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Appl Environ Microbiol. 1967 March; 15(2): 325-333
Copyright © 1967 American Society for Microbiology. All Rights Reserved.

Milky Disease Bacteria¹

Cornell University, New York State Agricultural Experiment Station, Geneva, New York
Entomology Research Division, U.S. Department of Agriculture, Riverside, California

ABSTRACT

A comparative study was made of all available milky-disease species and strains that have been isolated around the world from beetle larvae (family Scarabaeidae). Included in the study were Bacillus popilliae Dutky, B. lentimorbus Dutky, and B. lentimorbus var. maryland from the United States; B. euloomarahae Beard and B. lentimorbus var. australis Beard from Australia; B. fribourgensis Wille from Switzerland; and New Zealand milky disease (Dumbleton). The organisms were classified into three groups: (i) those containing parasporal bodies, including B. popilliae Dutky, B. fribourgensis Wille, and New Zealand milky disease (Dumbleton); (ii) those without a visible parasporal body and with spore morphology similar to B. lentimorbus Dutky, including B. lentimorbus var. australis Beard; and (iii) those with very tiny spores and no parasporal body, including B. euloomarahae Beard and B. lentimorbus var. maryland. All available milky-disease species and strains were cultivated in vitro on Brain Heart Infusion Agar plates. However, the most fastidious organisms—B. euloomarahae and B. lentimorbus var. maryland—could not be grown until they were passed through a life cycle in larvae of a large scarabaeid beetle infesting rotting wood. Then they remained stable for only one or two subcultures. All the milky-disease organisms produced larger cells in vitro than they did in vivo. The pattern of sugar fermentations was similar for all milky-disease species. It appears that there is a very low percentage of strains of B. popilliae, B. lentimorbus, and the other milky-disease organisms that have the inherent genetic makeup to permit them to sporulate on artificial media, if conditions are favorable. Among these conditions are a sufficiently high cell population and a reduced oxygen tension. Spores produced in vitro may have a low virulence via the normal ingestion pathway, even though they show apparent virulence when injected directly into the hemocoel.

¹ Approved for publication by the Director of the New York State Agricultural Experiment Station, Geneva, N.Y., as Journal Paper No. 1520.