Bedoukian     Laser Vibrometer


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« Previous SpeciesTrypodendron domesticus    Next SpeciesTrypodendron proximum »

Semiochemicals of Trypodendron lineatum, the Striped ambrosia beetle

Phylum:  Arthropoda
Subphylum:  Uniramia
Class:  Insecta
Order:  Coleoptera
Family:  Scolytidae
Subfamily:  Scolytinae
Genus:  Trypodendron
Tribe:  Xyloterini
Author:  Olivier
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Distribution: Google



Bedoukain


Semiochemical(s):

  Martikainen P  2000  J. Appl. Entomol.  124: 57   
    lineatin    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
 
Finland 
 
  Setter RR  1992  Can. Entomol.  124: 559   
    frontalin    Relative ratio of the component   (*) indicates that compound is active   K
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
 
Canada 
 
  Schroeder LM  1989  J. Chem. Ecol.  15: 807   
    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
 
 
    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
 
 
 
  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 
 
  Shore TL  1983b  Can. Entomol.  115:  
    lineatin    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
 
Canada 
    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
 
 
    alpha-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
 
 
 
  Bakke A  1983  Z. Angew. Entomol.  95: 158   
    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
 
Norway 
    lineatin    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
 
 
 
  Gavyalis VM  1981  Khemo. Nasek.  6: 115   
    2me-3-buten-2-ol    10 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
 
Lithuania 
    cis-verbenol    1 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
 
 
    ipsdienol    1 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
 
 
 
  Klimetzek D  1980  Z. Angew. Entomol.  89: 57   
    lineatin    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
 
 
    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
 
 
    alpha-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
 
 
 
  Vite JP  1979  Naturwissenschaften  66: 528   
    lineatin    Relative ratio of the component   (*) indicates that compound is active   P
Category of the chemical signal
A -   Attractant
Al -   Allomone
K -   Kairomone
P -   Pheromone
Sy -   Synomone
 
F
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
 
Agg. pheromone 
    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
 
 
    alpha-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
 
 
 
  MacConnell JG  1977  J. Chem. Ecol.  3: 549   
    lineatin    Relative ratio of the component   (*) indicates that compound is active   P
Category of the chemical signal
A -   Attractant
Al -   Allomone
K -   Kairomone
P -   Pheromone
Sy -   Synomone
 
F
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
 
Agg. pheromone 
 
  Heemann V  1976  Naturwissenschaften  63: 344   
    1me3me-2,9-dioxabicyclononane    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
 
 
 
  Bauer J  1975  Naturwissenschaften  62: 539   
    alpha-pinene    Relative ratio of the component   (*) indicates that compound is active   K
Category of the chemical signal
A -   Attractant
Al -   Allomone
K -   Kairomone
P -   Pheromone
Sy -   Synomone
 
H
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
 
 
 
  Francke W  1974a  Z. Angew. Entomol.  75: 67   
    3-hydroxy-3me-4-2Kt    Relative ratio of the component   (*) indicates that compound is active   P
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
 
Agg. pheromone 
 
  Rudinsky JA  1966  Science  152: 218   
    alpha-pinene    Relative ratio of the component   (*) indicates that compound is active   K
Category of the chemical signal
A -   Attractant
Al -   Allomone
K -   Kairomone
P -   Pheromone
Sy -   Synomone
 
H
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
 
 
    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
 
 
    limonene    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
 
 
    camphene    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
 
 
    myrcene    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
 
 
 

Reference(s):

Martikainen, P. 2000. Flight period and ecology of Trypodendron proximum (Niijima) (Col., Scolytidae) in Finland. J. Appl. Entomol. 124:57-62.
 
Setter, R.R., and Borden, J.H. 1992. Response by the striped ambrosia beetle, Trypodendron lineatum (Oliver), to the bark beetle pheromone, frontalin. Can. Entomol. 124:559-560.
 
Schrder, L.M., and Lindelw, A. 1989. Attraction of scolytids and associated beetles by different absolute amounts and proportions of alpha-pinene and ethanol. J. Chem. Ecol. 15:807-817.
 
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.
 
Shore, T.L., and McLean, J.A. 1983b. A further evaluation of the interactions between the pheromones and two host kairomones of the ambrosia beetles Trypodendron lineatum and Gnathotrichus sulcatus (Coleoptera: Scolytidae). Can. Entomol. 115:1-5.
 
Bakke, A. 1983. Dosage response of the ambrosia beetle Trypodendron lineatum (Oliver) (Coleoptera, Scolytidae) to semiochemicals. Z. Angew. Entomol. 95:158-161.
 
Gavyalis, V.M., Yakaitis, B.Y., Gavelis, V., and Jakaitis, B. 1981. The attraction of various species of bark-beetles with methylbutenol, cis-verbenol, ipsdienol and mixtures of these pheromones. Khemo. Nasek. 6:115-120.
 
Klimetzek, D., Vit J.P., and Mori, K. 1980. Zur wirkung und formulierung des populationslockstoffes des nutzholzborkenkfers Trypodendron (= Xyloterus) lineatum. Z. Angew. Entomol. 89:57-63.
 
Vite, J.P., and Bakke, A. 1979. Synergism between chemical and physical stimuli in host colonization by an ambrosia beetle. Naturwissenschaften. 66:528-529.
 
MacConnell, J.G., Borden, J.H., Silverstein, R.M., and Stokkink, E. 1977. Isolation and tentative identification of lineatin, a pheromone from the frass of Trypodendron lineatum (Coleoptera: Scolytidae). J. Chem. Ecol. 3:549-561.
 
Heemann, V., and Francke, W. 1976. 1,3-Dimethyl-2,9-dioxabicyclo [3.3.1]nonane; a host-specific substance in Norway spruce under attack by Trypodendron lineatum Oliv. Naturwissenschaften. 63:344.
 
Bauer, J., and Vite, J.P. 1975. Host selection by Trypodendron lineatum. Naturwissenschaften. 62:539.
 
Francke, W., and Heemann, V. 1974a. Tests on the attractiveness of 3-hydroxy-3-methylbutan-2-one to Xylosterus domesticus L. and X. lineatus Oliv. (Coleoptera: Scolytidae). Z. Ang. Entomol. 75:67-72.
 
Rudinsky, J.A. 1966. Scolytid beetles associated with douglas fir: response to terpenes. Science. 152:218-219.
 
 
Citation: El-Sayed AM 2014. The Pherobase: Database of Insect Pheromones and Semiochemicals. <http://www.pherobase.com>.
2003-2014 The Pherobase - Extensive Database of Insect Pheromones and Semiochemicals. Ashraf M. El-Sayed.
Page created on 22-February-2014