Enameloid‐bound δ<sup>15</sup>N reveals large trophic separation among Late Cretaceous sharks in the northern Gulf of Mexico

Comans, Chelsea M.; Smart, Sandi M.; Kast, Emma R.; Lu, YueHan; Lüdecke, Tina; Leichliter, Jennifer N.; Sigman, Daniel M.; Ikejiri, Takehito; Martínez‐García, Alfredo

doi:10.1111/gbi.12585

Geobiology

2024

DOI: 10.1111/gbi.12585

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Enameloid‐bound δ¹⁵N reveals large trophic separation among Late Cretaceous sharks in the northern Gulf of Mexico

Chelsea M. Comans,

Sandi M. Smart,

Emma R. Kast

et al.

Abstract: The nitrogen isotopic composition (15N/14N ratio, or δ15N) of enameloid‐bound organic matter (δ15NEB) in shark teeth was recently developed to investigate the biogeochemistry and trophic structures (i.e., food webs) of the ancient ocean. Using δ15NEB, we present the first nitrogen isotopic evidence for trophic differences between shark taxa from a single fossil locality. We analyze the teeth of four taxa (Meristodonoides, Ptychodus, Scapanorhynchus, and Squalicorax) from the Late Cretaceous (83–84 Ma) Trussell… Show more

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A nitrogen isotopic shift in fish otolith–bound organic matter during the Late Cretaceous

Rao,

Lueders-Dumont,

Stringer

et al. 2024

Proc. Natl. Acad. Sci. U.S.A.

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The nitrogen isotopes of the organic matter preserved in fossil fish otoliths (ear stones) are a promising tool for reconstructing past environmental changes. We analyzed the 15 N/ 14 N ratio (δ 15 N) of fossil otolith-bound organic matter in Late Cretaceous fish otoliths (of Eutawichthys maastrichtiensis , Eutawichthys zideki and Pterothrissus sp.) from three deposits along the US east coast, with two of Campanian (83.6 to 77.9 Ma) and one Maastrichtian (72.1 to 66 Ma) age. δ 15 N and N content were insensitive to cleaning protocol and the preservation state of otolith morphological features, and N content differences among taxa were consistent across deposits, pointing to a fossil-native origin for the organic matter. All three species showed an increase in otolith-bound organic matter δ 15 N of ~4‰ from Campanian to Maastrichtian. As to its cause, the similar change in distinct genera argues against changing trophic level, and modern field data argue against the different locations of the sedimentary deposits. Rather, the lower δ 15 N in the Campanian is best interpreted as an environmental signal at the regional scale or greater, and it may be a consequence of the warmer global climate. A similar decrease has been observed in foraminifera-bound δ 15 N during warm periods of the Cenozoic, reflecting decreased water column denitrification and thus contraction of the ocean’s oxygen deficient zones (ODZs) under warm conditions. The same δ 15 N-climate correlation in Cretaceous otoliths raises the prospect of an ODZ-to-climate relationship that has been consistent over the last ~80 My, applying before and after the end-Cretaceous mass extinction and spanning changes in continental configuration.

show abstract

A nitrogen isotopic shift in fish otolith–bound organic matter during the Late Cretaceous

Rao,

Lueders-Dumont,

Stringer

et al. 2024

Proc. Natl. Acad. Sci. U.S.A.

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show abstract

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Enameloid‐bound δ¹⁵N reveals large trophic separation among Late Cretaceous sharks in the northern Gulf of Mexico

Cited by 1 publication

References 103 publications

A nitrogen isotopic shift in fish otolith–bound organic matter during the Late Cretaceous

A nitrogen isotopic shift in fish otolith–bound organic matter during the Late Cretaceous

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Enameloid‐bound δ15N reveals large trophic separation among Late Cretaceous sharks in the northern Gulf of Mexico

Cited by 1 publication

References 103 publications

A nitrogen isotopic shift in fish otolith–bound organic matter during the Late Cretaceous

A nitrogen isotopic shift in fish otolith–bound organic matter during the Late Cretaceous

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Enameloid‐bound δ¹⁵N reveals large trophic separation among Late Cretaceous sharks in the northern Gulf of Mexico