Assessment of multiple stable isotopes for tracking regional and organic authenticity of plant products in Hesse, Germany

As demand for regional and organically produced foodstuff has increased in Europe, the need has arisen to verify the products' origin and production method. For food authenticity tracking (production method and origin), we examined 286 samples of wheat (Triticum aestivum), potatoes (Solanum tuberosum), and apples (Malus domestica) from different regions in Germany for their stable isotope compositions of oxygen, hydrogen, carbon, nitrogen and sulphur. Single-variate authentication methods were used. Suitable isotope tracers to determine wheat's regional origin were delta O-18 and delta S-34. delta C-13 helped to distinguish between organic and conventional wheat samples. For the separation of the production regions of potatoes, several isotope tracers were suitable (e.g. delta O-18, delta H-2, delta N-15, delta C-13 and delta S-34 isotopes in potato protein), but only protein delta N-15 was suitable to differentiate between organic and conventional potato samples. For the apple samples, H-2 and O-18 isotopes helped to identify production regions, but no significant statistical differences could be found between organically and conventionally farmed apples. For food authenticity tracking, our study showed the need to take the various isotopes into account. There is an urgent need for a broad reference database if isotope measurements are to become a main tool for determining product's origin.

Automated summary

The study examined the stable isotope compositions of wheat, potatoes, and apples from different regions in Germany to verify their origin and production methods for food authenticity tracking. Specific isotope tracers were used to determine the regional origin of wheat and potatoes, while no significant differences were found between organically and conventionally farmed apples using isotopic analysis.