Persistence of Nosema locustae Spores in Soil as Determined by Fluorescence Microscopy †

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Nosema locustae, a protozoan parasite of grasshoppers, is used as a bioinsecticide. In the present study, the persistence of N. locustae spores in soil and the interaction of these spores with the indigenous soil microflora were examined with various forms of microscopy and staining. Fluorescence microscopy was found to be better than phase-contrast or bright-field microscopy for detecting and viewing spores in soil. Fluorescein isothiocyanate was a better fluorescent stain than acridine orange or fluorescein diacetate; water-soluble aniline blue did not stain spores. The eight bright-field microscopy stains tested (phenolic erythrosin, phenolic rose bengal, malachite green, crystal violet, safranin, Congo red, methyl red, and eosin B) were not satisfactory, as spore staining characteristics were either poor or masked by overstained soil debris. A procedure was developed which allowed spores to be extracted from soil with a peptone-phosphate buffer, recovered on a membrane filter, and stained with fluorescein isothiocyanate for microscopic counting. This procedure was used to assess the persistence of N. locustae spores in field and laboratory soils. The number of N. locustae spores in a laboratory model soil system persisted at a high level for over 8 weeks when the soil was incubated at 5°C but exhibited a 1,000-fold decrease after 1 week of incubation at 27°C. Persistence was related to the temperature-dependent activity of the indigenous soil microflora, which, on the basis of microscopic observations, appeared to prey on N. locustae spores. N. locustae spores were detected in an N. locustae-treated field soil at a low level consistent with the level for laboratory soil incubated at 27°C, and they persisted at this level for over 2 months. No spores were detected on vegetation from this field or in the soil from an adjacent, nontreated control field. N. locustae-like spores were also detected in soil from nontreated fields supporting large grasshopper populations.

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