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Direct drilling and shallow cultivation compared with ploughing for spring barley on a clay loam in northern England

Published online by Cambridge University Press:  27 March 2009

B. J. Clutterbuck  and
D. R. Hodgson
B. J. Clutterbuck
Affiliation:
Department of Plant Sciences, Agricultural Sciences Building, The University of Leeds, Leeds, LS2 9JT
D. R. Hodgson
Affiliation:
Department of Plant Sciences, Agricultural Sciences Building, The University of Leeds, Leeds, LS2 9JT
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Summary

An experiment was made on a clay loam soil to compare direct drilling, shallow cultivation and ploughing for spring barley over a period of 3 years (1975–7). At a uniform rate of fertilizer application (75 kg N, 40 kg P2O6, 40 K2O/ha) combined drilled with the seed, the mean grain yields over 3 years were 5·89, 6·07 and 6·13 t/ha, respectively, direct drilling producing significantly less grain than shallow cultivation or ploughing in 1975 only.

For 1975 and 1976 the mean uptake of nitrogen by shoots of barley at anthesis was 25 kg N/ha less after direct drilling than after ploughing but in 1977 there was no difference. The smaller uptake of nitrogen by direct-drilled barley in 1976 was more likely caused by less available nitrogen in the soil than by smaller root systems. Soil strength (cone resistance) and soil bulk density of the direct-drilled treatments were greater than those of the ploughed and shallow cultivated. Although concentration gradients of extractable phosphorus and potassium formed in direct-drilled and shallow-cultivated soils, the quantities of these nutrients in the top soil differed little between the treatments. After 3 years there were more deep burrowing earthworms (particularly Lumbricus terrestris) in tilled than in untilled soil.

Type
Research Article
Information
The Journal of Agricultural Science , Volume 102 , Issue 1 , February 1984 , pp. 127 - 134
Copyright
Copyright © Cambridge University Press 1984

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References

Barnes, B. T. & Ellis, F. B. (1979). Effects of different methods of cultivation and direct drilling, and disposal of straw residues, on populations of earthworms. Journal of Soil Science 30, 669679.CrossRefGoogle Scholar
Crompton, A. & Matthews, B. (1970). Soils of the Leeds District. Agricultural Research Council, Memoirs of the Soil Survey of Great Britain. Harpenden.Google Scholar
Dowdell, R. J. & Cannell, R. Q. (1975). Effect of ploughing and direct drilling on soil nitrate content. Journal of Soil Science 26, 5361.CrossRefGoogle Scholar
Drew, M. C. & Saker, L. R. (1980). Direct drilling and ploughing: their effpcts on the distribution of extractable phosphorus and potassium, and of roots, in the upper horizons of two clay soils under winter wheat and spring barley. Journal of Agricultural Science, Cambridge 94, 411423.CrossRefGoogle Scholar
Elliott, J. G., Ellis, F. B. & Pollard, F. (1977). Comparison of direct drilling, reduced cultivation and ploughing on the growth of cereals. 1. Spring barley on a sandy loam soil: introduction, aerial growth and agronomic aspects. Journal of Agricultural Science, Cambridge 89, 621629.CrossRefGoogle Scholar
Ellis, F. B., Christian, D. G. & Cannell, R. Q. (1982). Direct drilling, shallow cultivation and ploughing on a silt loam soil (1974–1980). Soil and Tillage Research 2, 115130.CrossRefGoogle Scholar
Ellis, F. B., Elliott, J. G., Barnes, B. D. & Howse, K. R. (1977). Comparison of direct drilling, reduced cultivation and ploughing on the growth of cereals. 2. Spring barley on a sandy loam soil: soil physical conditions and root growth. Journal of Agricultural Science, Cambridge 89, 631642.CrossRefGoogle Scholar
Ellis, F. B., Elliott, J. G., Pollard, F., Cannell, R. Q. & Barnes, B. T. (1979). Comparison of direct drilling, reduced cultivation and ploughing on the growth of cereals. 3. Winter wheat and spring barley on a calcareous clay. Journal of Agricultural Science, Cambridge 93, 391401.CrossRefGoogle Scholar
Gerard, B. M. (1964). Synopses of the British Fauna. 6. Lumbricidae (Annelida), London, Linnean Society, 58 pp.Google Scholar
Hodgson, D. R. (1978). The effects of season, site and cultivation system on the growth and yield of spring barley. In Maximising Yields of Crops. ADAS/ABC Symposium 1978, Ministry of Agriculture, Fisheries and Food, pp. 123128.Google Scholar
Hodgson, D. R., Proud, J. R. & Browne, S. (1977). Cultivation systems for spring barley with special reference to direct drilling (1971–1974). Journal of Agricultural Science, Cambridge 88, 631644.CrossRefGoogle Scholar
Holmes, J. (1977). The effects of tillage, direct drilling and nitrogen in a long term barley mono-culture systems. Annual Report of the Edinburgh School of Agriculture 1976, pp. 104112.Google Scholar
Large, E. C. (1954). Growth stages of cereals. Plant Pathology 3, 128129.CrossRefGoogle Scholar
Ministry of Agriculture, Fisheries and Food (1973). The analysis of agriculture materials. Technical Bulletin 27, London: H.M.S.O.Google Scholar
Pidgeon, J. D. & Soane, B. D. (1977). Effects of tillage and direct drilling on soil properties during the growing season in a long term barley mono-culture system. Journal of Agricultural Science, Cambridge 88, 431442.CrossRefGoogle Scholar
Pollard, F., Elliott, J. G., Ellis, F. B. & Barnes, B. T. (1981). Comparison of direct drilling, reduced cultivation and ploughing on the growth of cereals. 4. Spring barley and winter wheat on silt loam soils over chalk. Journal of Agricultural Science, Cambridge 97, 677684.CrossRefGoogle Scholar