The Effect of Light and Temperature on Competition between Atrazine Susceptible and ResistantBrassica rapa

Biotypes ofBrassica rapasusceptible (S) and resistant (R) toatrazine were grown in competitive replacement series in allpossible combinations of two light levels and three temperatureregimes in controlled growth cabinets. Photosystem II functionwas investigated in all conditions by fluorescence-inductiontechniques. There were no significant differences in the dryweight of the two biotypes when grown in pure stands. In purestands both biotypes produced more biomass under the high lightlevel. Under high light both biotypes yielded more biomass athigh temperature; in low light they did so at medium temperature.Under high light conditions at high and medium temperaturesthe susceptible biotype had a greater photon yield and relativecompetitive ability than the resistant due to the greater vulnerabilityof triazine-resistant biotypes to photoinhibition. However,surprisingly, the resistant biotype was the better competitor,and had a higher photon yield, in the high light/low temperatureregime. In low light no photoinhibition was expected and indeedthere were no significant differences in any fluorescence parametersbetween the resistant and susceptible biotypes. Nevertheless,there were differences in the whole plant performance; the susceptiblebiotype was a better competitor at low and medium temperatures,but the resistant biotype was better at high temperature. Relativelysmall variations in both light and temperature, well withinthe range encountered during British summer time, can have largeeffects on the relative competitiveness of triazine R and Sbiotypes in this species with implications for the spread ofresistance genes through semi-natural communities. In lightof predicted climate changes, interactions between climate andresistance should be studied across a wider range of herbicidetypes and weed species.Copyright 1997 Annals of Botany Company Brassica rapa; chlorophyll fluorescence; competition; light; navew; temperature; triazine resistance