Научная статья на тему 'Dehydration stress associated variations in rectal temperature, pulse and respiration rate of Marwari sheep'

Dehydration stress associated variations in rectal temperature, pulse and respiration rate of Marwari sheep Текст научной статьи по специальности «Биологические науки»

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Ключевые слова
MARWARI SHEEP / PULSE / RECTAL TEMPERATURE / RESPIRATION / THIRST

Аннотация научной статьи по биологическим наукам, автор научной работы — Saini B. S., Kataria N., Kataria A. K., Sankhala L. N.

The present investigation was carried out in adult female Marwari sheep to evaluate the dehydration stress associated variations in rectal temperature, pulse and respiration rate. The whole experiment was divided into control, thirst and drinking periods. The thirst period was of 5 days to find out the dehydration stress. The control mean values of rectal temperature ( oF), pulse rate (min -1) and respiration rate (min -1) were 101.1 ± 0.198, 65.667 ± 2.028 and 25.167 ± 1.515 in the morning and 101.567 ± 0.174, 71.333 ± 1.229 and 27.833 ± 1.83 in the evening, respectively. With the advancement of thirst period the mean values of rectal temperature and pulse rate gradually increased while that of respiration rate increased first and then decreased. After drinking the mean values gradually decreased and on hour 72 of drinking, they differed non significantly (P>0.05) from their respective control values. Changes in rectal temperature, pulse rate and respiration rate indicated the adaptability of the animals to increased thirst periods. Dehydration due to thirst period provoked physiological mechanisms in the body in a manner that helped the animals to survive. Although dehydration was a stress to the animals, but the changes brought about by five days of dehydration were reversible.

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Текст научной работы на тему «Dehydration stress associated variations in rectal temperature, pulse and respiration rate of Marwari sheep»

Journal of Stress Physiology & Biochemistry, Vol. 9 No. 2 2013, pp. 15-20 ISSN 1997-0838 Original Text Copyright © 2013 by Saini, Kataria, Kataria and Sankhala

ORIGINAL ARTICLE

Dehydration stress associated variations in rectal temperature, pulse and respiration rate of Marwari sheep

B.S. Saini1, N. Kataria*1, A.K. Kataria2 and L.N. Sankhala3

1 Department of Veterinary Physiology, College of Veterinary and Animal Science, Rajasthan University of Veterinary and Animal Sciences, Bikaner - 334 001, Rajasthan, India

2 Apex Centre for Animal Disease Investigation, Monitoring and Surveillance, College of Veterinary and Animal Science, Rajasthan University of Veterinary and Animal Sciences, Bikaner - 334 001, Rajasthan, India

3 Department of Veterinary Pharmacology and Toxicology, College of Veterinary and Animal Science, Rajasthan University of Veterinary and Animal Sciences, Bikaner - 334 001, Rajasthan, India

Phone 0091 - 151- 2546399

*E-Mail: [email protected]

Received September 17, 2012

The present investigation was carried out in adult female Marwari sheep to evaluate the dehydration stress associated variations in rectal temperature, pulse and respiration rate. The whole experiment was divided into control, thirst and drinking periods. The thirst period was of 5 days to find out the dehydration stress. The control mean values of rectal temperature (oF), pulse rate (min-1) and respiration rate (min-1) were 101.1 ± 0.198, 65.667 ± 2.028 and

25.167 ± 1.515 in the morning and 101.567 ± 0.174, 71.333 ± 1.229 and 27.833 ± 1.83 in the evening, respectively. With the advancement of thirst period the mean values of rectal temperature and pulse rate gradually increased while that of respiration rate increased first and then decreased. After drinking the mean values gradually decreased and on hour 72 of drinking, they differed non significantly (P>0.05) from their respective control values. Changes in rectal temperature, pulse rate and respiration rate indicated the adaptability of the animals to increased thirst periods. Dehydration due to thirst period provoked physiological mechanisms in the body in a manner that helped the animals to survive. Although dehydration was a stress to the animals, but the changes brought about by five days of dehydration were reversible.

Key words: Marwari sheep, pulse, rectal temperature, respiration, thirst

ORIGINAL ARTICLE

Dehydration stress associated variations in rectal temperature, pulse and respiration rate of Marwari sheep

B.S.Saini1, N Kataria*1, A.K Kataria2 and L.N.Sankhala3

1 Department of Veterinary Physiology, College of Veterinary and Animal Science, Rajasthan University of Veterinary and Animal Sciences, Bikaner - 334 001, Rajasthan, India

2 Apex Centre for Animal Disease Investigation, Monitoring and Surveillance, College of Veterinary and Animal Science, Rajasthan University of Veterinary and Animal Sciences, Bikaner - 334 001, Rajasthan, India

3 Department of Veterinary Pharmacology and Toxicology, College of Veterinary and Animal Science, Rajasthan University of Veterinary and Animal Sciences, Bikaner - 334 001, Rajasthan, India

Phone 0091 - 151- 2546399 *E-Mail: [email protected]

Received September 17, 2012

The present investigation was carried out in adult female Marwari sheep to evaluate the dehydration stress associated variations in rectal temperature, pulse and respiration rate. The whole experiment was divided into control, thirst and drinking periods. The thirst period was of 5 days to find out the dehydration stress. The control mean values of rectal temperature (oF), pulse rate (min-1) and respiration rate (min-1) were 101.1 ± 0.198, 65.667 ± 2.028 and

25.167 ± 1.515 in the morning and 101.567 ± 0.174, 71.333 ± 1.229 and 27.833 ± 1.83 in the evening, respectively. With the advancement of thirst period the mean values of rectal temperature and pulse rate gradually increased while that of respiration rate increased first and then decreased. After drinking the mean values gradually decreased and on hour 72 of drinking, they differed non significantly (P>0.05) from their respective control values. Changes in rectal temperature, pulse rate and respiration rate indicated the adaptability of the animals to increased thirst periods. Dehydration due to thirst period provoked physiological mechanisms in the body in a manner that helped the animals to survive. Although dehydration was a stress to the animals, but the changes brought about by five days of dehydration were reversible.

Key words: Marwari sheep, pulse, rectal temperature, respiration, thirst

Adaptability to water deficiency in animals can be assessed by the rate of fluid turnover with a pattern of compartmental water movement during dehydration, which is a major problem in arid tracts

arising due to intermittent watering, particularly in drought periods. Dehydration is considered as a potent cause of stress to the sheep (Kataria and Kataria, 2007). Stress free management of sheep

essentially include assessment of water balance and related aspects.

Estimation of water requirements of sheep must be coupled with physiological responses to understand the underlying physiological mechanisms for water balance in the body. An understanding of water turnover in relation to thermoregulation in sheep requires the evaluation of variation in rectal temperature, pulse and respiration rate. Marwari is the important breed of sheep in semiarid and arid tracts. These animals face frequent droughts and scarcity of feed and water leading to lowered production and poor health status. The unavailability of water induces thirst periods thereby altering the physiological status of the animals. At this time many interrelated reactions work to maintain homeostasis (Kataria et al., 2002). The ability to tolerate a moderate water shortage can be assessed by observing several physiological mechanisms and behavioural strategies. Recording of rectal temperature, pulse rate and respiratory rate are considered as simple parameters to assess health status of the animals. Extensive research has been carried out to find out the adaptability of sheep by recording rectal temperature during heat stress and thermoneutral conditions (Alhidary et al., 2012). However, studies to assess stress due to increased thirst periods are scanty in sheep particularly in Marwari breed. Therefore, the present study was conducted to investigate the effect of stress due to thirst period on physiological responses like rectal temperature, pulse and respiratory rate.

MATERIALS AND METHODS

Six apparently healthy adult female Marwari sheep (Ovis aries) ageing 1-2 years were used in the present investigation to study the effect of thirst and drinking on rectal temperature, pulse rate and respiration rate under the permission of Institutional Animal Ethical Committee (IAEC), College of Veterinary and Animal Science, Bikaner, Rajasthan, India. The animals were kept in well ventilated pens under standard management, feeding and stress free conditions. The whole experiment was divided in 4 periods i.e. control, thirst and drinking periods and in each period same animals were used. Each animal served as its own control. The control period comprised of 30 days during which the animals were provided feed and water ad libitum. Thirst period was of 5 days. The animals were kept under same feeding conditions but with complete water restriction to induce thirst mechanism. After the end of thirst period the drinking period started and it was of 10 days during which water was provided ad libitum to each animal. Rectal temperature, pulse and respiration rate were recorded daily in the morning at 8 am and 5pm in evening through out the experiment. Rectal temperature was recorded by using digital temperature indicator (Centuary) having rectal probe. Pulse rate was recorded from coccygeal artery. The respiration rate was noted down when animal was in standing position by observing the movement of flank, ribs and sternum. For each parameter mean ± SEM values were determined in every period and their subsets. The mean values for every parameter in each period were compared with respective mean values in control period by using student 't' test (Snedecor and Cochran, 1967 and Steel and Torrie, 1980).

Table 1 : Rectal temperature, pulse and respiration rate of Marwari sheep during control , thirst and drinking periods (Mean ± SEM, N = 6)

Main Effect Rectal temperature (oF) Pulse Rate (min-1) Respiration rate (min-1)

Morning Evening Morning Evening Morning Evening

Control 101.1 ±0.198 101.567 ±0.174 65.667 ±2.028 71.333 ±1.229 25.167 ±1.515 27.833 ±1.83

Thirst period (Days) 1 101.33 ±0.112 101.8 ±0.179 69.667b ±0.615 73.667 ±0.955 26.5 ±1.5 29.5 ±1.258

2 101.733b ±0.084 102.067b ±0.152 73.333b ±0.813 75.333b ±1.43 27.5 ±0.806 32.167b ±0.749

3 102.1b ±0.086 102.267b ±0.161 75.667b ±0.08 77.333b ±1.33 28.0b ±0.258 34.667b ±0.615

4 102.53b ±0.084 102.633b ±0.131 78.0b ±1.033 78.333b ±1.2 28.0b ±0.856 35.0b ±0.365

5 102.83b ±0.095 102.9b ±0.086 80.0b ±0.73 80.0b ±1.54 27.5b ±1.057 31.5b ±0.957

Drinking period (Hours) % 102.3b ±0.184 102.5b ±0.124 77.667b ±0.615 78.333b ±1.202 28.5b ±1.232 32.0b ±0.775

24 101.93b ±0.204 102.067b ±0.084 75.333b ±0.422 74.667b ±1.22 30.0b ±1.065 27.333 ±0.715

72 101.54 ±0.176 101.87 ±0.086 70.264 ±1.048 73.0 ±0.856 26.833 ±0.7 27.0 ±1.115

N = Number of animals

Subclass means within a given parameter superscribed by letter "b" differ significantly (p<0.05) from control-I mean value.

RESULTS AND DISCUSSION

The mean ± SEM values of cardinal physiological parameters viz. rectal temperature (°F), pulse rate (min-1) and respiration rate (min-1) are presented in table 1. During control period, the mean value of each parameter was higher during evening than respective morning mean value. However, the difference was significant (P<0.05) only for pulse rate being higher during evening. During thirst period as the days advanced the significant (P <0.05) increase was observed in the mean values of all the three parameters during morning and evening. On day 5 of thirst period the percent increases were 1.17 and 1.312, 21.827 and 12.15, and 9.27 and 13.175 during morning and evening in rectal temperature, pulse rate and respiration rate,

respectively as compared to respective control mean values.

Increase in rectal temperature during thirst period was presumably because of increased basal metabolic rate. Thirst period resulted in decrease feed intake which necessitated the demand for energy therefore basal metabolic rate could have increased. Dehydration limits a wide range of cardiovascular and thermoregulatory responses culminating in an increase in core temperature. One of the physiological explanations for the impairment in cardiovascular and thermoregulatory responses due to dehydration is the reduction in skin blood flow and sweating rate which inevitably leads to a rise in core temperature. Earlier workers have also observed that sheep had higher respiratory rates and rectal temperatures due to

water restriction (Al-Ramamneh et al., 2012). Many other earlier workers have reported variations due to water restriction in rectal temperature, respiration and pulse rate in small ruminants (Singh et a/.,1976; Kaushish et a/.,1976; Purohit et al.,1972 and Rajkhowa and Hazarika, 2000).Researchers had carried out many tests to show the significance of physiological parameters. In an experiment, stress was assessed on the basis of measuring plasma cortisol concentrations along with recording changes in rectal temperature after exposure to the open field test in sheep (Villalba et al., 2012). Vihan and Sahni (1981) reported respiration rate as a most sensitive index than other parameters to assess physiological changes of animals.

During drinking period a decline was observed in the mean values of rectal temperature and pulse rate at V hour, when compared from respective mean values at day 5 of thirst period. The mean values of respiration rate at V hour were higher than those at day 5 of thirst period. However, the mean values of all the three parameters were still significantly (P<0.05) higher than the respective control mean values. The mean values of all the three parameters at hour 72 of drinking period showed non-significant (P>0.05) differences when compared to their respective control mean values. It indicated the restoration of normal values. The restoration of rectal temperature seemed to be a part of adaptive mechanism. The regulation of body temperature served as an efficient mechanism for water conservation (Schmidt-Nielsen et al., 1957).

Findings of present study have important implications in stress free management of sheep. This gives an understanding regarding physiological responses during stress condition. Changes in rectal temperature, pulse rate and respiration rate indicated the adaptability of the animals to

increased thirst periods. Dehydration provoked physiological mechanisms in the body in a manner that helped the animals to survive. Although dehydration was a stress to the animals the changes brought about by five days of dehydration were reversible.

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Kataria, N. and Kataria, A.K. (2007). Compartmental water management of Marwari sheep during dehydration and rehydration. Veterinarski Arhiv., 77(6), 551-559, 2007 .

Kataria, N., Kataria, A.K., Agarwal, V.K., Garg, S.L. and Sahni, M.S. (2002). Effect of long term dehydration on serum constituents in extreme climatic conditions in camel. Indian J. Physiol. Pharmacol., 46(2), 218 - 222.

Kaushish, S.K., Bhatia, D.C. and Arora, K.L. (1976). Studies on adaptability of sheep to subtropical climate and seasonal changes in rectal temperature, Cardiorespiratory and haematological attributes of Nali sheep. Indian Vet. J., 53, 760 - 765.

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