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Losses in yield due to pests in tropical crops and their value in policy decision-making

Published online by Cambridge University Press:  19 September 2011

P. T. Walker
P. T. Walker
Affiliation:
10 Cambridge Road, Salisbury, Wiltshire SPI 3BW, England
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Abstract

Recent developments in the assessment and collection of yield loss data due to pests are discussed. The information is needed for decision-making on resource allocation, on pest management, crop production planning and crop improvement. The difficulties in accurate loss assessment include lack of information on the distribution of pests in space and time, the difference between research and farmers yields, how much control has been used, and changes in crop resistance and in pest status. Sources of data are described and examples of losses in a number of tropical crops. The difficulties met in using losses to justify research and crop improvement projects, with particular reference to banana pests in Tanzania and cassava pests in Ghana, include the absence of reliable data, the selection of a base-line yield and the effects of other causes of loss.

Résumé

Les développements récents dans l'évaluation et la collection des données des pertes de production causées par les insectes nuisibles sont discutés. Ces données sont nécessaires pour faire les décisions sur la répartition des ressources, sur la lutte integrée et sur l'amélioration des cultures. Les difficultés rencontrées sont le défaut de renseignements sur le distribution des insectes en espace et en temps, la différence entre les rendements sur la ferme et experimentales, le degré de lutte chimique, et les changements dans la résistance des cultures et de la situation des insectes nuisibles.

Les origines des données et examples des pertes de quelques cultures tropicales sont presentés. Les difficultés rencontrées en utiliser les données pour justifier des projets d'amélioration des bananiers en Tanzanie et la manioc en Ghana comprendent l'absence des données sériouses, la sélection d'une ligne base de rendement, et les effets d'autres causes de perte.

Keywords

Crop losspestseconomic effectsyield lossbanana pestsCosmopolitescassava pestsPhenacoccusMononychellusPertes de productioneffets économiquesinsectes nuisibles aux bananiers et manioc
Type
Symposium VI: Economie Impact of Insects in the Tropics
Information
International Journal of Tropical Insect Science , Volume 8 , Issue 4-5-6: Recent Advances in Research on Tropical Entomology , December 1987 , pp. 665 - 671
Copyright
Copyright © ICIPE 1987

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References

REFERENCES

Ahrens, C., Cramer, H. H., Mogk, M. and Peschel, H. (1983) Economic impact of crop losses. 10th Int. Cong. Ent. Brighton. 1, 6573.Google Scholar
Bardner, R. and Fletcher, K. E. (1974) Insect infestations and their effects on growth and yield of field crops. Bull. Ent. Res. 64, 141160.Google Scholar
Barr, B. A., Koehler, C. S. and Smith, R. F. (1975) Crop losses in rice. UC/AID Report, University of California, Berkeley, USA.Google Scholar
Chiarappa, L. (19711981) FAO Manual of Crop Loss Assessment Methods. +2 supplements. FAO and CAB, Farnham Royal, Slough, UK. (looseleaf).Google Scholar
Cramer, H. H. (1967) Plant protection and world crop production. Pflanzenshutz -Nachr. Bayer 20, 1524.Google Scholar
Djokoto, L. K., Bhatia, J. S. and Tiboo, C. K. (1982) The spread of cassava mealybug (Phenacoccus manihoti). Proc. workshop on biol. control and resistance breeding to control cassava mealybug and green cassava mite in Africa. IITA, Ibadan, Nigeria (in press).Google Scholar
FAO (1980) Regional Food Plan for Africa. FAO, Rome, 107 pp.Google Scholar
Ordish, G. (1952) Untaken Harvest: Man's Loss of Crops from Pest, Weed and Disease. Constable, London.Google Scholar
Reed, W. (1983) Crop losses caused by insect pests in the developing world. 10th Int. Cong. Ent. Brighton 1, 7479.Google Scholar
Simmons, N. W. (1965) Bananas. (2nd ed.) Longmans Green, London, 512 pp.Google Scholar
Singh, D. and Khosla, R. K. (1983) Assessment and collection of data on pre-harvest foodgrain losses due to pests and diseases. FAO Economic and Social Development Paper 28, FAO, Rome, 127 pp.Google Scholar
Van der Graaff, N. (1981) Increasing the reliability of crop loss information: the use of indirect data. In Crop loss assessment methods, supplement 3 (Edited by Chiarappa, L.), FAO and CAB, Farnham Royal, Slough, UK, 123 pp.Google Scholar
Veeresh, G. K. (1980) Economic losses due to pests of major crops in India. In Assessment of crop losses due to pests and diseases (Edited by Govindu, H. C., Veeresh, G. K., Walker, P. T. and Jenkyn, J. F.) Univ. Agric. Sci. Bangalore, India, 3148.Google Scholar
Walker, P. T. (1975) Pest control problems, pre-harvest, causing major losses in world food supplies. FAO Plant Prot. Bull. 23, 7077.Google Scholar
Walker, P. T. (1983a) Crop losses: the need to quantify the effects of pests, diseases and weeds on agricultural production. Agric. Ecosystems and Environ. 9, 119158.Google Scholar
Walker, P. T. (1983b) The assessment of crop losses in cereals. Insect Sci. Applic. 4, 97104.Google Scholar
Walker, P. T. (1983c) The collection of data on crop losses due to pests. 10th Int. Cong. Ent. Brighton 1, 111.Google Scholar
Zadoks, J. C. and Schein, R. D. (1979) Epidemiology and plant disease management. Oxford University Press, Oxford.Google Scholar