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Fitness effects of two facultative endosymbiotic bacteria on the pea aphid, Acyrthosiphon pisum, and the blue alfalfa aphid, A. kondoi (2000)

Chen, De-Qiao ; Montllor, Clytia B. ; Purcell, Alexander H.

Springer

Entomologia experimentalis et applicata 95 (2000), S. 315-323

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ISSN: 1570-7458

Keywords: endosymbionts ; secondary symbionts ; Aphididae ; Hemiptera ; Rickettsia ; alatae

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract The effects of two bacterial endosymbionts, designated PASS and PAR, were evaluated on the pea aphid, Acyrthosiphon pisum (Harris) (Hemiptera:Aphididae), in which they occur facultatively, and on the blue alfalfa aphid, A. kondoi Shinji, in which these bacteria have not been found in natural populations. Subclones of pea aphids and blue alfalfa aphids, derived from parent aphid clones that did not contain PASS or PAR, were infected with one or both bacteria, generating PASS- and/or PAR-positive subclones with minimal genetic differences from the parent clones. Under laboratory conditions at 20 °C, PAR consistently reduced the fecundity (by between 19 and 60%) of subclones derived from three different parent pea aphid clones on bur clover, Medicago hispida Gaertn. PAR had intermediate effects on pea aphids reared on sweet pea, Lathyrus odoratus L., and had no significant effect on pea aphids on alfalfa, Medicago sativa L. The effect of PASS was either neutral or negative, depending on parent clone as well as host plant. Also at 20 °C, PASS reduced fecundity (70–77%) and longevity (40–48%), and increased the age of first reproduction (by up to 1.5 days) of blue alfalfa aphid reared on alfalfa and clover. PAR had a less dramatic effect (e.g., 30–39% reduction in fecundity) on these traits of blue alfalfa aphid. In contrast, PAR and PASS increased the fitness of pea aphid subclones of one parent clone reared for three generations at 25 °C on each of the three test plants. Without facultative bacteria, fecundity of the parent clone was reduced to a mean total of 〈 6 offspring per adult at this elevated temperature, but with PASS or PAR, mean total fecundity of its subclones was 〉 35. However, this ameliorative effect of facultative bacteria at 25 °C was not found for two other sets of parent clones and their derived subclones. Alate production in pea aphids was significantly increased in large populations of two PASS- and PAR-positive subclones relative to their parent clones. Attempts to transmit PASS or PAR horizontally, i.e., from aphid to aphid via feeding on host plants (bur clover), were unsuccessful.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1004083324807

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Natural and induced differences in probing behavior of two biotypes of the greenbug, Schizaphis graminum, in relation to resistance in sorghum (1983)

Montllor, Clytia B. ; Campbell, Bruce C. ; Mittler, T. E.

Springer

Entomologia experimentalis et applicata 34 (1983), S. 99-106

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ISSN: 1570-7458

Keywords: Greenbug ; Schizaphis graminum ; Sorghum bicolor ; Host-plant resistance ; Aphid biotypes ; Conditioning ; Electronic monitoring

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Description / Table of Contents: Zusammenfassung Wachstum und Fortpflanzung beim kürzlich entdeckten Biotyp E (GBE) von Schizaphis graminum (Rondani) war ungefähr zweimal grösser als bei Biotyp C (GBC) und zwar auf der GBC-resistenten Sorghumsorte IS 809. Das Stechverhalten beider Biotypen wurde auf IS 809 elektronisch verfolgt. GBE-Läuse begannen erheblich schneller mit der ununterbrochenen Saftaufnahme (dh Saftaufnahme, die mehr als 15 Minuten anhielt) als GBC-Läuse. Die Gesamtzeit der Saftaufnahme innerhalb 24 Stunden war bei GBE erheblich länger als bei GBC. Dies ist zum Teil darauf zurückzuführen, dass die GBE-Läuse weniger Zeit brauchten, um mit der ununterbrochenen Saftaufnahme zu beginnen. Wenn diese einmal begonnen hatte, nahmen beide Biotypen gewöhnlich während langer Perioden (über 8 Stunden) Saft von IS 809 auf. Weitere Experimente zeigten, dass GBC-Läuse, die mindestens 24 Stunden vor der Beobachtungszeit Zugang zu IS 809 gehabt hatten, Saft schneller fanden, ununterbrochene Saftaufnahme früher begannen und die Saftaufnahme länger fortsetzten als GBC, die vorher nicht Zugang zu dieser Sorte gehabt hatten. Die Bedeutung dieser Beobachtungen für das Verständnis des Resistenzmechanismus von IS 809 gegen GBC und des Zusammenbruchs dieser Resistenz gegen GBE wird besprochen.

Notes: Summary A recently discovered biotype of the greenbug, Schizaphis graminum (Rondani), biotype E (GBE), was found to grow and reproduce at approximately twice the rate of biotype C (GBC) on a GBC-resistant variety of sorghum, IS 809. The probing behavior of both biotypes was electronically monitored on IS 809. Aphids of GBE established committed phloem ingestion (CPI) (i.e., ingestion from the phloem lasting 〉 15 min) in a significantly shorter amount of time than did aphids of GBC. The total duration of phloem ingestion during a 24 hr period was significantly longer for GBE than for GBC, but this can be partially accounted for by the shorter time needed for aphids of GBE to establish initial CPI. Once CPI was initiated, aphids of both biotypes tended to ingest for long periods (〉 8 hr) from the phloem of IS 809 during the 24 hr assay. Further experiments showed that GBC exposed to IS 809 for at least 24 hr prior to being monitored on this variety also reached the phloem faster, established CPI sooner, and spent longer feeding from the phloem than did GBC without previous exposure to this variety. The significance of these findings towards an understanding of the mechanism of resistance of IS 809 to GBC and to the breakdown of this resistance to GBE is discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00300907

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