Nesting ecology of the wasp Sceliphron destillatorium (Illiger, 1807) (Hymenoptera,Sphecidae) in the Crimea

The nests of Sceliphron destillatorium in the Crimea were mainly built in attic spaces of houses and in various uninhabited buildings, and consisted of 3–39 (on average 16.5) cells. Twelve species of spiders from 11 genera of 4 families with predomination of Araneidae and Oxyopidae were recorded as prey. One nest cell contained 4–13 (on average 7.9) spiders, mostly adult ones. Successful development of S. destillatorium progeny was recorded in 48.6% of the cells; 26.5% of the progeny died from parasites: Amobia pelopei (16.0%), Chrysis taczanovskyi (4.3%), and Melittobia acasta (6.2%); 24.9% of the progeny died for unknown causes at the egg (13.0%) or prepupal (11.9%) stage. Nests of 17 other wasp and bee species from the families Pompilidae (2 species), Vespidae (4), Colletidae (1), and Megachilidae (10 species) were found in abandoned nest cells of S. destillatorium. The abundance of S. destillatorium has noticeably decreased in the last ten years, possibly due to immigration of a congener, S. curvatum, which has more diverse trophic links and a significantly higher rate of nesting success.     

Trophic relations between vespid wasps (Hymenoptera,Vespidae) and flowering plants in the Crimea

The results of the study of trophic relations between nectar-feeding adult wasps and flowering plants in the Crimea are given. In 2002–2009, a total of 55 wasp species were observed on flowers of 74 plant species belonging to 25 families. The highest number of plant species was visited by Polistes dominulus (36), Ancistrocerus nigricornis (18), Polistes nimphus (16), P. gallicus (13) and Dolichovespula sylvestris (13); these plants belonged to the families Apiaceae (15), Lamiaceae (10), Scrophulariaceae (8), Rosaceae (8) and Asteraceae (7). Plants of the families Scrophulariaceae, Apiaceae, Lamiaceae, Rosaceae, and Fabaceae were visited by 25, 24, 22, 11, and 11 wasp species, respectively. Other plant families were visited by 10 or less wasp species. The highest number of wasp species were observed on flowers of Scrophularia umbrosa (22), Mentha longifolia (12), Bupleurum fruticosum (10), Laserpitium hispidum (10), Koelreuteria paniculata (10), Sambucus ebulus (10), Dorycnium herbaceum (9), Foeniculum vulgare (8), Limonium platyphyllum (7), Torilis arvensis (7), Marrubium peregrinum (7), Butomus umbellatus (7), Eryngium campestre (6), Cynanchum acutum (6) and Scrophularia scopolii (6). One to five wasp species were recorded on flowers of plants belonging to other families. Two wasp species (Polistes nimphus and Vespula germanica) were registered as visitors of the nectarless flowers of the orchid Steveniella satyrioides.     

Nesting and Biology of Alastor mocsaryi (Hymenoptera,Vespidae: Eumeninae)

Entomological Review - The nest structure of Alastor mocsaryi in trap nests was studied in Crimea. Fifteen nests were examined, located inside hollow reed stems 3.0–4.8 mm in inner diameter....     

Nesting and biology of Jucancistrocerus caspicus (hymenoptera,vespidae, eumeninae)

Females of Jucancistrocerus caspicus nest in dense clay ground on the vertical surface of cliffs. The nests contain 1–9 cells (on average 2.8) and have a linear-branched construction. Females surmount the entrance of the burrow with a curved chimney which has a laced structure. The cells are positioned vertically in the main burrow and obliquely or horizontally in the lateral tunnels; the cells in a row are separated with double partitions. The size of the cells is 7–9 × 4–4.5 mm, the diameter of the nest burrow is 4 mm. The egg is laid before provisioning and is attached to the cell ceiling with a filament. Females hunt for weevil larvae and store 23–33 larvae (on average 27.8) in each cell. The species is univoltine, with prepupae hibernating in their cocoons. The nests are parasitized by the cuckoo wasps Chrysis rutilans which cause 11.5% of brood mortality. Adult wasps are killed by the spiders Pholcus sp. living near the nests.     

Nesting and Biology of Eustenancistrocerus amadanensis (Hymenoptera,Vespidae, Eumeninae)

Entomological Review - The nest structure of Eustenancistrocerus amadanensis was studied in Crimea. Females nested in the ground, in level or gently sloping spots with sparse vegetation. The soil...     

Aculeate Hymenoptera (Hymenoptera,Aculeata) Inhabiting Trap Nests in Crimea

Entomological Review - Trap nests for aculeate Hymenoptera were exposed during 15 years (2002–2016) in 80 localities of Crimea. A total of more than 500 trap nests containing about 25 000...     

Nesting Biology of the Bee Hoplitis princeps (Morawitz) (Hymenoptera,Megachilidae) in Crimea

Bionomics of Hoplitis princeps (Morawitz) was studied in Crimea. The species is confined to coastal psammophytic habitats and has one generation per year. Females nest in sand and excavate burrows near roots of various plants. The nests consist of 1 or rarely 2 cells arranged either side by side or one by one; one nest with 3 cells made by two different females was also discovered. The building material was masticated leaves of Astragalus varius subsp. eupatoricus Sytin; the provision was pollen and nectar from the same plant species. The cleptoparasitic bee Stelis aculeata Morawitz was discovered in the nests. The differences in the nest structure between H. princeps and a closely related species H. fulva (Eversmann) are discussed. The need for conservation of the H. princeps habitat in Crimea is substantiated.

     

The nesting biology of the bee, Osmia dimidiata Morawitz, 1870 (Hymenoptera, Megachilidae) in the Crimea

The structure and composition of Osmia dimidiata nests were studied based on the material of 133 nests obtained from trap-nests in five localities of the Crimea. The nests contained from 1 to 9 cells (on average, 2.2), separated with partitions made of masticated leaves. Most of the cells had a massive hemispherical bottom and a thin flat cover. The final plug had a structure similar to the cell bottom. The cells occurred singly in the nest cavity or were arranged in rows of 2 or 3 cells separated by galleries. The diameter of the occupied cavities was positively correlated with the fraction of the females in the progeny and with the mass of the cocoons, but negatively correlated with the cell length. The cells with females were 1.5 times as long as those with males. The cocoons with females were twice as heavy as those with males. The peculiar characters of the nest structure of O. dimidiata may mean that the typical nesting substrates of this species are abandoned cells of other bee and wasp species. The characteristic mechanism of estimating the mass of the pollen loaf stored in the cells and determining the brood sex ratio has evolved in the O. dimidiata due to its tenantry. This mechanism is based on two constants: the sex-linked cell length and the fixed distance between the pollen loaf and the cell cover. When choosing the nesting cavities, the female prefers broader and longer tubes for cells with females and narrower and shorter ones for cells with males. The overall sex ratio of the progeny was male-biased (1 ♀: 2.5 ♂) and depended on the food supply abundance. The adults of O. dimidiata fly in the Crimea from the last decade of May until the end of July. Hibernation occurs at the adult stage in the cocoons. Females collect pollen from flowers of Asteraceae or, rarely, Fabaceae. The nests may be destroyed by Melittobia acasta, Monodontomerus aereus, M. obscurus, Sapyga quinquepunctata, Stelis phaeoptera, and Trichodes apiarius; 21% of the progeny died from these enemies, and 22%, due to other factors. The previously proposed synonymy of Pseudosmia taurica Radoszkowski, 1874 (nec Osmia taurica Radoszkowski, 1887) and O. dimidiata is rejected.     

First Data on the Bionomics of the Solitary Wasp <Emphasis Type="Italic">Leptochilus membranaceus</Emphasis> (Morawitz) (Hymenoptera,Vespidae: Eumeninae)

The bionomics of Leptochilus membranaceus (Morawitz) was studied in Crimea. The species is confined to herbaceous xerophytic habitats with sparse vegetation and has two generations per year. Adult feeding was recorded on flowers of 8 plant species of 6 families. A single nest was found in an old acridid egg pod in clayey soil. The inner cavity of the empty egg pod was 12 mm long and 3 mm wide. The nest contained one cell with a prepupa in the cocoon. The cell was sealed with a final plug 2 mm thick, made of gravel and mud. The cocoon consisted of three equal thin layers, the outer layer being firmly attached to the cell walls. Females of L. membranaceus do not visit water sources. The origin of the agent bonding the building material (soil) used by L. membranaceus and other congeneric species is discussed. In addition, nests of Ancistrocerus scoticus (Curtis) are also discussed; these nests occur in old acridid egg pods which were earlier misinterpreted as bottle-shaped cells built by the wasps themselves.     

The nest structure in four species of solitary wasps of the subfamily Eumeninae (Hymenoptera, Vespidae)

Nests of Syneuodynerus egregius, Euodynerus posticus, Ancistrocerus antilope, and A. nigricornis have a similar structure and consist of a linear row of cells separated by transverse partitions made of soil mastic. The number of cells in the nests is 1–11 (5.6 ± 0.8) in S. egregius, 1–7 (2.6 ± 0.2) in E. posticus, 1–10 (4.0 ± 0.7) in A. antilope, and 1–28 (7.9 ± 1.3) in A. nigricornis. Most nests consist of several cells in S. egregius and A. nigricornis and of one or two cells in E. posticus and A. antilope. The female to male ratio is 1.2: 1.0 in E. egregius, 1.5: 1.0 in E. posticus, 1.9: 1.0 in A. antilope, and 1.0: 1.0 in A. nigricornis. The nests of S. egregius usually contain brood of both sexes; those of A. antilope, that of one sex. The sex ratio is correlated with the diameter of the occupied nest cavities only in A. antilope. The volume of the cells with females exceeds that of the cells with males in all the species studied: by 23, 34, 54, and 98% in S. egregius, E. posticus, A. antilope, and A. nigricornis, respectively. The relative difference between the body masses of male and female prepupae is correlated with the relative difference between the volumes of their cells. The nest cells of S. egregius are separated by double partitions consisting of homologs of cell bottoms and lids. In the nests of E. posticus the partitions are single; each cell has a bottom and a lid, with “false cells” being located between them. In the nests of A. antilope and A. nigricornis, the partitions are single but all of them are homologs of the cell bottoms. The nest cells of S. egregius belong to the equilinear type; their length is relatively constant in the cavities of various diameters. The nest cells of A. antilope are of the equivolumetric type: their length is smaller in broad cavities and greater in narrow ones, the cell volume being relatively constant in the cavities of different diameters. The nest cells of E. posticus and A. nigricornis are of the intermediate type. Statistical models of nests reflecting their mean parameters and composition were built. The evolutionarily primitive and progressive features in the nest structure are discussed.