FACTORS AFFECTING BIOLOGICAL-CONTROL OF CASSAVA MEALYBUG BY EXOTICPARASITOIDS - A RATIO-DEPENDENT SUPPLY-DEMAND DRIVEN MODEL

1. A unified ratio-dependent supply-demand driven tritrophic model of the cassava (Manihot esculenta Crantz) system was compared to field da ta, and then used to explore the basis for the successful control of c assava mealybug (CM, Phenacoccus manihoti Mat.-Ferr.) in Africa by the exotic parasitoid Epidinocarsis lopezi (DeSantis). The causes for the failure of the related parasitoid E. diversicornis (Howard) to establ ish were examined. 2. Among the important findings are: (i) the functi onal and numerical responses of either parasitoid alone are insufficie nt to explain the observed dynamics of the mealybug; (ii) rainfall and its enhancement of the fungal pathogen Neozyites fumosa suppress CM n umbers sufficiently during the wet season so that the parasitoid E. lo pezi, with its efficient search, can regulate CM density at low levels during the dry season; (iii) weather and soil factors (e.g. nitrogen and water) affect plant growth rates directly, and CM size and number dynamics and parasitoid sex ratios indirectly; (iv) the effects of hos t-size dynamics on sex ratios favour E. lopezi over E. diversicornis; (v) the importance of low rates of parasitoid immigration for the succ essful regulation of CM is demonstrated; (vi) the higher host-finding capacity of E. lopezi enhances its dominance over E. diversicornis; bu t (vii) the sway of E. lopezi in cases of multiple parasitism causes t he competitive displacement of E. diversicornis from the system during periods when few hosts are available and/or when weather-induced plan t stress decreases host size, favouring a stronger male-biased sex rat io in E. diversicornis than in E. lopezi. 3. This modelling paradigm a llows the richness of the observed biology to be incorporated with rel ative ease.