Heart rate sensor validation and seasonal and diurnal variation of body temperature and heart rate in domestic sheep
Advantages of low input livestock production on large pastures, including animal welfare, biodiversity and low production costs are challenged by losses due to undetected disease, accidents and predation. Precision livestock farming (PLF) enables remote monitoring on individual level with potential...
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Elsevier
2019-12-01
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| Series: | Veterinary and Animal Science |
| Online Access: | http://www.sciencedirect.com/science/article/pii/S2451943X19301267 |
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doaj-dbf7b5a1568142318397fc3c47dbe6302020-11-24T21:45:02ZengElsevierVeterinary and Animal Science2451-943X2019-12-018Heart rate sensor validation and seasonal and diurnal variation of body temperature and heart rate in domestic sheepBoris Fuchs0Kristin Marie Sørheim1Matteo Chincarini2Emma Brunberg3Solveig Marie Stubsjøen4Kjell Bratbergsengen5Svein Olav Hvasshovd6Barbara Zimmermann7Unni Støbet Lande8Lise Grøva9Inland Norway University of Applied Sciences, Faculty of Applied Ecology, Agricultural Sciences and Biotechnology, NO-2418 Elverum, Norway; Corresponding author: Tel: +47 41514930Norwegian Centre for Organic Agriculture (NORSØK), Gunnars veg 6, N-6630 Tingvoll, NorwayUniversity of Teramo, Faculty of Veterinary Medicine, S.P 18, Loc. Piano d'Accio, 64100 Teramo, ItalyNorwegian Centre for Organic Agriculture (NORSØK), Gunnars veg 6, N-6630 Tingvoll, NorwayNorwegian Veterinary Institute, Department of Animal Health and Food Safety, P.O. Box 750 Sentrum, N-0106 Oslo, NorwayNorwegian University of Science and Technology (NTNU), Department of Computer Science NO-7491 Trondheim, NorwayNorwegian University of Science and Technology (NTNU), Department of Computer Science NO-7491 Trondheim, NorwayInland Norway University of Applied Sciences, Faculty of Applied Ecology, Agricultural Sciences and Biotechnology, NO-2418 Elverum, NorwayNorwegian Institute of Bioeconomy Research (NIBIO), Division of Forestry and Forest Resources, Gunnars veg 6, NO-6630 Tingvoll, NorwayNorwegian Institute of Bioeconomy Research (NIBIO), Division of Forestry and Forest Resources, Gunnars veg 6, NO-6630 Tingvoll, NorwayAdvantages of low input livestock production on large pastures, including animal welfare, biodiversity and low production costs are challenged by losses due to undetected disease, accidents and predation. Precision livestock farming (PLF) enables remote monitoring on individual level with potential for predictive warning. Body temperature (Tb) and heart rate (HR) could be used for early detection of diseases, stress or death. We tested physiological sensors in free-grazing Norwegian white sheep in Norway. Forty Tb sensors and thirty HR sensors were surgically implanted in 40 lambs and 10 ewes. Eight (27%) of the HR and eight (20%) of the Tb sensors were lost during the study period. Two Tb sensors migrated from the abdominal cavity in to the digestive system. ECG based validation of the HR sensors revealed a measurement error of 0.2 bpm (SD 5.2 bpm) and correct measurement quality was assigned in 90% of the measurements. Maximum and minimum HR confirmed by ECG was 197 bpm and 68 bpm respectively. Mean passive HR was 90 bpm (SD = 13 bpm) for ewes and 112 bpm (SD = 13 bpm) for lambs. Mean Tb for all animals was 39.6°C (range 36.9 to 41.8°C). Tb displayed 24-hour circadian rhythms during 80.7 % but HR only during 41.0 % of the studied period. We established baseline values and conclude that these sensors deliver good quality. For a wide agricultural use, the sensor implantation method has to be further developed and real-time communication technology added. Keywords: Heart rate, Sheep, Sensor, Bio logging, Body temperaturehttp://www.sciencedirect.com/science/article/pii/S2451943X19301267 |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Boris Fuchs Kristin Marie Sørheim Matteo Chincarini Emma Brunberg Solveig Marie Stubsjøen Kjell Bratbergsengen Svein Olav Hvasshovd Barbara Zimmermann Unni Støbet Lande Lise Grøva |
| spellingShingle |
Boris Fuchs Kristin Marie Sørheim Matteo Chincarini Emma Brunberg Solveig Marie Stubsjøen Kjell Bratbergsengen Svein Olav Hvasshovd Barbara Zimmermann Unni Støbet Lande Lise Grøva Heart rate sensor validation and seasonal and diurnal variation of body temperature and heart rate in domestic sheep Veterinary and Animal Science |
| author_facet |
Boris Fuchs Kristin Marie Sørheim Matteo Chincarini Emma Brunberg Solveig Marie Stubsjøen Kjell Bratbergsengen Svein Olav Hvasshovd Barbara Zimmermann Unni Støbet Lande Lise Grøva |
| author_sort |
Boris Fuchs |
| title |
Heart rate sensor validation and seasonal and diurnal variation of body temperature and heart rate in domestic sheep |
| title_short |
Heart rate sensor validation and seasonal and diurnal variation of body temperature and heart rate in domestic sheep |
| title_full |
Heart rate sensor validation and seasonal and diurnal variation of body temperature and heart rate in domestic sheep |
| title_fullStr |
Heart rate sensor validation and seasonal and diurnal variation of body temperature and heart rate in domestic sheep |
| title_full_unstemmed |
Heart rate sensor validation and seasonal and diurnal variation of body temperature and heart rate in domestic sheep |
| title_sort |
heart rate sensor validation and seasonal and diurnal variation of body temperature and heart rate in domestic sheep |
| publisher |
Elsevier |
| series |
Veterinary and Animal Science |
| issn |
2451-943X |
| publishDate |
2019-12-01 |
| description |
Advantages of low input livestock production on large pastures, including animal welfare, biodiversity and low production costs are challenged by losses due to undetected disease, accidents and predation. Precision livestock farming (PLF) enables remote monitoring on individual level with potential for predictive warning. Body temperature (Tb) and heart rate (HR) could be used for early detection of diseases, stress or death. We tested physiological sensors in free-grazing Norwegian white sheep in Norway. Forty Tb sensors and thirty HR sensors were surgically implanted in 40 lambs and 10 ewes. Eight (27%) of the HR and eight (20%) of the Tb sensors were lost during the study period. Two Tb sensors migrated from the abdominal cavity in to the digestive system. ECG based validation of the HR sensors revealed a measurement error of 0.2 bpm (SD 5.2 bpm) and correct measurement quality was assigned in 90% of the measurements. Maximum and minimum HR confirmed by ECG was 197 bpm and 68 bpm respectively. Mean passive HR was 90 bpm (SD = 13 bpm) for ewes and 112 bpm (SD = 13 bpm) for lambs. Mean Tb for all animals was 39.6°C (range 36.9 to 41.8°C). Tb displayed 24-hour circadian rhythms during 80.7 % but HR only during 41.0 % of the studied period. We established baseline values and conclude that these sensors deliver good quality. For a wide agricultural use, the sensor implantation method has to be further developed and real-time communication technology added. Keywords: Heart rate, Sheep, Sensor, Bio logging, Body temperature |
| url |
http://www.sciencedirect.com/science/article/pii/S2451943X19301267 |
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