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    Model selection, hummingbird natural history, and biological hypotheses: a response to Sazatornil et al.
    (Oxford Univ Press, 2023) Kriebel, Ricardo; Rose, Jeffrey P.; Drew, Bryan T.; Gonzalez-Gallegos, Jesus G.; Celep, Ferhat; Heeg, Luciann; Mahdjoub, Mohamed M.
    We have previously suggested that a shift from bee to hummingbird pollination, in concert with floral architecture modifications, occurred at the crown of Salvia subgenus Calosphace in North America ca. 20 mya (Kriebel et al. 2020 and references therein). Sazatornil et al. (2022), using a hidden states model, challenged these assertions, arguing that bees were the ancestral pollinator of subg. Calosphace and claiming that hummingbirds could not have been the ancestral pollinator of subg. Calosphace because hummingbirds were not contemporaneous with crown subg. Calosphace in North America. Here, using a variety of models, we demonstrate that most analyses support hummingbirds as ancestral pollinators of subg. Calosphace and show that Sazatornil et al. (2022) erroneously concluded that hummingbirds were absent from North America ca. 20 mya. We contend that biological realism - based on timing and placement of hummingbirds in Mexico ca. 20 mya and the correlative evolution of hummingbird associated floral traits - must be considered when comparing models based on fit and complexity, including hidden states models.
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    Pollinator shifts, contingent evolution, and evolutionary constraint drive floral disparity inSalvia(Lamiaceae): Evidence from morphometrics and phylogenetic comparative methods
    (WILEY, 2020) Kriebel, Ricardo; Drew, Bryan; Gonzalez-Gallegos, Jesus G.; Celep, Ferhat; Heeg, Luciann; Mahdjoub, Mohamed M.; Sytsma, Kenneth J.
    Switches in pollinators have been argued to be key drivers of floral evolution in angiosperms. However, few studies have tested the relationship between floral shape evolution and switches in pollination in large clades. In concert with a dated phylogeny, we present a morphometric analysis of corolla, anther connective, and style shape across 44% of nearly 1000 species ofSalvia(Lamiaceae) and test four hypotheses of floral evolution. We demonstrate that floral morphospace of New World (NW)Salviais largely distinct from that of Old World (OW)Salviaand that these differences are pollinator driven; shifts in floral morphology sometimes mirror shifts in pollinators; anther connectives (key constituents of theSalviastaminal lever) and styles co-evolved from curved to linear shapes following shifts from bee to bird pollination; and morphological differences between NW and OW bee flowers are partly the legacy of constraints imposed by an earlier shift to bird pollination in the NW. The distinctive staminal lever inSalviais a morphologically diverse structure that has evolved in concert with both the corolla and style, under different pollinator pressures, and in contingent fashion.