info:ar-repo/semantics/artículo
Not all toxic butterflies are toxic: high intra- and interspecific variation in sequestration in subtropical swallowtails
Fecha
2017-12Autor
Dimarco, Romina Daniela
Fordyce, James A.
Resumen
Many herbivorous insects make use of plant secondary metabolites by consuming and storing
these toxic compounds in their body tissue or integument, thereby obtaining chemical defense against their
natural enemies. Swallowtail butterflies in the tribe Troidini (Papilionidae) sequester toxic alkaloids (aristolochic
acids, AAs) from their host plants in the genus Aristolochia. Troidine butterflies have been a model
group for development of theory on host plant chemical sequestration, but most studies on this group have
been limited to a single species in North America. These studies have led, in part, to the paradigm that troidine
butterflies are toxic, thereby explaining the numerous mimicry relationships that exist throughout
most of their range. Herein, we present one of the first comparative studies in a single location of a community
of troidine butterflies. We examined the AA content of five co-occurring troidine butterfly species and
their two Aristolochia host plants. We found that one Aristolochia species, A. triangularis, was preferred in
choice assays and did not possess quantifiable levels of AA. We also found that most troidine butterflies
did not possess quantifiable levels of AAs, but larvae have the ability to sequester AAs when it is present
in their diet. A larval preference experiment showed that host plant AA concentration did not influence larval
feeding choice. A performance experiment showed that higher levels of AAs in the diet increased larval
mortality, which might indicate a cost associated with sequestration of the chemical defense and also might
shed some light on why so many troidine butterflies in this community have little or no AAs. We propose
that automimicry might be operating in this system and many putative models of this paradigmatic system
might not possess plant-derived defensive chemistry.