ShellChron 0.4.0: a new tool for constructing chronologies in accretionary carbonate archives from stable oxygen isotope profiles

Winter, Niels J. de

doi:10.5194/gmd-15-1247-2022

Cited by 5 publications

(7 citation statements)

References 86 publications

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“…For each mollusk specimen, samples were internally dated relative to the seasonal cycle using ShellChron ( 75 ), after which measurements within a specimen were grouped in four 3-monthly bins (“seasons”). Summer was defined as the consecutive 3-month period with the lowest mean Δ 47 value, calculated separately for each specimen (see section S3.2 and figs.…”

Section: Methodsmentioning

confidence: 99%

Amplified seasonality in western Europe in a warmer world

de Winter,

Tindall,

Johnson

et al. 2024

Sci. Adv.

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Documenting the seasonal temperature cycle constitutes an essential step toward mitigating risks associated with extreme weather events in a future warmer world. The mid-Piacenzian Warm Period (mPWP), 3.3 to 3.0 million years ago, featured global temperatures approximately 3°C above preindustrial levels. It represents an ideal period for directed paleoclimate reconstructions equivalent to model projections for 2100 under moderate Shared Socioeconomic Pathway SSP2-4.5. Here, seasonal clumped isotope analyses of fossil mollusk shells from the North Sea are presented to test Pliocene Model Intercomparison Project 2 outcomes. Joint data and model evidence reveals enhanced summer warming (+4.3° ± 1.0°C) compared to winter (+2.5° ± 1.5°C) during the mPWP, equivalent to SSP2-4.5 outcomes for future climate. We show that Arctic amplification of global warming weakens mid-latitude summer circulation while intensifying seasonal contrast in temperature and precipitation, leading to an increased risk of summer heat waves and other extreme weather events in Europe’s future.

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Section: Methodsmentioning

confidence: 99%

Amplified seasonality in western Europe in a warmer world

de Winter,

Tindall,

Johnson

et al. 2024

Sci. Adv.

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“…The ShellChron model package (de Winter, 2022) includes a script to generate a modeled δ 18 O shell record from sinusoidally varying temperature and δ 18 O water curves, which was used to validate the data generated from the modern shell assessed in this study and from modern shells in nearby locations analyzed by Zaarur et al (2016). Temperature and δ 18 O water values reported in the literature were used to generate this record (Gat, 1970; Gat and Dansgaard, 1972; Gil'ad and Bonne, 1990; Litaor et al, 2008; Gophen et al, 2016; Zaarur et al, 2016; Supplementary Text S1).…”

Section: Methodsmentioning

confidence: 99%

Implications of submonthly oxygen and carbon isotope variations in late Pleistocene Melanopsis shells for regional and local hydroclimate in the upper Jordan River valley

et al. 2023

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Many water-stressed regions of the globe have a highly seasonal precipitation regime. However, seasonality in the past and under changing climates is little studied. Submonthly records of sclerochronological δ18O and δ13C values of Melanopsis shells from the Jordan River Dureijat archaeological site (JRD) in the upper Jordan River valley presented here document the hydrology of paleo-Lake Hula. These records were assessed for changes in seasonal hydrology in the lake and compared with modern shells collected from present-day waterbodies in northern Israel and with models of δ18Oshell. Results from shells in sediments dating from the last glacial maximum (LGM) to the Bølling-Allerød imply changes in waterbody size that qualitatively parallel changes in the late Pleistocene Lake Lisan levels; Hula Lake was well buffered when Lake Lisan stood at a high stand and poorly buffered when water levels were lower. Furthermore, data from shells dated to the LGM suggest inflowing water with lower δ18O values than local rainfall, providing evidence for a greater proportion of snow in the catchment than today. Reconstruction of water δ18O and mixing-model calculations suggest that snowmelt contribution to spring water during the LGM may have been more than twice the amount in the modern-day catchment.

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Section: Microsampling and Isotope Analysismentioning

confidence: 99%

“…The ShellChron 0.4.0 model (De Winter, 2022), based on the approach of Judd et al (2018), was used in R (R version 4.3.1, Rstudio version 2023.06.0 build 421) to transfer δ 18 Oc data to the time domain (Julian days), using a combination of growth rate and temperature sinusoid models on the isotope records while applying a sliding window approach. For this, the model makes the assumption that growth and temperature follow quasi-sinusoidal patterns (De Winter, 2022). Since variability in δ 18 Ow is comparatively limited in most fully marine environments (Rohling, 2013), the δ 18 Oc record preserved in the accretionary shells of extra-tropical mollusks can offer a good approximation of seasonal temperature fluctuations so long as season of growth is taken into account (Judd et al, 2018;Ivany and Judd, 2022;De Winter, 2022).…”

Section: Microsampling and Isotope Analysismentioning

confidence: 99%

“…For this, the model makes the assumption that growth and temperature follow quasi-sinusoidal patterns (De Winter, 2022). Since variability in δ 18 Ow is comparatively limited in most fully marine environments (Rohling, 2013), the δ 18 Oc record preserved in the accretionary shells of extra-tropical mollusks can offer a good approximation of seasonal temperature fluctuations so long as season of growth is taken into account (Judd et al, 2018;Ivany and Judd, 2022;De Winter, 2022).…”

Section: Microsampling and Isotope Analysismentioning

confidence: 99%

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Making sense of variation in sclerochronological stable isotope profiles of mollusks and fish otoliths from the early Eocene southern North Sea Basin

Vellekoop,

Vanhove,

Jelu

et al. 2024

Preprint

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Abstract. Stable isotope sclerochemistry of mollusks and otoliths is frequently used for the reconstruction of paleotemperature and seasonality. Constraints on the paleoecology and –environment of these organisms, and how these factors influence intra-and inter-taxon isotope variability and variation, are thus highly valuable. We measured seasonal changes in δ18O and δ13C compositions in multiple specimens of two carditid bivalve species, a turritelline gastropod species, and two species of otoliths from demersal fish, from two early Eocene (latest Ypresian, 49.2 Ma) coquinas in the inner neritic Aalter Sand Formation, located in the Belgian part of the southern North Sea Basin (paleolatitude ~41° N). Results demonstrate variability among taxa in average, amplitude and shape of intra-annual δ18O and δ13C values. This intertaxon variability is at least partly caused by growth cessation during winters in turritellines and otoliths, leading to an incomplete representation of the seasonal cycle in their growth increments, compared to carditid bivalves. Other contributing factors to isotopic variability include sedimentary transport, mobility, and the lifespan of the specimens. Specifically, ophidiid fish otolith isotope records appear to reflect environmental conditions over a wider range of habitats and environments, due to sedimentary transport and postmortem transport by free-swimming predatory fish. Our study therefore highlights the variability between different taxa and environments in the shallow marine realm, which has implications for seasonality reconstructions. We show that by studying multiple taxa and specimens in a death assemblage, a more complete spectrum of isotope variation and variability becomes apparent.

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ShellChron 0.4.0: a new tool for constructing chronologies in accretionary carbonate archives from stable oxygen isotope profiles

Cited by 5 publications

References 86 publications

Amplified seasonality in western Europe in a warmer world

Amplified seasonality in western Europe in a warmer world

Implications of submonthly oxygen and carbon isotope variations in late Pleistocene Melanopsis shells for regional and local hydroclimate in the upper Jordan River valley

Making sense of variation in sclerochronological stable isotope profiles of mollusks and fish otoliths from the early Eocene southern North Sea Basin

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