Oscillatory thermo-regulatory behavior of fecundity-gene-introgressed sheep in the hot semi-arid region

Oscillatory thermo-regulatory behavior of fecundity-gene-introgressed sheep in the hot semi-arid region

Fecundity gene (FecB) introgression improves the prolificacy of sheep. However, it may adversely affect the adaptability of thermoregulatory behavior when it is introgressed in other than hot-humid regions because it is found in the sheep of the hot-humid region. Therefore, the present study was ini...

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Bibliographic Details
Published in:Journal of veterinary behavior Vol. 33; pp. 75 - 80
Main Authors: De, Kalyan, Saxena, Vijay Kumar, Kumar, Davendra, Mohapatra, Arpita, Balagnur, Krishnappa, Naqvi, Syed Mohammad Khursheed
Format: Journal Article
Language:English
Published: Elsevier Inc 01-09-2019
Subjects:
FecB
hot
physiological response
semi-arid region
sheep
thermoregulation
semi-arid region
hot
physiological response
thermoregulation
sheep
FecB
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Summary:Fecundity gene (FecB) introgression improves the prolificacy of sheep. However, it may adversely affect the adaptability of thermoregulatory behavior when it is introgressed in other than hot-humid regions because it is found in the sheep of the hot-humid region. Therefore, the present study was initiated to assess the oscillatory thermoregulatory behavior of FecB-introgressed sheep in a hot semi-arid region. The thermoregulatory behavior parameters (i.e., respiration rate [RT], heart rate [HR], rectal temperature [RT], and skin temperature [ST]) were recorded at a three-hour interval for continuous 24 hours in well-adapted sheep of the semi-arid region and in FecB-introgressed sheep of the same region during extreme climatic conditions (summer and winter). The cosinor analysis showed a daily circadian rhythm (P < 0.01) in RR, HR, and ST values, as well as similar significant (P < 0.01) differences in thermoregulatory behavior in both the sheep during the summer and winter. The rhythmic change of ambient temperature throughout the day influenced the thermoregulatory physiological behaviors of both well-adapted and FecB-introgressed sheep under semi-arid conditions. The nonsignificant (P > 0.05) difference in mesor, amplitude, and acrophase in RR, PR, RT, and ST among the breeds during summer and winter indicated that the FecB-introgressed sheep also use a similar adaptive strategy to cope with environmental extremes of the hot, semi-arid region like well-adapted sheep.
ISSN:1558-7878
DOI:10.1016/j.jveb.2019.06.005