The objectives of this experiment were to (a) determine the virulence (median lethal GW572016 concentration, i.e. LC50) of the two fungal isolates against early third instar D. radicum larvae, (b) estimate the LC90 for use in the T. rapae dual-choice bioassays (see Section 2.5.2 below) and (c) determine the time–mortality response at different concentrations. From the stock conidia suspensions the following concentrations were prepared; 1 × 104, 1 × 105, 1 × 106, 1 × 107,
1 × 108 and 1 × 109 conidia ml−1 and a control with sterile 0.05% Triton-X 100. Separate batches of 10 third instar larvae were immersed in 5 ml of the respective suspensions by placing them on the edge of a test tube and carefully pushing them into the suspension with a sterile inoculation loop moistened by the suspension. The test tube was vortexed for 1 s, after which the larvae were left in the suspension for 20 s, and then poured onto a filter paper in a Büchner funnel and left to air dry for 1 min. The larvae were transferred individually to separate 30 ml medicine Palbociclib cups (Hammarplast Medical AB, Sweden) with 20 × 20 mm filter papers, moistened by deionized water, placed on the wall of the cup. The cups were incubated in darkness at 20 ± 1 °C. After 24 h the filter paper was removed and a thin slice of turnip (15 × 15 × 3 mm) was provided to each larva allowing for observation of larval condition with minimum disturbance. Avoiding placement
of items in the cups during the first 24 h minimized the opportunity for larvae to mechanically remove conidia from the cuticle. The turnip slice was replaced every five days. The larvae were checked daily for mortality for 7 days, since pupation started after this period. Dead larvae were
surface sterilized in 10% sodiumhypochlorite (Sigma–Aldrich, Sweden) for 5 s, then rinsed in deionized water for an additional 5 s after which they were incubated in sealed medicine cups under moist conditions. Montelukast Sodium As a criterion of mycosis the color of infected larvae, subsequent mycelial protrusion and the formation of distinctive conidia was used. Infected larvae usually turned characteristically hard and cream-colored for M. brunneum and pinkish purple for B. bassiana prior to emergence of mycelia. Mycelia protrusion usually occurred from mycosed larvae the day after death with subsequent formation of conidia. The treatments were arranged in a completely randomized design on trays (270 × 197 mm, Hammarplast Medical AB, Sweden) in polystyrene boxes (310 × 225 × 126 mm, COFA, Sweden). The experiment was replicated on four different occasions, each time with 10 larvae for each concentration and fungal isolate. Bioassays with the two fungal isolates were performed in order to (a) determine the virulence (LC50) to adult T. rapae, and (b) determine the time–mortality relationships at different concentrations. The concentrations prepared were: 1 × 105, 1 × 106, 1 × 107, 1 × 108 and 1 × 109 conidia ml−1 and a control with 0.