Many species of Drosophila form conspecific pupa aggregations across the breeding sites. These aggregations could result
from species-specific larval odor recognition. To test this hypothesis we used larval odors of D. melanogaster and D. pavani,
two species that coexist in the nature. When stimulated by those odors, wild type and vestigial (vg) third-instar larvae of D.
melanogaster pupated on conspecific larval odors, but individuals deficient in the expression of the odor co-receptor Orco
randomly pupated across the substrate, indicating that in this species, olfaction plays a role in pupation site selection.
Larvae are unable to learn but can smell, the Syn97CS and rut strains of D. melanogaster, did not respond to conspecific odors
or D. pavani larval cues, and they randomly pupated across the substrate, suggesting that larval odor-based learning could
influence the pupation site selection. Thus, Orco, Syn97CS and rut loci participated in the pupation site selection. When
stimulated by conspecific and D. melanogaster larval cues, D. pavani larvae also pupated on conspecific odors. The larvae of
D. gaucha, a sibling species of D. pavani, did not respond to D. melanogaster larval cues, pupating randomly across the
substrate. In nature, D. gaucha is isolated from D. melanogaster. Interspecific hybrids, which result from crossing pavani
female with gaucha males clumped their pupae similarly to D. pavani, but the behavior of gaucha female x pavani male
hybrids was similar to D. gaucha parent. The two sibling species show substantial evolutionary divergence in organization
and functioning of larval nervous system. D. melanogaster and D. pavani larvae extracted information about odor identities
and the spatial location of congener and alien larvae to select pupation sites. We hypothesize that larval recognition
contributes to the cohabitation of species with similar ecologies, thus aiding the organization and persistence of Drosophila
species guilds in the wild.
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The work was supported by Fondo Nacional de Investigación Científica y Tecnológica (FONDECYT) Nu 1100110.