Intracellular punctures by the adult whitefly Bemisia argentifolii on DC and AC electronic feeding monitors

Abstract

AbstractOne of the most biologically important electrical penetration graph (EPG) waveforms recorded from aphids on DC EPG systems is the potential drop (pd), which is correlated with intracellular punctures by the stylet tips. In this study, pds of the adult female Bemisia argentifolii Bellows & Perring (Homoptera: Aleyrodidae), recorded on a DC EPG, are characterized and compared to pds of aphids. Whitefly pds consisted of 3 phases similar to those recorded from probing aphids. The major difference between aphid pds and whitefly pds was that whitefly pds lacked any observable subphases within the second phase of the pd. In addition, whitefly pds differed from aphid pds in that they: (1) did not occur frequently during stylet penetration, (2) did not occur early within probes, (3) did not occur during brief probes (<1 min). Pds produced by probing whiteflies always were preceded by a variant of waveform C which we named the pre‐pd. The differences between pds of aphids and whiteflies are discussed in terms of their implications for virus transmission and host selection. Using a technique where EPG recordings can be switched back and forth between DC and AC systems, we demonstrated that the AC EPG pseudotransition waveform (Pt) was equivalent to the DC pd, and thus was correlated with intracellular punctures. Previously, intracellular punctures by whiteflies had not been detectable on AC EPG systems. The AC Pt consisted of three distinct phases (Pt1, Pt2, and Pt3) and our observations suggest that AC Pt1 correlates with the pre‐pd waveform in DC EPGs and that AC Pt 2 and 3 correlate with the intracellular phase of the DC pd. AC Pts (n = 47) and DC pds (n = 43) were recorded on three separate plant species and were similar on all plant species.