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Fractionation of nitrogen isotopes by animals: a further complication to the use of variations in the natural abundance of 15N for tracer studies

Published online by Cambridge University Press:  27 March 2009

K. W. Steele
Affiliation:
University of Waikato, Hamilton, New Zealand
R. M. Daniel
Affiliation:
University of Waikato, Hamilton, New Zealand

Summary

A study of the fractionation of nitrogen isotopes in the diet by cattle is described and the results discussed.

Compared with the diet, urine had a lower ratio of 15N to 14N, but faeces, blood and milk all had a higher ratio.

It is argued that the use of natural 15N as a tracer in grazed ecosystems is more complicated than was at first thought.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1978

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References

REFERENCES

Black, A. S. & Waring, S. A. (1977). The natural abundance of 15N in the soil-water system of a small catchment area. Australian Journal of Soil Research 15, 51–7.CrossRefGoogle Scholar
Bremner, J. M. & Tabatabai, M. A. (1973). Nitrogen 15 enrichment of soils and soil derived nitrate. Journal of Environmental Quality 2, 363–5.CrossRefGoogle Scholar
Cheng, H. H., Bremner, J. M. & Edwards, A. P. (1964). Variations in nitrogen-15 abundance in soils. Science 146, 1574–5.CrossRefGoogle ScholarPubMed
Delwiche, C. C. & Steyn, P. L. (1970). Nitrogen isotope fractionation in soils and microbial reactions. Environmental Science and Technology 4, 929–35.CrossRefGoogle Scholar
Edwards, A. P. (1973). Isotope tracer techniques for identification of sources of nitrate pollution. Journal of Environmental Quality 2, 382–7.CrossRefGoogle Scholar
Feigin, A., Kohl, D. H., Shearer, G. & Commoner, B. (1974 a). Variations in the natural nitrogen-15 abundance in nitrate mineralised during incubation of several Illinois soils. Proceedings of the Soil Science Society of America 38, 90–5.CrossRefGoogle Scholar
Feigin, A., Shearer, G., Kohl, D. H. & Commoner, B. (1974 b). The amount of nitrogen-15 content of nitrate in soil profiles from two central Illinois fields in a corn–soybean rotation. Proceedings of the Soil Science Society of America 38, 465–71.CrossRefGoogle Scholar
Freyer, H. D. & Aly, A. I. M. (1974). Nitrogen-15 variations in fertilizer nitrogen. Journal of Environmental Quality 3, 405–6.CrossRefGoogle Scholar
Goh, K. M. (1972). Comparison and evaluation of methods for including nitrate in the total nitrogen determination of soils. Journal of the Science of Food and Agriculture 23, 275–84.CrossRefGoogle Scholar
Hauck, R. D., Bartholomew, W. V., Bremner, J. M., Broadbent, F. E., Cheng, H. H., Edwards, A. P., Keeney, D. K., Legg, J. O., Olsen, S. R. & Porter, L. K. (1972). Use of variation of natural nitrogen isotope abundance for environmental studies: a questionable approach. Science 177, 453–4.CrossRefGoogle ScholarPubMed
Hauck, R. D. (1973). Nitrogen tracers in nitrogen cycle studies – past use and future needs. Journal of Environmental Quality 2, 317–27.CrossRefGoogle Scholar
Kohl, D. H., Shearer, G. B. & Commoner, B. (1971). Fertilizer nitrogen contribution to nitrate in surface water in a corn belt watershed. Science 174, 1331–4.CrossRefGoogle Scholar
Rennie, D. A. & Paul, E. A. (1975). Nitrogen isotope ratios in surface and subsurface soil horizons. In Isotope ratios as pollutant source and behaviour indicators. Proceedings of a symposium jointly organized by IAEA and FAO, Vienna 1974, 441–54.Google Scholar
Ross, P. J. & Martin, A. E. (1970). A rapid procedure for preparing gas samples for Nitrogen-15 determination. Analyst 95, 817–22.CrossRefGoogle Scholar
Shearer, G. B., Kohl, D. H. & Commoner, B. (1974). The precision of determinations of the natural abundance of nitrogen-15 in soils, fertilizer and shelf chemicals. Soil Science 118, 308–16.CrossRefGoogle Scholar
Whitehead, D. C. (1970). The role of nitrogen in grassland productivity. Commonwealth Agricultural Bureaux, Bucks, England.Google Scholar