Supplementation of urea to a basal pasture diet fed to dairy cows to model N-partitioning relationships

S.J Hendriks,N Lopez-Villalobos,A.J Sheahan,D.J Donaghy,J.R Roche

doi:10.3168/jdsc.2020-0016

S.J Hendriks, N Lopez-Villalobos + Show 3 more

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https://doi.org/10.3168/jdsc.2020-0016

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Abstract

The main objective of this study was to investigate whether altering dietary crude protein (CP) through the supplementation of urea to a basal pasture diet fed to dairy cows accurately modeled N-partitioning relationships. To test this, we first needed to establish safe tolerance levels for urea in this setting. Fifteen multiparous, rumen-fistulated, mid-lactation Holstein-Friesian dairy cows were offered spring pasture (~20 kg of dry matter/cow per day) and allocated to 1 of 3 urea supplementation treatments: low N [0 g/d urea; 21% total dietary CP of dry matter (DM)], medium N (350 g/d urea; 26% total dietary CP of DM), or high N (690 g/d urea; 31% total dietary CP of DM), in a completely randomized design. The amount of urea provided daily increased gradually for all cows over a 21-d period, with target urea supplementation reached by d 21. Milk yield decreased linearly at a rate of 2.35 kg/100 g of urea intake when urea supplementation exceeded 350 g/d for 4 d (~2% of DM intake). Cows from the low- and medium-N treatments subsequently entered metabolism stalls from d 25 to 31 to collect urine, feces, and milk for total N collection. Estimated urinary N output (g/d) increased linearly with N intake (g/d), and the slope of the relationship (slope = 0.86; R2 = 0.82) was consistent with international published results. Because of the consistency of our results with previously documented relationships, our findings indicate that supplementation of urea to a basal pasture diet is a suitable technique for modeling different N intakes from pasture diets to evaluate urinary N mitigation strategies. Urea supplementation, however, should not exceed ~2% of DM intake.

Highlights

The main objective of this study was to investigate whether altering dietary crude protein (CP) through the supplementation of urea to a basal pasture diet fed to dairy cows accurately modeled N-partitioning relationships
Individual DMI could not be directly measured while cows were grazing, back calculations from milk yield data support the premise that DMI was reduced in cows as urea supplementation exceeded 25% of dietary CP concentration. These results indicate that when urea is used to create high-N diets, the urea supplemented should not exceed ~2% DMI or 25% of dietary CP
In response to the safe tolerance levels established in phase 1, urea supplementation in the medium-N treatment was reduced from 350 to 250 g/d, equivalent to 1.25% of DMI, to ensure that animals received a safe dose of urea during phase 2, when the N-balance study was undertaken

Summary

Introduction

Abstract: The main objective of this study was to investigate whether altering dietary crude protein (CP) through the supplementation of urea to a basal pasture diet fed to dairy cows accurately modeled N-partitioning relationships. Our first objective was to establish safe tolerance levels for urea supplementation in dairy cows fed a basal diet of fresh temperate pasture.

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Conclusion