Abstract
Simple SummaryThis research was carried out to investigate changing stress levels in dairy cows when changing from convention milking to an automatic milking system (AMS). Elevated stress levels can cause problems with immunity and reproduction. Stress in cows can be measured using cortisol levels found in saliva and hair (among others). AMS require fewer herds people and are associated with a higher milking frequency and higher milk yields. In this study, we present short-term and long-term cortisol levels in 10 and 12 cows respectively, over a period of 3–12 months. Hair and saliva samples were obtained with minimal restraint to the cow and analysed in the laboratory. Mixed models were applied to determine the effect of various parameters on cortisol levels. These show that non-lame cows had a reduction in salivary levels after AMS installation. Lameness and pregnancy affected salivary but not hair cortisol. Hair cortisol levels increased after installation, but this effect may have been seasonal. Milk yield increased and udder health improved across the whole herd but there was no change in the poor foot health. Our results show that AMS improves production and is not associated with an increase in cow stress. We recommend that welfare, natural behaviour and foot health are considered when introducing automatic milking systems.Automatic milking systems (AMS) are a low-labour alternative to conventional parlours, with previous studies demonstrating that cows vary in their ability to cope with the change to AMS. Cortisol expression can be combined with other measures to assess stress: saliva and hair have the advantage of requiring minimally invasive sampling. No work has investigated the long-term impact of introduction of AMS. The aims of the study were to assess short-term and chronic stress associated with a change in milking system by measuring salivary and hair cortisol levels and to assess the impact on health and production parameters. Cows from one farm changing their milking system were recruited to the study and sampled for saliva (n = 10) and hair (n = 12) before and after installation. Cortisol levels were measured using a salivary cortisol enzyme immunoassay kit. Body condition, lameness and milk parameters of the whole herd were regularly assessed. Salivary cortisol showed no diurnal pattern but was affected by lameness and gestation. Non-lame cows showed a reduction in salivary cortisol after AMS introduction (p < 0.001). Hair cortisol levels increased after AMS, but it was unclear if this change was seasonal. Milk yield increased by 13% and somatic cell count reduced by 28%. Body condition score was consistently good, but lameness remained high throughout the study. Production values alone do not represent high welfare. The high lameness and associated cortisol levels suggest that cow stress requires consideration when changing milking systems.
Highlights
Cortisol (CORT) is the measurable end point of the hypothalamic-pituitary-adrenal (HPA) axis in all species and can be analysed in blood, saliva [1], milk [2], hair [3] and faeces [4]
The aims of the current study were, to determine diurnal changes in salivary cortisol levels in dairy cows, to assess short-term and chronic stress associated with a change in milking system by measuring salivary and hair CORT levels and to assess changes in health and production parameters associated with a change in milking system
1) showed showed aa high high level level of of Mobility moderate and severe lameness compared to current levels of around of the national herd moderate and severe lameness compared to current UK levels of around 28% of the national herd
Summary
Cortisol (CORT) is the measurable end point of the hypothalamic-pituitary-adrenal (HPA) axis in all species and can be analysed in blood, saliva [1], milk [2], hair [3] and faeces [4]. The HPA axis is activated by stressful conditions, such as environment or management [5], and regulates reproduction and immune responses. High cortisol can have a detrimental effect on both the immune system and reproductive function [4]. Blood and salivary cortisol concentrations reflect short term HPA activity—typically minutes to hours—and can be affected by natural circadian rhythm or handling [6]. Hair cortisol measurements can be used as a method for monitoring exposure to situations such as long-term chronic stress [7]
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