Roland Vogt

 Portrait RV

Present position:

PhD student

Research area:

Ecotoxicology

Phone:

e-mail:

+43 512 507-50265

roland.vogt@uibk.ac.at


Academic History · Research · Publications


Academic History

  • 2009 - 2015: Study of Environmental Science at the Institute of Environmental Sciences, University of Koblenz-Landau, Germany. Major: Ecotoxicology.

  • Diploma-thesis: Indirect effects of nTiO2 caught by algae on Daphnia magna.

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Research

Research interests:

  • Aquatic ecotoxicology
  • Impact of inorganic nanoparticles on the aquatic environment

Current Research project:

FENOMENO - Fate and effect of wastewater-borne manufactured nanomaterials in aquatic ecosystems.


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Publications 

  • Vogt R., Hartmann S., Kunze J., Jupke J.F., Steinhoff B., Schönherr H., Kuhnert K.-D., Witte K., Lamatsch D. K., Wanzenböck J. (online first). Silver nanoparticles adversely affect the swimming behavior of European Whitefish (Coregonus lavaretus) larvae within the low µg/L range, Journal of Toxicology and Environmental Health, Part A, 1-14. doi. 10.1080/15287394.2022.2102099  
  • Vogt R., Steinhoff B., Mozhayeva D., Vogt E., Metreveli G., Schönherr H., Engelhard C., Wanzenböck J., Lamatsch D.K. (2022). Incubation media modify silver nanoparticle toxicity for whitefish (Coregonus lavaretus) and roach (Rutilus rutilus) embryos, Toxicology & Environmental Health, Part A: Current Issues, 85(4): 143-162 doi:10.1080/15287394.2021.1988014  

  • Vogt R., Mozhayeva D., Steinhoff B., Schardt A., Spelz B. T. F., Philippe A., Kurtz S., Schaumann G. E., Engelhard C., Schönherr C., Lamatsch D.K., Wanzenböck, J. (2019). Spatiotemporal distribution of silver and silver-containing nanoparticles in a prealpine lake in relation to the discharge from a wastewater treatment plant, Science of the Total Environment 696: 134034, doi.org/10.1016/j.scitotenv.2019.134034

  • Hartmann S., Vogt R., Kunze J., Rauschert A., Kuhnert K.- D., Wanzenböck J., Lamatsch D.K., Witte, K. (2018): Zebrafish larvae show negative phototaxis to near-infrared light. PLOSone 13(11): e0207264. https://doi.org/10.1371/journal.pone.0207264

  • Bundschuh M., Vogt R., Seitz F., Rosenfeldt R.R., Schulz R. (2016). Do titanium dioxide nanoparticles induce food depletion for filter feeding organisms? A case study with Daphnia magna. Environmental Pollution 214:840-846. doi:10.1016/j.envpol.2016.04.092

 

PR-media:

- PR and information about results at the website of  Fischereiverein Mondsee fishermen delivered freshly caught fish for lab analyses

- Die Presse
- APA.science.at
- wissenswert Universität Innsbruck
- ipoint University of Innsbruck
- SCIENCE APA1

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- der Standard
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- Nano Info
- Wr. Zeitung
- Tiroler Tageszeitung
- Bezirksrundschau
- Vorarlberger Nachrichten
- wetter.at
- DaNa-Plattform für Nanotechnologie
- NanoinformationsPortal

- Twitter
- Vorläufige Entwarnung - Universität Siegen
- Nanopartikel ein übersehenes Umweltproblem in Gut zu Wissen, TV Beitrag, Bayerischer Rundfunk
- Der Mondsee im Fokus der Umweltforschung -Universität Innsbruck
- Xenius - Nanopartikel, Superteilchen oder unsichtbare Gefahr

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