Abstract
The spectral parameters of heart rate variability are a measure of activation of the sympathetic and parasympathetic branches of the mammalian autonomic nervous system. In this study, spectral analysis was used for the first time to evaluate the impact of acoustic noise (one of the major anthropogenic factors) on a cetacean. We analyzed cardiac intervals in a captive beluga (a member of the Odontoceti whales) in response to a 10-min band-pass acoustic noise at an intensity of 150–165 dB and frequency of 19–38 kHz. The beluga’s response to acoustic noise, when examined shortly after the animal’s capture, was characterized by a sharp tachycardia (the first phase) followed by a decrease in the heart rate (the second phase). Based on spectral analysis, the frequency range of heart rate oscillations in the beluga decreased during the period of tachycardia while shifting to a lower frequency range (below 0.01 Hz) as compared with the control conditions. Accordingly, the spectral power of low-frequency components was reduced. During the second phase, the range of heart rate variability oscillations expanded and fully recovered only after the noise had been turned off. After one year in captivity, no significant changes in the heart rate parameters (both in time and frequency domain) were recorded in response to a similar noise exposure. Therefore, the changes in the heart rate spectral components in the studied beluga exposed to acoustic noise were comparable to those recorded in terrestrial mammals and in humans in stressful and emotionally negative situations. The spectral characteristics of heart rate oscillations can be used as a quantitative measure of beluga whales’ response to acoustic noise as a stress factor.
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Original Russian Text © A.V. Bakhchina, L.M. Mukhametov, V.V. Rozhnov, O.I. Lyamin, 2017, published in Zhurnal Evolyutsionnoi Biokhimii i Fiziologii, 2017, Vol. 53, No. 1, pp. 55—58.
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Bakhchina, A.V., Mukhametov, L.M., Rozhnov, V.V. et al. Spectral analysis of heart rate variability in the beluga (Delphinapterus leucas) during exposure to acoustic noise. J Evol Biochem Phys 53, 60–65 (2017). https://doi.org/10.1134/S0022093017010070
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DOI: https://doi.org/10.1134/S0022093017010070