TY - JOUR
T1 - Eyes and ears: a comparative approach linking the chemical composition of cod otoliths and eye lenses.
AU - Stounberg, Jonathan
AU - Thomsen, Tonny Bernt
AU - Heredia, Benjamin Dominguez
AU - Hüssy, Karin
PY - 2022
Y1 - 2022
N2 - Abstract Fish eye lenses are a protein-based chronological recorder of microchemical constituents that is a potentially useful tool for interpretations of environmental, ecological, and life-history experienced by fish. Here, we present the first study with data of the chemical composition of eye lenses from Baltic Cod examined using laser ablation inductively coupled plasma mass spectrometry (LA-ICPMS), and compare these spatially resolved data to otoliths from the same fish also analyzed by LA-ICPMS, measuring the isotopes 27Al, 137Ba, 43Ca, 52Cr, 65Cu, 57Fe, 39K, 7Li, 25Mg, 55Mn, 31P, 208Pb, 85Rb, 45Sc, 29Si, 88Sr, 47Ti, 50V, 149Yb, 66Zn and 90Zr. Comparison of the variation in element concentrations between eye lenses and otoliths from the same individuals showed minor similarities, suggesting a different governance in the uptake processes. A strong overlap between the concentric growth rings in the eye lenses and the otolith Sr periodicity was observed, where each consecutive minima in the chemical profile with high accuracy correspond to the width of each lens ring. No comparable trends were seen between growth rings and all other elements measured from both lenses and otoliths. The characteristic rings observed in cod eye lenses do not seem to represent seasonal fluctuation nor found to be directly linked to age. With this research, we provide a baseline study identifying elements in corresponding eye lenses and otoliths that show potential for unraveling environmental and biological conditions experienced by fish. This article is protected by copyright. All rights reserved.
AB - Abstract Fish eye lenses are a protein-based chronological recorder of microchemical constituents that is a potentially useful tool for interpretations of environmental, ecological, and life-history experienced by fish. Here, we present the first study with data of the chemical composition of eye lenses from Baltic Cod examined using laser ablation inductively coupled plasma mass spectrometry (LA-ICPMS), and compare these spatially resolved data to otoliths from the same fish also analyzed by LA-ICPMS, measuring the isotopes 27Al, 137Ba, 43Ca, 52Cr, 65Cu, 57Fe, 39K, 7Li, 25Mg, 55Mn, 31P, 208Pb, 85Rb, 45Sc, 29Si, 88Sr, 47Ti, 50V, 149Yb, 66Zn and 90Zr. Comparison of the variation in element concentrations between eye lenses and otoliths from the same individuals showed minor similarities, suggesting a different governance in the uptake processes. A strong overlap between the concentric growth rings in the eye lenses and the otolith Sr periodicity was observed, where each consecutive minima in the chemical profile with high accuracy correspond to the width of each lens ring. No comparable trends were seen between growth rings and all other elements measured from both lenses and otoliths. The characteristic rings observed in cod eye lenses do not seem to represent seasonal fluctuation nor found to be directly linked to age. With this research, we provide a baseline study identifying elements in corresponding eye lenses and otoliths that show potential for unraveling environmental and biological conditions experienced by fish. This article is protected by copyright. All rights reserved.
KW - Otoliths
KW - Fish eye lenses
KW - LA-ICPMS
KW - Chemical profile
KW - Growth rings
KW - Atlantic cod
U2 - 10.1111/jfb.15159
DO - 10.1111/jfb.15159
M3 - Journal article
C2 - 35817955
SN - 0022-1112
VL - 101
SP - 985
EP - 995
JO - Journal of Fish Biology
JF - Journal of Fish Biology
IS - 4
ER -