Stress related variations in serum vitamin E and C levels of Murrabuffaloes

The study was designed to determine stress related variations in endogenous vitamin E and C levels of Murrah buffaloes. For this purpose, four hundred and fifty healthy adult female Murrah buffaloes between 4 and 12 years of age were sampled to harvest the sera during adverse ambiences viz. moderate...

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Bibliographic Details
Published in:Journal of stress physiology & biochemistry 2013-01, Vol.9 (1), p.28
Main Authors: Joshi, A, Kataria, N, Kataria, A K, Pandey, N, Asopa, S, Sankhala, L N, Pachaury, R, Khan, S
Format: Article
Language:eng ; rus
Subjects:
Oxidative stress
Physiology
Pregnancy
Variation
Vitamin E
Vitamins
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Summary:The study was designed to determine stress related variations in endogenous vitamin E and C levels of Murrah buffaloes. For this purpose, four hundred and fifty healthy adult female Murrah buffaloes between 4 and 12 years of age were sampled to harvest the sera during adverse ambiences viz. moderate, extreme hot and cold ambiences. Animals were broadly divided into non-pregnant milch, pregnant milch, pregnant dry, primipara and multipara. The mean values (µmol L-1) of serum vitamin E and C were 4.31±0.03 and 23.34±0.33, respectively during moderate ambience. The mean values of both the vitamin E and C depressed significantly (p≤0.05) during hot and cold ambiences as compared to moderate ambience. It was observed that decline in each value during hot ambience was greater than that of respective cold ambience. A significant (p≤0.05) variation was observed in the mean values of vitamin E and C in each ambience in the animals of all physiological states. The mean values of both the vitamins of non pregnant milch animals were highest (p≤0.05) whereas they were lowest (p≤0.05) in pregnant dry animals. It could be concluded that extreme ambiences produced oxidative stress in the buffaloes of all physiological states. The depressed levels of endogenous vitamin E and C in the serum showed their depletion in the body probably to combat free radical scavengers. Vitamin E and C should be supplemented to protect the animals from oxidative stress.
ISSN:1997-0838