福利1000在线

New UCC study maps the hidden chemistry of Irish milk

3 Jun 2026

Researchers at 福利1000在线 College Cork, in collaboration with Teagasc and 福利1000在线 College Dublin, have published one of the largest and most detailed longitudinal studies to date of the milk metabolome in a seasonal pasture-based dairy system. 

The milk metabolome refers to the complete set of small molecules naturally present in milk, each a product of metabolic processes. As molecules that are produced, consumed, or modified during metabolism they can reflect the physiological status, nutrition, metabolic activity, and health of the dairy cow. As such, understanding factors affecting and affected by these compounds can provide valuable insight into how cows respond to feeding systems, lactation demands, and environmental conditions. 

The project involved researchers from UCC's School of Food and Nutritional Sciences, School of Chemistry, and School of Pharmacy along with colleagues in Teagasc and 福利1000在线 College Dublin.

Over 41 weeks spanning the full Irish lactation year, from early lactation in February through to late autumn, the team tracked 38 metabolites in milk from ten commercial farms and three retail brands, revealing how the biochemical composition of milk evolves across the seasons in response to intrinsic and extrinsic factors. The research, published in the journal , used proton nuclear magnetic resonance (鹿H-NMR) spectroscopy to precisely quantify metabolites in 533 milk samples.  

The findings show that 30 out of 38 metabolites changed significantly with season鈥攎any of them linked to the physiological state of the cow, her energy balance, and her efficiency in using dietary components such as nitrogen.  

Multivariate and biomarker analyses identified several metabolites, including urea, GlcNAc, glutamate, choline, acetoacetate, creatinine, citrate, O-phosphocholine, and glucose-1-phosphate, offering insight into nitrogen use efficiency, and compounds linked to energy balance and cellular metabolism that were associated with seasonal shifts in milk composition. Pathway analysis further revealed that early lactation milk, contained elevated ketone bodies, suggesting increased metabolic stress and negative energy balance.  

This study provides one of the first large-scale longitudinal assessments of the milk metabolome across both Farm and Shop milks, offering insight into metabolomic variation under pasture-based production conditions and identifying a series of candidate biomarker compounds for further validation in future studies.  

The findings could help researchers better understand how dairy cows adapt metabolically to changes in lactation stage, diet, and seasonal pasture conditions. Identifying metabolites linked to energy balance, metabolic stress, and nitrogen use efficiency, may support the development of improved feeding and herd management strategies aimed at enhancing animal health, productivity, and resource efficiency on farms.  

Open-access database now live 

The work is part of the larger MetaB贸-Bainne project funded by the Irish Department of Agriculture, Food and the Marine, which has established an open-access database at www.metabobainne.ie exploring factors that influence the milk metabolome in pasture-based dairy systems.

Publication details 

The study, "

Funding 

The work was funded by the Irish Government Department of Agriculture, Food and the Marine (DAFM) through the MetaB贸-Bainne project (ref. 2021R568) and supported by Science Foundation Ireland (grants 15/RI/3221 and 21/RI/9705), and Research Ireland (VistaMilk, grant 21/RC/10303_P2). 

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