Differing patterns of sequestration of iridoid glycosides in the Mecininae (Coleoptera, Curculionidae)

Baden CU, Dobler S (2009) Potential benefits of iridoid glycoside sequestration in Longitarsus melanocephalus (Coleoptera, Chrysomelidae). Basic Appl Ecol 10:27–33

Baden CU, Geier T, Franke S, Dobler S (2011) Sequestered iridoid glycosides—highly effective deterrents against ant predators? Biochem Syst Ecol 39:897–911

Belofsky G, Bowers MD, Janzen S, Stermitz F (1989) Iridoid glycosides of Aureolaria flava and their sequestration by Euphydryas phaeton butterflies. Phytochemistry 28:1601–1604

Boros CA, Stermitz FR (1991) Iridoids. An updated review, part II. J Nat Prod 54:1173–1246

Boros CA, Stermitz FR, McFarland N (1991) Processing of iridoid glycoside antirrhinoside from Maurandya antirrhiniflora (Scrophulariaceae) by Meris paradoxa (Geometridae) and Lepipolys spp. (Noctuidae). J Chem Ecol 17:1123–1133

Bowers MD (1981) Unpalatability as a defense strategy of western checkerspot butterflies (Euphydryas, Nymphalidae). Evolution 35:367–375

Bowers MD (1991) Iridoid glycosides. In: Rosenthal GA, Berenbaum MR (eds) Herbivores: their interactions with plant secondary metabolites, vol I. Academic Press, San Diego, pp 251–295

Bowers MD (2003) Hostplant suitability and defensive chemistry of the Catalpa shpinx Ceratomia catalpae. J Chem Ecol 29:2359–2367

Bowers MD, Collinge SK (1992) Fate of iridoid glycosides in different life stages of the buckeye, Junonia coenia (Lepidoptera, Nymphalidae). J Chem Ecol 18:817–831

Bowers MD, Farley S (1990) The behaviour of gray jays, Perisoreus canadensis, towards palatable and unpalatable Lepidoptera. Anim Behav 39:699–705

Bowers MD, Puttick GM (1986) Fate of ingested iridoid glycosides in lepidopteran herbivores. J Chem Ecol 12:169–178

Bowers MD, Stamp NE (1997) Effect of hostplant genotype and predators on iridoid glycoside content of pupae of a specialist insect herbivore, Junonia coenia (Nymphalidae). Biochem Syst Ecol 12:571–580

Caldara R (2001) Phylogenetic analysis and higher classification of the tribe Mecinini (Coleoptera, Curculionidae, Curculioninae). Koleopterologische Rundschau 71:171–203

Damtoft S (1994) Biosynthesis of Catalpol. Phytochemistry 35:1187–1189

Davini E, Iavarone C, Trogolo C, Aureli P, Pasolini B (1986) The quantitative isolation and antimicrobial activity of the aglycone of aucubin. Phytochemistry 25:2420–2422

De La Fuente MA, Dyer LA, Bowers MD (1995) The iridoid glycoside, catalpol, as a deterrent to the predator Camponotus floridanus (Formicidae). Chemoecology 5(6):13–18

Dobler S (2001) Evolutionary aspects of defense by recycled plant compounds in herbivorous insects. Basic Appl Ecol 2:15–26

Dobler S, Petschenka G, Pankoke HC (2011) Coping with toxic plant compounds—the insect’s perspective on iridoid glycosides and cardenolides. Phytochemistry 72:1593–1604

Dyer LA, Bowers MD (1996) The importance of sequestered iridoid glycosides as a defense against an ant predator. J Chem Ecol 22:1527–1539

El-Naggar LJ, Beal JL (1980) Iridoids. A review. J Nat Prod 43:649–706

Freude H, Harde KW, Lohse GA (1983) Die Käfer Mitteleuropas. Band 11. Goecke and Evers, Krefeld

Gardner DR, Stermitz FR (1988) Host plant utilization and iridoid glycoside sequestration by Euphydryas anicia (Lepidoptera, Nymphalidae). J Chem Ecol 14:2147–2168

Ishiguro K, Yamaki M, Takagi S (1982) Studies on the iridoid related compounds. I. On antimicrobial activity of aucubigenin and certain iridoid aglycones. Yakugaku Zasshi 102:755–759

Jamieson MA, Bowers MD (2010) Iridoid glycoside variation in the invasive plant Dalmatian toadflax, Linaria dalmatica (Plantaginacae), and sequestration by the biological control agent, Calophasia lunula. J Chem Ecol 36:70–79

Kim DH, Kim BR, Kim JY, Jeong YC (2000) Mechanism of covalent adduct formation of aucubin to proteins. Toxicol Lett 114:181–188

Opitz SEW, Müller C (2009) Plant chemistry and insect sequestration. Chemoecology 19:117–154

Opitz SEW, Jensen SR, Müller C (2010) Sequestration of glucosinolates and iridoid glucosides in sawfly species of the genus Athalia and their role in defense against ants. J Chem Ecol 36:148–157

Prell H (1925) 4. Zur Biologie der Blattschaber (Cionini). I. Die Enstehung der larvalen Gallerthülle und des Puppenkokons. Zoologischer Anzeiger 62:3–48

Räther M (1989) Notes on four weevils in the tribe Cionini (Coleoptera: Curculionidae) associated with Scrophularia nodosa L. (Scrophulariaceae). Part I: biology and ecology of the weevils. Bonner zoologische Beiträge 40:109–121

Scherf H (1964) Die Entwicklungsstadien der mitteleuropäischen Curculioniden (Morphologie, Bionomie, Ökologie). Abhandlungen der Senckenbergischen Naturforschenden Gesellschaft 506:1–335

Strohmeyer HH, Stamp NE, Jarzomski CM, Bowers MD (1998) Prey specis and prey diet affect growth of invertebrate predators. Ecol Entomol 23:68–79

Theodoratus DH, Bowers MD (1999) Effects of sequestered iridoid glycosides on prey choice of the prairie wolf spider Lycosa carolinensis. J Chem Ecol 25:283–295

Willinger G, Dobler S (2001) Selective sequestration of iridoid glycosides from their host plant in Longitarsus flea beetles. Biochem Syst Ecol 29:335–346