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The effects of nitrogen and irrigation on timothy (Phleum pratense) grown for production of seed: II. Reproductive growth and yield of seed

Published online by Cambridge University Press:  27 March 2009

D. A. Lambert
D. A. Lambert
Affiliation:
The Grassland Research Institute, Hurley, Berkshire
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1. Plants of S.48 timothy were established on a 1 ft square (30 cm × 30 cm) pattern for production of seed. Plots at three levels of applied nitrogen, 0 (N0), 87 (Nl) and 261 (N2) lb N/acre (0, 97·5 and 292·5 kg/N ha) per annum were either irrigated to field capacity from 1 week before initiation of spikelets until 2 weeks before harvest, or not irrigated, during each of three years.

2. Application of nitrogen caused earlier initiation and emergence of inflorescences each year, and earlier general anthesis in the first and third years. Irrigation generally had no effect on the date of initiation, but it prolonged the period of reproductive development and delayed the date of harvest by 2–5 days.

3. The number of ears per plant was increased by the N1 treatment above the number produced by plants in the N0 treatment. In the N2 treatment the number of ears per plant was between the number in the N0 and N1 treatments in non-irrigated plots; in irrigated plots, plants in the N2 treatment sometimes had a lower number of ears than plants in the N0 treatment. The length of ears increased with the rate of application of nitrogen.

Type
Research Article
Information
The Journal of Agricultural Science , Volume 69 , Issue 2 , October 1967 , pp. 231 - 239
Copyright
Copyright © Cambridge University Press 1967

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References

Bingham, J. (1966). Varietal response in wheat to water supply in the field, and male sterility caused by a period of drought in a glasshouse experiment. Ann. appl. Biol. 57, 365–77.CrossRefGoogle Scholar
Chalmers, G. R. & Billington, W. P. (1961). A thresher for small samples. J. agric. Engng Res. 6, 145–6.Google Scholar
Chalmers, G. R. & Kemp, D. C. (1964). Equipment for harvesting small cereal and herbage plots. J. agric. Engng Res. 9, 174–9.Google Scholar
Davies, W.E.(1956). ‘Shift’ in a late-flowering strain of perennial ryegrass (Lolium perenne). Proc. European Qrassld Congr. 1954, O.E.E.G., Paris, pp. 102–6.Google Scholar
Emecz, T. I. (1961). Meteorological factors and anthesis of grasses. Rep. Welsh PI. Breed. Stn 1960, pp. 125–6.Google Scholar
Evans, T. A. (1953). Management and manuring for seed production in cocksfoot and timothy. J. Br. Grassld Soc. 8, 245–59.CrossRefGoogle Scholar
Evans, T. A. (1954). The effect of nitrogen applications at different dates on the seed yield of pedigree grasses. J. Br. Grassld Soc. 9, 5360.CrossRefGoogle Scholar
Evans, T. A. (1955). Manuring and winter grazing for seed production in S 48 timothy. J. Br. Grassld Soc. 10, 254–67.CrossRefGoogle Scholar
Griffiths, D. J. (1965). Breeding for higher seed yields from herbage varieties. J. natn. Inst. agric. Bot. 10, 320–31.Google Scholar
Knowles, R. P. & Baenziger, H. (1962). Fertility indices in cross-pollinated grasses. Can. J. Pl. Sci. 42, 460–71.CrossRefGoogle Scholar
Lambert, D. A. (1963a). The effect of the rate and timing of nitrogen applications on the seed yield and components of yield in S 48 timothy (Phleum pratense L.). J. Br. Grassld Soc. 18, 154–7.CrossRefGoogle Scholar
Lambert, D. A. (1963b). The influence of density and nitrogen in seed production stands of S37 cocksfoot (Dactylis glomerata L.). J. agric. Sci., Camb. 61, 361–73.CrossRefGoogle Scholar
Lambert, D. A. (1964). The influence of density and nitrogen in seed production stands of S 48 timothy (Phleum pratense L.) and S 215 meadow fescue (Festuca pratensis L.). J. agric. Sci., Camb. 63, 3542.CrossRefGoogle Scholar
Lambert, D. A. (1966). The effect of relating applications of nitrogen to the stage of development of cocksfoot (Dactylis glomerata L.) grown for production of seed. J. Br. Grassld Soc. 21, 127–34.CrossRefGoogle Scholar
Lambert, D. A. (1967). The effects of nitrogen and irrigation on timothy (Phleum pratense) grown for production of seed. I. Vegetative growth. J. agric. Sci., Camb. 69, 225–30.CrossRefGoogle Scholar
Langer, R. H. M. (1959). Growth and nutrition of timothy (Phleum pratense L.) V. Growth and flowering at different levels of nitrogen. Ann. appl. Biol. 47, 740–51.CrossRefGoogle Scholar
Low, A. J. & Armitage, E. R. (1959). Irrigation of grassland. J. agric. Sci., Camb. 52, 256–62.CrossRefGoogle Scholar
Lowe, C. C. & Murphy, R. P. (1955). Open-pollinated seed setting among self-sterile clones of smooth bromegrass. Agron. J. 47, 221–4.CrossRefGoogle Scholar
MacKay, D. C. & Eaves, C. A. (1962). The influence of irrigation treatments on yields and on fertiliser utilisation by sweet corn and snap beans. Can. J. Pl. Sci. 42, 219–28.CrossRefGoogle Scholar
May, L. H. & Milthorpe, F. L. (1962). Drought resistance of crop plants, Fld Crop Abstr. 15, 171–9.Google Scholar
Munro, I. A. (1958). Irrigation of grassland. The influence of irrigation and nitrogen treatments on the yield and utilisation of a riverside meadow. J. Br. Grassld Soc. 13, 213–21.CrossRefGoogle Scholar
Nielson, A. K. & Kalton, R. R. (1959). Combining ability for seed characteristics in Bromus inermis Leys. Agron. J. 51, 178–81.CrossRefGoogle Scholar
Penman, H. L. (1962a). Woburn irrigation, 1951–59. II. Results for grass. J. agric. Sci., Camb. 58, 349–64.CrossRefGoogle Scholar
Penman, H. L. (1962b). Woburn irrigation, 1951–59. III. Results for rotation crops. J. agric. Sci., Camb. 58, 365–79.CrossRefGoogle Scholar
Roebuck, J. F. & Peeler, C. H. (1966). The effect of irrigation on yield of spring barley and winter wheat. Expl Husb. 13, 85–9.Google Scholar
Ryle, G. J. A. (1963a). Studies in the physiology of flowering of timothy (Phleum pratense L.). III. Effects of shoot age and nitrogen level on the timing of inflorescence production. Ann. Bot. 27, 453–65.CrossRefGoogle Scholar
Ryle, G. J. A. (1963b). Studies in the physiology of flowering of timothy (Phleum pratense L.). IV. Effects of shoot age and nitrogen level on the size of the inflorescence. Ann. Bot. 27, 467–79.CrossRefGoogle Scholar
Ryle, G. J. A. &Langer, R. H. M. (1963). Studies in the physiology of flowering of timothy (Phleum pratense L.). I. Influence of day length and temperature on initiation and differentiation of the inflorescence. Ann. Bot. 27, 213–31.CrossRefGoogle Scholar
Stoy, V. (1963). The translocation of C14-labelled photosynthetic products from the leaf to the ear in wheat. Physiologia PI. 16, 851–66.CrossRefGoogle Scholar