Spatially Resolved Sulphur K‐edge XANES Spectroscopy for in situ Characterization of the Fungus–plant Interaction Puccinia triticina and Wheat Leaves

Abstract An innovative application of X‐ray absorption near edge structure (XANES) spectroscopy for the characterization of interactions of biotrophic plant pathogens with their hosts as exemplified by Puccinia triticina colonizing wheat leaves is described. Spatially resolved, synchrotron radiation‐based XANES spectroscopy was used for the detection of changes in sulphur metabolism induced by leaf rust infections. A significant accumulation of sulphate occurred at the site of the sporulating urediniosori of P. triticina . Compared with non‐infected leaf areas, minor changes in the spectra were observed for the non‐visibly colonized tissue neighbouring the rust sori. As the spectra for isolated urediniospores and the healthy leaf areas did not match the spectra of the urediniosori, a significant impact of the biotrophic pathogen on sulphur metabolism of wheat has been demonstrated. Spatially resolved XANES spectroscopy will extend the range of qualitative and quantitative methods for in situ investigations of host–pathogen interactions, thus contributing to enlarge our knowledge about the metabolism of diseased plants.