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http://dx.doi.org/10.5713/ajas.2003.1118

Effect of Parotid Saliva Secretion on Dry Forage Intake in Goats  

Sunagawa, Katsunori (Faculty of Agriculture, University of the Ryukyus)
Nakatsu, Yoshifumi (Faculty of Agriculture, University of the Ryukyus)
Nishikubo, Yoriko (Faculty of Agriculture, University of the Ryukyus)
Ooshiro, Takeshi (Faculty of Agriculture, University of the Ryukyus)
Naitou, Kouta (Faculty of Agriculture, University of the Ryukyus)
Nagamine, Itsuki (Faculty of Agriculture, University of the Ryukyus)
Publication Information
Asian-Australasian Journal of Animal Sciences / v.16, no.8, 2003 , pp. 1118-1125 More about this Journal
Abstract
Research was carried out to clarify whether a suppression of dry forage intake during the early stages of feeding in ruminants is caused by feeding induced hypovolemia which is produced by the accelerated secretion of parotid saliva. Goats with a parotid fistula were fed roughly crushed alfalfa hay cubes, commercial ground concentrate feed and $NaHCO_3$ twice daily (10:00-12:00, 16:00-18:00). The animals were free access to drinking water all day prior to, during and after experiments. The animals were intraruminally infused every day prior to the morning feeding period with parotid saliva collected from the parotid fistula over a 24 h period. The present experiment consisted of two treatments, non-infusion (RNI) and intraruminal infusion of parotid saliva (RSF). In the RSF treatment, 4-5 kg of parotid saliva (280-290 mOsm/l) collected over a 24 h period was intraruminally infused 1 h prior to the commencement of the morning feeding. During feeding, eating and parotid saliva secretion rates were measured. Blood samples were also periodically collected from the jugular vein. During and after 2 h feeding, water intakes were measured, respectively. These measurements were used to define thirst levels. It is thought that rumen fill in the RSF treatment was higher than the RNI treatment. Plasma osmolality in the RSF treatment increased in the first half of the 2 h feeding period due to the intraruminal infusion of parotid saliva. Therefore, parotid saliva secretion rates in the RSF treatment were lower than the RNI treatment for 30 min period from 30 to 60 min after the commencement of feeding. On the other hand, plasma total protein concentration and hematocrit in the RSF treatment decreased by 3.2 and 3.3% prior to the commencement of feeding due to the intraruminal infusion of parotid saliva. In the first half of the 2 h feeding period, plasma total protein concentration and hematocrit in the RSF treatment showed a tendency to decrease compared to the RNI treatment. Thirst level in the RSF treatment during feeding was approximately 31.3% less than the RNI treatment. Upon the completion of the 2 h feeding period, cumulative feed intake in the RSF treatment was significantly larger (19.7%) than the RNI treatment. The results suggest that a suppression of dry forage intake during the early stages of feeding in goats is partly caused by feeding induced hypovolemia, which is produced by the accelerated secretion of parotid saliva.
Keywords
Parotid Saliva Secretion; Thirst Sensation; Dry Forage Intake; Goats;
Citations & Related Records
Times Cited By KSCI : 2  (Citation Analysis)
Times Cited By Web Of Science : 9  (Related Records In Web of Science)
Times Cited By SCOPUS : 8
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1 Carter, R. R. and W. L. Grovum. 1990. A review of the physiological significance of hypertonic body fluids on feed intake and ruminal function: salivation, motility and microbes. J. Anim. Sci. 68:2811-2832.   DOI
2 Leek, B. F. and R. H. Harding. 1975. Sensory nervous receptors in the ruminant stomach and the reflex control of reticulo-ruminal motility. In: Digestion and Metabolism in the Ruminant Stomach (Ed. I. W. McDonald and A. C. I. Warner). University of New England Publishing Unit. Armidale. Australia. pp. 60-76.
3 SAS. 1990. SAS/STAT User's Guide. Volume 2, Version 6, Fourth Edition. SAS Institute Inc., SAS Campus Drive, Cary, NC 27513.
4 Sunagawa, K., B. W. H. E Prasetiyono and I. Nagamine. 2002a. Significance of feeding induced hypovolemia in feed intake control of goats fed on alfalfa hay. Asian-Aust. J. Anim. Sci. 15:366-370.   DOI
5 Sunagawa, K., Y. Nakatsu, Y. Nishikubo, K. Naitou and I. Nagamine. 2002b. Effects of intraruminal saliva flow on feed intake in goats fed on alfalfa hay cubes. Asian-Aust. J. Anim. Sci. 15:1738-1746.   DOI
6 Tsuda, T. 1994. Blood. In: Animal Physiology. (Ed. T. Tsuda). Youkendo. Tokyo. pp. 49.
7 Baile, C. A., J. Mayer and C. L. McLaughlin. 1969. Feeding behavior of goats: ruminal distension, ingesta dilution and acetate concentration. Amer. J. Physiol. 217:397-402.
8 Blair-West, J. R. and A. H. Brook. 1969. Circulatory changes and rennin secretion in sheep in response to feeding. J. Physiol. 204:15-30. 1969.
9 Anil, M. H., J. N. Mbanya, H. W. Symonds and J. M. Forbes. 1993. Responses in the voluntary intake of hay or silage by lactating cows to intraruminal infusions of sodium acetate, sodium propionate or rumen distension. Br. J. Nutr. 69:699-712.   DOI   ScienceOn
10 Bailey, C. B. 1961. Saliva secretion and its relation to feeding in cattle. 3. The rate of secretion of mixed saliva in the cow during eating, with an estimate of the magnitude of the total daily secretion of mixed saliva. Br. J. Nutr. 15:443-451.   DOI   ScienceOn
11 Sato, Y., 1975. The relationship between saliva secretion and body fluid balance during feeding. Ph. D. Thesis. Tohoku University, Sendai, Japan.
12 Kay, R. N. B. 1966. The influence of saliva on digestion in ruminants. World Rev. Nutr. Diet. 6:292-325.   PUBMED
13 Sunagawa, K., B. W. H. E. Prasetiyono and A. Shinjo. 2001. Significance of hypovolemia in feed intake control of goats fed on dry feed. Asian-Aust. J. Anim. Sci. 14:1267-1271.   DOI
14 Campling, R. C. and C. C. Balch. 1961. Factors affecting the voluntary feed intake of the cow. 1. Preliminary observations on the effect, on the voluntary intake of hay, of changes in the amount of the reticulo-ruminal contents. Br. J. Nutr. 15:523-530.   DOI
15 Fitzsimons, J. T. 1979. The physiology of thirst and sodium appetite. Cambridge University Press. Cambridge. UK.
16 Hidari, H. 1987. Control of food intake. In: Shin Nyuugyuu no kagaku (Ed. A. Shibata). Noubunkyou. Tokyo. pp. 185-206.
17 Kato, S., Y. Sasaki and T. Tsuda. 1979. Food intake and rumen osmolality in the sheep. Annales de Recherches Veterinaire. 10: 229-230.
18 Guyton, A. C. and J. E. Hall. 1996. Central nervous system centers for thirst. In: Textbook of Medical Physiology. W. B. Saunders Company. Philadelphia. Pensylvania. pp. 361.
19 Warner, A. C. and B. D. Stacy. 1977. Influence of ruminal and plasma osmotic pressure on salivary secretion in sheep. Q. J. Exp. Physiol. 62: 133-142.   DOI
20 Prasetiyono, B. W. H., K. Sunagawa, A. Shinjo and S. Shiroma. 2000. Physiological relationship between thirst level and feed intake in goats fed on alfalfa hay cubes. Asian-Aust. J. Anim. Sci. 13:1536-1541.   DOI
21 Kato, S. 1977. Experimental studies with regard to factors controlling feed intake in sheep. Ph.D. Thesis. Tohoku University, Sendai, Japan.
22 Kato, Y. 1988. Analysis of chemical components of feed. In: Shiryo Bunseki Kijun Kyoukai). Tokyo. pp. 1-16.
23 Kay, R. N. B. 1960. The rate of flow and composition of various salivary secretions in sheep and calves. J. Physiol. (Lond.) 150:515-537.   DOI   PUBMED
24 Grovum, W. L. 1995. Mechanisms explaining the effects of short chain fatty acids on feed intake in ruminants-osmotic pressure, insulin and glucagons. In: Ruminant Physiology: Digestion, Metabolism, Growth and Reproduction. Proceedings of the Eighth International Syposium on Ruminant Physiology (Ed. W. V. Engelhardt, S. Leonhard-Marek, G. Breves and D. Giesecke). Ferdinand Enke Verlag. Stuttgart. pp. 173-197.
25 Mathai, M. L., C. E. Thomson and M. J. McKinley. 2001. Influence of ruminal water-loading on renal sodium excretion and water intake following feeding in sheep. Acta. Phsiol. Scand. 172:149-157.   DOI   ScienceOn