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« Previous GenusXylaplothrips    Next GenusXyleborus »

Semiochemicals of Genus Xyleborinus

Phylum: Arthropoda
Subphylum: Uniramia
Class: Insecta
Order: Coleoptera
Family: Scolytidae
Subfamily: Scolytinae
Tribe: Xyleborini
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Bedoukain RussellIPM

Semiochemical(s):

Xyleborinus alni Niijima
 
               Reding ME  2011  J. Econ. Entomol.  104: 2017   
    ethyl alcohol    Relative ratio of the component   (*) indicates that compound is active   A
Category of the chemical signal
A -   Attractant
Al -   Allomone
K -   Kairomone
P -   Pheromone
Sy -   Synomone
 
L
Source of the chemical signal
F -   Female
H -   Host (could be of plant or animal origin)
L -   Lure
M -   Male
M&F -   Male and Female
S -   Solider
Q -   Queen
W -   Worker
 
Amount
pg -   Picogram
ng -   Nanogram
g -   Microgram
mg -   Milligram
g -   Gram
 
Ohio, USA 
 
 
Xyleborinus andrewesi Blandford
 
               Kendra PE  2017  Plos one  12: 0179416   
    quercivorol    Relative ratio of the component   (*) indicates that compound is active   A
Category of the chemical signal
A -   Attractant
Al -   Allomone
K -   Kairomone
P -   Pheromone
Sy -   Synomone
 
Source of the chemical signal
F -   Female
H -   Host (could be of plant or animal origin)
L -   Lure
M -   Male
M&F -   Male and Female
S -   Solider
Q -   Queen
W -   Worker
 
Amount
pg -   Picogram
ng -   Nanogram
g -   Microgram
mg -   Milligram
g -   Gram
 
Florida, USA 
    alpha-copaene    Relative ratio of the component   (*) indicates that compound is active    
Source of the chemical signal
F -   Female
H -   Host (could be of plant or animal origin)
L -   Lure
M -   Male
M&F -   Male and Female
S -   Solider
Q -   Queen
W -   Worker
 
Amount
pg -   Picogram
ng -   Nanogram
g -   Microgram
mg -   Milligram
g -   Gram
 
 
 
 
Xyleborinus attenuatus Blandford
 
               Sweeney JD  2016  Eur. J. Entomol.  113: 84   
    ethyl alcohol    Relative ratio of the component   (*) indicates that compound is active   A
Category of the chemical signal
A -   Attractant
Al -   Allomone
K -   Kairomone
P -   Pheromone
Sy -   Synomone
 
L
Source of the chemical signal
F -   Female
H -   Host (could be of plant or animal origin)
L -   Lure
M -   Male
M&F -   Male and Female
S -   Solider
Q -   Queen
W -   Worker
 
Amount
pg -   Picogram
ng -   Nanogram
g -   Microgram
mg -   Milligram
g -   Gram
 
Far East, Russia 
 
               Galko J  2014  Biologia  69: 1376   
    ethyl alcohol    Relative ratio of the component   (*) indicates that compound is active   A
Category of the chemical signal
A -   Attractant
Al -   Allomone
K -   Kairomone
P -   Pheromone
Sy -   Synomone
 
L
Source of the chemical signal
F -   Female
H -   Host (could be of plant or animal origin)
L -   Lure
M -   Male
M&F -   Male and Female
S -   Solider
Q -   Queen
W -   Worker
 
Amount
pg -   Picogram
ng -   Nanogram
g -   Microgram
mg -   Milligram
g -   Gram
 
Slovakia 
 
 
Xyleborinus gracilis Eichhoff
 
               Kendra PE  2017  Plos one  12: 0179416   
    quercivorol    Relative ratio of the component   (*) indicates that compound is active   A
Category of the chemical signal
A -   Attractant
Al -   Allomone
K -   Kairomone
P -   Pheromone
Sy -   Synomone
 
Source of the chemical signal
F -   Female
H -   Host (could be of plant or animal origin)
L -   Lure
M -   Male
M&F -   Male and Female
S -   Solider
Q -   Queen
W -   Worker
 
Amount
pg -   Picogram
ng -   Nanogram
g -   Microgram
mg -   Milligram
g -   Gram
 
Florida, USA 
    alpha-copaene    Relative ratio of the component   (*) indicates that compound is active    
Source of the chemical signal
F -   Female
H -   Host (could be of plant or animal origin)
L -   Lure
M -   Male
M&F -   Male and Female
S -   Solider
Q -   Queen
W -   Worker
 
Amount
pg -   Picogram
ng -   Nanogram
g -   Microgram
mg -   Milligram
g -   Gram
 
 
 
 
Xyleborinus saxeseni Ratzeburg
 
               Galko J  2014  Biologia  69: 1376   
    ethyl alcohol    Relative ratio of the component   (*) indicates that compound is active   A
Category of the chemical signal
A -   Attractant
Al -   Allomone
K -   Kairomone
P -   Pheromone
Sy -   Synomone
 
L
Source of the chemical signal
F -   Female
H -   Host (could be of plant or animal origin)
L -   Lure
M -   Male
M&F -   Male and Female
S -   Solider
Q -   Queen
W -   Worker
 
Amount
pg -   Picogram
ng -   Nanogram
g -   Microgram
mg -   Milligram
g -   Gram
 
Slovakia 
 
               Kelsey RG  2013  J. Chem. Ecol.  39: 494   
    ethyl alcohol    Relative ratio of the component   (*) indicates that compound is active   A
Category of the chemical signal
A -   Attractant
Al -   Allomone
K -   Kairomone
P -   Pheromone
Sy -   Synomone
 
Source of the chemical signal
F -   Female
H -   Host (could be of plant or animal origin)
L -   Lure
M -   Male
M&F -   Male and Female
S -   Solider
Q -   Queen
W -   Worker
 
Amount
pg -   Picogram
ng -   Nanogram
g -   Microgram
mg -   Milligram
g -   Gram
 
California, USA 
 
               Reding ME  2011  J. Econ. Entomol.  104: 2017   
    ethyl alcohol    Relative ratio of the component   (*) indicates that compound is active   A
Category of the chemical signal
A -   Attractant
Al -   Allomone
K -   Kairomone
P -   Pheromone
Sy -   Synomone
 
L
Source of the chemical signal
F -   Female
H -   Host (could be of plant or animal origin)
L -   Lure
M -   Male
M&F -   Male and Female
S -   Solider
Q -   Queen
W -   Worker
 
Amount
pg -   Picogram
ng -   Nanogram
g -   Microgram
mg -   Milligram
g -   Gram
 
Ohio, USA 
 
               Miller DR  2009  J. Chem. Ecol.  35: 435   
    ethyl alcohol    Relative ratio of the component   (*) indicates that compound is active   A
Category of the chemical signal
A -   Attractant
Al -   Allomone
K -   Kairomone
P -   Pheromone
Sy -   Synomone
 
Source of the chemical signal
F -   Female
H -   Host (could be of plant or animal origin)
L -   Lure
M -   Male
M&F -   Male and Female
S -   Solider
Q -   Queen
W -   Worker
 
Amount
pg -   Picogram
ng -   Nanogram
g -   Microgram
mg -   Milligram
g -   Gram
 
Southeastern USA 
 
               Petrice TR  2005  Great Lakes Entomol.  37:  
    alpha-pinene    Relative ratio of the component   (*) indicates that compound is active   A
Category of the chemical signal
A -   Attractant
Al -   Allomone
K -   Kairomone
P -   Pheromone
Sy -   Synomone
 
L
Source of the chemical signal
F -   Female
H -   Host (could be of plant or animal origin)
L -   Lure
M -   Male
M&F -   Male and Female
S -   Solider
Q -   Queen
W -   Worker
 
Amount
pg -   Picogram
ng -   Nanogram
g -   Microgram
mg -   Milligram
g -   Gram
 
North America 
    beta-pinene    Relative ratio of the component   (*) indicates that compound is active    
Source of the chemical signal
F -   Female
H -   Host (could be of plant or animal origin)
L -   Lure
M -   Male
M&F -   Male and Female
S -   Solider
Q -   Queen
W -   Worker
 
Amount
pg -   Picogram
ng -   Nanogram
g -   Microgram
mg -   Milligram
g -   Gram
 
 
    ethyl alcohol    Relative ratio of the component   (*) indicates that compound is active    
Source of the chemical signal
F -   Female
H -   Host (could be of plant or animal origin)
L -   Lure
M -   Male
M&F -   Male and Female
S -   Solider
Q -   Queen
W -   Worker
 
Amount
pg -   Picogram
ng -   Nanogram
g -   Microgram
mg -   Milligram
g -   Gram
 
 
 
               Oliver JB  2001  Environ. Entomol.  30: 909   
    ethyl alcohol    Relative ratio of the component   (*) indicates that compound is active   A
Category of the chemical signal
A -   Attractant
Al -   Allomone
K -   Kairomone
P -   Pheromone
Sy -   Synomone
 
L
Source of the chemical signal
F -   Female
H -   Host (could be of plant or animal origin)
L -   Lure
M -   Male
M&F -   Male and Female
S -   Solider
Q -   Queen
W -   Worker
 
Amount
pg -   Picogram
ng -   Nanogram
g -   Microgram
mg -   Milligram
g -   Gram
 
Tennessee, USA 
 
               Markalas S  1997  Anz. Schdlingskd. Pfl. Umwelt  70: 55   
    ethyl alcohol    Relative ratio of the component   (*) indicates that compound is active   A
Category of the chemical signal
A -   Attractant
Al -   Allomone
K -   Kairomone
P -   Pheromone
Sy -   Synomone
 
L
Source of the chemical signal
F -   Female
H -   Host (could be of plant or animal origin)
L -   Lure
M -   Male
M&F -   Male and Female
S -   Solider
Q -   Queen
W -   Worker
 
Amount
pg -   Picogram
ng -   Nanogram
g -   Microgram
mg -   Milligram
g -   Gram
 
Greece 
 
               Klimetzek D  1986  Naturwissenschaften  73: 270   
    ethyl alcohol    Relative ratio of the component   (*) indicates that compound is active   A
Category of the chemical signal
A -   Attractant
Al -   Allomone
K -   Kairomone
P -   Pheromone
Sy -   Synomone
 
L
Source of the chemical signal
F -   Female
H -   Host (could be of plant or animal origin)
L -   Lure
M -   Male
M&F -   Male and Female
S -   Solider
Q -   Queen
W -   Worker
 
Amount
pg -   Picogram
ng -   Nanogram
g -   Microgram
mg -   Milligram
g -   Gram
 
Germany 
 
               Montgomery ME  1983  J. Chem. Ecol.  9: 181   
    ethyl alcohol    Relative ratio of the component   (*) indicates that compound is active   A
Category of the chemical signal
A -   Attractant
Al -   Allomone
K -   Kairomone
P -   Pheromone
Sy -   Synomone
 
Source of the chemical signal
F -   Female
H -   Host (could be of plant or animal origin)
L -   Lure
M -   Male
M&F -   Male and Female
S -   Solider
Q -   Queen
W -   Worker
 
Amount
pg -   Picogram
ng -   Nanogram
g -   Microgram
mg -   Milligram
g -   Gram
 
Connecticut, USA 
 
               Roling MP  1975  Can. Entomol.  107: 1315   
    ethyl alcohol    Relative ratio of the component   (*) indicates that compound is active   A
Category of the chemical signal
A -   Attractant
Al -   Allomone
K -   Kairomone
P -   Pheromone
Sy -   Synomone
 
Source of the chemical signal
F -   Female
H -   Host (could be of plant or animal origin)
L -   Lure
M -   Male
M&F -   Male and Female
S -   Solider
Q -   Queen
W -   Worker
 
Amount
pg -   Picogram
ng -   Nanogram
g -   Microgram
mg -   Milligram
g -   Gram
 
Missouri, USA 
 
 
Xyleborinus sp
 
               Bernardi O  2010  Cincia Flor.  20: 579   
    ethyl alcohol    Relative ratio of the component   (*) indicates that compound is active   A
Category of the chemical signal
A -   Attractant
Al -   Allomone
K -   Kairomone
P -   Pheromone
Sy -   Synomone
 
L
Source of the chemical signal
F -   Female
H -   Host (could be of plant or animal origin)
L -   Lure
M -   Male
M&F -   Male and Female
S -   Solider
Q -   Queen
W -   Worker
 
Amount
pg -   Picogram
ng -   Nanogram
g -   Microgram
mg -   Milligram
g -   Gram
 
Brazil 
 
 
Reference(s):

Kendra, P.E., Owens, D., Montgomery, W.S., Narvaez, T.I., Bauchan, G.R., Schnell, E.Q., Tabanca, N., and Carrillo D. 2017. a-Copaene is an attractant, synergistic with quercivorol, for improved detection of Euwallacea nr. fornicatus (Coleoptera: Curculionidae: Scolytinae). Plos one. 12:e0179416.
 
Sweeney, J.D., Silk, P.J., Grebennikov, V., and Mandelshtam, M. 2016. Efficacy of semiochemical-baited traps for detection of Scolytinae species (Coleoptera: Curculionidae) in the Russian Far East. Eur. J. Entomol. 113:84-97.
 
Galko, J., Nikolov, C., Kimoto, T., Kunca, A., Gubka, A., Vakula, J., Zbrik, M., and Ostrihon, M. 2014. Attraction of ambrosia beetles to ethanol baited traps in a Slovakian oak forest. Biologia. 69:1376-1383.
 
Kelsey, R.G., Beh, M.M., Shaw, D.C., and Manter, D.K. 2013. Ethanol attracts scolytid beetles to Phytophthora ramorum cankers on coast live oak. J. Chem. Ecol. 39:494-506.
 
Reding, M.E., Schultz, P.B., Ranger, C.M., and Oliver, J.B. 2011. Optimizing ethanol-baited traps for monitoring damaging ambrosia beetles (Coleoptera: Curculionidae, Scolytinae) in ornamental nurseries. J. Econ. Entomol. 104:2017-2024.
 
Bernardi, O., Garcia, M.S., Silva, E.J.E., Zazycki, L.C.F., Bernardi, D., Miorelli, D., Ramiro, G.A., and Finkenauer, E. 2010. Coleoptera collected with light traps and ethanol traps in plantation of Eucalyptus spp. in the south of the state Rio Grande do Sul. Cincia Flor. 20:579-588.
 
Miller, D.R., and Rabaglia, R.J. 2009. Ethanol and (-)-a-pinene: attractant kairomones for bark and ambrosia beetles in the southeastern US. J. Chem. Ecol. 35:435-448.
 
Petrice, T.R., Haack, R.A., and Poland, T.M. 2005. Evaluation of three trap types and five lures for monitoring Hylurgus ligniperda (Coleoptera: Scolytidae) and other local scolytids in New York. Great Lakes Entomol. 37:1-9.
 
Oliver, J.B., and Mannion, C.M. 2001. Ambrosia beetle (Coleoptera: Scolytidae) species attacking chestnut and captured in ethanol-baited traps in middle Tennessee. Environ. Entomol. 30:909-918.
 
Markalas, S., and Kalapanida, M. 1997. Flight pattern of some Scolytidae attracted to flight barrier traps baited with ethanol in an oak forest in Greece. Anz. Schdlingskd. Pfl. Umwelt. 70:55-57.
 
Klimetzek, D., Kohler, J., Vite, J.P., and Kohnle, U. 1986. Dosage response to ethanol mediates host selection by 'secondary' bark beetles. Naturwissenschaften. 73:270-272.
 
Montgomery, M.E., and Wargo, P.M. 1983. Ethanol and other hostderived volatiles as attractants to beetles that bore into hardwoods. J. Chem. Ecol. 9:181-190.
 
Roling, M.P., and Kearby, W.H. 1975. Seasonal flight and vertical distribution of Scolytidae attracted to ethanol in an oak-hickory forest in Missouri. Can. Entomol. 107:1315-1320.
 

 
Citation: El-Sayed AM 2024. The Pherobase: Database of Pheromones and Semiochemicals. <http://www.pherobase.com>.
Ⓒ 2003-2024 The Pherobase - Extensive Database of Pheromones and Semiochemicals. Ashraf M. El-Sayed.
Page created on 13-February-2024