EVOLUTION OF DEVELOPMENTAL STRATEGIES IN PARASITIC HYMENOPTERA
Tóm tắt
▪ Abstract Parasitoid wasps have evolved a wide spectrum of developmental interactions with hosts. In this review we synthesize and interpret results from the phylogenetic, ecological, physiological, and molecular literature to identify factors that have influenced the evolution of parasitoid developmental strategies. We first discuss the origins and radiation of the parasitoid lifestyle in the Hymenoptera. We then summarize how parasitoid developmental strategies are affected by ecological interactions and assess the inventory of physiological and molecular traits parasitoids use to successfully exploit hosts. Last, we discuss how certain parasitoid virulence genes have evolved and how these changes potentially affect parasitoid-host interactions. The combination of phylogenetic data with comparative and functional genomics offers new avenues for understanding the evolution of biological diversity in this group of insects.
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Tài liệu tham khảo
Askew RR, Shaw MR. 1986. Parasitoid communities: their size, structure and development. See Ref. 155, pp.225–63
Beckage NE, Thompson SN, Federici BA, eds. 1993. Parasites and Pathogens of Insects. New York: Academic. 364pp.
Brooks DR, 1993, Parascript: Parasites and the Language of Evolution
Castro LR, 2005, Mol. Phylogenet. Evol.
Chanda S, 2002, Indian J. Exp. Biol., 40, 918
Cusson M, Béliveau C, Laforge M, Bellamare G, Levasseur A, et al. 2001. Hormonal alterations and molecular mechanism underlying the induction of host developmental arrest by endoparasitic wasps. See Ref. 47, pp.111–21
Dahlman DL, Vinson SB. 1993. Teratocytes: developmental and biochemical characteristics. See Ref. 12, pp.145–65
de Lima PR, 2003, J. Venom. Anim. Tox. Incl. Trop. Dis., 9, 149
Edwards JP, Weaver RJ, eds. 2001. Endocrine Interactions of Insect Parasites and Pathogens. Oxford: BIOS Sci. Publ. 314pp.
Hurd H. 2001. Parasite regulation of insect reproduction: similar strategies, different mechanism? See Ref. 47, pp.207–17
Knop-Wright MM, Coudron TA, Brandt SL. 2001. Ecological and physiological relevance of biochemical changes in a host as a result of parasitism byEuplectrusspp.: a case study. See Ref. 47, pp.153–75
Lanzrein B, Pfister-Wilhelm R, von Niederhäusern F. 2001. Effects of an egg-larval parasitoid and its polydnavirus on development and the endocrine system of the host. See Ref. 47, pp.95–109
Lebeck LM, 1989, Symbiosis, 7, 51
Marris GC, Weaver RJ, Edwards JP. 2001. Endocrine interactions of ectoparasitoid wasps with their hosts; an overview. See Ref. 47, pp.133–51
Pennacchio F, Malva C, Vinson SB. 2001. Regulation of host endocrine system by the endophagous braconidCardiochiles nigricepsand its polydnavirus. See Ref. 47, 123–32
Piek T, 1990, Comp. Biochem. Physiol., 96, 223
Price PW, 1980, Evolutionary Biology of Parasites
Quicke DLJ, 1997, Parasitic Wasps
Strand MR. 1986. The physiological interactions of parasitoids with their hosts and their influence on reproductive strategies. See Ref. 151, pp.97–136
Thompson SN. 1993. Redirection of host metabolism and effects on parasite nutrition. See Ref. 12, pp.125–44
Tremblay E, 1971, Boll. Lab. Entomol. Agr. Filippo Silvestri, 29, 305
Vinson SB, Pennacchio F, Consoli FL. 2001. The parasitoid-host endocrine interaction from a nutritional perspective. See Ref. 47, pp.187–205
Waage JK, 1985, Behavioural Ecology: Ecological Consequences of Adaptive Behaviour, 449
Waage J, Greathead D, eds. 1986. Insect Parasitoids. London: Academic. 398pp.
Weaver RJ, Marris GC, Bell HA, Edwards JP. 2001. Identity and mode of action of the host endocrine disrupters from the venom of parasitoid wasps. See Ref. 47, pp.33–58
Webb BA, Rana RL, Dahlman DL. 2001. Endoparasitoid-mediated disruption of host endocrine systems: common themes through uncommon means. See Ref. 47, pp.83–92