Summary1. The effects of successive matings by females on their performance were tested in laboratory experiments and field censuses for the windmill butterfly Atrophaneura alcinous.2. In laboratory experiments, newly eclosed females were hand‐paired either once or twice successively. The number of eggs laid and the sucrose solution intake of these females were examined daily. Fecundity and sucrose solution intake did not differ significantly between once‐ and twice‐mated females, however the longevity of twice‐mated females was significantly shorter than that of once‐mated females, implying that successive matings involve a physiological cost.3. The results of a mark–release–recapture census in a natural population also indicated that multiply mated females could not survive for as long as once‐mated females.4. The results did not support the general consideration that multiple mating is beneficial to females in Lepidoptera. The importance of the timing of remating by females on the consequences of multiple mating is discussed.
At mating, males of Atrophaneura alcinous plug the female copulatory duct with a secretory material, but some females copulate several times and can receive spermatophores from different males up to three times. Remating by plugged females mostly takes place shortly after the first mating, when the freshly formed first plug has not completely hardened. A freshly formed plug can be pressed aside or tunneled by the male aedeagus, and thus intromission and subsequent spermatophore transfer are sometimes possible. This is not always the case, however, and larger plugs are more likely to prevent aedeagus intrusion even if they are not completely hardened. Also, a few females remated a day after the first mating or later, when the first plug is already very hard. Completely hardened plugs are more effective than freshly formed ones; later mating males can thrust the aedeagus into the ductus bursae only when the plug is less than ca 1.2 mg (dry weight). The occurrence of female re-mating in plug-forming species thus does not necessarily mean that the plug is ineffective.
SummaryMating frequency of both sexes in a natural population of the papilionid butterfly Luehdorfia japonica was studied with special attention to the role of sphragis in preventing multiple matings by females. Males patrolled continuously within a patchy habitat throughout the warm daylight period in search for females. Mating took place without specialized courtship behavior. Males also attempted to copulate forcibly with previously mated females, but the presence of sphragis and/or the escape reaction of females prevented copulation. There was no specialized mate rejection behavior. Females mated early in their adult life, mainly on the day of emergence, and the frequency of mated females reached 100% within the first two or three weeks of their flight period. Spermatophore counts based on dissections of wild females possessing a sphragis indicated that they had never remated. Males were sexually active throughout their adult life. Male mating frequency was estimated from an index of scale‐loss from the claspers and frequencies of males which had not mated, and those which had mated once, twice or three or more times were respectively estimated to be 33.7%, 40.3%, 18.2% and 7.8%.
Bursaphelenchus firmae n. sp. is described. This new species was isolated during a field survey of longhorn beetleassociated nematodes. The fourth-stage dispersal (dauer) juveniles of the new species were recovered from dissected bodies (tracheal system) of Monochamus grandis, which emerged from dead logs of Japanese fir, Abies firma, collected from Hachioji, Tokyo, Japan. The new species is mid-sized for the genus, with females 603-828 μm and males 530-698 μm long. Four lateral lines occur on the body surface and seven genital papillae are found in males (P1 ventral single papilla and P2-P4 pairs). A long and arcuate spicule forms a trapezium in lateral view and a rather large, sub-squared, bursal flap and a vulva with conspicuous vulval flap are present. The female tail is smoothly tapered and possesses a conspicuous and blunt mucro. Based upon its diagnostic morphological characters, the new species belongs to the B. xylophilus group of the genus, and is closely related to B. fraudulentus, B. mucronatus, B. doui, B. macromucronatus and B. populi. It is distinguished from these five species by the morphology of the male bursal flap and the female mucro and several morphometric values. Molecular phylogenetic analyses inferred from D2/D3 LSU suggest that the new species is close to B. mucronatus and B. xylophilus, i.e., these three species form a well supported monophyletic clade within the genus. Although the new species has a weak pathogenicity to pine trees, it does not seem to be a severe risk to native pine forests.
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