Liesa-Kristin Beuter scite author profile

Transporting epithelia provide a protective physical barrier while directing appropriate transport of ions, solutes and water. In invertebrates, epithelial integrity is dependent on formation, and maintenance, of ′tight′ septate junctions (SJs). We demonstrated that Drosophila Malpighian (renal) tubules undergo an age-dependent decline in secretory transport capacity, which correlates with mislocalisation of SJ proteins and coincident progressive degeneration in cellular morphology and tissue homeostasis. By restrictively impairing, in adult tubules, the cell adhesion protein Snakeskin, which is essential for smooth SJ formation, we observed progressive changes in cellular and tissue morphology that phenocopied these effects, including mislocalisation of junctional proteins with concomitant loss of cell polarity and barrier function. Resulting in significant accelerated decline in tubule secretory capacity and organismal viability. Our investigations highlight the tubule′s essential role in maintenance of organismal health, while providing measurable markers of compromised epithelial barrier and tissue function that manifest in advanced morbidity and death.

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Testing effects of pesticides on macroinvertebrate communities in outdoor stream mesocosms using carbaryl as example test item

Beuter

Dören

Hommen

et al. 2019

Environ Sci Eur

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Background: In mesocosms, the fate and effects of chemicals can be investigated under more realistic conditions than in laboratory-scale experiments and most mesocosm studies for higher-tier risk assessment are conducted in lentic test systems. However, particularly for the assessment of EPT taxa (Ephemeroptera, Plecoptera, Trichoptera) and gammarids (Amphipoda), which are considered to be ecologically vulnerable macroinvertebrates, lotic systems seem to be more appropriate. Within this pilot study, eight newly constructed stream mesocosms were tested for their suitability in the effect assessment of plant protection products (PPP). By using the insecticide carbaryl as an example test item, five concentrations without replicates were tested under a worst case exposure scenario and three stream mesocosms served as controls. Results: 15 out of the 51 invertebrate taxa found during the study belonged to EPT taxa, while the common lotic amphipod Gammarus sp. (G. pulex and G. roesili) was the most dominant taxa. Estimation of minimum detectable differences based on mean abundances and variance of taxa in the eight mesocosms before application indicate that for five arthropoda taxa and two non-arthropoda taxa, an analysis of effects would have probably would have been possible in a typical test design for a higher-tier study with more test units. Five of these taxa were typical stream taxa, i.e. mayflies, caddisflies and gammarids. With respect to the effects of carbaryl, multivariate analysis (principal response curve) indicates long-term effects on the macroinvertebrates community over several weeks for the highest carbaryl concentration (120 µg a.i./L). Potential effects were observed for the amphipod Gammarus sp., the mayfly Ephemera danica and the caddisfly family Limnephilidae. Conclusions: Through this study it was shown that the stream mesocosms provided suitable habitats for potential sensitive and vulnerable taxa, including those typical for lotic systems. To enable a reliable statistical analysis of the effects within the higher-tier ecological risk assessment, the number of stream mesocosms needs to be enhanced. In addition, colonisation and sampling should be improved to increase the number of taxa with sufficiently high abundances for evaluation.

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Phonotactic behaviour and vertical sound source localisation of the parasitoid fly Emblemasoma auditrix (Diptera: Sarcophagidae)

Tron

Beuter

Lakes‐Harlan

2015

Ecological Entomology

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1. Acoustically guided movement in a three-dimensional space is a complex behavioural task performed notably by birds, bats, and some insect species. The precision of acoustic orientation depends on the directionality of the hearing system as well as on auditory behaviour.2. The fly Emblemasoma auditrix Diptera (Sarcophagidae) is a parasitoid of the cicada Okanagana rimosa Auchenorrhyncha (Cicadidae) and locates its host in the complex habitat of a forest. The phonotactic behaviour of the fly was analysed experimentally with emphasis on the vertical domain in the field. Different experimental setups allowed discriminating subsequent steps in the phonotactic behaviour of E. auditrix.3. During the phonotactic flight, flies first landed on landmarks, which were used to re-adjust to the elevation of the sound source. Acoustic targets were located from these resting positions. The sound source elevation was detected at the start of the flight as the longitudinal body axis was adjusted to the inclination of the target sound source.4. Flies usually did not land directly upon the sound source, but landed nearby, and most often above the target. Within the target area, types of movement for the final approach differed in respect to target position; flies walked predominantly if the final target was located above or below, but for horizontally located targets much of the distance was covered by flight.5. In conclusion, E. auditrix can locate the acoustic target in complex habitats and uses a flexible multi-step approach for short-range phonotaxis.

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