Milk Urea Content and δ13C as Potential Tool for Differentiation of Milk from Organic and Conventional Low- and High-Input Farming Systems

Authors

  • Yaroslava Zhukova Institute of Food Resources of The National Academy of Agrarian Sciences of Ukraine
  • Pylyp Petrov Institute of Food Resources of The National Academy of Agrarian Sciences of Ukraine
  • Yuriy Demikhov Institute of Environmental Geochemistry of The National Academy of Sciences of Ukraine
  • Alex Mason Liverpool John Moores University
  • Olga Korostynska Liverpool John Moores University

DOI:

https://doi.org/10.24925/turjaf.v5i9.1044-1050.1286

Keywords:

carbon stable isotope ratio, farming type, milk urea, organic milk

Abstract

The influence of farming type (conventional or organic) and production system (low-and high-input) on various quality characteristics of milk have been in the focus of studies over the last decade. The aim of this work was to evaluate the impact of different dairy management and production systems on carbon stable isotopes ratio (δ13C) and milk urea content. The samples of raw milk were collected each two weeks at certified organic high-input and low-input farms, conventional high-input and low-input farms in late indoor period and outdoor period. Data analysis showed clear difference between milk from organic high- and low-input farms with non-overlapping range between -22.90 ‰ and -24.70‰ for δ13С in protein fraction (equal 1.80‰) and between -25.90‰ and -28.20‰ (equal 2.30‰) for δ13С in fat fraction independently from season factor, as for Δδ13С (protein-fat) values in milk from high-input (1.50-3.00‰) and low-input (3.20-6.30‰) organic farms. Analysis of correlation between δ13С in protein fraction and milk urea content values showed that during late indoor period the most significant difference was detected between milk from organic low-input and conventional high-input farms (5.85‰ for δ13С in protein fraction and 4.65 mg/100 g of milk urea content). During outdoor period, the non-overlapping range was established for low-input and high-input organic farms (3.40‰ for δ13С in protein fraction and 10.77 mg/100 g of milk urea content). Results of δ13С values in fat and protein milk fractions, as combination of δ13С in protein fraction and milk urea content could be a potential tool for the distinguish of milk from different farming types, based on different feed composition.

Author Biographies

Yaroslava Zhukova, Institute of Food Resources of The National Academy of Agrarian Sciences of Ukraine

Department of Analitycal Research and Quality of Foodstuffs, The Head of Department

Pylyp Petrov, Institute of Food Resources of The National Academy of Agrarian Sciences of Ukraine

Department of Analitycal Research and Quality of Foodstuffs, Senoir Specialist

Yuriy Demikhov, Institute of Environmental Geochemistry of The National Academy of Sciences of Ukraine

Isotope Geochemistry Lab, The Head of Lab

Alex Mason, Liverpool John Moores University

School of Built Environment, Faculty of Technology and Environment, BEST Research Institute, Reader in Smart Technologies

Olga Korostynska, Liverpool John Moores University

School of Civil Engineering, Faculty of Technology and Environment, Senior Lecturer in Advanced Sensor Technologies

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Published

12.09.2017

How to Cite

Zhukova, Y., Petrov, P., Demikhov, Y., Mason, A., & Korostynska, O. (2017). Milk Urea Content and δ13C as Potential Tool for Differentiation of Milk from Organic and Conventional Low- and High-Input Farming Systems. Turkish Journal of Agriculture - Food Science and Technology, 5(9), 1044–1050. https://doi.org/10.24925/turjaf.v5i9.1044-1050.1286

Issue

Vol. 5 No. 9 (2017)

Section

Animal Production

License

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.