Entomopathogenic nematodes from families Steinernematidae and Heterorhabdi - tidae and the molluscoparasitic nematode Phasmarhabditis hermaphrodita are enigmatic soil creatures. These lethal pathogens of invertebrates can also be used as effective and safe biocontrol agents. In this article, we review the biology, ecology and distribution of these organisms and we de - pict their current use in biological control. and Jiří Nermuť, Vladimír Půža, Zdeněk Mráček.
Ernst Schäfer (1910-1992) byl německý zoolog, sběratel přírodnin a cestovatel známý zejména díky třem průkopnickým výpravám do Tibetu, území, kam se přírodovědci prakticky nedostali až do druhé poloviny 20. století. Třetí expedice z let 1938-39 je poněkud kontroverzní, neboť se stala součástí nacistické propagandy a její cíle nebyly čistě jen vědecké., Ernst Schäfer (1910–92) was a German zoologist, collector and explorer who is primarily known for his three pioneering expeditions to Tibet, which was virtually closed to science well into the second half of the 20th century. The third expedition, in 1938–39, was rather controversial as it became a part of Nazi propaganda and its goals were not purely scientific., and Jan Robovský, Jiří Hrubý.
Until recently, the Canadian distribution of the blueberry maggot, Rhagoletis mendax Curran (Diptera: Tephritidae), was restricted to Nova Scotia, Prince Edward Island and New Brunswick. The insect was first mentioned in southern Quebec in 1996 and, to date, it has not reached the Lac St-Jean region, where 34% of Canadian blueberry acreage is located. Two questions concerning the northern limit of distribution of the blueberry maggot in Quebec were addressed. First, are wild plants suitable hosts for larval development? We collected the fruit of five wild plants, (e.g. Vaccinium corymbosum, Vaccinium angustifolium, Vaccinium myrtilloides, Gaylussacia baccata, and Aronia melanocarpa) growing in southern Quebec and allowed larvae to complete their development into pupae. Blueberry maggot pupae were recovered from Vaccinium corymbosum, Vaccinium angustifolium, and Gaylussacia baccata, indicating that these plants are suitable for larval development. Second, are harsh winter temperatures a factor limiting the northern distribution of the blueberry maggot? Pupae collected in Quebec and Nova Scotia were put in the soil in the fall and were brought back to the laboratory to determine their supercooling points at different times during winter. The supercooling points of pupae collected in Quebec and Nova Scotia averaged -22.6°C. In natural conditions, air temperatures <-20°C are frequently observed in Quebec in January, February and March. However, due to snow cover, soil temperatures are rarely <-12°C. If -22.6°C constitutes the lower limit for the survival, then winter temperatures are probably not a limiting factor to its northern distribution in Quebec, because blueberry maggot pupae overwinter in the soil., Charles Vincent, Pierre Lemoyne, Sonia Gaul, Kenna Mackenzie., and Obsahuje bibliografii
Thrips are important agricultural pests and accurate identification is important for their effective management. In order to determine species, however, they need to be mounted on slides and the traditional process is time-consuming. The aim of this paper is to describe a simple and fast method to prepare temporary slides for the routine identification of thrips, which is not dependent on their colour and hardness. Four species of thrips of different colours were used in the preparations: Frankliniella occidentalis (yellow with brown tergal markings), Frankliniella schultzei (entirely brown), Haplothrips gowdeyii (dark brown to carmine) and Caliothrips phaseoli (brown to black). Slides of each species were prepared using three different methods: traditional (3 days), simplified (6 h) and fast method (10 min). The thrips on the resulting slides were observed under a microscope and important structures used in their identification were compared. The quality of the slides prepared using the traditional method was superior to those prepared using the other two methods if only the transparency and general position of the insects on the slides were considered. The transparency of the slides prepared using the simplified method was also good, but only for the pale coloured species (yellow and grey-brown). The fast method, on the other hand, was very efficient for routine identification since it resulted in slides of sufficient quality for identifying species regardless of their colour. It is important, however, to stress that the fast method is only suitable for preparing temporary slides for routine identification and is not a substitute for the traditional method of preparing permanent slides., Luís C.P. Silveira, Marcelo M. Haro., and Obsahuje bibliografii