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Uptake of fertilizer and soil nitrogen by ryegrass swards during spring and mid-season

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Abstract

Double-labelled15N ammonium nitrate was used to determine the uptake of fertilizer and soil N by ryegrass swards during spring and mid-season. The effects of water stress (40% of mean rainfall v 25 mm irrigation per 25 mm soil water deficit) and the rate of application of N in the spring (40 v 130 kg ha−1) on the recovery of 130 kg N ha−1 applied in mid-season were also evaluated. Apparent recovery of fertilizer N (uptake of N in the fertilized plot minus that in the control expressed as a percentage of the N applied) was 95 and 79% for fertilizer N applied in the spring at rates of 40 and 130 kg ha−1, respectively. Actual recovery of the fertilizer N assessed from the uptake of15N was only 31 and 48%, respectively. The uptake of soil N by the fertilized swards was substantially greater than that by the control. However, the increased uptake of soil N was always less than the amount of fertilizer N retained in or lost from the soil. Broadly similar patterns for the uptake of fertilizer and soil N were observed during mid-season. Uptake of N in mid-season was highest for swards which received 40 kg N ha−1 in the spring and suffered minimal water stress during this period. Application of 130 kg N ha−1 in spring reduced the uptake of N in mid-season to an extent similar to that arising from water stress. Only 1.8 to 4.2 kg ha−1 (3 to 10%) of the N residual from fertilizer applied in the spring was recovered during mid-season. Laboratory incubation studies suggested that only a small part of the increased uptake of soil N by fertilized swards could be attributed to increased mineralisation of soil N induced by addition of fertilizer. It is considered that the increased uptake of soil N is partly real but mostly apparent, the latter arising from microbially mediated exchange of inorganic15N in the soil.

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References

  1. Barraclough D (1979) Factors influencing the efficiency of nitrogenous fertilizers. In Chemistry and Agriculture. Chem Soc Spec Public no 36 pp 37–55

    Google Scholar 

  2. Birch MF (1958) Effect of soil drying on humus decomposition and nitrogen availability. Plant Soil 10, 9–31

    Google Scholar 

  3. Bremner JM (1965) Isotope ratio analysis of nitrogen in nitrogen-15 tracer investigations. In Methods of Soil Analysis. Part 2 pp 1256–1286. Am Soc Agron Madison, Wisconsin

    Google Scholar 

  4. Broadbent FE (1965) Effect of fertilizer nitrogen on the release of soil nitrogen. Soil Sci Soc Am Proc 29, 692–696

    Google Scholar 

  5. Broadbent FE and Nakashima T (1971) Effect of added salts on nitrogen mineralisation in three California soils. Soil Sci Soc Am Proc 35, 457–460

    Google Scholar 

  6. Dawson KP Jewiss OR and Morrison J (1982) The effects of strategic application of nitrogen on the improvement of seasonal yield from perennial ryegrass swards and its interaction with available water. Proc IXth Eur Grassland Fed. Efficient Grassland Farming, Reading, 171–174.

    Google Scholar 

  7. Dowdell RJ and Webster CP (1980) A lysimeter study using nitrogen-15 on the uptake of fertilizer nitrogen by perennial ryegrass swards and losses by leaching. J Soil Sci 31, 65–76

    Google Scholar 

  8. Dowdell RJ, Morrison J and Hood AEM (1980) The fate of fertilizer nitrogen applied to grassland: uptake by plants immobilisation into soil organic matter and losses by leaching and denitrification. Proc Intern Symposium of European Grassland Federation of the Role of Nitrogen in Intensive Grassland Production. PUDOC, Wageningen pp 129–136

    Google Scholar 

  9. Fried M, Soper RJ and Boreshart M (1975)15N-labelled single treatment fertility experiments. Agron J 67, 393–396

    Google Scholar 

  10. Hart PBS, Pruden G, Rayner JH, Powlson DS and Jenkinson DS (1983) Influence of biological processes on the interpretation of15N experiments Biological Processes and Soil Fertility, Transactions p 89. Intern Soc Soil Sci Comm III and IV Reading, 4–8 July, 1983

  11. Hauck RD (1971) Quantitative estimates of nitrogen-cycle processes In ‘Nitrogen-15 in Soil-Plant Studies’ pp. 65–74, IAEA, Vienna

    Google Scholar 

  12. Hauck RD and Bremner JM (1976) Uses of tracers for soil and fertilizer nitrogen research. Adv Agron 28 219–266

    Google Scholar 

  13. Hunt IV (1974) Studies of the response to fertilizer. 6 Residual responses as nitrogen uptake. J Br Grassld Soc 29 69–74

    Google Scholar 

  14. Jansson SL (1971) Use of15N in studies of soil nitrogen In soil Biochemistry AD McLaren and J Skujins (eds) Vol 2 pp 129–166

  15. Jarvis MG Hazelden J and Mackney D (1979) Soils of Berkshire, Harpenden; Soil Survey of England and Wales, p 263

  16. Morrison J and Jackson MV (1976) The response of grass to fertilizer nitrogen. SPAN 19, 34–37

    Google Scholar 

  17. Prins WH and van Berg PFJ (1979) The seasonal response of grassland to nitrogen at different levels of nitrogen pretreatment. I. Experiments 1972 and 1973. Netherlands Nitrogen Technical Bulletin No 11, The Hague. 48 pp.

  18. Ryden JC and Dawson KP (1982) Evaluation of the acetylene inhibition technique for the measurement of denitrification in grassland soils. J Sci Food Agric 33, 1197–1206

    Google Scholar 

  19. Soulides DA and Allison FE (1961) Effect of drying and freezing soils on carbon dioxide production, available mineral nutrients, aggregation and bacterial population. Soil Sci 91, 291–298

    Google Scholar 

  20. Vose PB (1980) An introduction to nuclear techniques in agronomy and plant biology. Pergamon International Library, Oxford

    Google Scholar 

  21. Westerman RL and Kurtz LT (1973) Priming effect of15N-labelled fertilizers on soil nitrogen in field experiments. Soil Sci Soc Am Proc 37, 725–727

    Google Scholar 

  22. Whitehead DC and Dawson KP (1984) Nitrogen, including15N-labelled fertilizer nitrogen, in components of a grass sward. J Appl Ecol 21, in press

  23. Williams TE and Jackson MV (1976) The recovery of fertilizer N in herbage In Agriculture and Water Quality (1974). Min Ag Fisheries and Food Tech Bull 32 pp 145–152

    Google Scholar 

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  1. KP Dawson

    Present address: East of Scotland College of Agriculture, EH26 OPH, Penicuik, Midlothian, U.K.

Authors and Affiliations

  1. The Grassland Research Institute, SL6 5LR, Hurley, Maidenhead, Berkshire, UK

    KP Dawson & JC Ryden

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  1. KP Dawson
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  2. JC Ryden
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Dawson, K., Ryden, J. Uptake of fertilizer and soil nitrogen by ryegrass swards during spring and mid-season. Fertilizer Research 6, 177–188 (1985). https://doi.org/10.1007/BF01051012

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