Your search keyword '"toukat"' showing total 4 results

1. Antipredator strategies of pupae: how to avoid predation in an immobile life stage?

Author

Liam Murphy, Johanna Mappes, and Carita Lindstedt

Subjects

0106 biological sciences, pupal defence, suojautuminen, Food Chain, Insecta, Zoology, Biology, Environment, 010603 evolutionary biology, 01 natural sciences, General Biochemistry, Genetics and Molecular Biology, Predation, 03 medical and health sciences, toukat, Animals, protective coloration, puolustusmekanismit (biologia), Selection, Genetic, 030304 developmental biology, suojaväri, 0303 health sciences, Larva, saaliseläimet, chemical defence, physical defence, fungi, Pupa, predator–prey interactions, Articles, Life stage, hyönteiset, General Agricultural and Biological Sciences

Abstract

Antipredator strategies of the pupal stage in insects have received little attention in comparison to larval or adult stages. This is despite the fact that predation risk can be high during the pupal stage, making it a critical stage for subsequent fitness. The immobile pupae are not, however, defenceless; a wide range of antipredator strategies have evolved against invertebrate and vertebrate predators. The most common strategy seems to be ‘avoiding encounters with predators' by actively hiding in vegetation and soil or via cryptic coloration and masquerade. Pupae have also evolved behavioural and secondary defences such as defensive toxins, physical defences or deimatic movements and sounds. Interestingly, warning coloration used to advertise unprofitability has evolved very rarely, even though the pupal stage often contains defensive toxins in chemically defended species. In some species, pupae gain protection from conspecifics or mimic chemical and auditory signals and thereby manipulate other species to protect them. Our literature survey highlights the importance of studying selection pressures across an individual's life stages to predict how ontogenetic variation in selective environments shapes individual fitness and population dynamics in insects. Finally, we also suggest interesting avenues for future research to pursue. This article is part of the theme issue ‘The evolution of complete metamorphosis’.

Published

2019

2. Trematode cercariae as prey for zooplankton: effect on fitness traits of predators

Author

V. N. Mikheev, Ekaterina V. Mironova, Jouni Taskinen, Mikhail Gopko, and Anna Pasternak

Subjects

0301 basic medicine, copepods, Snails, Rotifera, reproduktio, Predation, 0302 clinical medicine, eye fluke, rataseläimet, loiset, Cercaria, Trophic level, Larva, food web, biology, parasite transmission, plankton, vesiekosysteemit, 030108 mycology & parasitology, Food web, Diplostomum, Infectious Diseases, hankajalkaiset, Trematoda, Arctodiaptomus, Food Chain, 030231 tropical medicine, Cladocerans, Zoology, Zooplankton, freshwater ecosystem, rotifers, Copepoda, toukat, 03 medical and health sciences, Animals, Analysis of Variance, imumadot, Aquatic animal, biology.organism_classification, mortality, Predatory Behavior, vesikirput, ta1181, Macroparasite, Animal Science and Zoology, Parasitology, ravintoverkot

Abstract

Removal of parasite free-living stages by predators has previously been suggested an important factor controlling parasite transmission in aquatic habitats. Experimental studies of zooplankton predation on macroparasite larvae are, however, scarce. We tested whether trematode cercariae, which are often numerous in shallow waters, are suitable prey for syntopic zooplankters. Feeding rates and survival of freshwater cyclopoids (Megacyclops viridis, Macrocyclops distinctus), calanoids (Arctodiaptomus paulseni), cladocerans (Sida crystallina) and rotifers Asplanchna spp., fed with cercariae of Diplostomum pseudospathaceum, a common fish trematode, were studied. In additional long-term experiments, we studied reproduction of cyclopoids fed with cercariae. All tested zooplankton species consumed cercariae. The highest feeding rates were observed for cyclopoids (33 ± 12 cercariae ind−1 h−1), which actively reproduced (up to one egg clutch day−1) when fed ad libitum with cercariae. Their reproductive characteristics did not change significantly with time, indicating that cercariae supported cyclopoids’ dietary needs. Mortality of rotifers and cladocerans was high (25–28% individuals) when exposed to cercariae in contrast to cyclopoids and calanoids (

Published

2018

3. Inconsistency in the analysis of morphological deformities in chironomidae (Insecta: Diptera) larvae

Author

Johanna Salmelin, Kari-Matti Vuori, and Heikki Hämäläinen

Subjects

interrater agreement, Chin, Geologic Sediments, Health, Toxicology and Mutagenesis, ta1172, Extra teeth, sedimentit, merkkiaineet, myrkyllisyys, Biology, järvet, Chironomidae, toukat, morfologia, Cohen's kappa, stomatognathic system, epämuodostumat, Deformity, medicine, Animals, Environmental Chemistry, surviaissääsket, Orthodontics, Larva, Kaakkois-Suomi, Tooth Abnormalities, Incidence (epidemiology), technology, industry, and agriculture, biomarkers, Anatomy, selkärangattomat, biology.organism_classification, morphological deformities, toksisuus, sediment toxicity, Inter-rater reliability, pohjaeläimistö, markkerit, ta1181, Chironomus, Saimaa, medicine.symptom, indikaattorit, Water Pollutants, Chemical, benthic macroinvertebrates

Abstract

The incidence of morphological deformities of chironomid larvae as an indicator of sediment toxicity has been studied for decades. However, standards for deformity analysis are lacking. The authors evaluated whether 25 experts diagnosed larval deformities in a similar manner. Based on high-quality digital images, the experts rated 211 menta of Chironomus spp. larvae as normal or deformed. The larvae were from a site with polluted sediments or from a reference site. The authors revealed this to a random half of the experts, and the rest conducted the assessment blind. The authors quantified the interrater agreement by kappa coefficient, tested whether open and blind assessments differed in deformity incidence and in differentiation between the sites, and identified those deformity types rated most consistently or inconsistently. The total deformity incidence varied greatly, from 10.9% to 66.4% among experts. Kappa coefficient across rater pairs averaged 0.52, indicating insufficient agreement. The deformity types rated most consistently were those missing teeth or with extra teeth. The open and blind assessments did not differ, but differentiation between sites was clearest for raters who counted primarily absolute deformities such as missing and extra teeth and excluded apparent mechanical aberrations or deviations in tooth size or symmetry. The highly differing criteria in deformity assignment have likely led to inconsistent results in midge larval deformity studies and indicate an urgent need for standardization of the analysis. Environ Toxicol Chem 2015;34:1891–1898. © 2015 SETAC

Published

2015

4. Assimilation by Lucilia illustris (Diptera) Larvae in Constant and Changing Temperatures

Author

Ilkka Hanski

Subjects

0106 biological sciences, Larva, biology, Bioenergetics, Hatching, fungi, Assimilation (biology), biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, kaksisiipiset, populaatioekologia, raatokärpäset, toukat, 010602 entomology, Animal science, Botany, Respiration, hyönteiset, Gas analyser, Instar, lämpötila, Lucilia illustris, Ecology, Evolution, Behavior and Systematics

Abstract

Assimilation of cow liver by Lucilia illustris (Meigen) larvae was studied in the laboratory. The larvae were cultured from hatching to the end of development in the respiration chambers of an infra-red gas analyser (IRGA), and respiration was measured as CO2 production. Assimilation was calculated in both carbon and energy units. In this organism the Cr203 indicator method proved unsuitable for measuring food consumption. In early larval development respiration showed two linear phases, which are suggested to be correlated with the first two instars. Both the cumulative and the instantaneous net production efficiency, K2 (production/assimilation), were calculated. Integration of the latter to the final larval weight produced results similar to those obtained by direct determination. K2 varied both with temperature and with the developmental stage of the larvae (weight). Efficiency was highest during the most intense growth phase, or a little before it, then being 88 % in carbon units (90 % in energy units) at 25 to 300C. At this optimal temperature the cumulative K2 to the end of the feeding period was 82 % (84 %); in changing temperature conditions the corresponding K2 was 77 0 (79 %). The value of instantaneous concepts in bioenergetic research and the application of IRGA to measurements of animal respiration is discussed.

Published

1976