Host Selection of Xylophagous Insects and Its Application in
Forest Health Evaluation

WANG Jian-min; LIU Juan; CHEN Xiao-ming; YANG Zi-xiang; YE Shou-de

Volume 23 Issue 1

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Host Selection of Xylophagous Insects and Its Application in Forest Health Evaluation

1.
Research Institute of Subtropical Forestry, Chinese Academy of Forestry, Fuyang 311400, Zheijiang, China

Abstract

Forest is an important component part of ecosystem and therefore forest health is crucial to the stability of ecosystem. However, different countries has different emphases on forest health, furthermore, evaluation criteria and diagnostic methods of forest health are inconsistency, especially diagnosing sub-healthy forest betimes is still a scientific problem need to be solved urgently. The paper reviewed the host selection mechanisms and rules of xylophagous insects and their application foreground in forest health evaluation. According to the rule that some secondary xylophagous insects always accompany with trees which are sub-healthy or unhealthy, ideas of diagnosing and evaluating forest health betimes using xylophagous insects were posed. Mathematical models would be established based mainly on interactions between quantity of xylophagous insect populations and status of forest health, interspecific interactions(community structure, biodiversity) and environmental factors(climatic change, soil property) were also added as supplementary parameters, in order to quantitatively analyzing and comprehensively evaluating forest health and its developing trend.
- xylophagous insect,
- host selection,
- indicative insect,
- forest health diagnosis

References

[1]	范志平.森林健康刍议[J].现代农业科技,2007(22):219-222
[2]	王彦辉,肖文发,张星耀.森林健康监测与评价的国内外现状和发展趋势[J].林业科学,2007,43(7):78-85
[3]	朱中华.森林健康理论与实践[J].安徽林业,2008(2):25
[4]	曹国江.关于森林健康问题的探讨[J].世界林业研究,2008,21(2):76-80
[5]	周立江.森林健康内涵及评价指标探讨[J].四川林业科技,2008,29(1):27-30
[6]	萧刚柔.中国森林昆虫[M].第2版,北京:中国林业出版社,1992
[7]	张执中.森林昆虫学[M].北京:中国林业出版社,1997:321-322
[8]	Linsley E G. Ecology of Cerambycidae[J]. Annu Rev Entomol,1959,4:99-138
[9]	Wood D L. The role of pheromones,kairomones,and allomones in the host selection and colonization behavior of bark beetles[J]. Annu Rev Entomol,1982,27:411-446
[10]	Solomon J D. Guide to insect borers of North American broadleaf trees and shrubs. Agric. Handbook No 706[M]. USA, WA-Washington, DC:US Dept of Agriculture, Forest Service,1995
[11]	Hanks L M. Influence of the larval host plant on reproductive strategies of cerambycid beetles[J]. Annu Rev Entomol,1999, 44:483-505
[12]	Allison J D, Borden J H, Seybold S J. A review of the chemical ecology of the Cerambycidae (Coleoptera) [J]. Chemoecology,2004,14:123-150
[13]	Byers J A. Attraction of bark beetles, Tomicus piniperda, Hylurgops palliatus, and Trypodendron domesticum and other insects to short-chain alcohols and monoterpenes [J]. J Chem Ecol, 1992, 18(12):2385-2402
[14]	Tomlin E S, Antonejevic E, Alfaro R I, et al. Changes in volatile terpene and diterpene resin acid composition of resistant and susceptible white spruce leaders exposed to stimulated white pine weevil damage [J]. Tree Physiology, 2000, 20(16):1087-1095
[15]	Schroeder L M, Lindelow A. Attraction of scolytids and associated beetles by different absolute amounts and proportions of α-pinene and ethanol [J].J Chem Ecol,1989,15:807-810
[16]	Gladwin J, Kelsey R G, Peck R W. Response of some scolytids and their predators to ethanol and 4-allylanisole in pine forests of central Oregon [J]. J Chem Ecol,2001,27(4):697-715
[17]	赵涛,李丽莎,周楠.云南松对松小蠹的引诱能力及其挥发物组成[J].东北林业大学学报, 2002,30(4):47-49
[18]	Byers J A. Behavioral mechanisms involved in reducing competition in bark beetles [J]. Holarct Ecol, 1989,12(4):466-476
[19]	Moeck H A, Wood D L, Lindahl K Q Jr. Host selection behavior of bark beetles (Coleoptera: Scolytidae) attacking Pinus ponderosa, with special emphasis on the western pine beetle, Dendroctonus brevicomis [J].J Chem Ecol, 1981,7(1):49-83
[20]	Gregoire J C, Baisier M, Drumont A, et al. Volatile compounds in the larval frass of Dendroctonus valens and Dendroctonus micans (Coleoptera:Scolytidae) in relation to oviposition by the predator, Rhizophagus grandis(Coleoptera:Rhizophagidae) [J]. J Chem Ecol, 1991,17(10):2003-2019
[21]	Moeck H A. Field test for the primary attraction of the spruce beetle [J]. Envir Can For Sew Bi-mon Res Notes,1978,34:8
[22]	Vite J P, Gara R I. Volatile attractants from ponderosa pine attacked by bark beetles (Coleoptera: Scolytidae) [J]. Contr Boyce Thompson Inst,1962,21:251-273
[23]	Borden J H,Bennett R B.A continuously recording flight mile for investigating the effects of volatile substance on the flight of tethered insects [J].Ecol Entomol,1969,62(4):782-785
[24]	Salom S M,Hobson K R.Application of Semiochemicals for Management of Bark Beetle Infestation:Proceeding of an Informal Conference[M].Collingdale:Diane Publishing Company,1998:1-22
[25]	Siegert N W. Host preference and potential impact of pine shoot beetle in Michigan pine stands. Dissertation of masters degree[M]. Department of Forestry, America: Michigan State University, 2000
[26]	Byers J A, Lanne B S, Schlyter F, et al. Olfactory recognition of host-tree susceptibility by pine shoot beetles [J]. Naturwissenschaften,1985,72:324-326
[27]	Phillips T W. Reponses of Hylastes salebrosus to turpentine, ethanol, and pheromones of Dendroctonus (Coleoptera:Scolytidae) [J].Florida Entomologist,1990,73(2):286-292
[28]	Francke W, Bartels J, Meyer H, et al. Semiochemicals from bark beetles: new results, remarks, and reflections [J].J Chem Ecol,1995,21(7):1043-1063
[29]	Byers J A. Novel diffusion-dilution method for release of semiochemcals: Testing pheromone component ratios on western pine beetle [J]. J Chem Ecol, 1988, 14(1):199-212
[30]	Borden J H. Aggregation Pheromones [M]//Kerkut G A. In Behavior. Oxford: Pergamon Press, 1985:257-285
[31]	Erbilgin N,Kenneth F,Raffa K F.Opposing effects of host monoterpenes on responses by two sympatric species of bark beetles to their aggregation pheromones[J].J Chem Ecol,2000,26(11):2527-2548
[32]	周楠,毋亚梅,张立新,等.松小蠹成虫对其信息化合物的触角电位反应[J].云南林业科技,2000,9(3):38-42
[33]	祝传书,赵惠燕.虫害诱导的植物挥发物[J].西北农林科技大学学报:自然科学版,2003,31(1):183-186
[34]	段焰青,叶辉,李青青. 小蠹虫与针叶树木的协同进化关系[M]// 段昌群. 生态科学进展:第三卷. 北京:高等教育出版社,2007,83-95
[35]	叶辉.纵坑切梢小蠹对云南松蛀害研究[J].昆虫学报,1999,42(4):394-400
[36]	Byers J A. Effect of mating on terminating aggregation during host colonization in the bark beetle, Ips paraconfusus [J]. J Chem Ecol, 1981,7(6):1135-1147
[37]	Byers J A, Zhang Q H, Birgersson G. Strategies of a bark beetle, Pityogenes bidentatus, in an olfactory landscape [J]. Naturwissenschaften,2000,87:503-507
[38]	陈辉,李宗波.植物挥发性化合物在小蠹虫寄主选择中的作用[J].福建林学院学报,2006,26(1):87-91
[39]	Schroeder L M.Olfactory recognition of nonhost aspen and birch by conifer bark beetles Tomicus piniperda and Hylurgops palliates [J].J Chem Ecol,1992,18:1583-1593
[40]	杨群芳,周祖基,李庆.植物精油对云南松纵坑切梢小蠹的驱避活性研究[J].西南农业大学学报,2003,25(4):357-359
[41]	Groot P D E.Green leaf volatiles inhibit response of red pine cone beetle Conophthorus resinosae(Coleoptera:Scolytidae) to a sex pheromone [J].Naturwissenschaften,1999,86(2):81-85
[42]	孙晓玲.云杉八齿小蠹化学信息物质的研究 . 哈尔滨:东北林业大学,2006
[43]	Campbell S A, Borden J H. Integration of visual and olfactory cues of hosts and non-hosts by three bark beetles (Coleoptera: Scolytidae) [J].Ecol Entomol, 2006,31:437-449
[44]	Kolb T E, Guerard N, Hofstetter R W, et al. Attack preference of Ips pini on Pinus ponderosa in northern Arizona: tree size and bole position [J].Agri For Entomol,2006,8:295-303
[45]	Ye H, Li L S. Preliminary observations on the trunk attacks by Tomicus piniperda (L.) (Col., Scolytidae) on Yunnan pine in Kunming, China [J].J Appl Entomol,1995,119:331-333
[46]	Lawrence J F. Coleoptera[M]//Parker S P. Synopsis and Classification of Living Organisms. USA,NY-New York: McGraw Hill,1982
[47]	Gardiner L M. Deterioration of fire-killed pine in Ontario and the causal wood-boring beetles [J]. Can Entomol, 1957, 89: 241-263
[48]	Melander A L. Destructive beetles: A note on landscape gardening[J]. Entomol News,1904,15:19-20
[49]	Gardiner L M. Insect attack and value loss in wind-damaged spruce and jack pine stands in northern Ontario [J]. Can J For Res, 1975, 5:387-398
[50]	Belyea R M. Death and deterioration of balsam fir weakened by spruce budworm defoliation in Ontario. Part I. Notes on the seasonal history and habits of insects breeding in severely weakened and dead trees [J]. Can Entomol, 1952, 84:325-335
[51]	Linit M J. Nematode-vector relationships in the pine wilt disease system [J]. J Nematol, 1988, 20:227-235
[52]	樊建庭.松墨天牛交配定位过程中的化学信息物质研究 .北京:中国科学院动物研究所,2006
[53]	Morewood W D, Hein K E, Katinic P J, et al. An improved trap for large wood-boring insects, with special reference to Monochamus scutellatus (Coleoptera: Cerambycidae) [J]. Can J For Res, 2002, 32:519-525
[54]	Meurer-Grimes B, Tavakilian G. Chemistry of cerambycid host plants. Part I: Survey of Leguminosae-A study in adaptive radiation [J]. Botanical Review, 1997, 63:356-394
[55]	江望锦. 松墨天牛成虫与寄主间化学信息联系机制的初步研究 .南京:南京林业大学,2005
[56]	Trapp S, Croteau R. Defensive resin biosynthesis in conifers [J]. Annu Rev Plant Physiol Plant Mol Biol, 2001, 52:689-724
[57]	Kelsey R G, Joseph G. Ethanol in ponderosa pine as an indicator of physiological injury from fire and its relationship to secondary beetles [J]. Can J For Res, 2003, 33:870-884
[58]	Yamasaki T, Hata K, Okamoto H. Luring of Japanese pine sawyer Monochamus alternatus Hope by paraquat-treated pine tree (Ⅰ) the effect of paraquat and ethephon on pine trees [J]. 日林志,1980,62(3):99-102
[59]	Yamasaki T, Suzuki N. Luring of Japanese pine sawyer Monochamus alternatus Hope by paraquat-treated pine tree (Ⅱ) The attractiveness of volatile oil from lightwood [J]. J Jap For Soc,1982,64(9):340-349
[60]	Fettkother R, Reddy G V P, Noldt U. Effect of host and larval frass volatiles on behavioral response of the old house borer, Hylotrupes bajulus (L.)( Coleoptera: Cerambycidae), in a wind tunnel bioassay [J]. Chemoecology, 2000, 10: 1-10
[61]	Higgs M D, Evans D A. Chemical mediators in the oviposition behavior of the house longhorn beetle Hylotrupes bajulus [J]. Experientia,1978, 34:46-47
[62]	Kobayashi F, Yamane A, Ikeda T. The Japanese pine sawyer beetle as the vector of pine wilt disease [J]. Annu Rev Entomol,1984,29: 115-135
[63]	Ikeda T, Yamane A, Enda N, et al. Attractiveness of volatile components of felled pine trees for Monochamus alternatus (Coleoptera: Cerambycidae) [J].J Jap For Soc, 1986, 68:15-19
[64]	Phillips T W,Wilkening A J,Atkinson T H,et al. Synergism of turpentine and ethanol as attractants for certain pine-infesting beetles (Coleoptera) [J]. Environ Entomol,1988,17(3):456-462
[65]	Suckling D M, Gibb A R, Daly J M, et al. Behavioral and Electrophysiological Responses of Arhopalus tristis to Burnt Pine and other Stimuli [J]. J Chem Ecol,2001, 27(6):1091-1104
[66]	Travakilian G, Berkov A, Meurer-Grimes B, et al. Neotropical tree species and their faunas of Xylophagous longicorns (Coleoptera: Cerambycidae) in French Guiana [J]. Bot Rev (Lancaster), 1997,63:303-355
[67]	Yamasaki T, Sato M, Sakoguchi H. (-)-Germacrene D: Masking substance of attractants for the cerambycid beetle,Monochamus alternatus (Hope) [J]. Appl Entomol Zool, 1997, 32(3):423-429
[68]	Sumimoto M, Shiraga M, Kondo T. Ethane in pine needles preventing the feeding of the beetle, Monochamus alternatus [J]. J Insect Physiol, 1975, 21:713-722
[69]	杨宝君,潘宏阳,汤坚,等. 松材线虫病[M]. 北京:中国林业出版社,2003:61-62
[70]	Islam S Q, Ichiryu J, Sato M, et al. D-Catechin: An oviposition stimulant for the cerambycid beetle, Monochamus alternatus from Pinus densiflora [J]. J Pest Sci, 1997, 22: 338-341
[71]	Allison J D,Borden J H,McIntosh R L,et al. Kairomonal response by four Monochamus species (Coleoptera: Cerambycidae) to bark beetle pheromones [J]. J Chem Ecol,2001, 27(4):633-646
[72]	Lacey E S, Ginzel M D, Millar J G, et al. Male-produced aggregation pheromone of the cerambycid beetle Neoclytus acuminatus [J]. J Chem Ecol,2004,30(8):1493-1507
[73]	Morewood W D, Simmonds K E, Gries R, et al. Disruption by conophthorin of the kairomonal response of sawyer beetles to bark beetle pheromones [J]. J Chem Ecol, 2003, 29(9):2115-2129
[74]	Huber D P W, Gries R, Borden J H, et al. Two pheromones of coniferophagous bark beetles (Coleoptera: Scolytidae) found in the bark of non-host angiosperms [J]. J Chem Ecol,1999,25(4):805-816
[75]	Anbutsu H, Togashi K. Oviposition behavior and response to the oviposition scars occupied by eggs in Monochamus saltuarius (Coleoptera: Cerambycidae) [J]. Appl Entomol Zool,1997,32:541-549
[76]	李水清. 松墨天牛驱避化合物质的研究 .北京:中国科学院动物研究所,2006
[77]	Anonymous. Alien Forest Pests. Context for the Canadian Forest Services Science Program[M]. CAN, ON-Ottawa: Natural Resources Canada, Canadian Forest Service,1999
[78]	Martinez G S. Interactions between bark beetles(Coleoptera: Scolytidae) and habitat structure in pine forests . Dissertation of Doctor’s Degree in Forest Science. America: Northern Arizona University, 2000
[79]	Castillo J V. Ground beetle community structure as a bioindicator of forest health . Dissertation of Doctor’s Degree in Forest Science. America: Northern Arizona University, 2000
[80]	梁军生,陈晓鸣,王健敏,等.受小蠹虫不同阶段为害的云南松光合生理反应分析[J].林业科学研究,2009,22(3):407-412

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Host Selection of Xylophagous Insects and Its Application in Forest Health Evaluation

1. Research Institute of Subtropical Forestry, Chinese Academy of Forestry, Fuyang 311400, Zheijiang, China

Abstract: Forest is an important component part of ecosystem and therefore forest health is crucial to the stability of ecosystem. However, different countries has different emphases on forest health, furthermore, evaluation criteria and diagnostic methods of forest health are inconsistency, especially diagnosing sub-healthy forest betimes is still a scientific problem need to be solved urgently. The paper reviewed the host selection mechanisms and rules of xylophagous insects and their application foreground in forest health evaluation. According to the rule that some secondary xylophagous insects always accompany with trees which are sub-healthy or unhealthy, ideas of diagnosing and evaluating forest health betimes using xylophagous insects were posed. Mathematical models would be established based mainly on interactions between quantity of xylophagous insect populations and status of forest health, interspecific interactions(community structure, biodiversity) and environmental factors(climatic change, soil property) were also added as supplementary parameters, in order to quantitatively analyzing and comprehensively evaluating forest health and its developing trend.

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Reference (80)

[1]	范志平.森林健康刍议[J].现代农业科技,2007(22):219-222
[2]	王彦辉,肖文发,张星耀.森林健康监测与评价的国内外现状和发展趋势[J].林业科学,2007,43(7):78-85
[3]	朱中华.森林健康理论与实践[J].安徽林业,2008(2):25
[4]	曹国江.关于森林健康问题的探讨[J].世界林业研究,2008,21(2):76-80
[5]	周立江.森林健康内涵及评价指标探讨[J].四川林业科技,2008,29(1):27-30
[6]	萧刚柔.中国森林昆虫[M].第2版,北京:中国林业出版社,1992
[7]	张执中.森林昆虫学[M].北京:中国林业出版社,1997:321-322
[8]	Linsley E G. Ecology of Cerambycidae[J]. Annu Rev Entomol,1959,4:99-138
[9]	Wood D L. The role of pheromones,kairomones,and allomones in the host selection and colonization behavior of bark beetles[J]. Annu Rev Entomol,1982,27:411-446
[10]	Solomon J D. Guide to insect borers of North American broadleaf trees and shrubs. Agric. Handbook No 706[M]. USA, WA-Washington, DC:US Dept of Agriculture, Forest Service,1995
[11]	Hanks L M. Influence of the larval host plant on reproductive strategies of cerambycid beetles[J]. Annu Rev Entomol,1999, 44:483-505
[12]	Allison J D, Borden J H, Seybold S J. A review of the chemical ecology of the Cerambycidae (Coleoptera) [J]. Chemoecology,2004,14:123-150
[13]	Byers J A. Attraction of bark beetles, Tomicus piniperda, Hylurgops palliatus, and Trypodendron domesticum and other insects to short-chain alcohols and monoterpenes [J]. J Chem Ecol, 1992, 18(12):2385-2402
[14]	Tomlin E S, Antonejevic E, Alfaro R I, et al. Changes in volatile terpene and diterpene resin acid composition of resistant and susceptible white spruce leaders exposed to stimulated white pine weevil damage [J]. Tree Physiology, 2000, 20(16):1087-1095
[15]	Schroeder L M, Lindelow A. Attraction of scolytids and associated beetles by different absolute amounts and proportions of α-pinene and ethanol [J].J Chem Ecol,1989,15:807-810
[16]	Gladwin J, Kelsey R G, Peck R W. Response of some scolytids and their predators to ethanol and 4-allylanisole in pine forests of central Oregon [J]. J Chem Ecol,2001,27(4):697-715
[17]	赵涛,李丽莎,周楠.云南松对松小蠹的引诱能力及其挥发物组成[J].东北林业大学学报, 2002,30(4):47-49
[18]	Byers J A. Behavioral mechanisms involved in reducing competition in bark beetles [J]. Holarct Ecol, 1989,12(4):466-476
[19]	Moeck H A, Wood D L, Lindahl K Q Jr. Host selection behavior of bark beetles (Coleoptera: Scolytidae) attacking Pinus ponderosa, with special emphasis on the western pine beetle, Dendroctonus brevicomis [J].J Chem Ecol, 1981,7(1):49-83
[20]	Gregoire J C, Baisier M, Drumont A, et al. Volatile compounds in the larval frass of Dendroctonus valens and Dendroctonus micans (Coleoptera:Scolytidae) in relation to oviposition by the predator, Rhizophagus grandis(Coleoptera:Rhizophagidae) [J]. J Chem Ecol, 1991,17(10):2003-2019
[21]	Moeck H A. Field test for the primary attraction of the spruce beetle [J]. Envir Can For Sew Bi-mon Res Notes,1978,34:8
[22]	Vite J P, Gara R I. Volatile attractants from ponderosa pine attacked by bark beetles (Coleoptera: Scolytidae) [J]. Contr Boyce Thompson Inst,1962,21:251-273
[23]	Borden J H,Bennett R B.A continuously recording flight mile for investigating the effects of volatile substance on the flight of tethered insects [J].Ecol Entomol,1969,62(4):782-785
[24]	Salom S M,Hobson K R.Application of Semiochemicals for Management of Bark Beetle Infestation:Proceeding of an Informal Conference[M].Collingdale:Diane Publishing Company,1998:1-22
[25]	Siegert N W. Host preference and potential impact of pine shoot beetle in Michigan pine stands. Dissertation of masters degree[M]. Department of Forestry, America: Michigan State University, 2000
[26]	Byers J A, Lanne B S, Schlyter F, et al. Olfactory recognition of host-tree susceptibility by pine shoot beetles [J]. Naturwissenschaften,1985,72:324-326
[27]	Phillips T W. Reponses of Hylastes salebrosus to turpentine, ethanol, and pheromones of Dendroctonus (Coleoptera:Scolytidae) [J].Florida Entomologist,1990,73(2):286-292
[28]	Francke W, Bartels J, Meyer H, et al. Semiochemicals from bark beetles: new results, remarks, and reflections [J].J Chem Ecol,1995,21(7):1043-1063
[29]	Byers J A. Novel diffusion-dilution method for release of semiochemcals: Testing pheromone component ratios on western pine beetle [J]. J Chem Ecol, 1988, 14(1):199-212
[30]	Borden J H. Aggregation Pheromones [M]//Kerkut G A. In Behavior. Oxford: Pergamon Press, 1985:257-285
[31]	Erbilgin N,Kenneth F,Raffa K F.Opposing effects of host monoterpenes on responses by two sympatric species of bark beetles to their aggregation pheromones[J].J Chem Ecol,2000,26(11):2527-2548
[32]	周楠,毋亚梅,张立新,等.松小蠹成虫对其信息化合物的触角电位反应[J].云南林业科技,2000,9(3):38-42
[33]	祝传书,赵惠燕.虫害诱导的植物挥发物[J].西北农林科技大学学报:自然科学版,2003,31(1):183-186
[34]	段焰青,叶辉,李青青. 小蠹虫与针叶树木的协同进化关系[M]// 段昌群. 生态科学进展:第三卷. 北京:高等教育出版社,2007,83-95
[35]	叶辉.纵坑切梢小蠹对云南松蛀害研究[J].昆虫学报,1999,42(4):394-400
[36]	Byers J A. Effect of mating on terminating aggregation during host colonization in the bark beetle, Ips paraconfusus [J]. J Chem Ecol, 1981,7(6):1135-1147
[37]	Byers J A, Zhang Q H, Birgersson G. Strategies of a bark beetle, Pityogenes bidentatus, in an olfactory landscape [J]. Naturwissenschaften,2000,87:503-507
[38]	陈辉,李宗波.植物挥发性化合物在小蠹虫寄主选择中的作用[J].福建林学院学报,2006,26(1):87-91
[39]	Schroeder L M.Olfactory recognition of nonhost aspen and birch by conifer bark beetles Tomicus piniperda and Hylurgops palliates [J].J Chem Ecol,1992,18:1583-1593
[40]	杨群芳,周祖基,李庆.植物精油对云南松纵坑切梢小蠹的驱避活性研究[J].西南农业大学学报,2003,25(4):357-359
[41]	Groot P D E.Green leaf volatiles inhibit response of red pine cone beetle Conophthorus resinosae(Coleoptera:Scolytidae) to a sex pheromone [J].Naturwissenschaften,1999,86(2):81-85
[42]	孙晓玲.云杉八齿小蠹化学信息物质的研究 . 哈尔滨:东北林业大学,2006
[43]	Campbell S A, Borden J H. Integration of visual and olfactory cues of hosts and non-hosts by three bark beetles (Coleoptera: Scolytidae) [J].Ecol Entomol, 2006,31:437-449
[44]	Kolb T E, Guerard N, Hofstetter R W, et al. Attack preference of Ips pini on Pinus ponderosa in northern Arizona: tree size and bole position [J].Agri For Entomol,2006,8:295-303
[45]	Ye H, Li L S. Preliminary observations on the trunk attacks by Tomicus piniperda (L.) (Col., Scolytidae) on Yunnan pine in Kunming, China [J].J Appl Entomol,1995,119:331-333
[46]	Lawrence J F. Coleoptera[M]//Parker S P. Synopsis and Classification of Living Organisms. USA,NY-New York: McGraw Hill,1982
[47]	Gardiner L M. Deterioration of fire-killed pine in Ontario and the causal wood-boring beetles [J]. Can Entomol, 1957, 89: 241-263
[48]	Melander A L. Destructive beetles: A note on landscape gardening[J]. Entomol News,1904,15:19-20
[49]	Gardiner L M. Insect attack and value loss in wind-damaged spruce and jack pine stands in northern Ontario [J]. Can J For Res, 1975, 5:387-398
[50]	Belyea R M. Death and deterioration of balsam fir weakened by spruce budworm defoliation in Ontario. Part I. Notes on the seasonal history and habits of insects breeding in severely weakened and dead trees [J]. Can Entomol, 1952, 84:325-335
[51]	Linit M J. Nematode-vector relationships in the pine wilt disease system [J]. J Nematol, 1988, 20:227-235
[52]	樊建庭.松墨天牛交配定位过程中的化学信息物质研究 .北京:中国科学院动物研究所,2006
[53]	Morewood W D, Hein K E, Katinic P J, et al. An improved trap for large wood-boring insects, with special reference to Monochamus scutellatus (Coleoptera: Cerambycidae) [J]. Can J For Res, 2002, 32:519-525
[54]	Meurer-Grimes B, Tavakilian G. Chemistry of cerambycid host plants. Part I: Survey of Leguminosae-A study in adaptive radiation [J]. Botanical Review, 1997, 63:356-394
[55]	江望锦. 松墨天牛成虫与寄主间化学信息联系机制的初步研究 .南京:南京林业大学,2005
[56]	Trapp S, Croteau R. Defensive resin biosynthesis in conifers [J]. Annu Rev Plant Physiol Plant Mol Biol, 2001, 52:689-724
[57]	Kelsey R G, Joseph G. Ethanol in ponderosa pine as an indicator of physiological injury from fire and its relationship to secondary beetles [J]. Can J For Res, 2003, 33:870-884
[58]	Yamasaki T, Hata K, Okamoto H. Luring of Japanese pine sawyer Monochamus alternatus Hope by paraquat-treated pine tree (Ⅰ) the effect of paraquat and ethephon on pine trees [J]. 日林志,1980,62(3):99-102
[59]	Yamasaki T, Suzuki N. Luring of Japanese pine sawyer Monochamus alternatus Hope by paraquat-treated pine tree (Ⅱ) The attractiveness of volatile oil from lightwood [J]. J Jap For Soc,1982,64(9):340-349
[60]	Fettkother R, Reddy G V P, Noldt U. Effect of host and larval frass volatiles on behavioral response of the old house borer, Hylotrupes bajulus (L.)( Coleoptera: Cerambycidae), in a wind tunnel bioassay [J]. Chemoecology, 2000, 10: 1-10
[61]	Higgs M D, Evans D A. Chemical mediators in the oviposition behavior of the house longhorn beetle Hylotrupes bajulus [J]. Experientia,1978, 34:46-47
[62]	Kobayashi F, Yamane A, Ikeda T. The Japanese pine sawyer beetle as the vector of pine wilt disease [J]. Annu Rev Entomol,1984,29: 115-135
[63]	Ikeda T, Yamane A, Enda N, et al. Attractiveness of volatile components of felled pine trees for Monochamus alternatus (Coleoptera: Cerambycidae) [J].J Jap For Soc, 1986, 68:15-19
[64]	Phillips T W,Wilkening A J,Atkinson T H,et al. Synergism of turpentine and ethanol as attractants for certain pine-infesting beetles (Coleoptera) [J]. Environ Entomol,1988,17(3):456-462
[65]	Suckling D M, Gibb A R, Daly J M, et al. Behavioral and Electrophysiological Responses of Arhopalus tristis to Burnt Pine and other Stimuli [J]. J Chem Ecol,2001, 27(6):1091-1104
[66]	Travakilian G, Berkov A, Meurer-Grimes B, et al. Neotropical tree species and their faunas of Xylophagous longicorns (Coleoptera: Cerambycidae) in French Guiana [J]. Bot Rev (Lancaster), 1997,63:303-355
[67]	Yamasaki T, Sato M, Sakoguchi H. (-)-Germacrene D: Masking substance of attractants for the cerambycid beetle,Monochamus alternatus (Hope) [J]. Appl Entomol Zool, 1997, 32(3):423-429
[68]	Sumimoto M, Shiraga M, Kondo T. Ethane in pine needles preventing the feeding of the beetle, Monochamus alternatus [J]. J Insect Physiol, 1975, 21:713-722
[69]	杨宝君,潘宏阳,汤坚,等. 松材线虫病[M]. 北京:中国林业出版社,2003:61-62
[70]	Islam S Q, Ichiryu J, Sato M, et al. D-Catechin: An oviposition stimulant for the cerambycid beetle, Monochamus alternatus from Pinus densiflora [J]. J Pest Sci, 1997, 22: 338-341
[71]	Allison J D,Borden J H,McIntosh R L,et al. Kairomonal response by four Monochamus species (Coleoptera: Cerambycidae) to bark beetle pheromones [J]. J Chem Ecol,2001, 27(4):633-646
[72]	Lacey E S, Ginzel M D, Millar J G, et al. Male-produced aggregation pheromone of the cerambycid beetle Neoclytus acuminatus [J]. J Chem Ecol,2004,30(8):1493-1507
[73]	Morewood W D, Simmonds K E, Gries R, et al. Disruption by conophthorin of the kairomonal response of sawyer beetles to bark beetle pheromones [J]. J Chem Ecol, 2003, 29(9):2115-2129
[74]	Huber D P W, Gries R, Borden J H, et al. Two pheromones of coniferophagous bark beetles (Coleoptera: Scolytidae) found in the bark of non-host angiosperms [J]. J Chem Ecol,1999,25(4):805-816
[75]	Anbutsu H, Togashi K. Oviposition behavior and response to the oviposition scars occupied by eggs in Monochamus saltuarius (Coleoptera: Cerambycidae) [J]. Appl Entomol Zool,1997,32:541-549
[76]	李水清. 松墨天牛驱避化合物质的研究 .北京:中国科学院动物研究所,2006
[77]	Anonymous. Alien Forest Pests. Context for the Canadian Forest Services Science Program[M]. CAN, ON-Ottawa: Natural Resources Canada, Canadian Forest Service,1999
[78]	Martinez G S. Interactions between bark beetles(Coleoptera: Scolytidae) and habitat structure in pine forests . Dissertation of Doctor’s Degree in Forest Science. America: Northern Arizona University, 2000
[79]	Castillo J V. Ground beetle community structure as a bioindicator of forest health . Dissertation of Doctor’s Degree in Forest Science. America: Northern Arizona University, 2000
[80]	梁军生,陈晓鸣,王健敏,等.受小蠹虫不同阶段为害的云南松光合生理反应分析[J].林业科学研究,2009,22(3):407-412

Host Selection of Xylophagous Insects and Its Application in Forest Health Evaluation

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Host Selection of Xylophagous Insects and Its Application in Forest Health Evaluation

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