The relationship between the entry of isoproturon into Alopecurus myosuroides and its effect on growth and CO2 fixation

Abstract

SUMMARY Alopecurus myosuroides (blackgrass) was grown in nutrient and with isoproturon added to the solution when plants had three leaves. The transpiration stream coefficient factor was calculated over a period of 96h after treatment to be approximately 1. On this basis isoproturon entry into A. myosuroides was estimated using data for water loss through plants and there was a linear relationship between herbicide entry and plant weight 14 days after treatment. Treatment for at least 7 days with isoproturon at a dose of 1 μg a.i./15 ml nutrient solution (≡ 0.32 × 10‐6M) before returning plants to fresh nutrient was necessary for damage to be still evident after 14 days. This time period corresponded with the reduction of CO2 exchange to zero as measured by infra‐red gas analysis. Some recovery occurred from 6 h treatment with 120 μg a.i. isoproturon/15 ml nutrient solution when assessed after returning plants to untreated nutrient for 14 days. A quicker depletion in CO2 uptake by blackgrass occurred when both the primary and secondary roots were treated compared with secondary alone but eventually the levels reached were similar. The ‘CALF’ model predicted much higher concentrations of isoproturon than appeared necessary to damage A. myosuroides. This suggests a major influence of climate on the plant and this and other interactions are discussed.