Abstract

Alfalfa has a lower fiber digestibility and a greater concentration of degradable protein than grasses. Dairy cows could benefit from an increased digestibility of alfalfa fibers, or from a better match between nitrogen and energy supplies in the rumen. Alfalfa cultivars with improved fiber digestibility represent an opportunity to increase milk production, but no independent studies have tested these cultivars under the agroclimatic conditions of Canada. Moreover, decreasing metabolizable protein (MP) supply could increase N use efficiency while decreasing environmental impact, but it is often associated with a decrease in milk protein yield, possibly caused by a reduced supply of essential AA. This study evaluated the performance of dairy cows fed diets based on a regular or a reduced-lignin alfalfa cultivar and measured the effect of energy levels at low MP supply when digestible His (dHis), Lys (dLys), and Met (dMet) requirements were met. Eight Holstein cows were used in a double 4 × 4 Latin square design, each square representing an alfalfa cultivar. Within each square, 4 diets were tested: the control diet was formulated for an adequate supply of MP and energy (AMP_AE), whereas the 3 other diets were formulated to be deficient in MP (DMP; formulated to meet 90% of the MP requirement) with deficient (94% of requirement: DMP_DE), adequate (99% of requirement: DMP_AE), or excess energy supply (104% of requirement; DMP_EE). Alfalfa cultivars had no significant effect on all measured parameters. As compared with cows receiving AMP_AE, the dry matter intake of cows fed DMP_AE and DMP_EE was not significantly different but decreased for cows fed DMP_DE. The AMP_AE diet provided 103% of MP and 108% of NEL requirements whereas DMP_DE, DMP_AE, and DMP_EE diets provided 84, 87, and 87% of MP and 94, 101, and 107% of NEL requirements, respectively. In contrast to design, feeding DMP_EE resulted in a similar energy supply compared with AMP_AE, although MP supply has been effectively reduced. This resulted in a maintained milk and milk component yields and improved the efficiency of utilization of N, MP, and essential AA. The DMP diets decreased total N excretion, whereas DMP_AE and DMP_EE diets also decreased milk urea-N concentration. Reducing MP supply without negative effects on dairy cow performance is possible when energy, dHis, dLys, and dMet requirements are met. This could reduce N excretion and decrease the environmental impact of milk production.

Highlights

  • Alfalfa (Medicago sativa L.) is the most widely grown forage legume in Canada (Statistics Canada, 2021)

  • Chemical composition of alfalfa haylages was not affected by cultivars as illustrated by similar values for aNDF, ADF, ADL, in vitro true digestibility (IVTD), in vitro 48-h NDF digestibility (NDFd), and uNDF240 (Table 1)

  • Our observations suggest that milk protein yield (MPY) does not rely solely on metabolizable protein (MP) supply: we did not observe that a decrease in MP supply reduced MPY, as long as the supplies of energy and of His, Lys, and Met did not decrease substantially below requirements

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Summary

Introduction

Alfalfa (Medicago sativa L.) is the most widely grown forage legume in Canada (Statistics Canada, 2021). Legumes have a lower fiber concentration than grasses, but their fibers are generally less digestible (Hoffman et al, 1998). Based on intake potential and energy availability, increasing digestibility of legume cell walls would be beneficial for ruminants (Jung and Allen, 1995). Alfalfa has a high CP concentration, but a large portion of this CP is either NPN or true protein highly degradable in the rumen (NRC, 2001). Utilization of these highly degradable CP by rumen microorganisms could be enhanced by a greater availability of energy substrates in the rumen. Increasing the digestibility of legume cell walls would

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