Electrical recording and ultrastructure of stylet penetration by the greenhouse whitefly
1989
Janssen, J.A.M. | Tjallingii, W.F. | Lenteren, J.C.
Earlier studies have indicated that interior (physical and/or chemical) properties of a plant may be responsible for feeding-site selection by the greenhouse whitefly, Trialeurodes vaporariorum (Westw.). In order to study the process of feeding-site selection further, stylet-penetration activities and the pathway followed by the stylets in host-plant tissue were investigated using a DC electrical recording method and transmission electron microscopy (TEM). Penetrating whiteflies attached to a gold wire were included in an electrical circuit to record electrical penetration graphs (EPGs). Seven EPG patterns have been distinguished, five of which could be correlated with components of the stylet-penetration process: 1) one with penetration of the leaf surface, 2) one with intercellular penetration and salivary-sheath secretion, 3) one with sieve element penetration and ingestion, 4) one with short penetration of a cell, and 5) one with xylem penetration. The stylet pathway is almost completely intercellular before the phloem is reached and in contrast to aphids, brief symplast punctures are very rare. In general, it takes T. vaporariorum more than half an hour from the start of a penetration to reach a sieve element. Rejection of feeding sites occurs within a few minutes of penetration by adult whiteflies, a time span in which stylets are presumed to penetrate just beyond the epidermis. Properties of the apoplast close to the leaf surface seem therefore to play a major role in feeding-site selection.
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