@article { , title = {A guide for proper utilisation of stable isotope reference materials.}, abstract = {Many scientific publications about stable isotope ratios suffer from flawed practices regarding calibration and normalisation of raw δ values in conjunction with prescribed δ values of reference materials. Violations of the Identical Treatment principle with regards to samples and standards (i.e. reference materials) and lack of adherence to SImandated and IUPAC-recommended nomenclature exacerbate the widespread problem of lackadaisical analytical practice and reporting. Science is supposed to strive for exactness, whereas ambiguity and jargon confound interdisciplinary communication. This contribution aims to expose typical misconceptions and avoidable errors and offers guidance toward reproducible generation of isotope data, isotopic scale normalisation, and proper data reporting. We offer a comprehensive overview of sources of light stable isotope reference materials to best match sample matrices encountered by stable isotope practitioners with chemically similar reference materials.}, doi = {10.1080/10256016.2018.1538137}, eissn = {1477-2639}, issn = {1025-6016}, issue = {2}, journal = {Isotopes in environmental and health studies}, note = {INFO COMPLETE (checked 30/7/2019 LM -- Now in Latest Articles 20/11/2018 LM -- Info via contact 18/10/2018 LM) ADDITIONAL INFORMATION: Meier-Augenstein, Wolfram -- Panel A}, pages = {113-128}, publicationstatus = {Published}, publisher = {Taylor and Francis}, url = {http://hdl.handle.net/10059/3184}, volume = {55}, keyword = {Calibration, Isotope abundance, Isotope abundance calibration, Reference material, Scale anchor, Scale compression, Scale normalisation, Stable isotope, Stretch factor}, year = {2019}, author = {Meier-Augenstein, Wolfram and Schimmelmann, Arndt} }