Jacques Huignard

Transfer and fate of male secretions deposited in the spermatophore of females of Acanthoscelides obtectus Say (Coleoptera Bruchidae)

Abstract During mating, males of Acanthoscelides obtectus deposit a spermatophore in the female genital tract. Spermatophore structure subsequently undergoes considerable modification, especially the central portion, which becomes vacuolated. Two methods were used to show that certain male secretions could thus pass into female haemolymph. When young males were injected with [ 14 C]-arginine or [ 14 C]-histidine, the accessory glands actively incorporated the isotope and the resulting spermatophores were radioactive. After mating, spermatophore radioactivity declined and then appeared in the haemolymph of females and in the oocytes after a delay. Immunoelectrophoresis also showed that antigens appeared in the haemolymph of females after mating which reacted against male-gland antiserum. This technique, however, did not enable us to detect the presence of male antigens in the oocytes formed after mating. The fate of some male secretions in the female and their physiological importance in the control of the female reproductive function were analysed in the present work.

How a specialist and a non-specialist insect cope with dimethyl disulfide produced by Allium porrum

Damaged Allium plants produce and release sulfur allelochemicals, presumably to prevent insect herbivory. Defensive sulfur compounds, particularly dimethyl disulfide (DMDS), are highly toxic for non‐adapted species. The toxicity of DMDS in these insects is due to disruption of the cytochrome oxidase system of their mitochondria. The purpose of this study was to compare susceptibility to DMDS in a specialist and a non‐specialist insect of Allium plants, i.e., Acrolepiopsis assectella Zeller (Lepidoptera: Acrolepiidae) and Callosobruchus maculatus Fabricius (Coleoptera: Bruchidae) a specialist insect of Leguminosae. Results showed that A. assectella larvae are less susceptible to DMDS than C. maculatus adults. This bruchid becomes more tolerant after a first exposure to 0.2 µl l−1 of DMDS, with second‐exposure toxicity depending on the time lapse between exposures. Higher second‐exposure tolerance could be due to selection and detoxification. To answer this question, the activity of glutathione S‐transferase (GST), a key enzyme in the detoxification system, was analyzed after DMDS exposure of C. maculatus adults and larvae and of A. assectella larvae. Exposure to DMDS increased GST activity in C. maculatus adults and larvae. This finding implies that induced GST is involved in C. maculatus tolerance to DMDS. Exposure to DMDS had no effect on GST activity in A. assectella. Adaptations underlying A. assectella tolerance to sulfur compounds are discussed.

Induction of reproductive diapause in Bruchidius atrolineatus during the dry season in a Sahelian zone

Bruchidius atrolineatus (Pic) (Bruchidae: Coleoptera) is a bruchid beetle infesting Vigna unguiculata (Walp). During the dry season, adults are in reproductive diapause. Studies of adult populations in a traditional store containing contaminated pods of V. unguiculata show that the reproductive diapause is induced during the first larval instars. The temperature decrease from November to January probably is the main climatic factor inducing this diapause. The percentage of diapausing adults depends on the duration of the larval development at low temperatures. Experiments in climatic boxes confirm these results. At 12 h 25 °T–12 h 20° C 11–13 LD, a high proportion of the adults emerging from the V. unguiculata seeds are in reproductive diapause and the duration of their growth is variable. L1 L2 L3 larvae probably are sensitive stages to the thermal variations and the processes allowing emergence of diapausing adults probably are induced during these larval instars.

Life history of flight morph females of Callosobruchus maculatus F.: evidence of a reproductive diapause

Callosobruchus maculatus (F.) (Coleoptera : Bruchidae) is a tropical beetle that develops in the seeds of Vigna unguiculata. C. maculatus adults show an imaginal polymorphism with differences in morphological, behavioral and reproductive characteristics. Adults of the flight morph that emerge in cowpea storage systems were studied under natural climatic conditions. A large number of the flight morph females were in reproductive diapause and had a long imaginal life. These females did not synthesize vitellogenin, produced a specific diapause protein and possessed significant protein reserves. This suggests that the beetles survived in the tropical ecosystem for a long time and colonized the crops during the cowpea growing and flowering phases. Analysis of reproductive activity in females captured in the V. unguiculata crops indicates that they terminated their reproductive diapause and began to lay eggs as soon as the pods were formed. Few females of the flight morph were sexually active at the beginning of imaginal life. In this paper we discuss the adaptive significance of these two reproductive strategies in females of C. maculatus.

Susceptibility of Callosobruchus maculatus (Coleoptera: Bruchidae) and its Parasitoid Dinarmus basalis (Hymenoptera: Pteromalidae) to Sulphur-Containing Compounds: Consequences on Biological Control

Abstract In West Africa Callosobruchus maculatus F. causes major losses during storage of cowpea (Vigna unguiculata Walper). The larvae of C. maculatus are parasitized inside the seeds by Dinarmus basalis (Rondani). African farmers introduce aromatic plants into storage systems at the beginning of the storage period that release toxic volatile compounds into the headspace of the stores. The susceptibility of C. maculatus and D. basalis to two plant sulphur-containing compounds, methylisothiocyanate (MITC) and dimethyl disulfide (DMDS), was analyzed under laboratory conditions. The adults of C. maculatus and D. basalis had the same susceptibility to MITC but the parasitoid was more susceptible to DMDS than its host. The larvae were less affected by the treatments than the adults; the seed coat acts as a barrier for volatile penetration. Susceptibility to DMDS was high when the C. maculatus larvae were extracted from the seeds. DMDS was more toxic than MITC and differences in penetration inside the seeds could explain these results. The higher susceptibility of D. basalis to the treatments could have consequences on biological control in storage systems. The presence or absence of leaves of the shrub Boscia senegalensis Lamarck (Capparaceae), which release MITC into the jar atmosphere could have an impact on numbers of C. maculatus and D. basalis. When D. basalis adults were put into the storage systems in the absence of B. senegalensis leaves, successive generations of the parasitoids maintained the C. maculatus population at a low density. In the presence of B. senegalensis leaves, the D. basalis population was more affected by the treatment than its host C. maculatus and was incapable of preventing the increase in bruchid population. This traditional method appears to increase seed weight losses by limiting the efficiency of the biological control.

Influence of thermoperiod and photoperiod on reproductive diapause in Bruchidius atrolineatus (Pic) (Coleoptera, Bruchidae)

Abstract Bruchidius atrolineatus (Pic) is a common pest infesting cowpea seeds (Vigna unguiculata Walp) in Africa. In the Sahelian zone, the adults are in reproductive diapause during the dry season. Diapause induction depends on the climatic conditions during embryonic and post‐embryonic development. A strain of B. atrolineatus originating from the Niamey (13oN) was reared in different thermoperiodic and photoperiodic conditions. In the thermoperiodic regime 40:25oC, in continuous darkness, induction of diapause was dependent on the duration of the thermophase. Photoperiod could also influence diapause induction but the response depended on the temperature. When the beetles were reared in conditions of LD 12:12 h, 40:25oC, for seven generations, the proportion of diapausing adults decreased and their sensitivity to photoperiod increased. In LD 14:10 h, 40:25CC, the proportion of diapausing adults remained high regardless of the photoperiod. In these conditions, the first emerging adults were sexually active and were used for selection of a strain with a low incidence of diapause. After twelve generations, the proportion of diapausing beetles was lower than 5%. The responses of this selected strain to photo‐ and thermoperiods were reduced. The sensitivity of B. atrolineatus to photoperiod and thermoperiod could be controlled by genetic systems as observed in other insect species.

Isolement, action biologique et evolution des substances paragoniales contenues dans le spermatophore d'Acanthoscelides obtectus (Coleoptère)

Abstract In Acanthoscelides obtectus , some male secretions deposited in the spermatophore during mating reach the blood of the females and stimulate oogenesis. Water extracts from spermatophores injected into a female abdomen stimulate oogenesis but do not influence egg-laying or sexual receptivity. After column chromatograph of spermatophores, aqueous extracts on Sephadex G 25 Coarse, G 25 Superfine, and G 15, an active fraction has been isolated. This injected into the abdomen of virgin females stimulates oogenesis at low concentrations, but it is toxic at higher concentrations. This fraction was examined by paper electrophoresis at low voltage and then chromatographed on G 10 Sephadex. Two peaks were obtained: the first corresponds to the paragonial substance A which stimulates oogenesis at 0,2 10 −3 μg/μl concentration. The second contains the paragonial substance B. At a 0,3 10 −3 ug/μl concentration this substance is toxic. First this toxicity inhibits oogenesis and then causes the death of most females at higher concentrations. The toxic effect appears 2 or 3 days after injection. These two substances are purified on paper chromatography and the biological activities are contained in a zone of R f 0.25 to 0.45 (paragonial substance A) and in a zone of 0.16–0.30 R f (paragonial substance B). The paragonial substances disappear from the spermatophore after mating. Aqueous extracts of spermatophores obtained 6 hr after mating do not stimulate oogenesis and do not have any toxic effect. The chemical nature of these both fractions is not yet determined because the quantity of extracts obtained at the end of the purification is very low. The action of both paragonial substances is similar to the action of hormones. The paragonial substances influence unknown receptors at low concentration after a latent period. The origin of the paragonial B substance was not determined, but this substance which inhibits oogenesis at low concentrations could be an antagonist of paragonial A substance.

Influence of Hyptis suaveolens (Lamiaceae) on the Host Location Behavior of the Parasitoid Dinarmus basalis (Hymenoptera: Pteromalidae)

Abstract The solitary larval parasitoid Dinarmus basalis Rondani is a promising biological control of Callosobruchus maculatus F, a major insect pest of stored cowpeas in West Africa. Farmers traditionally introduce Hyptis suaveolens L. Poit. leaves in their granaries for protection of cowpea seeds against bruchid damage. However, effects of botanical treatment using this plant on host location behavior and reproduction of D. basalis remain unknown. Olfactometer studies showed that sublethal doses of volatiles emitted by the crushed leaves and the essential oils were repellent for naive females D. basalis, which had previously developed in the absence of H. suaveolens volatiles. These females were able to move in a three-dimensional device and to avoid the host patches associated with H. suaveolens volatiles. Their reproductive activity was consequently reduced in such patches. Females, which had been exposed to sublethal doses of H. suaveolens volatiles during their postembryonic development, were no longer repelled or only partially repelled by the plant volatiles. A habituation process may be involved in the behavior of these D. basalis females. The importance of this habituation process is discussed within the scope of the integrated protection of cowpea seeds during storage.

Why Callosobruchus rhodesianus causes limited damage during storage of cowpea seeds in a tropical humid zone in Togo

The sympatric bruchids Callosobruchus rhodesianus (Pic) and Callosobruchus maculatus (F.) (Coleoptera: Bruchidae) colonize cultures of cowpea, Vigna unguiculata (Walp.) (Papilionaceae), in Togo at the end of the rainy season. Seeds containing larvae of the two bruchid species were introduced into the storage systems. Callosobruchus rhodesianus adults emerged from the seeds at the beginning of storage, but this species disappeared quickly and C. maculatus became dominant. Analysis of the reproduction of females collected at the beginning of storage made it possible to distinguish between four groups of females differing in their reproductive activity. Three groups were sexually active but they differed in their fecundity and the duration of the latency period before the first oviposition phase. The fourth group of females was in reproductive diapause. In interspecific competition, the presence of C. maculatus larvae reduced the survival chances of C. rhodesianus and therefore is disadvantageous for this species. The main factors explaining the rapid decrease of the C. rhodesianus populations under storage conditions were the variability of female reproductive activity with the emergence of insects in reproductive diapause and the significant larval mortality in interspecific competition with C. maculatus.

Ultrastructure des spermatozoides des males haploides et diploides de Diadromus pulchellus wesmeal (Hymenoptera : Ichneumonidae)

Abstract The mature spermatozoa were described in the haploid and diploid males of Diadromus pulchellus Wesmeal (Hymenoptera : Ichneumonidae). Diploid males produce spermatozoa, which do not seem to be different from those produced by haploid males. The spermatozoon is about 100 μm long, and consists of a head, 0.8 μm in diameter, and a tail 0.3 μm in diameter. Its anterior part shows an acrosomal complex, including a perforatorium and a compact and electron-dense fusiform nucleus. The postnuclear region includes a longitudinal axoneme with 2 mitochondrial derivatives. The axoneme shows 2 typical central units, 9 peripheral doublet microtubules, 9 accessory internal tubules, and 9 external microtubules with dense contents. In the testes of diploid males, a great number of abnormal spermatozoa were observed. These spermatozoa with degenerative structures are probably not implicated in egg fertilization.