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Short communication: Effect of feeding pooled and nonpooled high-quality colostrum on passive transfer of immunity, morbidity, and mortality in dairy calves
King, Ailbhe Chigerwe, Munashe Barry, John Murphy, John P. Rayburn, Maire C. Kennedy, Emer
King, Ailbhe
Chigerwe, Munashe
Barry, John
Murphy, John P.
Rayburn, Maire C.
Kennedy, Emer
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2020-02
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King, A., Chigerwe, M., Barry, J., Murphy, J.P., Rayburn, M.C., Kennedy, E. Short communication: Effect of feeding pooled and nonpooled high-quality colostrum on passive transfer of immunity, morbidity, and mortality in dairy calves, Journal of Dairy Science, Volume 103, Issue 2, 2020, https://doi.org/10.3168/jds.2019-17019
Abstract
Pooling colostrum is commonly practiced on Irish
dairy farms. Pooling can result in dilution when colostrums
with high and low IgG concentrations are
mixed, thereby predisposing calves to failure of passive
immunity. The objectives of this study were to compare
IgG concentrations in colostrum from individual cows
with colostrum pooled from several cows, and assess
serum IgG concentrations, morbidity, and mortality
among calves fed colostrum from their own dam, from
a different cow, or pooled from several cows. We hypothesized
that pooling colostrum reduces IgG concentration
due to dilution compared with colostrum from
individual cows, and that calves fed pooled colostrum
achieve lower serum IgG concentrations than calves fed
colostrum from individual cows. Calves were randomly
assigned to 1 of 3 groups: (1) fed colostrum from their
own dam (n = 20); (2) fed colostrum from a different
dam (n = 20); or (3) fed pooled colostrum (n = 18).
A sample of colostrum fed to each calf was collected.
Serum samples were collected from calves at birth (0
h) and at 24 h after colostrum feeding. Colostrum and
serum IgG concentrations were measured by radial
immunodiffusion. Calves were weighed at birth and at
weaning, and the health status of each calf was assessed
twice daily. Health assessment was based on general
demeanor, rectal temperature, fecal consistency, respiratory
rate, and the presence of cough, nasal, or ocular
discharge. Colostrum and serum IgG concentrations,
and weaning weights were compared using ANOVA.
Associations between group and morbidity or mortality
rates were compared using χ2
or Fisher’s exact tests.
Median and 95% confidence intervals (95% CI) of IgG
concentrations of colostrum were 99.4 (81.8–111.5),
95.2 (84.1–107.2), and 100.7 (90.5–104.4) g/L for own
dam, different dam, and pooled groups, respectively.
We did not find any differences in colostrum IgG concentrations
among the colostrum sources. Median
(95% CI) serum IgG concentrations at 24 h were 52.0
(45.6–65.9), 55.7 (51.2–65.9), and 53.1 (46.2–63.7) g/L
for calves that received colostrum from own dam, different
dam, and pooled, respectively. All calves achieved
adequate passive immunity. Serum IgG concentrations
at 24 h, weaning weights, and proportions of morbidity
and mortality were not different among the 3 groups.
Our results suggest that on dairy farms where median
colostrum IgG concentrations are high and colostrum
management is optimal, pooling has a minimal effect
on passive immunity and subsequent calf health.