Attachment of Enterobacter cloacae EcCT-50,—a biological seed protectant used to control the seed-rotting fungi, Pythium ultimum—to cotton seed was examined using conventional fluorescent microscopy (CFM), scanning electron microscopy (SEM), and laser scanning microscopy (LSM). In sand microcosms, E. cloacae quickly attached to the seed coat, with maximum attachment, 3 to 5 h after inoculation at 24°C. In contrast, initial attachment of non-bacterized seed by Pythium ultimum was not observed until 6 h (and not until 8 h on bacterized seeds). Comparison of the movement of E. cloacae and P. ultimum in seed exudate gradient semi-soft agar showed faster movement by the bacterium within the first 6 h, and reduction of P. ultimum hyphal and germ tube growth in the presence of the bacterium. Microscopic observation of the seed coat revealed an early, intimate association, mediated, in part, by fimbriae, and confirmed a loose association of E. cloacae with the seed coat previously reported. Spatially, the attached E. cloacae cells were distributed over the entire surface of the seed coat, but were especially abundant in the groves and near cracks where water imbibition and seed exudate release may occur. As the seed germinated and exposed various seed tissues, the bacterium rapidly attached to these tissues. Attachment of the bacterium to the surface of intact germinating seeds, excised seed coat, polystyrene, and glass was 300, 110, 51, and <1 cell field−1 3 h−1, respectively, suggesting that attachment is enhanced by seed germination. Attachment of E. cloacae to the seed coat was optimum in sands with high water concentrations, at temperatures of 18 to 30°C, and at times that corresponded with optimum water imbibition during germination. Using several assays, attachment was shown to be enhanced by seed exudate, and compounds such as methanol, fructose, and calcium. The results suggest that the release of certain nutrients and water imbibition during germination may play a role in the rapid attachment to the seed by E. cloacae. The ability of E. cloacae to rapidly move and attach to the seed coat may be related to its ability to function as a biocontrol agent.

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