Litcius/Paper detail

Applications of zinc stable isotope analysis in environmental and biological systems: a review

Tassiane P. Junqueira, Bas Vriens, Matthew I. Leybourne, Anna L. Harrison, Kaj Sullivan, Hyeryeong Jeong, Daniel F. Araújo

2024Geochemistry Exploration Environment Analysis10 citationsDOIOpen Access PDF

Abstract

Zinc (Zn) is an essential trace element that is involved in both biotic and abiotic processes in Earth's surface environments. Over the last 20 years, advances in mass spectrometry instrumentation have enabled unprecedented high-precision Zn isotope abundance ratio determinations in natural and anthropogenic samples. Supported by a solid theoretical background inherited from the traditional non-metal stable isotopes (C, N, H, O, S), the understanding of the controlling factors of Zn isotope fractionation has rapidly evolved. In this article, we review the main applications and findings of Zn isotopes in a variety of scientific domains, including metal contamination, magmatic differentiation, plant uptake, weathering, global climate change, dietary and trophic chains, and biomedicine. The analytical aspects of Zn isotope determination in solid and water samples and the principles and mechanisms of Zn isotope fractionation are also reviewed. This work aims to provide a general yet in-depth panorama of Zn isotope chemistry and to demonstrate the versatility and potential of this isotope system for studying the biological, geological and chemical cycling of Zn.

Topics & Concepts

Environmental chemistryIsotopeStable isotope ratioTrophic levelIsotope fractionationIsotope analysisChemistryFractionationEnvironmental scienceGeologyEcologyBiologyPaleontologyOrganic chemistryQuantum mechanicsPhysicsTrace Elements in HealthHeavy metals in environmentGeochemistry and Elemental Analysis
Applications of zinc stable isotope analysis in environmental and biological systems: a review | Litcius