Why do fish fail at high temperatures?

Lead Research Organisation: University of Glasgow
Department Name: College of Medical, Veterinary, Life Sci

Abstract

There is increasing evidence that fish will be badly affected by increases in global temperatures due to their body temperatures matching that of the surrounding water. This is a particular problem for freshwater fishes since they have little scope for moving to colder water. The widely-quoted mechanistic explanation for the upper temperature limit for fish is that, as the temperature rises, there comes a point where the animal cannot supply sufficient oxygen to meet the increasing metabolic demands of its cells. However, recent tests of this hypothesis have found that it often does not correctly predict upper temperature limits, with fish failing at a temperature when their supply of oxygen is still adequate. This suggests that the currently-adopted hypothesis is inadequate.

In this project we will use newly-developed methods to provide the first comprehensive test of an alternative hypothesis, and in so doing potentially provide the physiological mechanism that will underpin predictions of the consequences of warming temperatures for the distribution and functioning of fish species - and potentially other cold-blooded aquatic species. We will test whether the upper temperature limit for fish is determined by the point at which their mitochondria - the powerhouses of animal cells - fail to deliver enough of the energy molecule ATP to allow their cells to function properly. Using Brown trout as a test species we will investigate whether the changing functioning of their mitochondria allows us to predict the upper temperature at which they can still feed and grow. We will also test whether fish living at high temperatures age faster, as is predicted by this alternative hypothesis. Information from this project will allow us to predict what types of species of fish will be most vulnerable to high temperatures and which features of the temperature regime are most critical to survival (e.g. whether it is the daily average or the peak temperature). This information is needed if we are to prioritise species or sites for protection measures.

Planned Impact

The improved understanding of the role of temperature in determining the performance of fish will inform our views on the short- and longer-term impacts of environmental change in freshwater ecosystems. By focusing on the mechanisms underlying the responses of fish to increasing environmental temperatures we will contribute directly to this body of applied information. This research will therefore be of interest to management agencies for making decisions about species and populations that are of greatest priority for conservation. It will also provide information on the critical features of the thermal environment that determine whether a location will be too hot to sustain a fish population (i.e. whether it is the mean temperature during the warmest time of the year, or the average daily maximum temperature, or the peak temperature). This information will be of direct benefit to conservation biologists deciding on priority sites for conservation and on suitable translocation sites for endangered species; it will also be relevant to fish farmers deciding on the suitability of potential sites for aquaculture.

The project is likely to also interest the general public due to the potential effect of environmental change on populations of an iconic species, and especially school children who can be taught about the impacts of climate change by highlighting to them the consequences of high temperatures for a species on their doorstep.

Publications

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Burraco P (2020) Climate change and ageing in ectotherms. in Global change biology

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Dawson NJ (2022) Inter-individual variation in mitochondrial phosphorylation efficiency predicts growth rates in ectotherms at high temperatures. in FASEB journal : official publication of the Federation of American Societies for Experimental Biology

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Dawson NJ (2020) Measurement of mitochondrial respiration in permeabilized fish gills. in The Journal of experimental biology

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Nord A (2021) Avian red blood cell mitochondria produce more heat in winter than in autumn. in FASEB journal : official publication of the Federation of American Societies for Experimental Biology

 
Description We have shown that the reason why some individual fish are unable to feed at warmer temperatures is linked to the efficiency of their mitochondria. Mitochondria are specialised parts of the cells of all living animals that are responsible for converting the food that we eat into an energy source that can be used to fuel the processes of the body. Individuals differ in how efficient their mitochondria are - and the fish that have the lowest mitochondrial efficiency (using up the most oxygen and fuel to produce a given amount of energy) are least able to maintain their food intake as the temperature rises.
Exploitation Route Too early to say - first empirical results are published but more are still being written up (writing up delayed by covid)
Sectors Agriculture

Food and Drink

Environment

Healthcare

 
Description (MitoWild) - Counting the cost of living: mitochondrial efficiency, environmental conditions, and performance in the wild
Amount € 2,445,128 (EUR)
Funding ID 834653 
Organisation European Commission 
Sector Public
Country European Union (EU)
Start 09/2019 
End 09/2024