Abstract
Reproductive biology of carnivorous plants has largely been studied on species that rely on insects as pollinators and prey, creating potential conflicts. Autogamous pollination, although present in some carnivorous species, has received less attention. In angiosperms, autogamous self-fertilization is expected to lead to a reduction in flower size, thereby reducing resource allocation to structures that attract pollinators. A notable exception is the carnivorous pyrophyteDrosophyllum lusitanicum(Drosophyllaceae), which has been described as an autogamous selfing species but produces large, yellow flowers. Using a flower removal and a pollination experiment, we assessed, respectively, whether large flowers in this species may serve as an attracting device to prey insects or whether previously reported high selfing rates for this species in peripheral populations may be lower in more central, less isolated populations. We found no differences between flower-removed plants and intact, flowering plants in numbers of prey insects trapped. We also found no indication of reduced potential for autogamous reproduction, in terms of either seed set or seed size. However, our results showed significant increases in seed set of bagged, hand-pollinated flowers and unbagged flowers exposed to insect visitation compared with bagged, non-manipulated flowers that could only self-pollinate autonomously. Considering that the key life-history strategy of this pyrophytic species is to maintain a viable seed bank, any increase in seed set through insect pollinator activity would increase plant fitness. This in turn would explain the maintenance of large, conspicuous flowers in a highly autogamous, carnivorous plant.
Highlights
Carnivorous plants have long captivated naturalists and scientists worldwide (Chase et al 2009; Krol et al 2012)
Fruit set was very high in Drosophyllum, with no differences across the four treatments in the two sites (Table 3) and almost 100 % flowers developing into fruits (Table 4)
We detected significant differences in seed set among treatments in the two study sites (Table 3). These significant differences were due to the open pollination (OP) treatment, which produced significantly higher seed set than the other three treatments in Montera del Torero, and the spontaneous selfpollination (SSP) treatment, which produced significantly lower seed set values than the other three treatments at both sites
Summary
Carnivorous plants have long captivated naturalists and scientists worldwide (Chase et al 2009; Krol et al 2012). Charles Darwin himself was most fascinated by them and was the first to demonstrate plant carnivory experimentally (Darwin 1875). Carnivory has evolved several times independently in the angiosperms and 600 species of carnivorous plants can be found today across the globe, most prominently in tropical and temperate regions (Heubl et al 2006; Ellison and Gotelli 2009). They are largely restricted to infertile, wet, open habitats (Givnish et al 1984) where they have adapted to extremely low nutrient levels by evolving elaborately modified leaves
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