In situ immunofluorescence localization: A method for rapid detection of Beauveria spp. in the rhizosphere of Quercus robur saplings

Abstract

For biological control of plant pests, e.g. cockchafer grubs, in the rhizosphere of oak, apple or pine trees, ento­mopathogenic Beauveria spp. are increasingly applied. For successful use, it is important to monitor the spread and persistence of the inoculated fungi, both qualitati­vely and quantitatively. The determination of both para­meters by plating on selective nutrient media or by mole­cular methods such as PCR of soil samples are quite laborious and often do not yield satisfactory results. Therefore, the aim of the present study was to develop a spe­cific in situ method using immunofluorescence labelling of Beauveria spp. growing on young fine roots of three-year old oak saplings. All fine roots investigated were covered with a dense net of soil rhizosphere fungi, as visua­lized by staining with the nonspecific dye blankophor. On non-inoculated roots, polyclonal Beauveria anti­bodies did not label any of these naturally growing fungi. Only samples of roots inoculated with Beauveria brongniartii displayed specific labelling up to ten months after inocu­lation. Whereas the natural rhizosphere fungi were detected growing in the intercellular space of the root cortex in an ectomycorrhiza-like manner up to the endodermis, hyphae of the inoculated B. brongniartii were never seen within the root tissue but only growing on the surface of the rhizodermis. These observations indicate that B. brongniartii does not grow endophytically, and that the method used allows to discriminate B. brongniartii from the resident fungal flora in the oak tree rhizosphere. Detection by immunofluorescence labelling employed in the current study may be a useful tool to follow B. brongniartii in experiments aimed at establishing the entomopathogen in the rhizosphere and to monitor its fate in long-term control of entomopathogens.