Hostname: page-component-586b7cd67f-rdxmf Total loading time: 0 Render date: 2024-12-03T19:56:44.588Z Has data issue: false hasContentIssue false

Intake and excretion of nitrogen, potassium and phosporus by grazing steers

Published online by Cambridge University Press:  27 March 2009

K. Betteridge
Affiliation:
Grasslanda Division, DSIR, P.O. Box 194, Kaikohe, New Zealand
W. G. K. Andrewes
Affiliation:
Grasslanda Division, DSIR, P.O. Box 194, Kaikohe, New Zealand
J. R Sedcole
Affiliation:
Grasslanda Division, DSIR, Private Bag, Palmerston North, New Zealand

Summary

Intake and faecal and urinary output of nitrogen, potassium and phosphorus by steers grazing high quality pasture at either of two intake levels were measured in three trials lasting 10–12 days. Intake was estimated from total faecal D.M. and in vitro D.M. digestibility of hand-plucked pasture. A known proportion of urine was sampled by a nonsurgical technique.

Average urinary mineral output between trials ranged from 93 to 134 g N/day, or 40 to 51% of consumed N; 74 to 137 g K/day or 33 to 76 % of consumed K and no more than 1 g P/day, or 2 to 4% of consumed P. Faeces contained 36–62 g N/day, or 16–24% of consumed N; 12–46 g K/day, or 8–21% of consumed K and 10–23 g P/day, or 44–74% of consumed P. The volume of urine passed differed widely between days for individual steers and between steers within each trial. In trial 3, daily output ranged between 5–8 and 54.71 by different animals. For two steers over three 24 h periods, frequency of urination ranged between 13 and 73/24 h; urine volumes between 7.6 and 51.2 1/24 h; urinary excretion of N between 81 and 137 g/24 h and of K between 58 and 90g/24h.

Urinary N and K concentrations were higher at night than during the day, ranging in trial 3 from 0.8 to 14.1 mg N/l, and 0.6 to 9.9 mg K/l. No clear diurnal patterns were found for P.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1986

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

REFERENCES

Agricultural Research Council (1980). The Nutrient Requirements of Ruminant Livestock. Slough: Commonwealth Agricultural Bureaux.Google Scholar
Ball, P. R., Keeney, D. R., Theobald, P. W. & Nes, P. (1979). Nitrogen balance in urine affected areas of a New Zealand pasture. Agronomy Journal 71, 309314.CrossRefGoogle Scholar
Ball, P. R. & Ryden, J. C. (1984). Nitrogen relationships in intensively managed temperate grasslands. Plant and Soil 76, 2333.CrossRefGoogle Scholar
Betteridge, K. & Andrewes, W. G. K. (1986). A device for measuring and sampling urine output from free-grazing steers. Journal of Agricultural Science, Cambridge 106, 389392.CrossRefGoogle Scholar
Gillingham, A. G. (1980). Phosphorus uptake and return in grazed, steep hill pastures. I. Pasture production and dung and litter accumulation. New Zealand Journal of Agricultural Research 23, 313321.CrossRefGoogle Scholar
Goodall, V. C. (1951). The day and night grazing system. Proceedings of the New Zealand Grassland Association 13, 8694.CrossRefGoogle Scholar
Hakamata, T. (1980). Evaluation of cattle excreta on pasture fertility. II. Simulation studies on uneven excretal dispersion caused by a grazing experiment. Journal of Japanese Society of Grassland Science 26, 201207.Google Scholar
Hakamata, T. & Hirashima, T. (1978). Evaluation of cattle excreta on pasture fertility. Journal of the Japanese Grassland Society 24, 162171.Google Scholar
Hardison, W. A., Fisher, H. L., Graf, G. C. & Thompson, N. R. (1956). Some observations on the behaviour of grazing lactating cows. Journal of Dairy Science 39, 17351741.CrossRefGoogle Scholar
Haslemore, R. M. & Roughan, P. G. (1976). Rapid chemical analysis of some plant constituents. Journal of the Science of Food and Agriculture 27, 11711178.CrossRefGoogle Scholar
Henzell, E. F. & Ross, P. J. (1973). The nitrogen cycle of pasture ecosystems. In Chemistry and Biochemistry of Herbage, vol. 2 (ed. Butler, G. W. and Bailey, R. W.), pp. 227246. London: Academic Press.Google Scholar
Hogg, D. E. (1981). A lysimeter study of nutrient losses from urine and dung applications on pasture. New Zealand Journal of Agriculture 9, 3946.CrossRefGoogle Scholar
Hutton, J. B., Jury, K. E. & Davies, E. B. (1965). Studies of the nutritive value of New Zealand dairy pastures. II. The intake and utilisation of magnesium in pasture herbage by lactating dairy cattle. New Zealand Journal of Agricultural Research 8, 479496.CrossRefGoogle Scholar
Kishan, Jai & Singh, U. B. (1980). Relationship between nitrogen intake and excretion in cattle and buffaloes fed different fodders. Indian Journal of Animal Science 50, 128130.Google Scholar
Manston, R. & Vagg, M. J. (1970). Urinary phosphate excretion in the dairy cow. Journal of Agricultural Science, Cambridge 74, 161167.CrossRefGoogle Scholar
Mundy, E. J. (1961). The effect of urine and its components on the botanical composition and production of a grass/clover sward. Journal of the British Grassland Society 16, 100105.CrossRefGoogle Scholar
Paquay, R., De Baere, Ir. R. & Lousse, A. (1970).Quantitative study of output of faeces and urine in the dairy cow. Revue de L'Agriculture (Brussels) 23, 627634.Google Scholar
Paquay, R., Godeau, J. M., De Baere, Ir. R. & Lousse, A. (1973). The effects of the protein content of the diet on the performance of lactating cows. Journal of Dairy Research 40, 93103.CrossRefGoogle Scholar
Siebert, B. D. & Cameron, D. D. (1978). Phosphate mobilisation and excretion in cattle and sheep during energy restriction. Proceedings of the Nutrition Society of Australia 3, 80.Google Scholar
Srebert, B. D., Romero, V. A., Hunter, R. A., Megarrity, R. G., Lynch, J. J., Glasgow, J. D.& Breen, M. J. (1978). Partitioning intake and outflow of nitrogen and water in cattle grazing tropical pastures. Australian Journal of Agricultural Research 29, 631644.CrossRefGoogle Scholar
Siebert, B. D. & Saunders, L. E. (1976). Differential excretion of phosphorus by Brahman and Hereford cattle. Proceedings of the Australian Society of Animal Production 11, 8 P.Google Scholar
Vercoe, J. E. (1974). Studies on adaptation of cattle to tropical environments and the role of radioisotopes. In Tracer Techniques in Tropical Animal Production, pp. 7385. Vienna: International Atomic Energy Agency.Google Scholar