Monitoring estrous activity in pasture-based dairy cows

Correctly identifying cows in estrus and inseminating them at the optimal time are critical components of reproductive management. Technologies for detecting cows in estrus have developed from tail paint in the 1970’s to automated activity monitors and mount detectors in recent decades. The objectiv...

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Bibliographic Details
Published in:Theriogenology 2021-01, Vol.160, p.90-94
Main Authors: Moore, S.G., Aublet, V., Butler, S.T.
Format: Article
Language:English
Subjects:
Activity monitor
Estrous behaviour
Fertility
Pregnancy rate
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Summary:Correctly identifying cows in estrus and inseminating them at the optimal time are critical components of reproductive management. Technologies for detecting cows in estrus have developed from tail paint in the 1970’s to automated activity monitors and mount detectors in recent decades. The objectives of this study were to identify animal characteristics associated with estrous behaviour, measured using a mount detector (FlashMate; Farmshed Labs) and an accelerometer-based activity monitor (Moomonitor, Dairymaster), to examine the relationship between estrous behaviour measured by both devices, and to examine the characteristics associated with pregnancy per AI. Four hundred and sixty eight lactating dairy cows managed on three research farms were enrolled and data were available from 465 cows and 369 cows with Moomonitor and FlashMate data, respectively. Of 234 cows that provided both Moomonitor and FlashMate data, the mean (±SEM) onset of device activation occurred 1.1 (±0.4) h earlier with the Moomonitor compared with the FlashMate. The mean (±SD) duration of Moomonitor activity and FlashMate activity was 17.2 ± 6.1 h and 8.7 ± 5.8 h, respectively. The duration of Moomonitor activity and FlashMate activity was negatively associated with total milk yield during the first five weeks of lactation. The duration of FlashMate activity, but not the duration of Moomonitor activity was positively associated with days in milk. Pregnancy per AI was positively associated with BCS, days in milk, the duration of FlashMate activity and the interval from the onset of Moomonitor and FlashMate activity to AI. Inseminating cows ≤2 h after FlashMate activation or ≤4 h after Moomonitor activation was associated with reduced odds of pregnancy compared with later timing of AI. Overall, 55% of cows received mounts for ≤8 h, highlighting the need for ≥3 periods of estrous observation daily or the use of estrous detection aids that continuously monitor cows. Finally, the study reiterated the importance of maximising body condition score and days in milk at breeding to increase behavioural expression of estrus and pregnancy per AI. •Correlations between FlashMate and Moomonitor activity during estrus were weak.•Fifty-five percent of cows received contacts related to mounting activity for ≤8 h.•Pregnancy rate reduced when cows were inseminated within 2–4 h of activity onset.•Maximising body condition score and days in milk at AI increased pregnancy rates.
ISSN:0093-691X
1879-3231
DOI:10.1016/j.theriogenology.2020.11.002