共 10 条
[1]
Evaluation of the Mechanism of Action of the Bleaching Herbicide SC - 0051 by HPLC Analysis, Pestic. Mayonado D. J. et al. Biochemie und Physiologie der Pflanzen . 1989
[2]
Response of Various Weed Species and Corn( Zea mays )to RPA 201772. Bhowmik P,C. et al. Welding Technology . 1999
[3]
Biologically Effective Dose and Selectivity of RPA 210772 for Preemergence Weed Control in Corn( Zea mays ). Knezevic S. Z. et al. Welding Technology . 1998
[4]
Preemergence Weed Control in Conventional- Till Corn ( Zea mays ) with RPA 201772. Young B. G. et al. Welding Technology . 1999
[5]
Inhibition of Barnyardgrass 4-Hydroxyphenyl-Pyruvate Dioxygenase by Sulcotrione. Secor J. Plant Physiology . 1994
[6]
The Structure- Activity Relationships of the Triketone Class of HPPD Herbicide, Pestic. Lee D. L. et al. Science . 1998
[7]
The Mode of Action of Isoxaflutole 1.Physiological Effect, Metabolism, and Selectivity, Pestic. Pallett K. E. et al. Biochemie und Physiologie der Pflanzen . 1998
[8]
The Mode of Action of Isoxaflutole, ⅡChatacterization of the Inhibition of Carrot 4-Hydroxyphenylpyruvate Dioxygenase by the Diketonitrile Derivative of Isoxaflutole. Viviani F. et al. Pesticide Biochemistry and Physiology . 1998
[9]
Inhibition of 4 - Hydroxyphenylpyruvate Dioxygenase: The Mode of Action of the Herbicide RPA 201772(Isoxaflutole), Pestic. Pallett K. E. et al. Science . 1997
[10]
Sulcotrione Soil Persistence and Mobility in Summer Maize and Winter Wheat Crops. Rouchaud J. et al. Weed Research . 1998