Metabolic rate in diapause and nondiapause brown locust eggs correlated with embryonic development |
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Authors: | INNOCENT N. KAMBULE SHIRLEY A. HANRAHAN FRANCES D. DUNCAN |
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Affiliation: | Animal, Plant and Environmental Sciences, University of the Witwatersrand, Wits, South Africa |
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Abstract: | Insects use dormancy to survive adverse conditions. Brown locust Locustana pardalina (Walk.) eggs offer a convenient model to study dormancy (diapause and quiescence), which contributes to their survival under arid conditions. The metabolic rates of developing nondiapause, diapause and quiescent eggs are compared in the present study using closed‐system respirometry. The embryo becomes committed to continue development and hatch or to enter diapause 6 days after the eggs are placed on moist soil. The metabolic rate of nondiapause eggs increases exponentially until hatching, whereas that of diapause eggs is low and stable. The metabolic rate of diapause laboratory eggs (1.9 ± 0.6 µL CO2 mg?1 h?1) is significantly higher than that of field eggs (0.5 ± 0.3 µL CO2 mg?1 h?1), although the ranges of metabolic rate overlap and the embryos are all in late anatrepsis. The metabolic rate of quiescent eggs is similar to that of diapause eggs but decreases with time. Low metabolic rates during arrested development allow eggs to persist over long periods before hatching. |
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Keywords: | CO2 production dormancy embryo field eggs Locustana pardalina quiescence |
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