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Rationale: Clumped isotope geochemistry examines the pairing or clumping of heavy isotopes in molecules and provides information about the thermodynamic and kinetic controls on their formation. The first clumped isotope measurements of carbonate minerals were first published 15 years ago, and since then, interlaboratory offsets have been observed, and laboratory and community practices for measurement, data analysis, and instrumentation have evolved. Here we briefly review historical and recent developments for measurements, share Tripati Lab practices for four different instrument configurations, test a recently published proposal for carbonate-based standardization on multiple instruments using multi-year data sets, and report values for 21 different carbonate standards that allow for recalculations of previously published data sets.Methods: We examine data from 4628 standard measurements on Thermo MAT 253 and Nu Perspective IS mass spectrometers, using a common acid bath (90 C) and small-sample (70 C) individual reaction vessels. Each configuration was investigated

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Quantitative Analysis of Pedogenic Thresholds and Domains in Volcanic Soils

Bateman

Chadwick

Vitousek

2019

Ecosystems

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Soil fertility response to Ulex europaeus invasion and restoration efforts

Bateman

Vitousek

2018

Biol Invasions

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A “toy” model of biogeochemical dynamics on climate gradients

2021

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We used a simple “toy” model to aid in the evaluation of the controls of biogeochemical patterns along a climate gradient. The model includes simplified treatments of water balance (precipitation minus Potential Evapotranspiration), leaching, weathering of cation- and P-bearing minerals, N cycling and loss, biomass production, and biological N fixation. We use δ15N as a central integrator of biogeochemical processes, because δ15N integrates multiple pathways of N input, output, and transformation in ecosystems. The model simulated the location and magnitude of a peak in δ15N on a gradient on Kohala Volcano, Hawai‘i which peaked ~ + 14 ‰ in sites receiving ~ 3.5 cm/month average precipitation (− 1300 mm/year water balance); the model also captured a peak in total P in surface soil at intermediate levels of precipitation and water balance, and other biogeochemical features on the gradient. We then applied the model to understanding the patterns of and mechanisms underlying nutrient limitation to net primary production (NPP) and plant biomass on the gradient, testing for the existence and extent of N and P limitation by simulated additions of N and/or P in the model. Both a simulated symbiotic biological N fixer and a simulated non-fixer were limited by P supply across the gradient; the non-fixer was independently limited by N supply in wetter sites. By running the toy model with and without the influence of temperature, we demonstrated that water is the most important factor shaping biogeochemical patterns on this gradient.

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Constraints of Climate and Age on Soil Development in Hawai‘i

Chadwick

Chorover

Chadwick

et al. 2022

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Paleoclimate Changes in the Pacific Northwest Over the Past 36,000 Years From Clumped Isotope Measurements and Model Analysis

Lopez-Maldonado

Bateman

Ellis

et al. 2023

Paleoceanog and Paleoclimatol

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The Last Glacial Maximum (LGM; ∼23,000-19,000 years ago; ka) is the subject of extensive study and represents a global climate state dramatically different from that of today, characterized by reduced greenhouse gas concentrations and extensive ice sheets (Mix et al., 2001;Raynaud et al., 1993). Proxy records and climate models show that glacial-interglacial cycles are driven by orbital forcing and internal mechanisms such as variations in insolation, greenhouse gas levels, and distribution of ice sheets (

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Water balance affects foliar and soil nutrients differently

2022

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Paleoclimate of the Upper Jurassic Morrison Formation in Oklahoma and Texas

Myers¹,

Tabor²,

Bateman³

et al. 2018

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Jesse Bloom Bateman

Carbonate clumped isotope analysis (Δ₄₇) of 21 carbonate standards determined via gas‐source isotope‐ratio mass spectrometry on four instrumental configurations using carbonate‐based standardization and multiyear data sets

Quantitative Analysis of Pedogenic Thresholds and Domains in Volcanic Soils

Soil fertility response to Ulex europaeus invasion and restoration efforts

A “toy” model of biogeochemical dynamics on climate gradients

Constraints of Climate and Age on Soil Development in Hawai‘i

Paleoclimate Changes in the Pacific Northwest Over the Past 36,000 Years From Clumped Isotope Measurements and Model Analysis

Water balance affects foliar and soil nutrients differently

Paleoclimate of the Upper Jurassic Morrison Formation in Oklahoma and Texas

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Jesse Bloom Bateman

Carbonate clumped isotope analysis (Δ47) of 21 carbonate standards determined via gas‐source isotope‐ratio mass spectrometry on four instrumental configurations using carbonate‐based standardization and multiyear data sets

Quantitative Analysis of Pedogenic Thresholds and Domains in Volcanic Soils

Soil fertility response to Ulex europaeus invasion and restoration efforts

A “toy” model of biogeochemical dynamics on climate gradients

Constraints of Climate and Age on Soil Development in Hawai‘i

Paleoclimate Changes in the Pacific Northwest Over the Past 36,000 Years From Clumped Isotope Measurements and Model Analysis

Water balance affects foliar and soil nutrients differently

Paleoclimate of the Upper Jurassic Morrison Formation in Oklahoma and Texas

Contact Info

Product

Resources

About

Carbonate clumped isotope analysis (Δ₄₇) of 21 carbonate standards determined via gas‐source isotope‐ratio mass spectrometry on four instrumental configurations using carbonate‐based standardization and multiyear data sets