Abstract
The paper reviews existing data on the food quality of cereal aphids for generalist predators. Data are presented for spiders, harvestmen, carabid and staphylinid beetles, cockroaches, ants and one species of bird. All results agree that cereal aphids are low-quality food compared to alternative prey types (in most studies fruit flies). This is associated both with a low consumption capacity for aphids and a low utilization efficiency of the aphid food. A pure aphid diet allows full juvenile development in only a few species. Aphids as part of mixed diets can have negative, neutral or positive effects, which depends on the quality of the remaining diet. The low consumption capacity for aphids is due to the development of a specific feeding aversion. Genetic variation in the ability to tolerate aphids has been documented, indicating that predators may be able to adapt to a higher proportion of aphids in the diet in areas where outbreaks are frequent. A consequence of these findings is that predator populations rely on alternative prey (e.g. Collembola and Diptera) for maintenance and reproduction, and are probably unable to benefit nutritionally from an aphid outbreak. The low food quality of aphids to generalist predators explains why generalist and specialist predators have widely different roles in aphid biocontrol, but does not rule out that under some conditions the generalists may be able to inhibit aphid population growth sufficiently to prevent an outbreak, as field experiments have indicated. Simulation modelling shows that a low consumption capacity for aphids has little influence on the ability to prevent aphid population increase at low aphid immigration rates, but a great influence at high aphid immigration rates. Modelling also indicates that there may be an optimal availability of high-quality alternative prey that maximizes the impact of generalist predators on aphid population growth.
Highlights
The natural control of aphids in cereal fields can be viewed as the result of a combined action of generalist predators and more or less specialized aphidophagous predators
We predicted that aphids would be a positive addition to a simple nutrient-insufficient diet, but a negative addition to an already nutrient-rich diet. We tested this in a simple experiment (Bilde & Toft, 2000) by comparing the fitness effects on the linyphiid spider Dicymbium brevisetosum of two mixed diets of fruit flies and R. padi; in one diet the fruit flies were of high nutritional quality, in the other they were of low nutritional quality
Part of the hypothesis was confirmed by the finding, that adding R. padi to enriched flies gave a significantly reduced number of young, while it had no effect to add the same aphid to non-enriched fruit flies
Summary
The natural control of aphids in cereal fields can be viewed as the result of a combined action of generalist predators and more or less specialized aphidophagous predators. Little effort seems to have been devoted to identifying the underlying biological reasons, and no satisfactory explanation for the ”division of labour” between generalist and specialist predators has been given Though it is clear why generalists can be present in fields early in the season and specialists cannot, it has been unclear why the generalist predators are so ineffective later in the season when aphid populations are high. The literature on aphidophagous predators frequently use the term “polyphagous” for coccinellids, syrphids, chrysopids and others, which include a variety of prey other than aphids in their diets These animals are not as polyphagous in their food choice as are the spiders and carabid beetles that are the focus of the present review. The term will here be used with the latter meaning
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