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Keyword [Fludioxonil]
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1. Study On Residual Analysis And Digestion Of 62% Azoxystrobin Ketone Nitrile Water - Dispersible Granules On Grape
2. Function Analysis Of PdOs2, A Mitogen-activated Protein Kinase Gene From Penicillium Digitatum
3. Studies On Risk Of Resistance To Fludioxonil And Fluazinam In Botrytis Cinerea
4. Studies On Risk And Molecular Mechanism Of Resistance To Iprodione And Fludioxonil In Alternaria Alternata
5. Fungicide Resistance Detection Of Botrytis Cinerea In Vegetable Fields And Its Resistance Risk Assessment Against Iminoctadine Tris
6. Screening For Controlling Peanut Soilborne Fungal Diseases On Peanut By Seed-coating
7. Biological Functions Of Two Response Regulators RRG-1 And RRG-2 In Sclerotinia Sclerotiorum
8. Resistance And Risk Assessment Of Rhizoctonia Cerealis To Thifluzamide And Fludioxonil
9. The Study On Resistance Of Botrytis Cinerea In Tomato From Different Areas Of Liaoning Province
10. Study On The Resistance Of Fusarium Oxysporum From Vegetables To Prochloraz And Fludioxonil
11. Resistance Risk For Benzothiostrobin And Fludioxonil Against Botrytis Cinerea
12. Sensitivity To Four Fungicides Of Cladosporium Fulvum From Shandong Province And The Application Technique In Field
13. Residual Behavior Of Chlorantraniliprole And Fludioxonil In Dendrobium Officinale Kimura Et Migo And Soil
14. Residue Analysis And Digestion Of Fludioxionil On Grapes And Soil
15. Resistance Risk Assessment For Fludioxonil In Bipolaris Maydis
16. Sensitivity Baselines Of Colletotrichun Gloeosporioides,Against Fludioxonil,Fluazinam&Difenoconazole,and Its Biological Characteristics Of Field Resistance Populations Against Difenoconazile
17. Residual Digestion Of Fludioxonil In Tomato And Its Effects On Physiological And Biochemical Properties And Edible Qualities Of Tomato
18. Detection And Biological Characteristics Of Fludioxonil-Resistant Isolates Of Botrytis Cinerea From Greenhouse Strawberry
19. Risk Assessment Of Botrytis Cinerea Resistance To Fludioxonil In Beijing
20. CgHog1 Controls The Adaptation To Both Sorbitol And Fludioxonil In Colletotrichum Gloeosporioides
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