• Triaspis aequoris is the key sunflower seed weevil parasitoid in the Dakotas. • Planting date has an inconsistent effect on parasitism. • Wild Helianthus annuus may serve as an insecticide-free refugia for Triaspsis aequoris. • DNA-based detection has advantages over emergence-based detection. The red sunflower seed weevil, Smicronyx fulvus LeConte, is a univoltine pest of sunflower whose larvae feed inside developing achenes. Feeding by a single larva can reduce seed oil by approximately 30%. Several factors (including pyrethroid resistance) have produced extremely high S. fulvus populations in South Dakota. Though early planting is an effective cultural practice to reduce S. fulvus damage, changes to planting dates may impact natural enemies, including the parasitoid, Triaspis aequoris Martin. To assess effects of early planting on parasitism by T. aequoris , weevil larvae ( Smicronyx spp.) were collected from sunflowers planted over the range of crop insurance dates prescribed by the USDA’s Risk Management Agency. Additional larvae were collected from wild sunflower, Helianthus annuus L., in several locations. Parasitism was assessed using both emergence- and DNA-based methods. Parasitism ranged from 0.0 to 23.2% in the cultivated samples and 0.0 to 25.0% in the wild, and significant (but inconsistent) effects of planting date were apparent. Smicronyx spp. larvae from wild H. annuus tended to have a lower mass than those from cultivated sunflowers. Key findings were: (1) Triaspis aequoris was the only parasitoid reared from Smicronyx spp. collected in cultivated sunflowers, (2) planting date has an inconsistent effect on parasitism, and (3) wild H. annuus may serve as an insecticide-free refuge of T. aequoris while producing a limited number of less fecund S. fulvus adults, and (4) the DNA-based method is more reliable for assessing parasitism by T. aequoris than the traditional emergence-based method.
Cluever et al. (Fri,) studied this question.