Mikko Nikinmaa
Ph.D., Professor of Zoology; FT, Eläintieteen professori
miknik@utu.fi +358 29 450 4222 +358 50 435 1637 Vesilinnantie 5 Turku |
animal physiology; fish biology; aquatic toxicology; environmental biology; respiration; membrane transport; gas transport
Mikko Nikinmaa got his high school diploma (International Baccalaureate)
from the United World College of the Atlantic, Llantwit Major, U.K. His
university education including the Ph. D. degree he accomplished at
University of Helsinki, Finland. He did postdoctoral work in Odense
University, Denmark, and Stanford University, USA. Thereafter he worked
in the University of Helsinki with research visits to University of
British Columbia, Vancouver, and Dalhousie University, Halifax, Nova
Scotia. In 1995 he was appointed Professor of Zoology in the University
of Turku. He was the President of Scandinavian Physiological Society in
1994-1996, and a member of National Research Council of Environment and
Natural Resources in 1995-1997. He served as a Dean of the Faculty of
Mathematics and Natural Sciences in 2000-2004, and was the director of
the Center of Excellence in Evolutionary Genetics and Physiology
(appointed by the Academy of Finland) in 2006-2011. He has been chief
editor of Aquatic Toxicology since 2004 and subject (respiratory and
comparative physiology) editor of Acta Physiologica since 1997.
Presently he is editorial board member in four journals. His more than 200 publications include the books "Vertebrate Red Blood
Cells" (1990, Springer) and "Introduction to Aquatic Toxicology" (2014, Elsevier), and a review on Membrane Transport and the
Control of Haemoglobin Oxygen Affinity in Physiological Reviews. He has
reviewed grant applications to agencies from more than ten different
countries, and served as an evaluator of academic positions in USA,
Canada, U.K., Sweden, South Africa and Finland. More than 30 journals
have used him as peer reviewer. His research interests lie in how
environmental changes, particularly temperature, oxygen and toxicants,
affect cellular functions especially in fish. An important aspect of
research is environmental regulation of gene expression, for example how
toxicants, oxygen and temperature changes affect transcription,
translation and protein stability.
Comparative Physiology, Ecophysiology, Ecotoxicology, Effects of Climate Change on Organism Function, Environmental Regulation of Gene Expression
Responsible Professor of Animal Physiology teaching; Ecophysiology and ecotoxicology as teaching areas
- Erythrocyte function (2024) Encyclopedia of Fish Physiology: Volume 2 Harter TS, Nikinmaa Mikko
- Cardiovascular oxygen transport and peripheral oxygen extraction capacity contribute to acute heat tolerance in European seabass (2023)
- Comparative Biochemistry and Physiology - Part A: Molecular and Integrative Physiology
- Are you ready for the heat? Phenotypic plasticity versus adaptation of heat tolerance in three-spined stickleback (2022)
- Ecosphere
- Copper exposure improves the upper thermal tolerance in a sex-specific manner, irrespective of fish thermal history (2022)
- Aquatic Toxicology
- Functional Genomics of Fish Erythrocytes (2022) Marine Genomics: Methods and Protocols Nikinmaa Mikko, Crespel Amélie
- Hypoxic induction of atrial natriuretic peptide (factor) secretion An inflammatory interleukin-18 pathway is involved in the control of cardioprotective molecule (2021)
- Kardiologia Polska
- Responses of marine animals to ocean acidification (2021) Climate Change and Marine and Freshwater Toxins Nikinmaa Mikko, Anttila Katja
- Environmentally driven changes in Baltic salmon oxidative status during marine migration (2020)
- Science of the Total Environment
- Environmental regulation of the function of circulating erythrocytes via changes in age distribution in teleost fish: Possible mechanisms and significance (2020)
- Marine Genomics
- Finally, a promising model for high-altitude pulmonary edema (HAPE)-A Mountaineers' Malady (2020)
- Acta Physiologica
- Hsp70s transcription-translation relationship depends on the heat shock temperature in zebrafish (2020)
- Comparative Biochemistry and Physiology - Part A: Molecular and Integrative Physiology
- Alternative respiratory chain enzymes: Therapeutic potential and possible pitfalls (2019)
- BBA - Molecular Basis of Disease
- Individual variation in aquatic toxicology: Not only unwanted noise (2019)
- Aquatic Toxicology
- Regulation of erythrocyte function: Multiple evolutionary solutions for respiratory gas transport and its regulation in fish (2019)
- Acta Physiologica
- Water-soluble fraction of crude oil affects variability and has transgenerational effects in Daphnia magna (2019)
- Aquatic Toxicology
- Circadian rhythms and environmental disturbances–underexplored interactions (2018)
- Journal of Experimental Biology
- Cold temperature represses daily rhythms in the liver transcriptome of a stenothermal teleost under decreasing day length (2018)
- Journal of Experimental Biology
- Hypoxia exposure and B-type natriuretic peptide release from Langendorff heart of rats (2017)
- Acta Physiologica
- Influence of crude oil exposure on cardiac function and thermal tolerance of juvenile rainbow trout and European sea bass (2017)
- Environmental Science and Pollution Research
- In vitro study on the regulation of cellular mRNA levels by changes in transcription rate and transcript stability in fish red blood cells (2017)
- Comparative Biochemistry and Physiology - Part B: Biochemistry and Molecular Biology
