32 research outputs found
The preference of Trichopria drosophilae for pupae of Drosophila suzukii is independent of host size
Below ground efficiency of a parasitic wasp for Drosophila suzukii biocontrol in different soil types
The parasitoid wasp Trichopria drosophilae is promising as a biocontrol agent for controlling the ubiquitous pest Drosophila suzukii (Matsumura). Crucial for the successful implementation of any biocontrol agent is a high parasitisation rate by the parasitoid. Most studies investigating the parasitisation rate of D. suzukii pupae have focused on parasitisation in the fruit or in a petri dish. However, the predominant pupation site of D. suzukii in the field is the soil. Unfortunately, little is known on how well parasitoid wasps can detect and parasitise pupae of D. suzukii buried in the soil. Therefore, we conducted soil parasitisation experiments of T. drosophilae on D. suzukii pupae using two pupation depths in three different soil types (loamy sand, loam, and clay). In all three soil types, we found generally low D. suzukii pupae parasitisation rate by T. drosophilae, independent of the pupation depth. The pupation behaviour of D. suzukii and the parasitisation behaviour of T. drosophilae are discussed in detail. For pest control in most soil types, our results mean that the number of D. suzukii larvae pupating in the soil should be reduced, e.g., by adding a layer of sandy soil or covering the soil with plastic mulch. This might increase the probability of success when using T. drosophilae as a biocontrol agent
The role of pollinator attracting scent in the sexually deceptive orchids Ophrys chestermanii, O. normanii and O. tenthredinifera
Sexual deception of male bees is one of the most remarkable mechanisms of pollination (Ackermann 1986, Proctor & al. 1996). Flowers of the orchid genus Ophrys mimic females of their pollinator species, usually bees and wasps, to attract males, which try to copulate with the flowers. During this so-called âpseudocopulationâ the male removes the pollinia and transfers them to another flower to ensure pollination. Apart from visual and tactile cues, floral scent was shown to be most important for eliciting mating behaviour in males (Kullenberg 1961, Schiestl & al. 1999, Ayasse & al. 2003). Pollination in Ophrys is highly specific and usually each Ophrys species attracts only one pollinator species (Paulus & Gack 1990). The high degree of specialization provides the means of reproductive isolation between the intercrossable Ophrys-species (Ehrendorfer 1980). The complex odour-bouquets released by the flowers are species-specific and often consist of more than 100 different chemical compounds (Borg-Karlson & al. 1985, Ayasse 2006). Speciation in Ophrys-orchids may be brought about by changes in the pollinator attracting floral scent. The attraction of a new pollinator may act as a pre-zygotic isolation barrier (Stebbins 1970, Paulus & Gack 1990, Soliva & al. 2001). We investigated three sympatrically occuring Ophrys-species on Sardinia. O. chestermanii and O. normanii are endemic and are both pollinated by males of the bumblebee B. vestalis. O. tenthredinifera is pollinated by Eucera nigrilabris. There are different opinions concerning the taxonomic status of O. normanii. It has been described as an actual hybrid between O. chestermanii and O. tenthredinifera (Wood 1983). Paulus & Gack (1995) suggested that it is an own species, that either has developed from a hybrid between O. chestermanii and O. normanii or that has evolved by radiation from O. tenthredinifera. By conducting behavioural-tests with B. vestalis males, performing gas chromatographic analyses and electrophysiological studies we wanted to identify pollinator attracting scent and to clarify the taxonomic status of O. normanii.SexualtĂ€uschorchideen der Gattung Ophrys (Orchidaceae) imitieren die Weibchen ihrer BestĂ€uber in Duft, Form und Farbe. InsektenmĂ€nnchen versuchen mit dem Labellum der BlĂŒte zu kopulieren und transportieren den Pollen von BlĂŒte zu BlĂŒte, wodurch die Orchidee bestĂ€ubt wird. In dieser Arbeit untersuchten wir die BestĂ€uber anlockenden Duftstoffe der beiden endemisch auf Sardinien vorkommenden Arten O. normanii und O. chestermanii, die beide von Bombus vestalis MĂ€nnchen (Hymenoptera: Apidae) bestĂ€ubt werden und von O. tenthredinifera, die Eucera nigrilabris (Hymenoptera: Apidae) zur BestĂ€ubung anlockt. O. normanii wurde von Wood (1983) als PrimĂ€rhybride beschrieben. Nach Paulus und Gack (1995) handelt es sich um eine hybridogene Art oder um eine Art die durch Abspaltung von O. tenthredinifera entstanden ist. Das Ziel der Untersuchungen war die Identifizierung MĂ€nnchen-anlockender Verbindungen. Die AttraktivitĂ€t der drei Arten fĂŒr B. vestalis MĂ€nnchen sollte Hinweise auf den Artstatus von O. normanii geben. In Biotests mit B. vestalis-MĂ€nnchen lösten BlĂŒtenextrakte von O. normanii und O. chestermanii ebenso wie B. vestalis-Weibchen Kopulationsverhalten der MĂ€nnchen aus, nicht jedoch Extrakte von O. tenthredinifera. Folglich handelt es sich bei O. normanii nicht um einen aktuellen Hybriden zwischen O. chestermanii und O. tenthredinifera. Ein Vergleich der GC-EAD-aktiven Duftbouquets mittels Diskriminanzanalyse ergab groĂe Ăhnlichkeiten zwischen O. normanii und O. chestermanii fĂŒr die Substanzklassen der Ester, Alkohole und FettsĂ€uren, die daher vermutlich eine SchlĂŒsselfunktion bei der BestĂ€uberanlockung haben
A case study for the formation of stanene on a metal surface
The discovery and realization of graphene as an ideal two-dimensional (2D) material has triggered extensive efforts to create similar 2D materials with exciting spin-dependent properties. Here, we report on a novel Sn 2D superstructure on Au(111) that shows similarities and differences to the expected electronic features of ideal stanene. Using spin- and angle-resolved photoemission spectroscopy, we ïŹnd that a particular Sn/Au superstructure reveals a linearly dispersing band centered at the Î-point and below the Fermi level with antiparallel spin polarization and a Fermi velocity of vF â 1Ă106 m/s, the same value as for graphene. We attribute the origin of the band structure to the hybridization between the Sn and the Au orbitals at the 2D Sn-Au interface. Considering that free-standing stanene simply cannot exist, our investigated structure is an important step towards the search of useful stanene-like overstructures for future technological applications
Pollinator driven radiation in sexually deceptive orchids of the genus Ophrys
Reproductive isolation of sexually deceptive orchid species of the genus Ophrys is based on the specific attraction of a single pollinator species by mimicking the female sex-pheromone of its pollinator. The attraction of a new pollinator caused by changes in the flower odour by drift or hybridization could lead to sympatric speciation.
I investigated putative hybrid swarms of Ophrys on Sardinia and Majorca using behavioural experiments, electrophysiology, chemical analysis, and molecular markers (AFLP).
On Sardinia I investigated hybrid swarms between O. lupercalis and O. iricolor. In behavioural experiments I found cross attraction of pollinators between species, as well as flowers that were attractive to both pollinators. The analysis of the EAD-active odour compounds showed a significant difference in the flower odour between both parental species, but with a huge overlap between species. AFLP data of the same plant specimen clearly showed the hybridization between O. lupercalis and O. iricolor.
A different situation was found on Majorca, where O. lupercalis, O. bilunulata, and O. fabrella bloom consecutively. In the genetic analyses O. bilunulata did not form a distinct group, due to hybridization with both other species. In contrast to this, the analysis of flower odour shows a distinct odour for each species.
My results show that reproductive isolation in Ophrys is not as complete as thought so far and that pollinator shifts may have played an important role in the evolution of this group
Morphology and ultrastructure of the allomone and sex-pheromone producing mandibular gland of the parasitoid wasp Leptopilina heterotoma (Hymenoptera: Figitidae)
Chemical communication by the parasitoid wasp Leptopilina heterotoma is based largely on (-)-iridomyrmecin. The female wasps use (-)-iridomyrmecin as a defensive allomone, a chemical cue to avoid competition with con- and heterospecific females, and as a major component of their sex pheromone to attract males. Males of L heterotoma produce (+)-isoiridomyrmecin, which is also used for chemical defense. In this study we show that females and males of L. heterotoma produce the iridomyrmecins in a pair of mandibular glands. Each gland consists of a secretory part composed of class 3 gland cells and their accompanying duct cells, as well as a reservoir bordered by a thin intima. The gland discharges between the mandible base and the clypeus. Males have considerably smaller glands than females, which corresponds to the lower amount of iridomyrmecins produced by males. Chemical analyses of the mandibular gland contents showed that the gland of females contained mainly (-)-iridomyrmecin, as well as low amounts of the other previously described iridoid pheromone compounds, while the glands of males contained only (+)-isoiridomyrmecin. The morphology and sizes of the mandibular glands of males and females of L. heterotoma have evolved to the multi-functional use of iridomyrmecin. (C) 2016 Elsevier Ltd. All rights reserved
Qumran : die Texte vom Toten Meer und das antike Judentum
International audienc