Detection and growth of endophytic entomopathogenic fungi in dicot crop plants

• Main Authors: Cornelia I. Ullrich, Eckhard Koch, Christina Matecki, Janina Schäfer, Theresa Burkl, Frank Rabenstein, Regina G. Kleespies
• Format: Article
• Language: deu
• Published: Eugen Ulmer KG 2017-09-01
• Series: Journal für Kulturpflanzen
• Subjects: Endophytes; Brassica napus; Vicia faba; entomopathogenic fungi; phytopathogenic fungi; immunofluorescence microscopy
• Online Access: https://ojs.openagrar.de/index.php/Kulturpflanzenjournal/article/view/13277
• ISSN: 1867-0911; 1867-0938

The presence and distribution of fungal endophytes in plants is commonly assessed by re-isolation on agar media or detection by PCR-techniques. Histological studies on the process of colonization of the host plant have only scarcely been performed. In the present study, the development of entomopathogenic fungi on the plant surface and inside the tissue was examined by light and fluorescence microscopy of leaf samples treated with vari­ous dyes or, to guarantee the specificity of injected endophytes, with primary polyclonal and secondary FITC-conjugated antibodies; diaminobenzidine-tetra­hy­dro­chloride (DAB) was applied as stress test for the detec­tion of hydrogen peroxide. Four species of entomopathogenic fungi were studied and compared with three phytopathogenic fungal species. The host plants were oilseed rape (Brassica napus), faba bean (Vicia faba), and cucumber (Cucumis sativus). When blastospores of selected four fungal species were infiltrated into B. napus leaves they appeared to germinate only on the leaf surface, but not within the mesophyll. Successful re-isolation from B. napus inoculated with B. bassiana, Isaria fumosorosea or Metarhizium anisopliae showed that these entomopathogens were able to persist in the tissue for at least two weeks. Formation of brown precipitates after leaf treatment with DAB in the presence of B. bassiana indicated the production of hydro­gen peroxide by B. napus but not by V. faba. Overall, the results indicate a lower endophytic colonization than could have been expected from the literature, suggesting nutrient availability in the plant intercellular space and absence of cell wall and cell membrane degrad­ing fungal enzymes as fungal growth-limiting factors. It is concluded that data on endophytic colonization should generally be supported by histological evidence of the kind and amount of fungal growth in the host tissue.