Abstract
A bivoltine checkerspot butterfly,Poladryas minuta, is aPenstemon specialist, not known to utilize any other plant genus for oviposition and larval feeding. At several intermontane plains sites of central Colorado, the butterfly utilizesPenstemon virgatus as its sole host plant. Analysis of the host plant showed it to contain three cinnamyl-type catalpol esters (scutellarioside-II, globularin, globularicisin) and catalpol. The host plant contained an average of 10% dry weight iridoids, but some variation among individual plants and leaves within plants was noted. Field-collected butterflies contained 2.1–8.7% dry weight catalpol, but no other iridoids. Adults from larvae fedP. virgatus in the lab contained 4.2–9.0% dry weight catalpol and excreted large amounts of catalpol in the meconium. No catalpol was found in the larval frass. Larvae did not consume three alternate iridoid-containing host-plant species, and most eventually died rather than feed on the alternate plants. Larvae did consume small amounts of artificial diets containing the alternate species andP. virgatus, but most went into diapause and some died. Survival was good on artificial diet containing 10% dry weight of the iridoid esters fromP. virgatus. Only catalpol was found in pupae and adults, but it was absent from the larval frass. The cinnamic-type acids expected from larval hydrolysis of the esters were not found in larval frass, pupae, or adults. These results are contrasted with those found for another checkerspot,Euphydryas anicia, which consumes a different host-plant species but was present at one of the same sites withPoladryas minuta.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Bowers, M.D. 1983. Iridoid glycosides and larval host-plant specificity in checkerspot butterflies (Euphydryas, Nymphalidae).J. Chem. Ecol. 9:475–493.
Brower, L.P., Nelson, C.J., Seiber, J.N., Fink, L.S., andBond, C. 1988. Exaptation as an alternative to coevolution in the cardenolide-based chemical defense of monarch butterflies (Danaus plexippus L.) against avian predators, pp. 461–463,in K.C. Spencer (ed.). Chemical Mediation of Coevolution. Academic Press, San Diego.
Fauer, R., Babadjamian, A., Balansard, G., Elias, R., andMaillard, C., 1987. Concerted use of two-dimensional NMR spectroscopy in the complete assignment of the13C-1H NMR spectra of globularin.Mag. Res. Chem. 25:327–330.
Ferris, C.D., andBrown, F.M. 1981. Butterflies of the Rocky Mountain states. University of Oklahoma Press, Norman.
Gardner, D.R., andStermitz, F.R. 1988. Host-plant utilization and iridoid glycoside sequestration byEuphydryas anicia (Lepidoptera: Nymphalidae).J. Chem. Ecol. 14:2147–2168.
L'Empereur, K.M. 1989. Iridoid glycoside and pyrrolizidine alkaloid sequestration by specialist lepidoptera. PhD dissertation. Colorado State University.
L'Empereur, K.M., andStermitz, F.R. 1990. Iridoid glycoside content ofEuphydryas anicia (Lepidoptera: Nymphalidae) and its major host plant,Besseya plantaginea (Scrophulariaceae) at a high plains Colorado site.J. Chem. Ecol. 16:187–197.
Mullin, C.A. 1988. Adaptive relationships of epoxide hydrolase in herbivorous orthropods.J. Chem. Ecol. 14:1867–1888.
Odendaal, F.J., Turchin, P., andStermitz, F.R. 1988. An incidental-effect hypothesis explaining aggregation of males in a population ofEuphydryas anicia (Nymphalidae).Am. Nat. 132:735–749.
Odendaal, F.J., Turchin, P., andStermitz, F.R. 1989a. Influence of host-plant density and male harassment on the distribution of femaleEuphydryas anicia (Nymphalidae).Oecologia 78:283–288.
Odendaal, F.J.,Jones, K.N., andStermitz, F.R. 1989b. Mating behavior and male investment inEuphydryas anicia (Lepidoptera: Nymphalidae).J. Res. Lepid. In press.
Scott, J. A. 1974. Adult behavior and population biology ofPoladryas minuta, and the relationship of the Texas and Colorado populations.Pan-Pac. Entomol. 50:9–22.
Scott, J.A. 1986. The butterflies of North America. Stanford University Press, Stanford, California, p. 297.
Stermitz, F.R., Gardner, D.R., Odendaal, F.J., andEhrlich, P.R. 1986.Euphydryas anicia (Lepidoptera: Nymphalidae) utilization of iridoid glycosides fromCastilleja andBesseya (Scrophulariaceae) host plants.J. Chem. Ecol. 12:1459–1468.
Stermitz, F.R., Gardner, D.R. andMcfarland, N. 1988. Iridoid glycoside sequestration by two aposematicPenstemon-feeding geometrid larvae.J. Chem. Ecol. 14:435–441.
Weinces, K.,Kunstler, K.,Schilling, G., andJaggy, H. 1975. Scuttelarioside-I und scuttelarioside-II, ausScutellaria altissima L. 10-cinnamoyl-und 10-(4-hydroxycinnamoyl) catalpol.Liebigs Ann. Chem. 2190–2194.
Author information
Authors and Affiliations
Additional information
Paper 15 in the series “Chemistry of the Scrophulariaceae.” Paper 14∶ Boros, C.M., Stermitz, F.R., and Harris, G.H. 1990.J. Nat. Prod. 53∶72–80.
Rights and permissions
About this article
Cite this article
L'empereur, K.M., Stermitz, F.R. Iridoid glycoside metabolism and sequestration byPoladryas minuta (Lepidoptera: Nymphalidae) feeding onPenstemon virgatus (Scrophulariaceae). J Chem Ecol 16, 1495–1506 (1990). https://doi.org/10.1007/BF01014084
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF01014084