# An Improved Chemical Extraction Procedure for the Sr Isotope Analysis of Liquid Agrifood Samples Applied to Authenticating the Origin of Maple Syrups in Quebec (Canada)

**Authors:** B. Saar de Almeida, R. Stevenson, M. Sadiki, L. Lagacé, D. Widory

PMC · DOI: 10.1002/rcm.10066 · Rapid Communications in Mass Spectrometry · 2025-05-13

## TL;DR

A new method for analyzing strontium isotopes in maple syrup helps determine its geographic origin using soil and tree data from Quebec.

## Contribution

An improved simplified sample preparation technique using dual chromatography for Sr isotope analysis in liquid agri-food samples.

## Key findings

- No isotope fractionation occurs between maple syrup, trees, and soil in Quebec.
- A bioavailable 87Sr/86Sr map was created for southern Quebec using agri-food data.

## Abstract

We describe a new simplified sample preparation technique, based on dual chromatography for the analysis of 87Sr/86Sr in liquid agri‐food samples. We applied this approach for authenticating the origin of maple syrup products in Quebec, characterizing the 87Sr/86Sr of soil profiles from geologically distinct maple groves, including maple tree components and maple syrup products.

In our simplified technique, 3 mL of the organic liquids was poured into a 15‐mL centrifuge tube, diluted with 10 mL of Mill‐Q H2O, and manually shaken to produce a thin juice. The thin juice was subsequently loaded in two 7.5 mL aliquots onto 10‐mL Bio‐RadTM chromatography columns containing 4 mL of cleaned AG50‐X8 resin (100–200 mesh in a 1‐N HCl solution). Once the sample was absorbed by the resin, the organic fraction of the thin juice was eluted by adding 3 × 5 mL of 1‐N HCl. The Sr and other cations were subsequently recovered by adding 2 × 5 mL of 6‐N HCl.

The maple groves and the 87Sr/86Sr ratios for maple syrup from 39 different producing areas in Quebec indicated that no isotope fractionation occurs between the syrup, the maple trees, and the corresponding labile fraction of the soil they grew upon. This suggests that 87Sr/86Sr provides a reliable isotope fingerprint for the provenance of maple syrups. Gathering available agri‐food 87Sr/86Sr data across the Quebec province, we constructed the first bioavailable 87Sr/86Sr map based on actual agri‐food data.

This study reported an improved method for Sr separation for 87Sr/86Sr studies in liquids by combining two different cation‐exchange chromatography steps. Data were used to develop a bioavailable 87Sr/86Sr map that can be used to predict the geographical origin of agrifood products from southern Quebec.

## Full-text entities

- **Diseases:** Maple Syrups (MESH:D008375)
- **Chemicals:** HCl (MESH:D006851), Sr (MESH:D013324), 1-N HCl (-), H2O (MESH:D014867)

## Full text

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## Figures

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## References

49 references — full list in the complete paper: https://tomesphere.com/paper/PMC12075995/full.md

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Source: https://tomesphere.com/paper/PMC12075995