of methyl iodide, sulfuryl fluoride, and methyl bromide to Ceratocystis fagacearum in red oak, maple, poplar, birch and pine wood.
of animal waste and their products (ITK) against Rhizoctonia solani.
A variation on fungitoxicity
of the concerned plant extracts against phytopathogenic fungi may be due to considerable variations in their constituents and variation in fungal species itself (Manoranjitham et al.
In vitro antimicrobial activity and fungitoxicity
of syringic acid, caffeic acid and 4-hydroxybenzoic acid against Ganoderma boninense.
Leal and coworkers reported the potent fungitoxicity
of n-nonyl gallate against yeasts, dermatophytes, and hialohyphomycetes .
of the essential oil of Citrus sinensis on post-harvest pathogens.
of chemical components and some derivatives from Anethum sowa and Acorus calamus.
of herbicide treatments in vitro on the growth and development of fungal species, therefore, ranked in the order of paraquat and glufosinte- ammonium Greater than glyphosate Greater than metsulfuron- methyl.
of Lippia scaberrima essential oil and selected terpenoid components on two mango postharvest spoilage pathogens.
of the phytoalexin capsidiol and related sesquiterpenes.
of 1,4-naphtoquinones to Candida albicans.
5,7-Dihydroxy-3 ethylchromone and its 7-O-methyl ether were reported as phytoalexins of Lathyrus odoratus (22) possessing fungitoxicity
against Helminthosporium carbonum.