Trait stability and fitness of the heat tolerant entomopathogenic nematode Heterorhabditis bacteriophora IS5 strain
1996
Shapiro, D.I. | Glazer, I. | Segal, D.
Natural populations of entomopathogenic nematodes may possess novel traits that offer advantages in biological control. If, however, the populations cannot be reared under laboratory conditions, and if their beneficial traits are unstable, then increases in biocontrol efficacy will be minimal. The stability of heat tolerance in, and fitness under laboratory conditions of, a newly discovered strain of Heterorhabditis bacteriophora (designated IS5) were investigated. Trait stability and fitness assays were conducted after multiple passages through Galleria mellonella. Assays were conducted on IS5 populations reared at 30 and 25 degrees C. Trait stability was determined as survival at elevated temperatures. Relative to the commercially available strain of H. bacteriophora (HP88), the IS5 strain exhibited greater heat tolerance alter 12 passages regardless of selection pressure. The population of IS5 reared at 30 degrees C exhibited greater heat tolerance than the population reared at 25 degrees C. Results indicated that the heat tolerance trait is genetically based. Estimates of fitness were based on virulence, infectivity, reproductive potential, and storage capacity. The virulence, infectivity, and reproductive potential of IS5 nematodes were greater than or equal to that of HP88 nematodes. The heat tolerance trait in IS5 was retained after 6 weeks of storage. The IS5 strain survived significantly longer at 25 degrees C than at 10 degrees C, indicating that these nematodes may be cold sensitive. The results of this paper will expedite future genetic, biochemical, and field efficacy studies on H. bacteriophora IS5.
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