Biomass, Fecundity, and Interference Ability of Multiple Herbicide-Resistant and -Susceptible Late Watergrass (Echinochloa phyllopogon)

Abstract

Echinochloa phyllopogonis a serious weed of California rice that has evolved resistance to most grass herbicides. We assessed differences in growth, interference, and fecundity between multiple resistant (R) and susceptible (S)E. phyllopogon. Interference with rice by R and S plants was similar, although R plants were shorter and had less leaf area and shoot biomass than S plants. Interference by one S or RE. phyllopogonplant with rice was 2.31 or 2.45 times greater than intraspecific interference by one rice plant, respectively. Interference was mostly driven by root interactions andE. phyllopogonon average produced seven times more root dry weight than rice. DeeperE. phyllopogonroot placement compared with rice may explain niche differentiation between the two species. On average, R plants produced 55% less seeds than S plants. Lower fecundity could compromise fitness of R plants in the absence of herbicide selection, but partial avoidance of seed removal during rice harvest through earlier seed shattering may allow greater soil seed bank replenishment by R plants compared with S plants.E. phyllopogoncontrol is needed to prevent high rice yield losses, and suppressing survivors of initial herbicide treatments is essential to limit seed bank replenishment by R plants. The potential benefits of taller rice varieties with enhanced root competitiveness, and that may be harvested earlier, should be considered.