Microsatellite markers for testing host plant‐related population differentiation in the moth genus Yponomeuta

Nine microsatellite primers were developed for Yponomeuta padellus (Lepidoptera: Yponomeutidae) and tested for their applicability in analysing genetic population structure. Eight of the nine loci were highly polymorphic with on average 11.4 alleles. Cross‐species amplification of the nine primer pairs was tested in five other moth species. Primer pairs amplified in Y. cagnagellus, Y. malinellus, Y. evonymellus, and Y. rorellus but not in Y. sedellus and Plutella xylostella.     

The sensory basis of trail following in some lepidopterous larvae: contact chemoreception

ABSTRACT. . Caterpillars of the genus Malacosoma follow trails of the chemical 5-beta-cholestane-3,24-dione, but nothing is known of how they perceive this compound, or more generally about the sensory basis of trail following in caterpillars. By selective ablations of chemosensory organs we show that, in Malacosoma , the trail chemical is perceived by the maxillary palpi. In another lepidopteran species, Yponomeuta cagnagellus , the palpi are needed to discriminate their own trails from a trail of Malacosoma. Malacosoma larvae also lose their specificity for conspecific trails when their palpi are ablated. Volatile cues evidently do not play a role in trail-following behaviour, since neither Malacosoma nor Yponomeuta can orient on a trail covered with fine nylon mesh. These data indicate that for Malacosoma , and probably also for Yponomeuta , contact chemoreception mediated by the maxillary palpi is the primary mode of pheromone perception. The evolution of receptor sensitivity to trail chemicals in caterpillars is discussed.     

Olfactory receptors on the maxillary palps of small ermine moth larvae: evolutionary history of benzaldehyde sensitivity

In lepidopterous larvae the maxillary palps contain a large portion of the sensory equipment of the insect. Yet, knowledge about the sensitivity of these cells is limited. In this paper a morphological, behavioral, and electrophysiological investigation of the maxillary palps of Yponomeuta cagnagellus (Lepidoptera: Yponomeutidae) is presented. In addition to thermoreceptors, CO₂ receptors, and gustatory receptors, evidence is reported for the existence of two groups of receptor cells sensitive to plant volatiles. Cells that are mainly sensitive to (E)-2-hexenal and hexanal or to (Z)-3-hexen-1-ol and 1-hexanol were found. Interestingly, a high sensitivity for benzaldehyde was also found. This compound is not known to be present in Euonymus europaeus, the host plant of the monophagous Yponomeuta cagnagellus, but it is a prominent compound in Rosaceae, the presumed hosts of the ancestors of Y. cagnagellus. To elucidate the evolutionary history of this sensitivity, and its possible role in host shifts, feeding responses of three Yponomeuta species to benzaldehyde were investigated. The results confirm the hypothesis that the sensitivity to benzaldehyde evolved during the ancestral shift from Celastraceae to Rosaceae and can be considered an evolutionary relict, retained in the recently backshifted Celastraceae-specialist Y. cagnagellus.     

Experimental evidence for male biased flight-to-light behavior in two moth species

Many studies report a greater abundance of male than female moths in light trap catches. The finding was interpreted as evidence for male-biased attraction to light, but alternatives could not be ruled out. For example, it is not known, how much the sex ratio in the catches deviates from the natural sex ratio. To overcome these limitations, we experimentally tested the flight-to-light behavior of two moth species, Yponomeuta cagnagella (Hübner) (Lepidoptera: Yponomeutidae) and Ligdia adustata (Denis and Schiffermüller) (Lepidoptera: Geometridae), under standardized conditions in an enclosed environment. In our test, we controlled the sex ratio, age, and population size. We recorded the moths caught in the trap and those that remained outside. Depending on the species, between 27 and 72% of all moths were caught in the light trap. We found that male moths were significantly and about 1.6 times more frequently attracted to the light than female moths. Our results were consistent for both species and hold good on the level of populations. We experimentally supported the general observation of a sexual dimorphism in the flight-to-light behavior of moths. Possible functional explanations include different flight activities of males and females or differences in the perception of light between males and females. Our experimental demonstration of a sexual dimorphism in the flight-to-light behavior of moths together with the common observation of an overrepresentation of males in light traps and other artificial light sources has implications for population and conservation biology.     

Sympatric speciation in Yponomeuta: no evidence for host plant fidelity

According to sympatric speciation theory, adaptation to different host plants is expected to pleiotropically lead to assortative mating, an important factor in the reduction of gene flow between the diverging subpopulations. This scenario predicts mating on and oviposition preference for the respective hosts in both the diverging subpopulations and recently originated species. Here, we test both predictions in the oligophagous Yponomeuta padellus (L.) and the monophagous Yponomeuta cagnagellus (Hübner) (Lepidoptera: Yponomeutidae), two closely related small ermine moth species from the western European clade of Yponomeuta for which speciation in sympatry has been proposed. Mating location and adult host acceptance were evaluated under both semi-field (in a large outdoor cage with a choice of host and non-host plants) and field conditions. In the semi-field experiment, only Y. cagnagellus showed some preference for mating on its own host (16% of all mating pairs) over non-host plants (3% of all mating pairs). However, in both species, more than 80% of the mating pairs were not formed on a plant but instead on the cage itself. Further examination of the mating site of Y. cagnagellus in the field revealed no preference for host plants over non-host plants in the two consecutive years of observation. Yponomeuta padellus females, collected from and reared on Prunus spinosa L. (Rosaceae), showed an oviposition preference for the alternative host Crataegus monogyna Jacq. (Rosaceae) in the semi-field experiment. We thus found no evidence that host-plant fidelity (in terms of mating site) has been the driving force in the speciation process of these Yponomeuta species, nor did we find evidence of host race formation in the tested population of the oligophagous Y. padellus .     

The courtship behaviour of Yponomeuta padellus

The sequence of behavioural steps from male attraction until copulation is described and analyzed for Yponomeuta padellus L. (Yponomeutidae, Lepidoptera). Males respond to a pheromone emitting female with wing fanning followed by upwind zigzagging flight. Males will land near the females and then walk while wing fanning. The antennae drum onto the substratum and the abdominal-hair pencils are displayed. When in contact with a female the male drums with his antennae onto wings, head and antennae. Mostly a clasping attempt follows. A male has a higher chance to be accepted when he firt encounters the rear of a female instead of the head. Females refuse males by walking away or wing fanning or a combination of both.

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Résumé Les séquences du comportement depuis l'attraction du mâle jusqu'à la copulation ont été décrites et analysées chez Y. padellus (L.). Les mâles réagissent à une femelle émenttant une phéromone par un hattement d'ailes suivi d'un vol en zigzag contre le vent. Les mâles atterriront près des femelles et marcheront avec leurs ailes en battement. Les antennes tambourinent le substrat et les pinceaux abdominaux sont déplyés. Lorsqu'il est au contact de la femelle, le mâle tambourine avec ses antennes les ailes, la tête et les antennes. Généralement suit une tentative d'étreinte. Les chances de succès sont les plus élevées quand les premiers contacts du mâle sont avec la partie postérieure de la femelle plutôt qu'avec la tête. Les femelles refusent les mâles en s'écartant ou en battant des ailes ou les deux à la fois.Il semble qu'en plus des stimuli cliniques, des stimuli mécaniques fournis par les écailles sont nécessaires pour que les mâles localisent la femelle et s'orientent pour une tentative d'étreinte.

     

Introduction and establishment of parasitoids for the biological control of the apple ermine moth, Yponomeuta malinellus (Lepidoptera: Yponomeutidae), in the Pacific Northwest

Four parasitoids were imported from five countries in Eurasia and released in northwestern Washington, US, to control the apple ermine moth (AEM), Yponomeuta malinellus Zeller, which colonized the Northwest around 1981. From 1988 to 1991, 95,474 individuals of Ageniaspis fuscicollis (Dalman) from France, China, Korea, and Russia were released in Washington. Parasitism of AEM increased 4- to 5-fold over that produced by preexisting natural enemies between 1989 and 1994 at 22 monitored sites. Subsequently, the wasp dispersed up to 20 km from release sites. A. fuscicollis also parasitized the cherry ermine moth, Yponomeuta padellus (L.), which was discovered in the Pacific Northwest in 1993. A total of 1813 individuals of Herpestomus brunnicornis (Gravenhorst) from France, Korea, and Japan were released in 1989–1991, and 26 wasps were recovered in 1994–1995. From 1989 to 1991, 2647 Diadegma armillata (Gravenhorst) individuals from France were released. D. armillata was recovered at one site in 1991 two months following release, but no other recoveries have been made. A total of 8274 Eurystheae scutellaris(Robineau-Desvoidy) individuals were released in 1989 to 1991. However, this tachinid has not been recovered. A consistent decline of AEM populations occurred in 1989–1995, including at sites where A. fuscicollis was not recovered, suggesting other factors also contributed to this pest’s decline. Now well established in western Washington, A. fuscicollis may help suppress future outbreaks of Y. malinellus and its congener, Y. padellus.     

Do Pheromone Binding Proteins Converge in Amino Acid Sequence When Pheromones Converge?

Convergence in amino acid sequences between proteins can be strong evidence for selection. Here, I look for evidence of convergence in the amino acid sequences of pheromone binding protein (PBP) in response to convergence in pheromones. PBPs are involved in sex pheromone reception by the antennae of male moths. In this role PBPs may selectively bind pheromone components and experience convergent selection in response to convergence in pheromone components. However, examination of the PBPs of the taxa that have converged upon the use of (E)- or (Z)-11-tetradecenyl acetate as their major pheromone component reveals little evidence for convergence in the PBPs identified from these taxa. A few sites show a pattern consistent with convergence or parallelism; however, it cannot be ruled out that these sites share the ancestral state. Two of these sites fall within the proposed binding region of PBPs. These results suggest that PBPs either have not converged in sequence or have converged at very few sites in response to convergence on the same pheromone component. Received: 29 July 1999 / Accepted: 8 November 1999     

Competition between Trieces tricarinatus and Triclistus yponomeutae in multiparasitized hosts

Competition between the solitary endoparasitoids Trieces tricarinatus (Gravenhorst) and Triclistus yponomeutae Aeschlimann (Hymenoptera: Ichneumonidae) results in the survival of one or the other of them. Once the host, Yponomeuta vigintipunctatus (Retzius) (Lepidoptera: Yponomeutidae) has pupated and both parasitoids have completed their development to first instar larvae, one of the parasitoid larvae kills the other.Which of the parasitoids survives depends on the number of days between parasitization and pupation. As a result of their type of development, this period determines the extent of development of the parasitoids at the moment of actual competition. Apparently, T. tricarinatus survives only if pupation of the host occurs before egg hatching of T. yponomeutae.

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Résumé La compétition entre les deux ichneumonides endoparasitoïdes solitaires Trieces tricarinatus Grav. et Triclistus yponomeutae Aeschl. a été examinée en élevant et disséquant des Yponomeuta vigintipunctatus Retz. attaqués le même jour par les deux parasitoïdes. Les résultats des dissections des hôtes multiattaqués ont été comparés à ceux des hôtes attaqués par un seul parasite, pour séparer la mortalité ou l'absence de parasitoïde provoquées par la compétition à celles dues à d'autres facteurs.On a constaté qu'un seul parasite était capable d'achever son développement. Dès que l'hôte était nymphosé et que les deux parasitoïdes étaient au premier stade larvaire, une des larves tuait sa compétitrice. Pour une fraction importante des larves éliminées, il a été possible de montrer qu'elles avaient été tuées par une aggression physique, pour les autres ce mode d'élimination était vraisemblable.L'espèce de parasitoïde qui survit dépend du nombre de jours entre la ponte des ichneumonides et la nymphose de l'hôte. Ce délai détermine le degré de développment des parasitoïdes et le moment réel de la compétition. Probablement, T. tricarinatus est le seul à survivre lorsque la nymphose de l'hôte a lieu avant l'éclosion des oeufs de T. yponomeutae.