Pheromones in white pine cone beetle,Conophthorus coniperda (schwarz) (Coleoptera: Scolytidae)

Birgersson, Göran; DeBarr, Gary L.; Groot, Peter de; Dalusky, Mark J.; Pierce, H. D.; Borden, John H.; Meyer, Holger; Francke, Wittko; Espelie, Karl E.; Berisford, C. Wayne

doi:10.1007/bf02036648

Cited by 61 publications

(74 citation statements)

References 30 publications

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“…Both Birgersson et al (1995) and Pierce et al (1995) identified an inhibitory compound, conophthorin [(5S,7S)-(-)-7-methyl-1,6-dioxaspiro-[4,5]decane] from Conophthorus spp. Miller et al (2000) found (2R,5S)-(+)-trans-pity01 in female C. ponderosae and (5S,7S)-(-)-conophthorin in males from Pinus monticola Dougl.…”

Section: Identified This Semiochemical As (+)-Trans-pity01 [(2r5s)-(mentioning

confidence: 99%

“…on Texada Island, British Columbia, Canada; they also found that a-pinene synergizes pityol in C. ponderosae on P. monticola. Birgersson et al (1995) and showed that racemic a-pinene (2,6,6-trimethylbicyclo[3.1.1]hept-2-ene; hereinafter referred to as a-pinene) is also a synergist for the attraction of male C. coniperda by pityol. In contrast, a-pinene does not function as a synergist in C. resinosae in Ontario (de Groot and Zylstra 1995) nor in C. ponderosae in California (JD Stein and NG Rappaport, unpublished data).…”

Section: Identified This Semiochemical As (+)-Trans-pity01 [(2r5s)-(mentioning

confidence: 99%

“…Kinzer et al (1972) demonstrated a response to infested cones by male Conophthorus ponderosae Wood (= C. monticolae Hopkins) in laboratory bioassays, and de provided evidence for the existence of a femaleproduced attractant pheromone in Conophthorus coniperda (Schwarz) and Conophthorus resinosae Hopkins. Birgersson et al (1995) and Pierce et al (1995) …”

Section: Introductionmentioning

confidence: 99%

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RESPONSES OF CONOPHTHORUS SPP. (COLEOPTERA: SCOLYTIDAE) TO BEHAVIORAL CHEMICALS IN FIELD TRIALS: A TRANSCONTINENTAL PERSPECTIVE

et al. 2000

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The Canadian Entomologist 132: 925 -937 (2000) We tested six behavioral chemicals, pityol, conophthorin, 4-allylanisole, verbenone, 2-hexenol, and a-pinene, in a series of field trials directed at six combinations of Conophthorus Hopkins -Pinus L. spp. (Pinaceae) Ait. trans-Verbenol was tested only on C . resinosae on P. resinosa. Traps baited with pityol caught more beetles than unbaited traps in nearly all of the assays, and conophthorin consistently inhibited male beetle response to pityol for all species tested. Behavioral responses of species of Conophthorus to a-pinene appeared to parallel host phylogeny, inasmuch as beetles using Haploxylon pines as hosts utilized a-pinene as a synergist for the beetle-produced pityol, whereas beetles using Diploxylon pines as hosts did not. a-Pinene was a synergist for pityol in C . ponderosae on P. monticola and C. coniperda on P. strobus, but not for species of Conophthorus on any other pines tested. Conophthorus ponderosae on P. ponderosa was the only beetle-host combination tested where verbenone was a synergist for pityol, but this effect was not consistent in all years of testing. It was also the only beetle-host combination in which 4-allylanisole was a repellent. For all otherAuthor to whom all correspondence should be addressed (E-mail: nrappaport@fs.fed.us). THE CANADIAN ENTOMOLOGISTNovemberPecember 2000 beetle-host combinations, verbenone was neutral to slightly repellent and 4-allylanisole was either synergistic or neutral in pityol-baited traps. Promising synergists and intermptants/repellents were identified for implementation in pestmanagement regimes, including conophthorin as an interruptant for all species of Conophthorus tested, 4-allylanisole as an interruptant for C. ponderosae on P . ponderosa, a-pinene as a synergist for pityol in all species tested on Haploxylon pines, and 4-allylanisole as a synergist for pityol in C. conicolens and C. coniperda. ResumeNous avons test6 six substances chimiques affectant le comportement, le pityol, la conophthorine, le 4-allylanisole, la verbhone, le 2-hexenol, et l'a-pinkne, au cours d'une sCrie de tests en nature sur six combinaisons de Conophthorus Hopkins -Pinus spp. (Pinaceae) en plusieurs endroits rkpartis dans toute 1'AmCrique du Nord. Les combinaisons colCoptkre -arbre-h8te ont Ct C les suivantes: Conophthorus ponderosae Hopkins sur Pinus ponderosa Laws., C. ponderosae sur Pinus monticola Dougl., Conophthorus conicolens Wood sur Pinus pseudostrobus Lindl., Conophthorus teocotum Wood sur Pinus teocote Schl. et Cham., Conophthorus coniperda (Schwarz) sur Pinus strobus L. et Conophthorus resinosae Hopkins sur Pinus resinosa Alt. Le trans-verbCnol a Ct C test6 seulement sur C. resinosae sur P. resinosa. Les pikges garnis de pityol ont capturC plus d'insectes que les pikges non garnis dans presque tous les tests et la conophthorine inhibait systkmatiquement la rCponse des miiles au pityol chez toutes les espkces testkes. La rCponse de toutes les espkces de Conophthorus a l'a-pinkne semble fonction d...

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Section: Identified This Semiochemical As (+)-Trans-pity01 [(2r5s)-(mentioning

confidence: 99%

Section: Identified This Semiochemical As (+)-Trans-pity01 [(2r5s)-(mentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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RESPONSES OF CONOPHTHORUS SPP. (COLEOPTERA: SCOLYTIDAE) TO BEHAVIORAL CHEMICALS IN FIELD TRIALS: A TRANSCONTINENTAL PERSPECTIVE

et al. 2000

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“…Later, Kohnle et al (1992) found it in the frass of the fir bark beetle Cryphalus piceae, reducing field response of the insect to attractants. The name conophthorin comes from the genus Conophthorus, that includes species known to produce it with an inhibitor effect to aggregation pheromones or host kairomones, that is, Conophthorus coniperda (Birgersson et al 1995;de Groot et al, 1998, Rappaport et al, 2000 and C. resinosae Rappaport et al, 2000). In addition, there are several studies about the repellent effect of (E)-(-)-conophthorin and racemic conophthorin to pheromone baited traps in bark beetles species that are not known to produce it, as seen in Xylosandrus germanus (Kohnle et al 1992), Dendroctonus ponderosae (Huber et al, 1999), D. pseudotsugae (Huber et al, 1999(Huber et al, , 2000(Huber et al, , 2001, Dryocoetes confusus (Huber et al, 2000) Pityophthorus setosus (Dallara et al, 2000), C. cornicolens and C. teocotum (Rappaport et al 2000), I. pini (Huber et al, 2000(Huber et al, , 2001, I. duplicatus , I. sexdentatus (in France) (Jactel et al, 2001) and I. typographus (Zhang & Schlyter, 2003).…”

Section: The Six-toothed Bark Beetle Ips Sexdentatus (Börner) (Fig 3)mentioning

confidence: 99%

“…Regarding the chemical ecology of P. pubescens, López et al (2011) showed that both sexes emit (2R,5S)-2-(1-hydroxy-1-methylethyl)-5-methyltetrahydrofuran, also known as (E)-pityol, through different techniques of volatile collection (PORAPAK-Q and Solid Phase Microextraction/SPME). Positive enantiomer of this compound is also a component of the aggregation pheromone of other species of the genus, such as P. pityographus (Francke et al, 1987) and P. carmeli, P. nitidulus and P. setosus (Dallara et al, 2000), and the female-produced aggregation pheromone of the cone beetles Conophthorus resinosae, C. coniperda and C. ponderosae Birgersson et al 1995;Miller et al, 2000). However, in contrast with P. pubescens only one of the sexes of these species seems to emit (E)-(+)-pityol, as follows: males of P. pityographus and P. carmeli and females of P. nitidulus and P. setosus.…”

Section: Twig Beetle Pityophthorus Pubescens (Marsham) (Fig 6)mentioning

confidence: 99%