INVESTIGADORES
BUTELER micaela
artículos
Título:
Using agronomic traits and semiochemical production in winter wheat to identify suitable trap crops for the wheat stem sawfly
Autor/es:
BUTELER, M.; D. K. WEAVER; BRUCKNER, P, L; CARLSON G.R; BERG J.E; LAMB P.F
Revista:
CANADIAN ENTOMOLOGIST
Editorial:
Entomological Society of Canada
Referencias:
Año: 2010 vol. 142 p. 222 - 233
ISSN:
0008-347X
Resumen:
AbstractTrap crops are a plausible control strategy for the wheat stem sawfly (WSS),Trap crops are a plausible control strategy for the wheat stem sawfly (WSS),
Cephus cinctus Norton (Hymenoptera: Cephidae), especially in alternate wheat2fallow
cropping systems. Identifying the most suitable winter wheat (Triticum L., Poaceae) cultivars
is necessary to further improve the effectiveness of winter wheat trap crops. We compared
cultivars suitable for cultivation in Montana to identify those that exhibit the greatest potential
as trap crops. To accomplish this we used nine winter wheat cultivars to analyze plant
characteristics that influence the oviposition behavior of the WSS: stem height, stem diameter,
rate of plant development, and emission of the WSS attractant (Z)-3-hexenyl acetate. Data on
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
is necessary to further improve the effectiveness of winter wheat trap crops. We compared
cultivars suitable for cultivation in Montana to identify those that exhibit the greatest potential
as trap crops. To accomplish this we used nine winter wheat cultivars to analyze plant
characteristics that influence the oviposition behavior of the WSS: stem height, stem diameter,
rate of plant development, and emission of the WSS attractant (Z)-3-hexenyl acetate. Data on
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
is necessary to further improve the effectiveness of winter wheat trap crops. We compared
cultivars suitable for cultivation in Montana to identify those that exhibit the greatest potential
as trap crops. To accomplish this we used nine winter wheat cultivars to analyze plant
characteristics that influence the oviposition behavior of the WSS: stem height, stem diameter,
rate of plant development, and emission of the WSS attractant (Z)-3-hexenyl acetate. Data on
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
is necessary to further improve the effectiveness of winter wheat trap crops. We compared
cultivars suitable for cultivation in Montana to identify those that exhibit the greatest potential
as trap crops. To accomplish this we used nine winter wheat cultivars to analyze plant
characteristics that influence the oviposition behavior of the WSS: stem height, stem diameter,
rate of plant development, and emission of the WSS attractant (Z)-3-hexenyl acetate. Data on
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
is necessary to further improve the effectiveness of winter wheat trap crops. We compared
cultivars suitable for cultivation in Montana to identify those that exhibit the greatest potential
as trap crops. To accomplish this we used nine winter wheat cultivars to analyze plant
characteristics that influence the oviposition behavior of the WSS: stem height, stem diameter,
rate of plant development, and emission of the WSS attractant (Z)-3-hexenyl acetate. Data on
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
is necessary to further improve the effectiveness of winter wheat trap crops. We compared
cultivars suitable for cultivation in Montana to identify those that exhibit the greatest potential
as trap crops. To accomplish this we used nine winter wheat cultivars to analyze plant
characteristics that influence the oviposition behavior of the WSS: stem height, stem diameter,
rate of plant development, and emission of the WSS attractant (Z)-3-hexenyl acetate. Data on
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
is necessary to further improve the effectiveness of winter wheat trap crops. We compared
cultivars suitable for cultivation in Montana to identify those that exhibit the greatest potential
as trap crops. To accomplish this we used nine winter wheat cultivars to analyze plant
characteristics that influence the oviposition behavior of the WSS: stem height, stem diameter,
rate of plant development, and emission of the WSS attractant (Z)-3-hexenyl acetate. Data on
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
is necessary to further improve the effectiveness of winter wheat trap crops. We compared
cultivars suitable for cultivation in Montana to identify those that exhibit the greatest potential
as trap crops. To accomplish this we used nine winter wheat cultivars to analyze plant
characteristics that influence the oviposition behavior of the WSS: stem height, stem diameter,
rate of plant development, and emission of the WSS attractant (Z)-3-hexenyl acetate. Data on
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
is necessary to further improve the effectiveness of winter wheat trap crops. We compared
cultivars suitable for cultivation in Montana to identify those that exhibit the greatest potential
as trap crops. To accomplish this we used nine winter wheat cultivars to analyze plant
characteristics that influence the oviposition behavior of the WSS: stem height, stem diameter,
rate of plant development, and emission of the WSS attractant (Z)-3-hexenyl acetate. Data on
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
cropping systems. Identifying the most suitable winter wheat (Triticum L., Poaceae) cultivars
is necessary to further improve the effectiveness of winter wheat trap crops. We compared
cultivars suitable for cultivation in Montana to identify those that exhibit the greatest potential
as trap crops. To accomplish this we used nine winter wheat cultivars to analyze plant
characteristics that influence the oviposition behavior of the WSS: stem height, stem diameter,
rate of plant development, and emission of the WSS attractant (Z)-3-hexenyl acetate. Data on
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
is necessary to further improve the effectiveness of winter wheat trap crops. We compared
cultivars suitable for cultivation in Montana to identify those that exhibit the greatest potential
as trap crops. To accomplish this we used nine winter wheat cultivars to analyze plant
characteristics that influence the oviposition behavior of the WSS: stem height, stem diameter,
rate of plant development, and emission of the WSS attractant (Z)-3-hexenyl acetate. Data on
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical
production from these cultivars are required for selecting optimal cultivars for trap-cropping.
sawfly-induced stem cutting collected from these cultivars in field nurseries were analyzed to
evaluate the potential of each cultivar to attract sawflies. Based on these criteria, five cultivars
with good potential as trap crops are Norstar, Neeley, Morgan, Rampart, and BigSky.
More data from laboratory preference tests and detailed measurement of semiochemical