This is a cache of https://www.uibk.ac.at/de/zoology/staff/jeroen-brijs/. It is a snapshot of the page at 2024-11-26T22:25:58.908+0100.
Jeroen Brijs – Universität Innsbruck

Jeroen Brijs Dr.

Adresse:
Institut für Zoologie
Universität Innsbruck
Technikerstr. 25
6020 Innsbruck
Österreich

Raum: 01/217
Telefon: +43 512 507-51886
E-Mail: Jeroen.Brijs@uibk.ac.at

Overall research philosophy:

As a comparative ecophysiologist, I am fuelled by a profound curiosity for physiological mechanisms that govern the functioning of living organisms when faced with environmental and anthropogenic challenges. My research strives to push the boundaries of ecophysiology by exploring these mechanisms across various levels of biological organization using state-of-the-art laboratory techniques and cutting-edge field approaches.

Specific research project:

As the global demand for fish rises and aquaculture expands rapidly, ensuring the welfare of fish during slaughter becomes increasingly imperative, given their susceptibility to pain and distress. Achieving humane slaughter entails either instant killing or rendering fish unconscious until their demise. However, distinguishing between dead, unconscious, or immobilized states during the slaughter process poses significant challenges. To address this issue, Dr. Jeroen Brijs and Prof. Thorsten Schwerte at the University of Innsbruck and Dr. Albin Gräns at the Swedish University of Agricultural Sciences are collaborating on an international effort. They aim to develop a portable, user-friendly method capable of real-time assessment of various stunning and slaughter techniques at aquaculture facilities. This innovative approach involves monitoring brain activity to determine if stunning or slaughter methods instantly renders fish dead or irreversibly unconscious. By providing insights into enhancing stunning and slaughter practices, this project endeavors to alleviate the suffering of countless individual fish.

Curriculum Vitae

2002-2010:        BSc, MSc and Research technician at the University of Waikato, New Zealand

2012-2017:        PhD at the University of Gothenburg, Sweden

2018-2020:        Postdoctoral researcher at the Swedish University of Agricultural Sciences, Sweden

2020-2023:        Postdoctoral researcher at the University of Hawaii at Manoa, Hawaii, USA

2023-present:   Postdoctoral researcher at the University of Innsbruck, Austria

Publications

Journal articles (18 first author, 17 co-author)

1.    Brijs, J., Moore, C., Schakmann, M., Souza, T., Grellman, K., Tran, L., Patton, P. & Johansen, J. (submitted). Pre- and post-prandial metabolic responses of piscivores to ocean warming. Glob. Chang. Biol.

2.    Brijs, J., Moore, C., Souza, T., Tran, L., Schakmann, M., Grellman, K. & Johansen, J. (submitted). Marine heatwaves threaten the fitness of herbivorous coral reef fishes and their ecological functions. Glob. Chang. Biol.

3.    Souza, T., Brijs, J., Tran, L., Crowder, L. & Johansen, J. (submitted). Herbivore functions in the hot-seat: Resilience of Acanthurus triostegus to marine heatwaves. Coral reefs.

4.    Roome, T., Brijs, J., Hancock, J., Johansen, J. & Drury, C. (submitted). Limited climate tradeoffs in wound recovery and fish feeding preference among reef building corals. Coral reefs.

5.    Green, L., Faust, E., Hinchcliffe, J., Brijs, J., Holmes, A., Örn, F., Svensson, O., Roques, J., Leder, E., Sandblom, E. & Kvarnemo, C. (2022). Invader at the edge – Genomic origins and physiological differences of round gobies across a steep urban salinity gradient. Evol. Appl.: 1-17.

6.    Hjelmstedt, P., Sundell, E., Brijs, J., Berg, C., Sandblom, E., Lines, J., Axelsson, M. & Gräns, A. (2022). Assessing the effectiveness of percussive and electrical stunning in rainbow trout: Does an epileptic-like seizure imply brain failure. Aquaculture: 738012.

7.    Brijs, J., Sundell, E., Hjelmstedt, P., Berg, C., Sencic, I., Sandblom, E., Axelsson, M., Lines, J., Bouwsema, J., Ellis, M., Saxer. A. & Gräns, A. (2021). Humane slaughter of African sharptooth catfish (Clarias gariepinus): effects of various stunning methods on brain function. Aquaculture 531: 1-11.

8.    Brijs, J., Hjelmstedt, P., Berg, C., Axelsson, M., Sandblom, E., Rocques, J., Sundh, H., Sundell, K., Kiessling, A. & Gräns, A. (2021). Continuous physiological welfare evaluation of European whitefish (Coregonus lavaretus) during common aquaculture practices leading up to slaughter. Aquaculture 534: 1-10.

9.    Sundell, E., Morgenroth, D., Ekström, A., Brijs, J., Axelsson, M., Gräns, A. & Sandblom, E. (2021). Energetic savings and cardiovascular dynamics of a marine euryhaline fish (Myoxocephalus scorpius) in reduced salinity. J. Comp. Physiol. B 191: 301-311.

10.  Brijs, J., Axelsson, M., Rosengren, M., Jutfelt, F. & Gräns, A. (2020). Response to ‘The spleen as an unlikely source of red blood cells during increased activity in fishes. J. Exp. Biol. 223: 1-4.

11.  Brijs, J., Hjelmstedt, P., Berg, C., Johansen, I., Sundh, H., Rocques, J., Ekström, A., Sandblom, E., Sundell, K., Olsson, C., Axelsson, M. & Gräns, A. (2020). Prevalence and severity of cardiac abnormalities and arteriosclerosis in farmed rainbow trout (Oncorhynchus mykiss). Aquaculture 526: 1-11.

12.  Hjelmstedt, P., Sundh, H., Brijs, J., Ekström, A., Sundell, K., Berg, C., Sandblom, E., Bowman, J., Morgenroth, D. & Gräns, A. (2020). Effects of prophylactic antibiotic-treatment on post-surgical recovery following intraperitoneal bio-logger implantation in rainbow trout. Sci. Rep. 10: 1-9.

13.  Brijs, J., Axelsson, M., Rosengren, M., Jutfelt, F. & Gräns, A. (2019). Extreme blood boosting capacity of an Antarctic fish represents an adaptation to life in a sub-zero environment. J. Exp. Biol. 223: 1-11.

14.  Brijs, J., Sandblom, E., Axelsson, M., Sundell, K., Sundh, H., Kiessling, A., Berg, C. & Gräns, A. (2019). Remote physiological monitoring provides unique insights on the cardiovascular performance and stress responses of freely swimming rainbow trout in aquaculture. Sci. Rep. 9: 1-12.

15.  Brijs, J., Sandblom, E., Rosengren, M., Sundell, K., Berg, C., Axelsson, M. & Gräns, A. (2019). Prospects and pitfalls of using heart rate bio-loggers to assess the welfare of rainbow trout (Oncorhynchus mykiss). Aquaculture 509: 188-197.

16.  Závorka, L., Brijs, J., Wengström, N., Wallerius, M., Näslund, J., Koeck, B., Aldven, D., Lassus, R., Höjesjö, J., Johnsson, J. & Cucherousset, J. (2019). Laboratory captivity can affect scores of metabolic rates and activity in wild brown trout. J. Zool. 307: 249-255.

17.  Brijs, J., Sandblom, E., Axelsson, M., Sundell, K., Sundh, H., Huyben, D., Broström, R., Kiessling, A., Berg, C. & Gräns, A. (2018). The final countdown: Continuous physiological welfare evaluation of farmed fish during common aquaculture practices before and during harvest. Aquaculture 495: 903-911.

18.  Brijs, J., Gräns, A., Hjelmstedt, P., Sandblom, E., van Nuland, N., Berg., C. & Axelsson, M. (2018). In vivo aerobic metabolism of the rainbow trout gut and the effects of an acute temperature increase and stress event. J. Exp. Biol. 221: 1-6.

19.  Ekström, A., Axelsson, M., Gräns, A., Brijs, J. & Sandblom, E. (2018). Importance of the coronary circulation for cardiac and metabolic performance in rainbow trout (Oncorhynchus mykiss). Biol. Lett. 14: 1-4.

20.  Jutfelt, F., Norin, T., Ern, R., Overgaard, J., Wang, T., McKenzie, D., Lefevre, S., Nilsson, G., Metcalfe, N., Hickey, A., Brijs, J., Speers-Roesch, B., Roche, D., Gamperl, A., Raby, G., Morgan, R., Esbaugh, A., Gräns, A., Axelsson, M., Ekström, A., Sandblom, E., Binning, S., Hicks., J., Seebacher, F., Jorgensen, C., Killen, S., Schulte, P. & Clark, T. (2018). Oxygen- and capacity-limited thermal tolerance: blurring ecology and physiology. J. Exp. Biol. 221: jeb169615.

21.  Sundell, E., Morgenroth, D., Brijs, J., Ekström, A., Gräns, A. & Sandblom, E. (2018). Seawater acclimation affects cardiac output and adrenergic control of blood pressure in rainbow trout (Oncorhynchus mykiss) – implications for salinity variations now and in the future. Conserv. Physiol. 6: 1-11.

22.  Sundh, H., Gräns, A., Brijs, J., Sandblom, E., Axelsson, M., Berg, C. & Sundell, K. (2018). Effects of coeliacomesenteric blood flow reduction on intestinal barrier function in rainbow trout (Oncorhynchus mykiss). J. Fish. Biol. 93: 519-527.

23.  Brijs, J., Hennig, G., Gräns, A., Dekens, E., Axelsson, M. & Olsson, C. (2017). Exposure to seawater increases intestinal motility in euryhaline rainbow trout. J. Exp. Biol. 220: 2397-2408.

24.  Brijs, J., Hennig, G., Kellerman, A., Axelsson, M. & Olsson, C. (2017). The presence and role of interstitial cells of Cajal in the proximal intestine of shorthorn sculpin. J. Exp. Biol. 220: 347-357.

25.  Brijs, J., Sandblom, E., Dekens, E., Näslund, J., Ekström, A. & Axelsson, M. (2017). Cardiac re-modelling and increased central venous pressure underlie elevated stroke volume and cardiac output of seawater-acclimated rainbow trout. Am. J. Physiol. Regul. Integr. Comp. Physiol. 312: R31-R39.

26.  Brijs, J., Sandblom, E., Sundh, H., Gräns, A., Hinchcliffe, J., Ekström, A., Sundell, K., Olsson, C., Axelsson, M. & Pichaud, N. (2017). Increased mitochondrial coupling and anaerobic capacity minimizes aerobic costs of trout in the sea. Sci. Rep. 7: 45778.

27.  Ekström, A., Axelsson, M., Gräns, A., Brijs, J. & Sandblom, E. (2017). Influence of the coronary circulation on thermal tolerance and cardiac performance in rainbow trout. Am. J. Physiol. Regul. Integr. Comp. Physiol 312: R549-R558.

28.  Ekström, A., Sandblom, E., Blier, P., Cyr, B., Brijs, J. & Pichaud, N. (2017). Thermal sensitivity and phenotypic plasticity of cardiac mitochondrial metabolism in European perch. J. Exp. Biol. 220: 386-396.

29.  Fillipsson, K., Brijs, J., Näslund, J., Wengström, N., Adamsson, M., Závorka, L, Österling, E. & Höjesjö, J. (2017). Encystment of parasitic freshwater pearl mussel larvae coincides with increased metabolic rate and haematocrit in juvenile brown trout. Parasitol. Res. 116: 1353-1360.

30.  Závorka, L., Koeck, B., Cucherousset, J., Brijs, J., Näslund, J., Aldven, D., Höjesjö, J., Fleming, I. & Johnsson, J. (2017). Co-existence with non-native brook trout breaks down the integration of phenotypic traits in brown trout parr. Func. Ecol. 31: 1582-1591.

31.  Brijs, J., Gräns, A., Ekström, A., Olsson, C., Axelsson, M. & Sandblom, E. (2016). Cardiorespiratory up-regulation during seawater acclimation in rainbow trout: Effects on gastrointestinal perfusion and post-prandial responses. Am. J. Physiol. Regul. Integr. Comp. Physiol. 310: R858-R865.

32.  Ekström, A., Brijs, J., Clark, T., Gräns, A., Jutfelt, F. & Sandblom, E. (2016). Cardiac oxygen limitation during an acute thermal challenge in the European perch: effects of chronic environmental warming and experimental hyperoxia. Am. J. Physiol. Regul. Integr. Comp. Physiol. 311: R440-R449.

33.  Sandblom, E., Clark, T., Gräns, A., Ekström, A., Brijs, J., Sundström, L., Odelström, A., Adill, A., Aho, T. & Jutfelt, F. (2016). Physiological constraints to climate warming in fish follow principles of plastic floors and concrete ceilings. Nat. Commun. 7: 1-8.

34.  Sandblom, E., Ekström, A., Brijs, J., Sundström, L., Jutfelt, F., Clark, T., Adill, A., Aho, T. & Gräns, A. (2016). Cardiac reflexes in a warming world: thermal plasticity of barostatic control and autonomic tones in a temperate fish. J. Exp. Biol. 7: 1-8.

35.  Brijs, J., Axelsson, M., Gräns, A., Pichaud, N., Olsson, C. & Sandblom, E. (2015). Increased gastrointestinal blood flow: An essential circulatory modification for euryhaline rainbow trout migrating to sea. Sci. Rep. 5: 10430.

36.  Brijs, J., Jutfelt, F., Clark, T., Gräns, A., Ekström, A. & Sandblom, E. (2015). Experimental manipulations of tissue oxygen supply do not affect warming tolerance of European perch. J. Exp. Biol. 218.

37.  Brijs, J., Hennig, G., Axelsson, M. & Olsson, C. (2014). Effects of feeding on in vivo motility patterns in the proximal intestine of shorthorn sculpin. J. Exp. Biol. 217: 3015-3027.

Reviews and editorials (2 first author, 1 co-author)

1.    Brijs, J., Fahlmann, A., Fore, M. & Manteca, X. (2022). Animal Welfare: Using bio-sensing devices to assess farm animal welfare. Front. Physiol.: 145.

2.    Brijs, J., Fore, M., Gräns, A., Clark, T., Axelsson, M. & Johansen, J. (2021). Bio-sensing technologies in aquaculture: how remote monitoring can bring us closer to our farm animals. Phil. Trans. R. Soc. B 376: 1-10.

3.    Fahlmann, A., Aoki, K., Bale, G., Brijs, J., Chon, K., Drummond, C., Fore, M., Manteca, X., McDonald, B., McKnight, J., Sakamoto, K., Suzuki, I., Rivero, M., Ropert-Coudert, Y. & Wisniewska, D. (2021). The new era of physio-logging and their grand challenges. Front. Physiol. 12: 1-6.

Book chapters (2 last author, 1 co-author)

1.    Joyce, W. & Brijs., J. (accepted). Integrated responses of the circulatory system to digestion. In Encyclopedia of fish physiology: From genome to environment (eds. Gillis, T. & Alderman, S.). Academic press, Netherlands.

2.    Joyce, W. & Brijs., J. (accepted). The gastrointestinal circulation. In Encyclopedia of fish physiology: From genome to environment (eds. Gillis, T. & Alderman, S.). Academic press, Netherlands.

3.    Hicks, B., Brijs, J., Daniel, A., Morgan, D. & Ling, N. (2015). Biomass estimation of invasive fish. In New Zealand Invasive Fish Management Handbook (eds. Collier, K. J. and Grainger, N. P. J.). Lake Ecosystem Restoration New Zealand and Department of Conservation, Hamilton, New Zealand. 212 p.

Consultancy reports (10 first author, 5 co-author)

1.    Brijs, J. & Gräns, A. (2020). Humane slaughter of African sharptooth catfish: Effects of current and alternative stunning methods on brain function. Prepared for the Swedish Board of Agriculture, Sweden.

2.    Brijs, J., Hjelmstedt, P. & Gräns, A. (2019). Cardiovascular disease in rainbow trout: Prevalence, severity and consequences of the disease in Nordic aquaculture. Prepared for the Swedish Board of Agriculture, Sweden.

3.    Brijs, J., Hicks, B., Rowe, D. & Bell, D. (2010). Boat electrofishing survey of common smelt and common bully in the Ohau Channel in December 2009. Prepared for Environment Bay of Plenty, New Zealand.

4.    Brijs, J., Hicks, B. & Powrie, W. (2009). Spatial and temporal abundance of mysid shrimp (Tenagomysis chiltoni) in shallow lakes in the Waikato region. Prepared for Environment Waikato, New Zealand.

5.    Brijs, J., Hicks, B., Ling, N. & Bell, D. (2009). Pest fish survey of Hokowhitu (Centennial) Lagoon, Palmerston North. Prepared for Department of Conservation, New Zealand.

6.    Brijs, J., Hicks, B. & Bell, D. (2009). Boat electrofishing survey of common smelt and common bullies in the Ohau Channel in December 2008. Prepared for Environment Bay of Plenty, New Zealand.

7.    Hicks, B. & Brijs, J. (2009). Boat electrofishing survey of Lake Ngaroto. Prepared for Waipa District Council, New Zealand.

8.    Hicks, B., Brijs, J., Bell, D., Ling, N., Blair, J. & Powrie, W. (2009). Boat electrofishing survey of the upper Turitea Reservoir, Palmerston North. Prepared for Department of Conservation, New Zealand.

9.    Hicks, B., Brijs, J., & Bell, D.  (2009). Boat electrofishing survey of Lake Rotokaeo, Hamilton. Prepared for Department of Conservation, New Zealand

10.  Ling, N. & Brijs, J. (2009). Utuhina Stream monitoring 2009: fish and aquatic invertebrates. Prepared for Environment Bay of Plenty, New Zealand.

11.  Brijs, J., et al. (2008). Electrofishing survey of the fish community in the Whangamarino Wetland. Prepared for Department of Conservation, New Zealand.

12.  Brijs, J., et al. (2008). Boat electrofishing survey of common smelt and common bullies in the Ohau Channel. Prepared for Department of Conservation, New Zealand.

13.  Hicks, B., Brijs, J., Bell, D. & Powrie, W. (2008). The use of boat electrofishing for koi carp (Cyprinus carpio) removal in the Kauri Point catchment. Prepared for Department of Conservation, New Zealand.

14.  Hicks, B., Brijs, J., Bell, D. & Powrie, W. (2007). Boat electrofishing survey of five Waitakere City ponds. Prepared for Boffa Miskell Ltd., New Zealand.

15.  Landman, M., Brijs, J. & Ling, N. (2006). Lake Okareka and Tikitapu Fish Health Monitoring 2007. Prepared for Environment Bay of Plenty, New Zealand.

Dissertations (2 first author)

1.    Brijs, J. (2017). Gastrointestinal motility and blood flow in teleosts during digestion and osmoregulation. Doctoral dissertation, University of Gothenburg, Sweden.

2.    Brijs, J. (2007). Evolution and comparative haemoglobin oxygen binding in New Zealand mudfishes. Master of Science dissertation, University of Waikato, New Zealand.

Conference presentations

1.  Brijs, J. (2023). Do common stunning methods render African sharptooth catfish insensible prior to slaughter. Presented at the annual meeting of Aquaculture Europe in Vienna, Austria.

2.  Brijs, J. (2022). Marine heatwaves threaten the fitness of herbivorous coral reef fishes and the continued delivery of crucial ecological functions. Presented to the University of Hawaiʻi at Mānoa, USA.

3.  Brijs, J. (2019). Remote monitoring of cardiovascular performance to gauge stress responses of rainbow trout in aquaculture . Presented at the annual meeting of Aquaculture Europe in Berlin, Germany.

4.  Brijs, J. (2017). Gastrointestinal motility and blood flow in teleosts during digestion and osmoregulation. Presented to the general public and acamedics at the University of Gothenburg, Sweden.

5.  Brijs, J. (2017). Do changes in gut motility represent an osmoregulatory strategy for salmonids migrating to sea? Presented at the annual meeting of Society of Experimental Biology, Gothenburg, Sweden.

6.  Brijs, J. (2016). The underlying mechanisms that power the osmoregulatory active intestine in rainbow trout migrating to seawater. Presented at the annual meeting of Society of Experimental Biology, Brighton, UK.

7   Brijs, J. (2015). The rumblings of the shorthorn sculpin gut! Presented at the annual meeting of Society of Experimental Biology, Valencia, Spain.

8.  Brijs, J. (2006). Evolution and comparative haemoglobin oxygen binding in New Zealand mudfishes. Presented at the Comparative Physiology and Biochemistry Conference, Queensland, Australia.

Nach oben scrollen