Abstract
Functioning of plant-aphid-natural enemy interactions may be associated with the structure and composition of withinfield vegetation, neighborhood fields and field borders, and the regional plant community of cropped and noncropped areas. Farmand region-scale vegetation in the wheat-growing area of the North American Great Plains was hypothesized to effect the abundance of two hymenopteran parasitoids, that differ in physiological and behavioral attributes, of the key pest aphid of wheat, Diuraphis noxia (Mordvilko). The parasitoids had greater sensitivity to farm-scale vegetation (wheat strip rotation with or without spring-sown sunflower) than region-scale vegetation (degree of diversification with other crops and wheat fields converted to conservation grasslands). A two-way factorial design of scale (farm- and region-scale) revealed that parasitoid abundance in grass-dominant (homogeneous) areas especially benefited from adding sunflower to the wheat-fallow strip crop rotation. Considerable sensitivity of the analysis was added when adjusting for seasonality of vegetation, revealing that the region-scale effects were most prominent late season. From a management viewpoint, adding sunflower into the wheat production system, especially in relatively homogeneous vegetation regions, tends to promote local parasitoid populations during the summer when spring-sown plants are maturing and wheat is not in cultivation. Contrasting results for A. albipodus and L. testaceipes were consistent with expectations based on behavioral and physiological attributes of the two aphid parasitoid families they represent. Still, the general management interpretation seems robust for the two parasitoids and has relevance to both farm- and region-scale management schemes that are occurring in the wheat production zone of North American Great Plains.
Highlights
The structure and composition of vegetation may be important drivers in the functioning of plant-aphid-natural enemy interactions
The analysis of variance with repeated measures for each parasitoid revealed significant three-way interaction among farm-scale vegetation, region-scale vegetation, and sampling date (A. albipodus: F = 3.09; df = 9, 113; P = 0.002; L. testaceipes: F = 2.61; df = 9, 113; P = 0.009). These results indicated that there were seasonal shifts in the vegetative diversity-parasitoid relationships
Aphelinus albipodus and L. testaceipes were sensitive to farm-scale vegetation, and region-scale vegetation to a lesser extent in good part through interaction with farmscale vegetation
Summary
The structure and composition of vegetation may be important drivers in the functioning of plant-aphid-natural enemy interactions. Cowgill et al (1993) found flowering non-crop plants next to cereal crops increased abundance of adults and eggs of the syrphid Episyrphus balteatus (Degeer) in winter wheat, with nectar and pollen likely serving as the key resource additions used by the hover fly. In England, Vorley & Wratten (1987) found barley and early-sown wheat adjacent to late-sown wheat served as a significant source of hymenopteran parasitoids (Aphidius spp.) to control cereal aphids on late-sown wheat. Aphids on the early grains were implicated as a key resource addition used by the parasitoid. In the USA, Ahern & Brewer (2002) found that addition of spring-sown sunflower into a strip rotation of winter wheat and fallow increased abundance of several hymenopteran parasitoids (Braconidae and Aphelinidae) that attack a key pest aphid on wheat. Sunflower had extra-floral nectaries and harbored non-pest aphids within the host range of these parasitoids (Noma et al, 2005; Rogers, 1985)
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