Studies were conducted to investigate potentialinteractions between brassicaceous plants, theisothiocyanates they produce and insectpathogenic fungi. Studies in vitro showedthat 100 ppm of 2-phenylethyl isothiocyanatecompletely inhibited growth of Metarhiziumanisopliae and Tolypocladiumcylindrosporum. T. cylindrosporum wassignificantly inhibited by 10 ppm 2-phenylethylisothiocyanate, but not by 1 ppm. M.anisopliae was not inhibited by 10 or 1 ppm2-phenylethyl isothiocyanate. The effect offreshly grated rutabaga on virulence of M.anisopliae to Galleria mellonella larvaewas also tested, resulting in reduced infectionby M. anisopliae. To study the effect ofplants in the Brassicaceae under morefield-like conditions fungi were added to soilwithout plants or at the bases of two differentplant species, Barbarea vulgaris and Eruca vesicaria sativa. Soil was sampled at 5,10 and 15 days to determine the concentrationof colony forming units (CFUs). Treatments withplants did not have fewer CFUs than thecontrol. Instead significantly fewer CFUsresulted when M. anisopliae was added topots with soil only than to pots with plants.There were no significant differences betweenthe two plant species in the number of CFUs atday 5. For days 10 and 15, however,significantly more M. anisopliae CFUswere found in pots containing E. vesicariasativa than B. vulgaris. T.cylindrosporum was less affected by thedifferent treatments than M. anisopliae.Our studies demonstrated that whileisothiocyanates can inhibit insect pathogenicfungi in Petri dishes, when using a morerealistic fungus/plant/soil microcosm no fungalinhibition was found.