寄生蜂适应性生殖行为策略的研究进展

摘要/Abstract

摘要： 生殖行为是保障寄生蜂种群存活与繁衍的重要因素,其表现形式多种多样,不仅与寄生蜂种类和习性有关,还是应对寄主及其栖境变化的适应性行为策略之一。综述和对比了多种寄生蜂生殖行为的主要表现形式、影响因素和适应性意义,并结合寄生蜂生殖行为策略的研究现状分析,展望寄生蜂行为调控技术运用于农林害虫生物防治的前景与价值。

关键词: 寄生蜂, 生殖行为, 适应意义, 行为调控, 生物防治

罗丽林,李莉. 寄生蜂适应性生殖行为策略的研究进展[J]. 河南农业科学, 2018, 47(6): 7-12.

参考文献

参考文献:
［1］秦玉川.昆虫行为学导论［M］.北京:科学出版社,2009.

［2］黄维亚,周江,罗庆怀,等.昆虫护幼行为的研究进展［J］.湖南农业科学,2016（9）:107-110.

［3］陈福寿,王燕,郭九惠,等.半闭弯尾姬蜂羽化、交配及产卵行为观察［J］.环境昆虫学报,2010,32（1）:132-135.

［4］Dowell R V,Horn D J.Mating behavior of Bathyplectes curculionis（Hymenoptera:Ichneumonidae）,a parasitoid of the alfalfa weevil,Hypera postica（Coleoptera:Curculionidae）［J］.BioControl,1975,23（3）:271-273.

［5］Simser D H,Coppel H C.Courtship and mating behavior of Brachymeria lasus（Hymenoptera:Chalcididae）,an imported gypsy moth parasitoid［J］.BioControl,1980,25（4）:349-355.

［6］Cheng L L,Howard R W,Campbell J F.Mating Behavior of Cephalonomia tarsalis（Ashmead）（Hymenoptera:Bethylidae） and the effect of female mating frequency on offspring production［J］.Journal of Insect Behavior,2004,17（2）:227-245.

［7］柏天琦,杨硕媛,谷星慧,等.烟蚜茧蜂的交配行为研究［J］.南方农业学报,2017,48(9):1605-1610.

［8］Kajita H.Mating and oviposition of three Encarsia species（Hymenoptera:Aphelinidae）on the greenhouse whitefly,Trialeurodes vaporariorum（Westwood）（Homoptera:Aleyrodidae）［J］.Applied Entomology and Zoology,1989,24（1）:11-19.

［9］夏诗洋,孟玲,李保平.聚寄生性蝶蛹金小蜂雌蜂体型大小对产卵策略的影响［J］.昆虫学报,2012,55（9）:1069-1074.

［10］Collatz J,Tolasch T,Steidle J L.Mate finding in the parasitic wasp Cephalonomia tarsalis（Ashmead）:More than one way to a female’s heart［J］.Journal of Chemical Ecology,2009,35（7）:761-768.

［11］Itadani H,Ueno T.Chemically mediated mate finding of the polyphagous solitary parasitoid Itoplectis naranyae（Hymenoptera: Ichneumonidae）［J］.Annals of the Entomological Society of America,2014,107（1）:288-294.

［12］原建强,李欣.半闭弯尾姬蜂性比的影响因素研究［J］.河南农业大学学报,2008,42（3）:334-336.

［13］Balas M T,Lee M H,Werren J H.Distribution and fitness effects of the son-killer bacterium in Nasonia［J］.Evolutionary Ecology,1996,10（6）:593-607.

［14］徐海云,杨念婉,万方浩.寄生蜂的外竞争和内竞争作用［J］.中国生物防治学报,2014,30（4）:546-551.

［15］Godfray H C J.Parasitoids:Behavioral and evolutionary ecology［J］.Environmental Entomology,1994,24（2）:483-484.

［16］Gu H,Dorn S.Mating system and sex allocation in the gregarious parasitoid Cotesia glomerata［J］.Animal Behaviour,2003, 66（66）:259-264.

［17］Mdortde F,Adel M,Rrdo N,et al.Behavioural evidence for a female sex pheromone in Cotesia flavipes（Hymenoptera:Braconidae）［J］.Physiological Entomology,2004,29（2）:183-187.

［18］Ardeh M J,Jong P W D,Loomans A J M.Inter-and intraspecific effects of volatile and nonvolatile sex pheromones on males, mating behavior,and hybridization in Eretmocerus mundus and E.eremicus（Hymenoptera:Aphelinidae）［J］.Journal of Insect Behavior,2004,17（6）:745-759.

［19］刘万学,苑士涛,万方浩,等.棉铃虫齿唇姬蜂室内交配行为及影响因素的研究［J］.中国生物防治学报,2007,23（1）:14-18.

［20］Pérez-Lachaud G.Reproductive costs of mating with a sibling male:Sperm depletion and multiple mating in Cephalonomia hyalinipennis［J］.Entomologia Experimentalis Et Applicata,2010,137（1）:62-72.

［21］Steiner S M,Kropf C,Graber W,et al.Antennal courtship and functional morphology of tyloids in the parasitoid wasp Syrphoctonus tarsatorius（Hymenoptera:Ichneumonidae:Diplazontinae）［J］.Arthropod Structure and Development,2010, 39（1）:33-40.

［22］杨忠岐.膜翅目［M］.香港:香港天则出版社,1992.

［23］Waage J K.Sex ratio and population dynamics of natural enemies—Some possible interactions［J］.Annals of Applied Biology, 1982,101（1）:159-164.

［24］宋波,彭艳琼,杨赵雄,等.钝叶榕（Ficus curtipes）非传粉小蜂交配行为［J］.生态学报,2008,28（2）:595-601.

［25］Grillenberger B K,Zande L V D,Bijlsma R,et al.Reproductive strategies under multiparasitism in natural populations of the parasitoid wasp Nasonia（Hymenoptera）［J］.Journal of Evolutionary Biology,2009,22（3）:460-470.

［26］王金耀,屈振刚.管侧沟茧蜂寄生行为生物学特性研究［J］.华北农学报,2007,22（2）:149-151.

［27］Ridley M.Clutch size and mating frequency in parasitic Hymenoptera［J］.American Naturalist,1993,142（5）:893-910.

［28］孙芳,陈中正,段毕升,等.蝇蛹金小蜂的交配行为及雄蜂交配次数对雌蜂繁殖的影响［J］.生态学报,2013,33（14）:4354-4360.

［29］Ruther J,Homann M,Steidle J L M.Female-derived sex pheromone mediates courtship behaviour in the parasitoid Lariophagus distinguendus［J］.Entomologia Experimentalis Et Applicata,2000,96（3）:265-274.

［30］王振营,周大荣,Hasan S A.玉米螟赤眼蜂的产卵行为研究［J］.中国生物防治学报,1996,12（4）:145-149.

［31］吴华.管氏肿腿蜂个体发育、产卵行为及寄主选择性研究［D］.南京:南京林业大学,2012.

［32］谢正华,周祖基,杨伟,等.寄生经历对川硬皮肿腿蜂寄主搜索行为的影响［J］.应用昆虫学报,2006,43（4）:520-523.

［33］武辉,王小艺,李孟楼,等.白蜡吉丁肿腿蜂的生物学和生态学特性及繁殖技术研究［J］.昆虫学报,2008,51（1）: 46-54.

［34］张晓岚,孟玲,李保平.菜粉蝶蛹体型大小对蝶蛹金小蜂后代数量、性比及体型大小的影响［J］.生态学杂志,2009,28（4）:677-680.

［35］Pexton J J,Mayhew P J.Clutch size adjustment,information use and the evolution of gregarious development in parasitoid wasps［J］.Behavioral Ecology and Sociobiology,2005,58（1）:1739-1747.

［36］尚玉昌.行为生态学［M］.北京:北京大学出版社,1998:63-353.

［37］Resh V H,Carde R T.Encyclopedia of insects［M］.New York:Academic Press,2003:848-850.

［38］Costa J T.The other insect societies［M］.Cambridge:Havard University Press,2006.

［39］Linksvayer T A,Wade M J.The evolutionary origin and elaboration of sociality in the aculeate Hymenoptera:Maternal effects,sib-social effects,and heterochrony［J］.Quarterly Review of Biology,2005,80（3）:317-336.

［40］K lliker M,Vancassel M.Maternal attendance and the maintenance of family groups in common earwigs（Forficula auricularia）:A field experiment［J］.Ecological Entomology,2007,32（1）:24-27.

［41］Hardy I C W,Blackburn T M.Brood guarding in a bethylid wasp［J］.Ecological Entomology,1991,16（1）:55-62.

［42］Hu Z,Zhao X,Li Y,et al.Maternal care in the parasitoid,Sclerodermus harmandi（Hymenoptera:Bethylidae）［J］.PLoS One,2012,7（12）:1411.

［43］伍绍龙,徐福元,李保平,等.管氏肿腿蜂雌性抚育中幼虫转移行为的启动和节律［J］.昆虫学报,2013,56（4）:392-397.

［44］伍绍龙,周志成,彭曙光,等.管氏肿腿蜂抚育行为的代价和收益［J］.中国生物防治学报,2017,33（1）:39-43.

［45］黄维亚,李莉.管氏肿腿蜂抚育行为有利于子代生长发育［J］.昆虫学报,2017,60（4）:441-449.

［46］陆剑锋,邱鸿贵,邱中良,等.啮小蜂视觉和触角在交配中的作用观察［J］.昆虫天敌,2005,27（1）:15-20.

［47］辛星.椰心叶甲啮小蜂复眼和触角对其交配和寄生行为的影响［D］.海口:海南大学,2010.

［48］Eller F J,Bartelt R J,Jones R L,et al.Ethyl (Z)-9-hexadecenoate a sex pheromone of Syndipnus rubiginosus,a sawfly parasitoid［J］.Journal of Chemical Ecology,1984,10（2）:291-300.

［49］Ruther J,Stahl L M,Steiner S,et al.A male sex pheromone in a parasitic wasp and control of the behavioral response by the

female’s mating status［J］.Journal of Experimental Biology,2007,210（12）:2163-2169.

［50］Howard R W.Comparative analysis of cuticular hydrocarbons from the ectoparasitoids Cephalonomia waterstoni and Laelius utilis（Hymenoptera:Bethylidae）and their respective hosts,Cryptolestes ferrigineus（Coleoptera:Cucujidae）and Trogoderma variabile（Coleoptera:Dermestidae）［J］.Annals of the Entomological Society of America,1992,85:317-325.

［51］刘雨芳.昆虫性信息素及其对昆虫生殖行为的调节［J］.中山大学研究生学刊(自然科学与医学版),1996，17（1）:72-77.

［52］Finidori-Logli V,Bagnères A G,Erdmann D,et al.Sex recognition in Diglyphus isaea walker（Hymenoptera:Eulophidae）:Role of an uncommon family of behaviorally active compounds［J］.Journal of Chemical Ecology,1996,22（11）:2063-2079.

［53］Pompanon F,Schepper B D,Mourer Y,et al.Evidence for a substrate-borne sex pheromone in the parasitoid wasp Trichogramma brassicae［J］.Journal of Chemical Ecology,1997,23（5）:1349-1360.

［54］Field S A,Keller M A.Alternative mating tactics and female mimicry as post-copulatory mate-guarding behaviour in the parasitic wasp Cotesia rubecula［J］.Animal Behaviour,1993,46（6）:1183-1189.

［55］Metzger M,Fischbein D,Auguste A,et al.Synergy in information use for mate finding:Demonstration in a parasitoid wasp［J］.Animal Behaviour,2010,79（6）:1307-1315.

［56］Li L,Liu Z D,Sun J H.Olfactory cues in host and host-plant recognition of a polyphagous ectoparasitoid Scleroderma guani［J］.BioControl,2015,60（3）:307-316.

［57］王振吉,沈慧.3种寄生蜂的交配行为［J］.河北师范大学学报（自然科学版）,2013,37（3）:287-291.

［58］Grenier S,Pintureau B,Heddi A,et al.Successful horizontal trasfer of Wolbachia symbionts between Trichogramma waps［J］.Proceeding Royal Society London B,1998,265:1441-1445.

［59］Huigens M E,Luck R F,Klaassen R H G,et al.Infectious parthenogenesis［J］.Nature,2000,405:178-179.

［60］Vavre F,Girin C,Boulétreau M.Phylogenetic status of a fecundity-enhancing Wolbachia,that does not induce thelytoky in Trichogramma［J］.Insect Molecular Biology,1999,8（1）:67-72.

［61］刘兴平,彭接辉,何海敏,等.多次交配对昆虫适应性的影响［J］.江西农业大学学报,2008,30（4）:592-600.

［62］Chevrier C,Bressac C.Sperm storage and use after multiple mating in Dinarmus basalis（Hymenoptera:Pteromalidae）［J］.Journal of Insect Behavior,2002,15（3）:385-398.

［63］长有德,康乐.昆虫在多次交配与精子竞争格局中的雌雄对策［J］.昆虫学报,2002,45（6）:833-839.

［64］Boomsma J J.Split sex ratios and queen-male conflict over sperm allocation［J］.Proceedings of the Royal Society B(Biological Sciences),1996,263（1371）:697-704.

［65］Charnov E L,Los-Den Hartogh R L,Jones W T,et al.Sex ratio evolution in a variable environment［J］.Nature, 1981,289:27-33.

［66］Campan E,Benrey B.Behavior and performance of a specialist and a generalist parasitoid of bruchids on wild and cultivated

beans［J］.Biological Control,2004,30（2）:220-228.

［67］Flanders S E.Diffrential host relations of the sexs in parasitic hymenoptera［J］.Entomologia Experimentalis Et Applicata,1959, 2（2）:125-142.

［68］Kerkut G A,Gilbert L I.Comprehensive insect physiology,biochemistry and pharmacology.Vol.6.Nervous system:Sensory［J］.International Journal of Biochemistry,1985,17（11）:1280-1281.

［69］向玉勇,张帆.赤眼蜂在我国生物防治中的应用研究进展［J］.河南农业科学,2011,40(12):20-24.

［70］康育光,李捷,赵飞,等.国内斑潜蝇寄生蜂的研究进展［J］.山西农业科学,2011,39(1):95-98.

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