# Dietary Supplementation of Concentrate Improves Lactation Performance and Immune Function in Grazing Lactating Yaks Through Changes in Rumen Microbial Population and Metabolites

**Authors:** Lu Sun, Xun Wang, Hao Wang, Zhanhong Cui, Shatuo Chai, Shujie Liu, Shiheng Tao

PMC · DOI: 10.3390/microorganisms14020278 · Microorganisms · 2026-01-24

## TL;DR

Adding protein-rich feed to grazing yaks improves milk production and immune health by changing gut microbes and metabolites.

## Contribution

The study shows that moderate protein supplementation enhances lactation in yaks through rumen microbial and metabolic changes.

## Key findings

- Concentrate supplementation increased milk yield, protein, and lactose in lactating yaks.
- Rumen microbial structure shifted with supplementation, enriching specific beneficial bacteria.
- Metabolomic changes indicated enhanced vitamin B6 metabolism in supplemented yaks.

## Abstract

Grazing yaks often face protein deficiency due to low-quality pasture, which limits milk production. This study aimed to investigate the effects of varying protein levels in concentrate supplementation on lactational performance, immune function, and rumen microbial and metabolites in grazing lactating yaks. Thirty-six lactating Qinghai Plateau yaks (172.78 ± 11.70 kg) were assigned to four treatments for 70 d (10 d adaptation + 60 d trial): grazing only (CON) or grazing plus 1.50 kg/d concentrate containing 15.09% (CP15), 17.00% (CP17), or 18.98% CP (CP19). Concentrate supplementation significantly increased average daily gain (ADG; 0.22 vs. 0.72–0.90 kg/d; p < 0.001) and milk yield (622.18 vs. 1094.25–1385.73 g/d; p < 0.001), and milk yield showed a linear increase with higher dietary protein levels (p < 0.001). Milk protein yield (29.99 vs. 56.00–68.60 g/d; p < 0.001) and milk lactose yield (40.71 vs. 79.85–93.53 g/d; p < 0.001) were also increased. Milk composition, including fat, protein, and lactose, also improved across supplementation groups, with the greatest enhancement observed at the CP17 group (p < 0.05). Rumen pH and volatile fatty acids did not differ between treatments, while microbial protein increased with supplementation (10.88 vs. 12.72–15.00 mg/dL; p = 0.041) and showed a linear response to dietary CP level (p = 0.033). Concentrate supplementation significantly altered the rumen microbial structure (ANOSIM, p = 0.036), enriching Succinivibrionaceae_UCG-002, Fibrobacter, Ruminobacter, and Succinimonas and reducing Saccharofermentans in CP17 yaks (p < 0.05). Untargeted metabolomics further indicated a marked shift in the ruminal metabolite profile. Compared with CON, CP17 yaks exhibited higher levels of calcium propionate, 2-nitrofuran, curvulalide, and 2,5-dihydroxybenzoic acid, but lower levels of 4-pyridoxic acid, L-carnitine, bitocholic acid, and taurodehydrocholic acid. Pathway enrichment analysis identified vitamin B6 metabolism as significantly enriched. Collectively, these findings suggest that moderate protein concentrate supplementation (CP17) may enhance lactation performance by modulating rumen microbiota and metabolism in lactating yaks.

## Linked entities

- **Chemicals:** calcium propionate (PubChem CID 19999), 2-nitrofuran (PubChem CID 11865), curvulalide (PubChem CID 139588086), 2,5-dihydroxybenzoic acid (PubChem CID 3469), 4-pyridoxic acid (PubChem CID 6723), L-carnitine (PubChem CID 288), bitocholic acid (PubChem CID 5283892), taurodehydrocholic acid (PubChem CID 121933)

## Full-text entities

- **Diseases:** ruminal acidosis (MESH:D000079562), hypoxia (MESH:D000860), injury to (MESH:D014947), inflammation (MESH:D007249), vitamin or mineral deficiency (MESH:C537337), nutrition deficiencies (MESH:D044342), protein deficiency (MESH:D011488), infection (MESH:D007239), weight loss (MESH:D015431)
- **Chemicals:** metaphosphoric acid (MESH:C043639), phenol (MESH:D019800), water (MESH:D014867), vitamin A (MESH:D014801), taurocholic acid (MESH:D013656), peptides (MESH:D010455), calcium propionate (MESH:C514136), Fe (MESH:D007501), phenolic acids (MESH:C017616), ferulic acid (MESH:C004999), glucosinolates (MESH:D005961), Cu (MESH:D003300), valerate (MESH:D014631), sinapic acid (MESH:C073734), methanol (MESH:D000432), fat (MESH:D005223), methionine (MESH:D008715), succinate (MESH:D019802), ammonia (MESH:D000641), Zn (MESH:D015032), 4-pyridoxic acid (MESH:D011735), sugars (MESH:D000073893), formic acid (MESH:C030544), nitrate (MESH:D009566), acetophenone (MESH:C038699), EDTA (MESH:D004492), nitrogen (MESH:D009584), vitamin E (MESH:D014810), lactose (MESH:D007785), polysaccharides (MESH:D011134), ammonium (MESH:D064751), carbon (MESH:D002244), sinapine (MESH:C005685), acetonitrile (MESH:C032159), hypochlorite (MESH:D006997), I (MESH:D007455), nitrous oxide (MESH:D009609), purine (MESH:C030985), agarose (MESH:D012685), isobutyrate (MESH:D058610), lipid (MESH:D008055), cellulose (MESH:D002482), PLP (MESH:D011732), Vitamin B6 (MESH:D025101), acetate (MESH:D000085), VFA (MESH:D005232), folate (MESH:D005492), Mn (MESH:D008345), glucose (MESH:D005947), ether (MESH:D004986), bile acid (MESH:D001647), hippuric acid (MESH:C030514), Co. (-), L-carnitine (MESH:D002331), 2,5-dihydroxybenzoic acid (MESH:C010925), urea (MESH:D014508), isoflavones (MESH:D007529), amino acid (MESH:D000596), vitamin D3 (MESH:D002762), butyrate (MESH:D002087)
- **Species:** Campeiostachys nutans (species) [taxon 400237], Ruminobacter amylophilus (species) [taxon 867], Ovis aries (domestic sheep, species) [taxon 9940], Pseudomonadota (proteobacteria, phylum) [taxon 1224], Enterobacterales (order) [taxon 91347], Ruminococcus (genus) [taxon 1263], Succinimonas (genus) [taxon 83768], Saccharofermentans (genus) [taxon 1200657], Carex alatauensis (species) [taxon 544729], Carex moorcroftii (species) [taxon 1074009], Fibrobacter (genus) [taxon 832], Prevotella (genus) [taxon 838], Acinetobacter (genus) [taxon 469], Bacillota (clostridial firmicutes, phylum) [taxon 1239], Bos grunniens (domestic yak, species) [taxon 30521], Bos taurus (bovine, species) [taxon 9913], Succiniclasticum (genus) [taxon 40840], Ruminobacter (genus) [taxon 866], Fibrobacterota (phylum) [taxon 65842], Rikenellaceae (family) [taxon 171550], Prevotellaceae (family) [taxon 171552], Homo sapiens (human, species) [taxon 9606]

## Full text

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## Figures

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## References

71 references — full list in the complete paper: https://tomesphere.com/paper/PMC12943183/full.md

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Source: https://tomesphere.com/paper/PMC12943183