| InChI=1S/C13H10INO/c14-12-9-5-4-8-11(12)13(16)15-10-6-2-1-3-7-10/h1-9H,(H,15,16) |
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antifungal agrochemical
Any substance used in acriculture, horticulture, forestry, etc. for its fungicidal properties.
EC 1.3.5.1 [succinate dehydrogenase (quinone)] inhibitor
An EC 1.3.5.* (oxidoreductase acting on CH-CH of donor with a quinone or related compound as acceptor) inhibitor that interferes with the action of succinate dehydrogenase (quinone), EC 1.3.5.1.
fungicide
A substance used to destroy fungal pests.
(via benzanilide fungicide )
(via anilide fungicide )
(via amide fungicide )
antifungal agent
An antimicrobial agent that destroys fungi by suppressing their ability to grow or reproduce.
(via amide antifungal agent )
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antifungal agrochemical
Any substance used in acriculture, horticulture, forestry, etc. for its fungicidal properties.
fungicide
A substance used to destroy fungal pests.
(via benzanilide fungicide )
(via anilide fungicide )
(via amide fungicide )
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View more via ChEBI Ontology
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2-Iodobenzanilide
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ChemIDplus
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2-Iodobenzoic acid anilide
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ChemIDplus
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BAS 3170F
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ChemIDplus
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BAS-3170
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ChemIDplus
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65
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PPDB
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benodanil
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Alan Wood's Pesticides
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BOL
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PDBeChem
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C18907
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KEGG COMPOUND
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WO2008135480
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Patent
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| View more database links |
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15310-01-7
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CAS Registry Number
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NIST Chemistry WebBook
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15310-01-7
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CAS Registry Number
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ChemIDplus
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2725018
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Reaxys Registry Number
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Reaxys
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Udeogalanya AC (1984)
The rate of penetration of leaf tissues by the systemic fungicides benodanil (2-iodobenzanilide) and oxycarboxin (2,3-dihydro-6 methyl-5 phenylcarbamoyl-1,4-oxathin-4,4-dioxide).
Beitrage zur tropischen Landwirtschaft und Veterinarmedizin 22, 91-94 [PubMed:6732737]
[show Abstract]
Leaf washing after application of benodanil and oxycarboxin reduced the protectant effect more than the eradicant effect. Oxycarboxin penetrated more rapidly than did benodanil . Residues of benodanil (WP) on the leaf surfaces can be absorbed again later in the presence of water. | Hims MJ, Dickinson CH, Fletcher JT (1984)
Control of red thread, a disease of grasses caused by Lactisaria fuciformis.
Plant pathology 33, 513-516 [Agricola:GUA85008832]
[show Abstract]
A severe outbreak of red thread disease, caused by Laetisaria fuciformis, on reclaimed heathland is described and factors most likely to have favoured this epidemic are discussed. The efficacy of several fungicides and fertilizer treatments for control of the pathogen were examined in experiments which also involved a new method for assessing the distribution and spread of the pathogen at established foci. The most successful fungicides were benodanil and anilazine. Applications of nitrogen had no discernible effects in the 3 weeks following treatment. | Udeogalanya AC (1982)
Effect of the systemic fungicide benodanil on the growth and development of six spring barley varieties in the presence or absence of brown rust infection in the glasshouse.
Beitrage zur tropischen Landwirtschaft und Veterinarmedizin 20, 467-474 [PubMed:7171370]
[show Abstract]
When applied at the juvenile growth stage, benodanil significantly reduced the occurrence of rust (Puccinia bordei) on barley plants. This was found in the susceptible varieties Midas, Zephyr, and Mazurka as well as in the slow-rusting varieties Tyra, Emir, and Vada. Benodanil increased the growth of non-infected plants, it reduced however tillering and the total leaf number of the plants. The effect on the growth, development, and yield of infected plants differed between the varieties, with the susceptible varieties reacting better to fungicide application. | Plumb RT, Jenkyn JF, BROOM EW (1979)
The Effects of Pesticides on a Perennial Ryegrass Sward
Plant pathology 28, 151-159 [Agricola:IND500643958]
[show Abstract]
Dazomet, applied to the soil in September 1972, increased the dry matter yield in 1973 of perennial ryegrass (Lolium perenne L.) cv. Gremie sown that spring in Hertfordshire. The greatest increase (60 per cent) was where least nitrogen had been applied and was not apparently the result of differences in pathogen or pest incidence. Sprays of the fungicides benodanil and benomyl, and drenches of captafol, did not affect yield in 1973 or 1974, although benodanil controlled crown rust (Puccinia coronata Corda) in August and September 1973. Sprays of the acaricide cndosulfan and the aphicide menazon had no detectable effects in 1973. In 1974, endosulfan sprays, either alone or with menazon, controlled Abacarus hystrix (Nal.), the mite vector of ryegrass mosaic virus (RMV), decreased RMV incidence from 54 to 26 per cent and increased dry matter yield by six per cent. Mildew (Erysiphe graminis DC.) was observed in 1973 and leaf spot (Drechslera spp.) was common in 1973 and 1974, but infection by both diseases was only slight. The incidence of barley yellow dwarf virus was slight and not apparently affected by the treatments. Root discoloration was common but not affected by dazomet or captafol. Fusarium culmorum (W. G. Smith) Sacc. was commonly isolated from very discoloured roots and one isolate, which was weakly pathogenic to ryegrass, killed wheat seedlings. After cutting, patches of grass in plots given 150 kg nitrogen/ha/cut showed poor regrowth, but this could not be associated with pathogens. Mildew and RMV were most common on plots given most nitrogen (150 kg N/ha/cut). RMV and its vectors were apparently more detrimental during the experiment than were other pathogens. |
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