DNA barcoding surveys of small insects usually extract DNA from either a complete insect or a leg. Little is known about how to optimize DNA quantity and quality from different insect parts while preserving a morphological voucher. Here, we quantify DNA yield from different body parts (antenna, hind leg, forewing, hind wing and abdomen) of the micro-moth Cameraria ohridella (Lepidoptera: Gracillariidae) using fluorescent nucleic acid stain (PicoGreen). Samples were preserved in 100% ethanol or dried for three weeks. Our experiment was designed to encompass practical sampling options during fieldwork. DNA quality was assessed by PCR amplification of the mitochondrial COI barcode fragment. In addition, we compared PCR amplification using Platinum® Taq and Qiagen DNA Polymerase and quantified sequence success of amplified DNA. We show that overall, dry parts showed higher eluted DNA yields. PCR and sequencing success rate were slightly higher for dry tissue than ethanol-preserved parts. We also show that Platinum® Taq yielded the highest PCR success rate and that all dry tissues are sequenceable. The optimal strategy for DNA barcoding surveys is therefore to mount micro-Lepidoptera specimens in the field for morphological analysis and sample tissues (hind legs are favoured) from dried samples at a later time (several weeks) in the lab for DNA barcoding using preferentially Platinum® Taq. If larger amounts of DNA are required (i.e. for nuclear gene sequencing), several legs from one side of the specimen or the abdomen should be preserved in pure ethanol., Carlos Lopez-Vaamonde ... [et al.]., and Obsahuje seznam literatury
There are important but inconsistent differences in breeding site preference between the blow flies Lucilia sericata (Meigen, 1826) and L. cuprina (Wiedemann, 1830) (Diptera: Calliphoridae) that have significance for medical and veterinary science. These inconsistencies might arise from hybridisation. The species are difficult to distinguish using external morphology, although the male genitalia are distinctive and there are reliable molecular markers. Molecular evidence of modern hybridisation, derived from a newly developed nuclear marker, the period (per) gene, is presented here. This has implications for identifications of these species based on mtDNA, and may lead to an explanation of the medical and veterinary anomalies noted in these species., Kirstin Williams, Martin H. Villet., and Obsahuje seznam literatury
The sugarcane borer Diatraea saccharalis is an important pest of sugarcane and ants are one of its main predators. The practice of burning sugarcane straw in situ after harvest has been gradually replaced in Brazil by other practices. However, it is unknown whether ants can control the abundance of this borer in the presence of straw. In this study, we assessed the diversity and species composition of ants attacking different stages of the pest’s life cycle. Specifically, we asked whether the species richness and abundance of ants varies during the course of day and a year. We established one-hectare plots at random locations in a sugarcane plantation. Once a month, we collected 20 samples of each stage of the D. saccharalis life cycle and randomly distributed these samples as bait on plants spaced 20 m apart within a plot. Ants were collected daily in the morning and afternoon over a period of 12 months. We identified several aspects of ant feeding behaviour that may affect their biological control of the borer: (1) the greatest number of ants were collected from baits consisting of the immature stages of the sugarcane borer, (2) ants were most active in the morning and (3) their activity varied from month to month. Solenopsis saevissima and morphotypes of Crematogaster sp.7 and Pheidole sp.35 are potentially important predators of borers in sugarcane crops in which the straw is not burnt., Roseli de Fatima de Oliveira ... [et al.]., and Obsahuje seznam literatury
The ability of biocontrol agents to overcome the immune defense of pests is a crucial issue. This is the first study of lysozyme activity as an inducible humoral component of the defense of Schistocerca gregaria, which depends on the recognition of the elicitor molecules of pathogens and not on epidermal wounding or a spiking effect. The level of lysozyme activity in fat body, haemocytes and haemolymph plasma of naïve and immunologically challenged 5th instar S. gregaria was evaluated using the zone of inhibition test against Micrococcus lysodeikticus. Various Gram-positive and Gram-negative bacteria as well as peptidoglycans (PGN) and lipopolysacchrides (LPS) of bacterial cell walls induce and increase in the level of lysozyme activity. Escherichia coli induced an increase in the level of activity of lysozyme in the fat body, haemocytes and plasma, but not in mid gut epithelium, 6–12 h after an immunological challenge and then it decreased to the constitutive level after 72 h. This study revealed that in S. gregaria there is a constitutive and a bacteria-inducible level of lysozyme activity, which protects it against infection by both Gram-negative and Gram-positive bacteria., Amr A. Mohamed ... [et al.]., and Obsahuje seznam literatury
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