (R) and susceptible (S) biotypes of Eleusine indica (L). Gaertnr. establish a possible cytological basis for trifluralin resistance. Although the S biotype has a normal ultrastructure when grown in water, exposure to trifluralin solutions (between 10 −8 and 10 −5 M) for 24 h results in a swelling of the root tip, typical of herbicides that affect microtubule production. The loss of spindle microtubules in the S biotype results in a mitosis arrested at prometaphase and the loss of cortical microtubules results in the formation of isodiametric cells in the zone of elongation. Nuclear membranes reform around the chromosomes in arrested prometaphase, producing abnormal, polymorphic nuclei. The mitotic index is increased in the S biotype after trifluralin treatment because many of the cells are arrested in prometaphase. The root tips of R biotypes are not swollen by even 10 −5 M trifluralin treatment. Trifluralin does not markedly affect cell division in the R biotype nor are the mitotic irregularities noted in the S biotype after treatment. However, even when the R biotype is not exposed to trifluralin, the microtubules are less abundant than in the S biotype and frequently cell walls are oriented abnormally or are incompletely formed. The level of resistance exhibited by the R biotype, the apparent difference in microtubule number and function between the two biotypes, and the lack of effect on the microtubules at high trifluralin concentrations indicate a site-of-action mutation.