Limited evidence for species‐specific sensitivity of temperature‐dependent fractionation of oxygen stable isotope in biominerals: A meta‐analysis
Limited evidence for species‐specific sensitivity of temperature‐dependent fractionation of oxygen stable isotope in biominerals: A meta‐analysis
1. Water temperature is key to the study of aquatic ectotherm ecology, but precise measurements of individual-based thermal experience remain difficult to validate. The stable isotope composition of oxygen in biominerals acts as a natural thermometer due to the temperature dependence of isotopic fractionation between water and mineral phases. Coefficients of published temperature-dependent fractionation equations, however, vary among taxa (the so-called ‘vital effect’) without apparent consistent predictors, implying that species-specific experimental validation may be needed before inferring temperature from biomineral oxygen isotope thermometry.
2. Here, we describe a meta-analysis conducted to assess the influence of biological and experimental sources of variation on the coefficients of published isotope thermometry equations.
3. We observed that the thermal sensitivity (equation slope) was resistant to any biological or experimental factors, while the isotopic spacing between water and biomineral (equation intercept) showed consistent variation. Experimental conditions and phylogeny were the two main sources of variation in equation coefficients, where experiment approaches influenced both equation intercepts and the fit of the linear regression.
4. Our results suggest that the use of common equation slopes and generalized taxa-specific equation intercepts may be appropriate under some circumstances. We additionally suggest that processes related to oxygen balance and osmoregulation may influence equation intercepts, and suggest further experimental work in this area. Finally, our observations provide ground for improvement for future design and reporting of biomineral thermometry experiments.
1719-131
Morissette, Olivier
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Trueman, Clive N.
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Sturrock, Anna M.
04021e78-02e6-4db0-80e8-5b11e3e11652
Geffen, Audrey J.
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Shirai, Kotaro
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July 2023
Morissette, Olivier
4c6f400f-8b2a-400e-8eef-c40d23a487f2
Trueman, Clive N.
d00d3bd6-a47b-4d47-89ae-841c3d506205
Sturrock, Anna M.
04021e78-02e6-4db0-80e8-5b11e3e11652
Geffen, Audrey J.
3fb51e24-b59b-477c-a27a-872c4e88726e
Shirai, Kotaro
4aeda25a-8092-4058-b758-bbc74231ac55
Morissette, Olivier, Trueman, Clive N., Sturrock, Anna M., Geffen, Audrey J. and Shirai, Kotaro
(2023)
Limited evidence for species‐specific sensitivity of temperature‐dependent fractionation of oxygen stable isotope in biominerals: A meta‐analysis.
Methods in Ecology and Evolution, 14 (7), .
(doi:10.1111/2041-210X.14122).
Abstract
1. Water temperature is key to the study of aquatic ectotherm ecology, but precise measurements of individual-based thermal experience remain difficult to validate. The stable isotope composition of oxygen in biominerals acts as a natural thermometer due to the temperature dependence of isotopic fractionation between water and mineral phases. Coefficients of published temperature-dependent fractionation equations, however, vary among taxa (the so-called ‘vital effect’) without apparent consistent predictors, implying that species-specific experimental validation may be needed before inferring temperature from biomineral oxygen isotope thermometry.
2. Here, we describe a meta-analysis conducted to assess the influence of biological and experimental sources of variation on the coefficients of published isotope thermometry equations.
3. We observed that the thermal sensitivity (equation slope) was resistant to any biological or experimental factors, while the isotopic spacing between water and biomineral (equation intercept) showed consistent variation. Experimental conditions and phylogeny were the two main sources of variation in equation coefficients, where experiment approaches influenced both equation intercepts and the fit of the linear regression.
4. Our results suggest that the use of common equation slopes and generalized taxa-specific equation intercepts may be appropriate under some circumstances. We additionally suggest that processes related to oxygen balance and osmoregulation may influence equation intercepts, and suggest further experimental work in this area. Finally, our observations provide ground for improvement for future design and reporting of biomineral thermometry experiments.
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Methods Ecol Evol - 2023 - Morissette - Limited evidence for species‐specific sensitivity of temperature‐dependent
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Accepted/In Press date: 21 April 2023
e-pub ahead of print date: 17 May 2023
Published date: July 2023
Identifiers
Local EPrints ID: 491041
URI: http://eprints.soton.ac.uk/id/eprint/491041
ISSN: 2041-210X
PURE UUID: 93868599-ccb7-4a5b-ae24-4384754f2dc1
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Date deposited: 11 Jun 2024 16:43
Last modified: 12 Jun 2024 01:39
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Author:
Olivier Morissette
Author:
Anna M. Sturrock
Author:
Audrey J. Geffen
Author:
Kotaro Shirai
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