Smaller body size under warming is not due to gill-oxygen limitation in a cold-water salmonid

Lonthair, Joshua K.; Wegner, Nicholas C.; Cheng, Brian S.; Fangue, Nann A.; O'Donnell, Matthew J.; Regish, Amy M.; Swenson, John D.; Argueta, Estefany; McCormick, Stephen D.; Letcher, Benjamin H.; Komoroske, Lisa M.

doi:10.1242/jeb.246477

Journal of Experimental Biology

2024

DOI: 10.1242/jeb.246477

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Smaller body size under warming is not due to gill-oxygen limitation in a cold-water salmonid

Joshua K. Lonthair,

Nicholas C. Wegner,

Brian S. Cheng

et al.

Abstract: Declining body size in fishes and other aquatic ectotherms associated with anthropogenic climate warming has significant implications for future fisheries yields, stock assessments and aquatic ecosystem stability. One proposed mechanism seeking to explain such body-size reductions, known as the gill oxygen limitation (GOL) hypothesis, has recently been used to model future impacts of climate warming on fisheries but has not been robustly empirically tested. We used brook trout (Salvelinus fontinalis), a fast-g… Show more

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Cited by 6 publications

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Behavioral, electrocardiographic, and opercular beat recording characterization of tilapia (Oreochromis niloticus) in immersion bath with different concentrations of tricaine (MS-222)

Reis,

da Paz,

Quirino

et al. 2025

Aquaculture

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Behavioral, electrocardiographic, and opercular beat recording characterization of tilapia (Oreochromis niloticus) in immersion bath with different concentrations of tricaine (MS-222)

Reis,

da Paz,

Quirino

et al. 2025

Aquaculture

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Carryover effects of embryonic hypoxia exposure on adult fitness of the Pacific abalone

Dai,

Shen,

et al. 2024

Environmental Research

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Does death drive the scaling of life?

Glazier

2024

Biological Reviews

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The magnitude of many kinds of biological structures and processes scale with organismal size, often in regular ways that can be described by power functions. Traditionally, many of these “biological scaling” relationships have been explained based on internal geometric, physical, and energetic constraints according to universal natural laws, such as the “surface law” and “3/4‐power law”. However, during the last three decades it has become increasingly apparent that biological scaling relationships vary greatly in response to various external (environmental) factors. In this review, I propose and provide several lines of evidence supporting a new ecological perspective that I call the “mortality theory of ecology” (MorTE). According to this viewpoint, mortality imposes time limits on the growth, development, and reproduction of organisms. Accordingly, small, vulnerable organisms subject to high mortality due to predation and other environmental hazards have evolved faster, shorter lives than larger, more protected organisms. A MorTE also includes various corollary, size‐related internal and external causative factors (e.g. intraspecific resource competition, geometric surface area to volume effects on resource supply/transport and the protection of internal tissues from environmental hazards, internal homeostatic regulatory systems, incidence of pathogens and parasites, etc.) that impact the scaling of life. A mortality‐centred approach successfully predicts the ranges of body‐mass scaling slopes observed for many kinds of biological and ecological traits. Furthermore, I argue that mortality rate should be considered the ultimate (evolutionary) driver of the scaling of life, that is expressed in the context of other proximate (functional) drivers such as information‐based biological regulation and spatial (geometric) and energetic (metabolic) constraints.

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Smaller body size under warming is not due to gill-oxygen limitation in a cold-water salmonid

Cited by 6 publications

References 81 publications

Behavioral, electrocardiographic, and opercular beat recording characterization of tilapia (Oreochromis niloticus) in immersion bath with different concentrations of tricaine (MS-222)

Behavioral, electrocardiographic, and opercular beat recording characterization of tilapia (Oreochromis niloticus) in immersion bath with different concentrations of tricaine (MS-222)

Carryover effects of embryonic hypoxia exposure on adult fitness of the Pacific abalone

Does death drive the scaling of life?

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