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日本農薬学会 | 論文
- Fate of Fenitrothion in Eel Gills
- Effect of Nitrification Inhibitors on Nitrosomonas and Nitrobacter
- Insecticide Resistant Strains of House Flies (Musca domestica) Show Limited Cross-Resistance to Chlorfenapyr
- Demethylation of Deuteriated Methoxychlor in Isolated Rat Hepatocytes
- Development of a New Herbicide, Indanofan
- Development of a New Acaricide, Etoxazole
- The 12th IUPAC International Congress of Pesticide Chemistry:Comment at the End
- Let's Write to "Letter to Member"
- Photodegradation of Dipropyl 4-(Methylthio) phenyl Phosphate (Propaphos, Kayaphos®)
- Intermediates Accumulation and Inhibition Sites of Carpropamid in the Melanin Biosynthesis Pathway of Pyricularia oryzae
- Metabolism of Bialaphos in Mice
- Photodegradation of Antifungal 3, 3′-Diindolylmethane by Xenon Lamp
- Studies on Application Methods of Chloromethanesulfonamide to Citrus Red Mites, Carmine Mites and Sugi Spider Mites:Acaricidal Activity of Chloromethanesulfonamide against Phytophagous Mites (Part 4)
- An Action Site of Chloromethanesulfonamide in Adult Females of the Citrus Red Mite, Panonychus citri:Acaricidal Activity of Chloromethanesulfonamide against Phytophagous Mites (Part 2)
- Systemic Acaricidal Activity of Chloromethanesulfonamide against Three Species of Phytophagous Mites and Its Toxicity to Rats, Mice and Carp:Acaricidal Activity of Chloromethanesulfonamide against Phytophagous Mites (Part 1)
- Residual Concentration-Acaricidal Activity Relationship of Chloromethanesulfonamide in Cotton and Orange Leaves against Carmine Mites and Citrus Red Mites:Acaricidal Activity of Chloromethanesulfonamide against Phytophagous Mites (Part 3)
- Mode of Action of Diethofencarb to Benzimidazole-Resistant Strains in Neurospora crassa
- Inhibition of Carotenoid Biosynthesis as a Possible Mode of Herbicidal Action of 3, 3′-Dimethyl-4-Methoxybenzophenone (NK-049)
- New Minor Components of Host-Selective ACTG-Toxin and a Novel Sesquiterpene Produced by a Pathotype of Alternaria citri Causing Brown Spot Disease of Mandarins
- Phytotoxicity Caused by Peroxidizing Herbicides Is Alleviated by 2-Substituted 4, 6-Bis(ethylamino)-1, 3, 5-triazines
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