Feeding behavior in relation to spittlebug transmission of Xylella fastidiosa

Here, we provide the first insights into the transmission dynamics of the bacterium Xylella fastidiosa by the meadow spittlebug Philaenus spumarius , gathered through DC EPG (electrical penetration graph)-assisted transmission tests and comparative observations of the probing and feeding behavior of...

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Bibliographic Details
Published in:Journal of pest science 2020-09, Vol.93 (4), p.1197-1213
Main Authors: Cornara, Daniele, Marra, Monica, Morente, Marina, Garzo, Elisa, Moreno, Aranzazu, Saponari, Maria, Fereres, Alberto
Format: Article
Language:English
Subjects:
Agriculture
Bacteria
Biomedical and Life Sciences
Ecology
Entomology
Feeding behavior
Flutter
Foregut
Forestry
Host plants
Ingestion
Inoculation
Insects
Life Sciences
Original Paper
Philaenus spumarius
Plant cells
Plant Pathology
Plant Sciences
Vectors
Waveforms
Xylella fastidiosa
Xylem
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Summary:Here, we provide the first insights into the transmission dynamics of the bacterium Xylella fastidiosa by the meadow spittlebug Philaenus spumarius , gathered through DC EPG (electrical penetration graph)-assisted transmission tests and comparative observations of the probing and feeding behavior of infective versus non-infective vectors on healthy olive plants. Bacterial cells binding to P. spumarius ’ foregut occurred at a very low rate and in a time as short as 15 min spent by the insect in xylem ingestion or activities interspersed with xylem ingestion (interruption during xylem ingestion and resting). P. spumarius inoculation of bacterial cells into the xylem was exclusively associated with an early (ca. 2 to 7 min after the onset of the first probe) and occasional behavior, provisionally termed waveform Xe, presumably related to egestion regulated by pre-cibarial valve fluttering. Infective spittlebugs compared to non-infective ones exhibited: (i) longer non-probing and shorter xylem ingestion; (ii) longer duration of single non-probing events; (iii) fewer sustained ingestions (ingestion longer than 10 min) and interruptions of xylem activity (N); and (iv) longer time required to perform the first probe. These observations suggest difficulties in feeding of infective P. spumarius probably caused by the presence of X. fastidiosa within the foregut. Overall, our data indicate that likely short time—few minutes—is required for X. fastidiosa transmission by P. spumarius ; thus, vector control strategies should aim at preventing spittlebug access to the host plant. Furthermore, our findings represent an important contribution for further research on the disruption of spittlebug–bacterium interactions.
ISSN:1612-4758
1612-4766
DOI:10.1007/s10340-020-01236-4