Does heat tolerance vary with rates of oxygen production in photosymbiotic cnidarians?

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Authors

Elise Laetz, Wilco C.E.P. Verberk 

Abstract

Oxygen acquisition and delivery to tissues is believed to be a key factor in heat tolerance, but testing this link has been challenging due to methodological limitations in separating processes related to oxygen acquisition and oxygen delivery. In this study, we altered tissue oxygenation by manipulating light intensity using cnidarians that host endosymbiotic algae as a model. We first verified that light intensity determines net photosynthetic rates, showing that all species produced oxygen at the highest light intensity, and that chemical inhibition successfully inhibited oxygen production. We then tested the prediction that heat tolerance would be higher at higher light intensity and lower in chemically inhibited specimens. Overall, photosynthetic specimens had a higher heat tolerance than inhibited specimens and increased light intensity improved heat tolerance for two of the three species we examined. Because inhibited specimens had lower heat tolerances, we conclude that oxygen dynamics are involved in shaping heat tolerance. Interestingly, light intensity also affected oxygen uptake and heat tolerance in some of the chemically inhibited specimens, indicating that light modulates aspects of cnidarian metabolism that are related to thermal tolerance, but extend beyond oxygen dynamics and the photosynthesis occurring in their algae.

DOI

https://doi.org/10.32942/X2DS55

Subjects

Life Sciences

Keywords

photosymbiosis, Anthozoa, Hydrozoa, Scyphozoa, OCLTT, CTmax, OCLTT, Anthozoa, Scyphozoa, Hydrozoa, Cnidaria, CTmax

Dates

Published: 2024-09-19 15:58

License

CC-BY Attribution-NonCommercial-ShareAlike 4.0 International

Additional Metadata

Language:
English

Conflict of interest statement:
None

Data and Code Availability Statement:
upon reasonable request form EMJL