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M. Reid, S. Glubish (2001)
Tree size and growth history predict breeding densities of Douglas-fir beetles in fallen treesThe Canadian Entomologist, 133
(1993)
The relationship between site factors and white ash ( Fraxinus americana L.) decline in Massachussetts . Forest Ecology and Management
I. Amezaga, M. Rodríguez (1998)
Resource partitioning of four sympatric bark beetles depending on swarming dates and tree speciesForest Ecology and Management, 109
Agrilus marcopoli Obenberger (Coleoptera: Buprestidae) . Forest Insects of China
(2002)
Age-specific fecundity
J. Cobb, B. Phillips (1980)
Ecology and management
(2005)
Within - tree distribution of the emerald ash borer ( Agrilus planipennis Fairmaire ) . Coleoptera : Buprestidae ) in young , green ash plantations of southwestern Ontario
J. Ball, G. Simmons (1980)
The Relationship Between Bronze Birch Borer and Birch DiebackArboriculture & Urban Forestry
L. Moore, J. Myers, R. Eng (1988)
Western tent caterpillars prefer the sunny side of the tree, but why?Oikos, 51
T. Paine, E. Paine, L. Hanks, J. Millar (2000)
Resource Partitioning among Parasitoids (Hymenoptera: Braconidae) of Phoracantha semipunctata in Their Native RangeBiological Control, 19
Haack Haack, Jendek Jendek, Liu Liu, Marchant Marchant, Petrice Petrice, Poland Poland, Ye Ye (2002)
The emerald ash borer: a new exotic pest inNorth America. Newsletter of the Michigan Entomological Society, 47
J. Dunn, Thomas Kimmerer, Gerald Nordin (1986)
ATTRACTION OF THE TWOLINED CHESTNUT BORER, AGRILUS BILINEATUS (WEBER) (COLEOPTERA: BUPRESTIDAE), AND ASSOCIATED BORERS TO VOLATILES OF STRESSED WHITE OAKThe Canadian Entomologist, 118
(1982)
The biology and ecology of the twolined chestnut borer
G. Watson, E. Batschelet (1966)
Statistical methods for the analysis of problems in animal orientation and certain biological rhythmsBiometrika, 53
R. Haack, R. Wilkinson, J. Foltz (1987)
Plasticity in life-history traits of the bark beetle Ips calligraphus as influenced by phloem thicknessOecologia, 72
R. Akers, D. Nielsen (1990)
Spatial emergence pattern of bronze birch borer, (Coleoptera: Buprestidae) from European white birch.Journal of Entomological Science, 25
C. Loerch, E. Cameron (1984)
WITHIN-TREE DISTRIBUTIONS AND SEASONALITY OF IMMATURE STAGES OF THE BRONZE BIRCH BORER, AGRILUS ANXIUS (COLEOPTERA: BUPRESTIDAE)The Canadian Entomologist, 116
Laura Lessin, A. Dyer, D. Goldberg (2001)
Using upper boundary constraints to quantify competitive response of desert annualsOikos, 92
B. Wermelinger (2002)
Development and distribution of predators and parasitoids during two consecutive years of an Ips typographus (Col., Scolytidae) infestationJournal of Applied Entomology, 126
R. Haack, Eduard Jendak, Houping Liu, Keneth Marchant, T. Petrice, T. Poland, H. Ye (2002)
The Emerald Ash Borer: A New Exotic Pest in North America, 1
(1988)
Western tent caterpillars
D. Krause‐Jensen, A. Middelboe, K. Sand‐Jensen, P. Christensen (2000)
Eelgrass, Zostera marina, growth along depth gradients: upper boundaries of the variation as a powerful predictive toolOikos, 91
R. Haack, D. Benjamin, K. Haack (1983)
Buprestidae, Cerambycidae, and Scolytidae Associated with Successive Stages of Agrilus Bilineatus (Coleoptera: Buprestidae) Infestation of Oaks in WisconsinThe Great Lakes Entomologist
Houping Liu, L. Bauer, Ruitong Gao, Tonghai Zhao, T. Petrice, R. Haack (2003)
Exploratory survey for the emerald ash borer, Agrilus planipennis (Coleoptera: Buprestidae) in China
B. Prenzel, W. Laidlaw, H. Wieser (1999)
WITHIN-TREE DYNAMICS OF MASS ATTACK BY DENDROCTONUS PSEUDOTSUGAE (COLEOPTERA: SCOLYTIDAE) ON ITS HOSTThe Canadian Entomologist, 131
G. Barter (1957)
Studies of the Bronze Birch Borer, Agrilus anxius Gory, in New BrunswickThe Canadian Entomologist, 89
D. Bright (1987)
The metallic wood-boring beetles of Canada and Alaska: Coleoptera: Buprestidae
Michael Smith, J. Bancroft, J. Tropp (2002)
Age-Specific Fecundity of Anoplophora glabripennis (Coleoptera: Cerambycidae) on Three Tree Species Infested in the United States, 31
J. Manville, Tara Sahota, J. Hollmann, Anthony Ibaraki (2002)
Primary Cortex Thickness Influences the Location of Ovarian Maturation Feeding and Oviposition of Pissodes strobi (Coleoptera: Curculionidae) within a Tree, 31
DANIEL BENJAMIN (1982)
THE BIOLOGY AND ECOLOGY OF THE TWOLINED CHESTNUT BORER, AGRILUS BILINEATUS (COLEOPTERA: BUPRESTIDAE), ON OAKS, QUERCUS SPP., IN WISCONSINThe Canadian Entomologist, 114
W. Cǒté, D. Allen (1980)
Biology of two-lined chestnut borer, Agrilus bilineatus, in Pennsylvania and New York.Annals of The Entomological Society of America, 73
L. Hanks, T. Paine, J. Millar (1993)
Host species preference and larval performance in the wood-boring beetlePhoracantha semipunctata F.Oecologia, 95
T. Blackburn, J. Lawton, J. Perry (1992)
A method of estimating the slope of upper bounds of plots of body size and abundance in natural animal assemblagesOikos, 65
D. MacFarlane, S. Meyer (2005)
Characteristics and distribution of potential ash tree hosts for emerald ash borerForest Ecology and Management, 213
D. Dutt (1969)
Bionomics of Agrilus acutus (Thnb.) (Col., Buprestidae) on mesta ( Hibiscus cannabinus ) in IndiaBulletin of Entomological Research, 58
H. Woodcock, W. Patterson, K. Davies (1993)
The relationship between site factors and white ash (Fraxinus americana L.) decline in MassachusettsForest Ecology and Management, 60
H. Jactel, N. Perthuisot, P. Menassieu, G. Raise, C. Burban (1996)
A SAMPLING DESIGN FOR WITHIN-TREE LARVAL POPULATIONS OF THE MARITIME PINE SCALE, MATSUCOCCUS FEYTAUDI DUC. (HOMOPTERA: MARGARODIDAE), AND THE RELATIONSHIP BETWEEN LARVAL POPULATION ESTIMATES AND MALE CATCH IN PHEROMONE TRAPSThe Canadian Entomologist, 128
C. Ohmart (1979)
The within-Tree Distributions of Ips paraconfusus (Coleoptera: Scolytidae) and Its Insect Associates in Monterey Pine (Pinus radiata)Annals of The Entomological Society of America, 72
Houping Liu, L. Bauer, Ruitong Gao, Tonghai Zhao, T. Petrice, R. Haack (2018)
Exploratory Survey for the Emerald Ash Borer, Agrilus Planipennis (Coleoptera: Buprestidae), and Its Natural Enemies in ChinaThe Great Lakes Entomologist
(2002)
Development and distribution of predators
Agrilus liragus (1965)
Survival and Development of the Bronze Poplar Borer Agrilus liragus Barter & Brown (Coleoptera: Buprestidae)The Canadian Entomologist, 97
H. Hespenheide (1969)
Larval feeding site of species of Agrilus (Coleoptera) using a common host plantOikos, 20
R. Muzika, Andrew Liebhold, M. Twery (2000)
Dynamics of twolined chestnut borer Agrilus bilineatus as influenced by defoliation and selection thinningAgricultural and Forest Entomology, 2
(2004)
Northeastern Area, State and Private Forestry, Pest Alert NA-PR-02 -04
S. McLachlan, D. Bazely (2003)
Outcomes of longterm deciduous forest restoration in southwestern Ontario, CanadaBiological Conservation, 113
D. Cappaert, D. McCullough, T. Poland, N. Siegert (2005)
Emerald ash borer in North America: a research and regulatory challengeAmerican Entomologist, 51
R. Akers, D. Nielsen (1986)
INFLUENCE OF POST-FELLING TREATMENT OF BIRCH LOGS ON EMERGENCE SUCCESS OF BRONZE BIRCH BORER, AGRILUS ANXIUS, ADULTS (COLEOPTERA: BUPRESTIDAE)Journal of Entomological Science, 21
Christopher Feeley, E. Hart, Jan Thompson, T. Harrington (2001)
Occurrence, Associated Symptoms, and Potential Insect Vectors of the Ash Yellows Phytoplasma In Iowa, U.S.Arboriculture & Urban Forestry
Joseph Francese, V. Mastro, J. Oliver, D. Lance, N. Youssef, S. Lavallee (2005)
Evaluation of Colors for Trapping Agrilus planipennis (Coleoptera: Buprestidae)Journal of Entomological Science, 40
(1988)
SAS/STAT User's Guide: Statistics, Version 6.03
J. Simandl (1993)
The spatial pattern, diversity and niche partitioning in xylophagous beetles (Coleoptera) associated with Frangula alnus Mill.Acta Oecologica-international Journal of Ecology, 14
1 The emerald ash borer Agrilus planipennis Fairmaire (Coleoptera: Buprestidae) is a serious exotic pest of ash trees (Fraxinus spp.) in North America, and is responsible for the deaths of millions of trees in Ontario and Michigan. One of the greatest challenges facing the successful management of the pest is the ability to accurately detect its presence in a tree. 2 Observations were made on A. planipennis larval feeding galleries found within 65 young, green‐ash trees cut from plantations in Essex County, Ontario, Canada. The within‐tree distributions of feeding galleries were described in relation to height‐above‐ground, stem diameter, bark thickness and stem aspect. 3 Galleries were not distributed randomly or evenly; minimum boundaries of stem diameter and bark thickness and a maximum boundary of height‐above‐ground were detected. Indications of maximum boundaries for stem diameter and bark thickness were also observed. Galleries were found most often on the south‐west side of the tree. 4 Using the technique of upper boundary regression, we were able to identify significant quadratic relationships between A. planipennis gallery density and stem diameter and bark thickness, as well as a significant negative linear relationship between gallery density and height‐above‐ground. 5 Agrilus planipennis gallery density in newly‐infested trees was lower than in previously‐infested trees, and was observed to peak at smaller stem diameters and bark thicknesses than in previously‐infested trees. 6 Survey teams would increase their probability of detecting new A. planipennis infestations by initiating searches for exit holes and feeding galleries in trunk sections and branches of approximately 7 cm in diameter.
Agricultural and Forest Entomology – Wiley
Published: Nov 1, 2006
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