Abstract

Field and greenhouse studies were conducted to determine the proclivity of Bacillus thuringiensis (Bt) (Berliner)‐transgenic corn (Zea mays L.) to form an endophytic relationship with Beauveria bassiana, and to evaluate the corn for possible plant pathological effects associated with this relationship. Beauveria bassiana (Balsamo) Vuillemin was applied as a granular formulation to two separate lines of corn, expressing Bt events MON802 and MON810, and their corresponding isolines. There were no significant differences in levels of endophytism between transgenic events or their near‐isolines. In greenhouse studies, B. bassiana was applied as a liquid seed treatment to Bt transgenic corn hybrids Pioneer 34R06 (event MON810) and Ciba Max 454 (event 176) and their near isolines at a rate of 2 × 1010 conidia per ml. There were no significant differences in seed germination or presence of root pathogens in transgenic or isoline seeds soaked in a B. bassiana suspension. The same lines of corn were used in field experiments with treatments of seeds soaked in a suspension of B. bassiana, a foliar application of a granular formulation of B. bassiana, and corresponding untreated checks. Plants were sampled throughout the growing season and evaluated for growth of individual plant components, including sheaths, leaves, stem, husk, ear, plant leaf‐to‐stem ratio and overall plant growth. There were no significant differences in overall plant growth between the B. bassiana treatments or in the growth of each plant component. The results of this study indicate that B. bassiana readily forms an endophytic relationship with transgenic and non‐transgenic corn and causes no plant pathology.

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