Hostname: page-component-77c89778f8-vsgnj Total loading time: 0 Render date: 2024-07-21T05:07:27.000Z Has data issue: false hasContentIssue false
  • English
  • Français

Crop Growth, Development and Yield in Semi-arid Conditions in Botswana. I. The Effects of Population Density and Row Spacing on Sorghum Bicolor

Published online by Cambridge University Press:  03 October 2008

D. J. Rees
D. J. Rees
Affiliation:
Dryland Farming Research Scheme (DLFRS), Agricultural Research Station, P/Bag 0033, Gaborone, Botswana
Get access Rights & Permissions [Opens in a new window]

Summary

A series of population density and row spacing trials were carried out with sorghum in conditions of increasingly severe water stress from 1980 to 1984. In conditions of reasonable water availability, increasing density resulted in increased leaf area indices, dry weight production and grain yields. In conditions of severely limiting water availability, increasing density resulted in developmental delays, density-dependent mortality and reduced plant dry weights, with little increase in dry weight production per hectare. In these conditions grain yields were reduced by increasing density. The proportion of dry weight allocated to grain declined with increasing density and decreasing plant size, a consequence of the requirement for a minimum plant size to support grain production. When plant size was reduced below a critical range, disproportionately large reductions in grain yield resulted.

Optimum densities for grain production varied from below 10 000 plants ha−1 in dry conditions to over 120 000 plants ha−1 in moist conditions. Medium density treatments produced the largest grain yields on a long term basis, but the low density treatment showed a reduced risk of crop failure and greater yield stability.

Type
Research Article
Information
Experimental Agriculture , Volume 22 , Issue 2 , April 1986 , pp. 153 - 167
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

Agaev, M. G. (1978). [Ontogenetic response of annual plants to population density]. Botanicheski Zhurnal 63:15531565.Google Scholar
Anon. (1984). Climatological Summaries for Botswana. Gaborone, Botswana: Department of Meteorological Services.Google Scholar
Azim-Ali, S. N., Gregory, P. J. & Monteith, J. L. (1984). Effects of plant density on water use and productivity of pearl millet (Pennisetum typhoides) grown on stored water. I. Growth of roots and shoots. Experimental Agriculture 20:203214.Google Scholar
Bond, J. J., Army, T. J. & Lehman, O. R. (1964). Row spacing, plant populations and moisture supply as factors in dryland grain sorghum production. Agronomy Journal 56:36.Google Scholar
Brown, P. L. & Schrader, W. D. (1959). Grain yields, evapotranspiration and water use efficiency of grain sorghum under different cultural practices. Agronomy Journal 51:339343.Google Scholar
DeLoughery, R. L. & Crookston, R. K. (1979). Harvest index of corn affected by population density, maturity rating and environment. Agronomy Journal 71:577580.Google Scholar
DLFRS (1979). Dryland Farming Research Scheme, Botswana, Phase II. Final Scientific Report. Crop Physiology and Climate Studies. Gaborone, Botswana: Ministry of Agriculture.Google Scholar
DLFRS (1981). Dryland Farming Research Scheme, Botswana, Phase III. 2nd Annual Report. Gaborone, Botswana: Ministry of Agriculture.Google Scholar
DLFRS (1985). Dryland Farming Research Scheme, Botswana, Phase III. Final Report, Volume 2. Crop Physiology. Gaborone, Botswana: Ministry of Agriculture.Google Scholar
FAO (1978). Report on the Agro-Ecological Zones Project, Vol. 1. Methodology and Results for Africa. Rome, Italy: Food and Agricultural Organisation of the U.N.Google Scholar
Frère, M. & Popov, G. F. (1979). Agrometeorological Crop Monitoring and Forecasting. Plant Production and Protection Paper 17. Rome, Italy: FAO.Google Scholar
Hiroi, T. & Monsi, M. (1966). Dry matter economy of Helianthus annuus communities grown at varying densities and light intensities. Journal of the Faculty of Science of the University of Tokyo 9:241285.Google Scholar
Inuyama, S. (1978). Effects of plant density under two irrigation regimes on leaf water potential, leaf diffusive resistance during drought stress period and grain yield of grain sorghum. Japan Journal of Crop Science 47:596601.Google Scholar
Jones, M. J. (1984). Sorghum flowering. Bulletin of Agricultural Research in Botswana 2:7892.Google Scholar
Mazhani, L. M. (1984). Sorghum varietal research as a background to plant breeding. Bulletin of Agricultural Research in Botswana 2:2734.Google Scholar
Myers, R. K. J. & Foale, M. A. (1980). Row spacing and population density in Australian grain sorghum production. Journal of the Australian Institute of Agricultural Science 46:214220.Google Scholar
Rees, D. J. (1986). Crop growth, development and yield in semi-arid conditions in Botswana. II. The effects of intercropping Sorghum bicolor with Vigna unguiculata. Experimental Agriculture 22:169177.Google Scholar
Staring, G. J. (1979). Soils of the Okovango Delta. Gaborone, Botswana: Ministry of Agriculture.Google Scholar
Stout, D. G., Kannangara, T. & Simpson, G. M. (1978). Drought resistance of Sorghum bicolor. 2. Water stress effects on growth. Canadian Journal of Plant Science 58:225233.Google Scholar
Thomas, G. A., Myers, R. K. J., Foale, M. A., French, M. V., Hall, B., Ladewig, J. H., Dove, A. A., Taylor, G. K., Lehroy, E., Wylie, P. & Sterling, G. D. (1981). Evaluation of row spacing and population density effects on grain sorghum over a range of Australian environments. Australian Journal of Experimental Agriculture and Animal Husbandry 21:210217.Google Scholar
Tyson, P. D., Dyer, T. G. J. & Mmetse, M. N. (1975). Secular changes in South African rainfall: 1880–1972. Quarterly Journal of the Royal Meteorological Society 101:817833.Google Scholar
Tyson, P. D. (1978). Rainfall changes over South Africa during the period of meteorological record. In Biography and Ecology of Southern Africa, 5570 (Ed. Werger, M. J.). The Hague: W. Junk.Google Scholar
Willey, R. W. & Heath, S. B. (1969). The quantitative relationships between plant population and crop yields. Advances in Agronomy 21:281321.Google Scholar