Virgin females of Lobesia botrana Denis & Schiffermüller were mated at ages of 1, 3, 5, 8, 12 and 16 days and the effect of mating delay on reproductive output assessed. Delayed mating did not affect female mating success but fertilization was reduced in 16-day-old females. Increased mating delays substantially affected daily oviposition pattern and resulted in a significant reduction of both fecundity and fertility, so that mean number of viable eggs laid decreased from 150 to 22 in 1- and 16-day-old mated females, respectively. Heavier females were more constrained than lighter ones by mating delays and female reproductive efficiency (no. viable eggs/female body weight) was also significantly reduced. Female longevity significantly increased and oviposition period gradually declined with mating delay. The number of viable eggs was positively correlated with both female weight and oviposition period; female longevity and female weight were also significantly correlated. However, the significance of these correlations declined with increased mating delay. Results overall indicated that mating delay drastically reduces female L. botrana reproductive output. The implications of delayed mating of females are discussed from an ecological perspective in relation to L. botrana control using mating disruption.
Life history theory attempts to define the pattern of resource distribution among offspring and predicts that egg size should be positively correlated with offspring fitness. In this paper we investigated the effect of an array of ecological and reproductive factors on the size of eggs laid by Lobesia botrana, and the ecological significance of egg size by experimentally testing whether or not egg size increased larval performance in this moth. Egg size was significantly affected by female age at mating, water availability, pupal weight loss, the phenological stage of the vine in which larvae developed, female body weight, and oviposition day, but was unaffected by the size of the spermatophore received. The greater the size of the first eggs produced, the smaller the size of the last eggs laid, as predicted by the resource depletion hypothesis. As expected, the larger the size of eggs the larger the size of larvae emerging from them. Large larvae displayed a better ability to endure starvation than small ones. When small and large larvae were allowed to develop on grape clusters, an adverse environment, large larvae performed better, settling and survival being significantly enhanced, almost tripled. Instead, when the same experiment was carried out on an artificial diet in the laboratory, a much more favourable milieu, survival in both sized‐larval groups was not significantly different. We discuss our results in the context of current ideas relating egg size, larval performance and fitness in the Lepidoptera.
The effect of vine phenological stage during larval feeding on the reproductive output of Lobesia botrana (Denis & Schiffermüller) adults was assessed. Larvae were reared under field conditions on vine inflorescences, unripe or ripe berries simulating the first, second and third insect generations respectively. The resulting adults showed significant differences in body weight, longevity and reproductive output as measured by oviposition period, total fecundity and reproductive efficiency (viable eggs/body weight) for females, and spermatophore number and volume of the first spermatophore for males. Viable egg number was positively correlated with female body weight for all treatments but male reproductive efficiency (spermatophores/body weight) was not. The reproductive output of females from larvae reared on a standard semisynthetic diet was comparable to that of females reared on ripe berries whereas males showed a higher reproductive output when reared on semisynthetic diet. These results clearly show that data obtained from insects reared on artificial diet cannot be extrapolated to 'fieldderived' adults. The results suggest that the variation in L. botrana reproductive output due to the larval food source should be taken into account as a potential factor affecting insect population dynamics. It is suggested that different intervention thresholds, such as those based on pheromone catches, may be needed for each of the three moth generations, to compensate for the increased fecundity and potential to cause larger amounts of crop damage of later generations.
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