Abstract
Simple SummaryMammary internal structures were associated with milk yield in mature dairy ewes and lamb growth in ewe lambs. This experiment was designed to examine the association between mammary ultrasound measurements and milk yield in ewe lambs and the accuracy of using mammary ultrasound measurements to predict single lamb growth rates to weaning. Mammary internal structures were measured in 45 single-bearing ewe lambs at day 110 of pregnancy, week three (W3), five (W5), and seven (W7) of lactation and at weaning (L69). The ewe lambs were milked once at W3, W5 and W7 and the single lambs were weighed at birth, W3, W5, W7, and L69. The predictions of milk yield were moderate, and the predictions of lamb growth were high to moderate, indicating that mammary ultrasound was more accurate in predicting lamb growth than milk yield. Further investigations are required to identify better indicators of milk yield in ewe lambs.Mammary cistern size was positively correlated with milk yield of mature dairy ewes, but the association in ewe lambs is unknown. This experiment aimed to examine the associations between mammary ultrasound measurements and the milk yield of ewe lambs at one year of age and to determine the accuracy of using maternal mammary ultrasound to predict single lamb growth rates. Single-bearing ewe lambs (n = 45) were randomly selected and 30 were milked once at weeks three (W3), five (W5), and seven (W7) of lactation. Mammary ultrasound scans were performed at day 110 of pregnancy, W3, W5, W7, and weaning (L69). Single lambs (n = 30) were weighed at birth and at each mammary scanning event. Udder measurements explained 26.8%, 21.4%, and 38.4% of the variation in milk yield at W3, W5 and W7, respectively, and 63.5% and 36.4% of the variation in single lamb growth to W3 and to L69. This ultrasound technique was more accurate in predicting single lamb growth to W3 than milk yield and may enable the identification of pregnant ewe lambs whose progeny would have greater growth rates. More research is needed to identify accurate indicators of superior milk yield and determine whether ultrasound could be used to select ewe lambs.
Highlights
Ultrasonography can be used for the examination and diagnosis of sheep mammary diseases [2,3,6,7] and as a technique for animal selection based on mammary structures [8,9,10]
Most studies have investigated the mammary glands of dairy breed ewes, focusing on the relationship between mammary gland cistern (Sinus lactiferous) size and milk production [4,7,8,11], and the impacts of management practices such as milking intervals [9] or the drying-off procedure [1]
Udder height (UH), gland cistern (GC), PAR, fat pad (FP), MTc and MTg did not differ between udder halves (p > 0.10; data not shown)
Summary
Ultrasonography can be used for the examination and diagnosis of sheep mammary diseases [2,3,6,7] and as a technique for animal selection based on mammary structures [8,9,10]. Most studies have investigated the mammary glands of dairy breed ewes, focusing on the relationship between mammary gland cistern (Sinus lactiferous) size and milk production [4,7,8,11], and the impacts of management practices such as milking intervals [9] or the drying-off procedure [1]. A small number of studies have used ultrasonography to examine the mammary glands of dual-purpose meat and wool breeds [10,12,13]
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