Varying organic content in fish otoliths: effects on SIMS-based δ18O measurements and possible corrections
Varying organic content in fish otoliths: effects on SIMS-based δ18O measurements and possible corrections
Varying organic contents in otoliths have complex and sometimes counterintuitive effects on intra-otolith δ18O measurements. This is often addressed by roasting otoliths or applying fixed corrections, however, the underlying chemical and physiological mechanisms involved are poorly understood and have not been tested in a quantitative manner, potentially rendering such corrections unreliable. Using high-resolution secondary ion mass spectrometry (SIMS) measurements of δ18O values paired with OH/16O ion ratios as organic proxy, we derived quantitative relationships of these measurements over the entire life of a large sample of northern pike (Esox lucius) otoliths from freshwater and brackish habitats. We assessed OH/16O ion count ratio as an organic tracer, and estimated its relationship with δ18O determinations. We developed a pointwise correction approach that accounted for variations in otolith organic contents. OH/16O ion ratio profiles agreed with other organic proxies, confirming them as reliable tracer of organic content. We detected an inverse relationship between δ18O values and OH/16O ion ratio, with elevated OH/16O ion ratios near otolith cores. OH/16O ratios decreased with distance to the core. Pairwise corrections for the effect of OH/16O ratios on δ18O values resulted in a mean offset between uncorrected and corrected values of 0.52 ‰, suggesting an approximately 2°C bias towards warmer temperature if uncorrected data were to be used for δ18O thermometry. Simultaneous determination on organic- and inorganic-bound oxygen resulted in a negative offset of δ18O, which varies with the life history of individual fish. Varying offsets in δ18O values within individual life histories could be accounted for using our correction. We recommend future SIMS-based δ18O thermometry studies to estimate the local organic content to assess whether correction is warranted. We further offer more general recommendations on how future studies may assess whether corrections for organics are necessary.
Biogenic carbonates, Growth, Isotope ecology, Ontogeny, Thermometry
Rittweg, Timo D.
9a41eebc-0563-4575-abf6-7c9002cb1c7f
Wiedenbeck, Michael
c02574b6-defc-46d3-b187-b45fdf08decc
Fietzke, Jan
90b30647-299b-4e99-af1a-e7e7ac7195a3
Trueman, Clive
d00d3bd6-a47b-4d47-89ae-841c3d506205
24 December 2024
Rittweg, Timo D.
9a41eebc-0563-4575-abf6-7c9002cb1c7f
Wiedenbeck, Michael
c02574b6-defc-46d3-b187-b45fdf08decc
Fietzke, Jan
90b30647-299b-4e99-af1a-e7e7ac7195a3
Trueman, Clive
d00d3bd6-a47b-4d47-89ae-841c3d506205
Rittweg, Timo D., Wiedenbeck, Michael, Fietzke, Jan and Trueman, Clive
(2024)
Varying organic content in fish otoliths: effects on SIMS-based δ18O measurements and possible corrections.
Fisheries Research, 281, [107239].
(doi:10.1016/j.fishres.2024.107239).
Abstract
Varying organic contents in otoliths have complex and sometimes counterintuitive effects on intra-otolith δ18O measurements. This is often addressed by roasting otoliths or applying fixed corrections, however, the underlying chemical and physiological mechanisms involved are poorly understood and have not been tested in a quantitative manner, potentially rendering such corrections unreliable. Using high-resolution secondary ion mass spectrometry (SIMS) measurements of δ18O values paired with OH/16O ion ratios as organic proxy, we derived quantitative relationships of these measurements over the entire life of a large sample of northern pike (Esox lucius) otoliths from freshwater and brackish habitats. We assessed OH/16O ion count ratio as an organic tracer, and estimated its relationship with δ18O determinations. We developed a pointwise correction approach that accounted for variations in otolith organic contents. OH/16O ion ratio profiles agreed with other organic proxies, confirming them as reliable tracer of organic content. We detected an inverse relationship between δ18O values and OH/16O ion ratio, with elevated OH/16O ion ratios near otolith cores. OH/16O ratios decreased with distance to the core. Pairwise corrections for the effect of OH/16O ratios on δ18O values resulted in a mean offset between uncorrected and corrected values of 0.52 ‰, suggesting an approximately 2°C bias towards warmer temperature if uncorrected data were to be used for δ18O thermometry. Simultaneous determination on organic- and inorganic-bound oxygen resulted in a negative offset of δ18O, which varies with the life history of individual fish. Varying offsets in δ18O values within individual life histories could be accounted for using our correction. We recommend future SIMS-based δ18O thermometry studies to estimate the local organic content to assess whether correction is warranted. We further offer more general recommendations on how future studies may assess whether corrections for organics are necessary.
Text
1-s2.0-S0165783624003035-main
- Version of Record
More information
Accepted/In Press date: 25 November 2024
e-pub ahead of print date: 24 December 2024
Published date: 24 December 2024
Keywords:
Biogenic carbonates, Growth, Isotope ecology, Ontogeny, Thermometry
Identifiers
Local EPrints ID: 499496
URI: http://eprints.soton.ac.uk/id/eprint/499496
ISSN: 0165-7836
PURE UUID: a9df1520-8ae4-4d12-92ee-837db918364f
Catalogue record
Date deposited: 21 Mar 2025 17:49
Last modified: 22 Aug 2025 01:51
Export record
Altmetrics
Contributors
Author:
Timo D. Rittweg
Author:
Michael Wiedenbeck
Author:
Jan Fietzke
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics
