Abstract
Comparison of the effects of temperature on the growth in culture (increase in protein) of Frankia showed that three strains isolated from Casuarina were more tolerant of high temperature (45°C) than a strain from Alnus rubra. Optimal temperatures for growth of the Casuarina strains were in the range 25–30°C. Growth of the Alnus strain was good at 25°C but poor at 37°C. High temperatures (35–40°C) during storage for 7 months of these Frankia strains in sand, inoculated initially with liquid culture or with Frankia incorporated into alginate beads and permitted to dry, resulted in substantial loss of infectivity for the host plant species. Loss in infectivity was greater with an Alnus Frankia strain than strains from Casuarina cunninghamiana, C. equisetifolia and C. junghuniana. Three Frankia strains from C. equisetifolia were incorporated into a sand/perlite mixture with three different moisture regimes (field moisture capacity – wet: watered and maintained at field capacity; watered to field capacity but then allowed to dry – moderately wet; or watered to half field capacity and then permitted to dry – dry) and then stored for 12 weeks at 25°C and 35°C. Assessment by the most probable number (MPN) technique of the infectivity of the sand mixture for nodulation of C. equisetifolia showed significant interactions between Frankia strain, temperature and soil moisture content. The infectivity of Frankia strains ORS020607 and UGL020602q was not affected by incubation in wet sand at 25°C but fell by more than half after 12 weeks in moderate and dry conditions. Changes in infectivity were similar when incubation was at 35°C. By contrast, the infectivity of UGL020603q fell substantially under all moisture conditions and at both temperatures. The data show the importance of screening for tolerance of both temperature and moisture content when selecting strains for preparation of inoculum for use in hot climates.
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