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Review
. 2020 Sep;97(3):596-606.
doi: 10.1111/jfb.14429. Epub 2020 Jul 27.

Effects of global warming on sex ratios in fishes

Benjamin Geffroy  1 Claus Wedekind  2
Affiliations
Review

Effects of global warming on sex ratios in fishes

Benjamin Geffroy et al. J Fish Biol. 2020 Sep.

Erratum in

Abstract

In fishes, sex is determined by genetics, the environment or an interaction of both. Temperature is among the most important environmental factors that can affect sex determination. As a consequence, changes in temperature at critical developmental stages can induce biases in primary sex ratios in some species. However, early sex ratios can also be biased by sex-specific tolerances to environmental stresses that may, in some cases, be amplified by changes in water temperature. Sex-specific reactions to environmental stress have been observed at early larval stages before gonad formation starts. It is therefore necessary to distinguish between temperature effects on sex determination, generally acting through the stress axis or epigenetic mechanisms, and temperature effects on sex-specific mortality. Both are likely to affect sex ratios and hence population dynamics. Moreover, in cases where temperature effects on sex determination lead to genotype-phenotype mismatches, long-term effects on population dynamics are possible, for example temperature-induced masculinization potentially leading to the loss of Y chromosomes or feminization to male-biased operational sex ratios in future generations. To date, most studies under controlled conditions conclude that if temperature affects sex ratios, elevated temperatures mostly lead to a male bias. The few studies that have been performed on wild populations seem to confirm this general trend. Recent findings suggest that transgenerational plasticity could mitigate the effects of warming on sex ratios in some populations.

Keywords: climate change; cortisol; environmental sex reversal; methylation; sex determination; sex-specific mortality.

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References

REFERENCES

    1. Adolfi, M. C., Fischer, P., Herpin, A., Regensburger, M., Kikuchi, M., Tanaka, M., & Schartl, M. (2019). Increase of cortisol levels after temperature stress activates Dmrt1a causing female-to-male sex reversal and reduced germ cell number in Medaka. Molecular Reproduction and Development, 86, 1405-1417.
    1. Alfonso, S., Gesto, M., & Sadoul, B. (2020). Temperature increase and its effects on fish stress physiology in the context of global warming. Journal of Fish Biology.
    1. Azuma, T., Takeda, K., Doi, T., Muto, K., Akutsu, M., Sawada, M., & Adachi, S. (2004). The influence of temperature on sex determination in sockeye Salmon Oncorhynchus nerka. Aquaculture, 234, 461-473.
    1. Baroiller, J. F., & D'Cotta, H. (2001). Environment and sex determination in farmed fish. Comparative Biochemistry and Physiology Part C: Toxicology & Pharmacology, 130, 399-409.
    1. Baroiller, J. F., D'Cotta, H., Bezault, E., Wessels, S., & Hoerstgen-Schwark, G. (2009). Tilapia sex determination: Where temperature and genetics meet. Comparative Biochemistry and Physiology Part A: Molecular & Integrative Physiology, 153, 30-38.

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