Článek podrobně popisuje autorovo neobvyklé setkání s kojoty (Canis latrans) v roce 2010 v kostarickém národním parku Braulio Carillio v části Sector Volcán Barva. Pořízené dokumentační fotografie umožnily analyzovat agresivní chování kojotů vůči člověku a jeho etologickou interpretaci na základě znalostí etologie psovitých šelem., In August 2010, the author visited Braulio Carrillo National Park in Costa Rica and approached three coyotes (Canis latrans). The article describes their attack, probably due to maternal aggression combined with fear-induced and territorial aggressions., and Ivan Literák.
Agrolesnické systémy v tropických oblastech nabízejí možnost, jak zajistit trvale udržitelnou produkci na obdělávaných pozemcích, a často představují jediný zalesněný ekosystém v okolní odlesněné krajině. Tento článek se věnuje problematice agrolesnictví v tropech se zaměřením na kávové plantáže pěstované v Peru., Agroforestry systems present a way to keep sustainable production in cultivated areas, especially in the tropical zone. At the same time it is often the only forested ecosystem in otherwise deforested landscape. This article is about agroforestry in tropical areas, with the focus on coffee (Coffea) plantations in Peru., and Lenka Ehrenbergerová.
Cytochrome P450s (P450s) involved in insecticide resistance reduce the efficacy of insecticide-based vector control by rendering vector control ineffective. They are recorded in many species of vectors and have various constitutive and insecticide induction profiles. In this study, the isolation and prediction of the structure of a P450 from a strain of Aedes aegypti originating from Malaysia is reported. Quantitative mRNA expression of this gene and a previously reported P450, CYP4H28v2, in the developmental stages of the mosquito after exposure to sub-lethal concentrations of insecticides is also reported. The isolated P450, CYP4H31v2, is an allelic variant of CYP4H31 and contains several conserved motifs of P450s. The secondary structure of the protein is mostly made up of alpha helices and random coils. The tertiary structure was generated using homology modeling and was of good quality based on structure validation using protein structure assessment tools. CYP4H28v2 and CYP4H31v2 were differentially expressed in the developmental stages of the vector, with a significantly increased expression in adult males. The genes were significantly over-expressed in larvae exposed to deltamethrin and permethrin for 6 h. In the DDT-treated larvae, only CYP4H31v2 was significantly over-expressed after a 6 h exposure. Under-expression of the genes was predominant in larvae treated with the organophosphates malathion and temephos. Though the functions of these P450s are unknown, their response to induction by exposure to insecticides indicates the likely involvement of these genes in insecticide tolerance. and Fatma M. A. El-Garj, Mustafa F.F. Wajidi, Silas W. Avicor.
Classical biological control is an important means of managing the increasing threat of invasive plants. It constitutes the introduction of natural enemies from the native range of the target plant into the invaded area. This method may be the only cost-effective solution to control the rapidly expanding common ragweed, Ambrosia artemisiifolia, in non-crop habitats in Europe. Therefore, candidate biocontrol agents urgently need to be assessed for their suitability for ragweed control in Europe. A previous literature review prioritized the host-specific leaf beetle Ophraella slobodkini as a candidate agent for ragweed control in Europe, whereas it rejected its oligophagous congener O. communa. Meanwhile, O. communa was accidentally introduced and became established south of the European Alps, and we show here that it is expanding its European range. We then present a short version of the traditional pre-release risk-benefit assessment for these two candidate agents to facilitate fast decision-making about further research efforts. We selected two complementary tests that can be conducted relatively rapidly and inform about essential risks and benefits. We conducted a comparative no-choice juvenile performance assay using leaves of ragweed and sunflower, the most important non-target plant, in Petri dishes in climatic conditions similar to that in the current European range of O. communa. This informs on the fundamental host range and potential for increasing abundance on these host plants. The results confirm that O. slobodkini does not survive on, and is hence unlikely to cause severe damage to sunflower, while O. communa can survive but develops more slowly on sunflower than on ragweed. In parallel, our species distribution models predict no suitable area for the establishment of O. slobodkini in Europe, while O. communa is likely to expand its current range to include a maximum of 18% of the European ragweed distribution. Based on this early assessment, the prioritization and further assessment of O. slobodkini seem unwarranted whereas the results urgently advocate further risk-benefit analysis of O. communa. Having revealed that most of the European area colonized by ragweed is unlikely to be suitable for these species of Ophraella we suggest the use of such relatively short and cheap preliminary assessment to prioritise other candidate agents or strains for these areas., Suzanne T. E. Lommen, Emilien F. Jolidon, Yan Sun, José I. Bustamante Eduardo, Heinz Müller-Schärer., and Obsahuje bibliografii
Mnoho vědeckých jmen ptáků je odvozeno od antických mýtických jmen. Důvodem je mimo jiné to, že bohové za trest nebo z dalších příčin proměňovali mýtické postavy v ptáky. Příklady uvádí druhý díl seriálu., Many scientific names of birds are derived from ancient Greek and Roman mythical names. One of the reasons is that gods used to turn mythical characters into birds as a punishment or for other causes. The examples are given in the second part of the series., and Tomáš Pavlík.
Mytogenní vědecká jména plazů často pocházejí od antických nestvůr a podsvětních bytostí. U obojživelníků se setkáváme s vodními božstvy a nymfami. Názvy ryb bývají odvozeny na jedné straně od mýtických oblud, na straně druhé pak od krasavic a krasavců., Mythical scientific names of reptiles are often inspired by ancient monsters and underworld beings. Among amphibians we can meet water gods and goddesses, and nymphs. The names of fishes are frequently derived either from mythic monsters or from beauties and heroes., and Tomáš Pavlík.
Použití jmen mytologických postav v nomenklatuře bezobratlých živočichů je velmi rozsáhlé. Ježovky, krabi, měkkýši, červi – ti všichni často nesou jména antických mýtických bytostí, a to s odkazem na své vzezření, způsob života či oblast výskytu., The use of the names of mythological characters in the nomenclature of invertebrates is very common. Urchins, crabs, molluscs, worms – all of them often bear the names of ancient mythical beings, referring to their appearances, ways of life or habitats., and Tomáš Pavlík.
Entomologická nomenklatura obsahuje nesčetné množství názvů odvozených od jmen antických mytologických postav. Zoologové již od doby Carla Linného s oblibou přidělovali takováto jména zvláště motýlům a broukům. Jména bývala často tvořena bez motivu, jindy entomologové brali ohled na vztah živočicha a mýtické postavy (vzhled, chování, region). Pátý díl seriálu představuje alespoň výběr příkladů., Entomological nomenclature contains an enormous number of names derived from the names of ancient mythological characters. Ever since Carl Linne's times zoologists have liked giving such names to butterflies and beetles. The names were often formed without any motives, other times entomologists considered the relationship between the animal and the mythological character (appearance, behaviour or region). The fifth part of the series presents at least some selected names of insects., and Tomáš Pavlík.
Vědecká jména živočichů a rostlin jsou různého původu. Často bývají odvozena od osobních jmen, a to i fiktivních postav. V prvním díle seriálu se představí někteří nositelé jmen božstev, héróů a dalších antických mýtických bytostí mezi savci., Scientific names of animals and plants are of various origins, often derived from personal names, and even from fictitious characters. In the first part of the series some bearers of the names of divine beings, heroes and other ancient mythical creatures among the mammals are introduced., Tomáš Pavlík., and Obsahuje seznam literatury