Multi-omics insights into triticale silage as a sustainable alternative to corn silage in heifer diets
Yujie Niu, Chuying Wang, Yu Kuang, Xiaoxue Ma, Shanshan Nan, Peng Zhang, Qicheng Lu, Yayin Qi, Cunxi Nie, Yanyan Wu, Wenju Zhang

TL;DR
Replacing corn silage with triticale silage in heifer diets can improve economic efficiency and promote better rumen health without harming growth.
Contribution
This study provides empirical evidence that partial triticale silage substitution enhances rumen function and feed efficiency in heifers.
Findings
A 25% triticale silage substitution improved rumen fermentation and nitrogen utilization while maintaining growth performance.
Triticale inclusion increased PUFA levels and activated beneficial metabolic pathways in the rumen.
Higher triticale substitution (≥50%) reduced dry matter intake and average daily gain, indicating an optimal partial replacement level.
Abstract
Intensive ruminant production systems rely heavily on corn silage (CS) as a primary forage source; however, its resource-intensive cultivation and environmental constraints necessitate the development of sustainable alternatives. In a 90-day feeding trial, 24 growing heifers were assigned to diets in which CS was replaced by triticale silage (TS) at 0, 25, 50%, or 100% (DM basis). Growth performance, rumen fermentation, ruminal fatty acid (FA) profiles, and integrated rumen microbiome-metabolome interactions were evaluated. A 25% substitution (TS25) as the optimal level, maintaining growth performance comparable to the control while achieving the lowest feed cost of gain. TS25 improved rumen fermentation (lower A: P and high total VFA), promoted more efficient nitrogen utilization (higher MCP with lower ammonia N), and enriched functionally relevant bacteria associated with fiber…
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Taxonomy
TopicsRuminant Nutrition and Digestive Physiology · Soil Carbon and Nitrogen Dynamics · Reproductive Physiology in Livestock
