Abstract
AbstractEven though carnivorous plants (CPs) are a popular focus of ecological research, surprisingly few studies have investigated their prey spectra (the number and composition of captured prey). This knowledge gap has important implications for our understanding of sympatric speciation processes in CPs and may potentially hinder effective conservation and ecological restoration efforts. We applied a novel photography‐based analysis method to characterize the in situ prey spectra of eight species from Drosera sect. Arachnopus, including five species that were studied across multiple populations in northern Australia. The prey spectra of all studied species predominantly comprised of flying insects, with small Nematocera (Diptera) being the most common prey group across all species. While the prey spectra of most species varied significantly among locations, differences in prey spectra among sympatric species were most strongly determined by trap size. The number of prey captured per plant and per centimeter of trapping leaf was strongly associated with increasing leaf length, and species with larger trapping leaves also captured comparatively greater numbers of large prey items than species producing smaller trapping leaves. Although niche segregation in prey spectra was not observed at any of the study sites, at one location D. fragrans (a species producing a strong, honey‐like scent from trapping leaves) was found to capture significantly more winged Hymenoptera than the unscented sympatric D. aquatica, potentially indicating selective prey attraction in D. fragrans. Small species (such as D. nana) captured a disproportionally low amount of prey, despite being relatively widespread over large areas of northern Australia. Results indicate that carnivory may not have been a primary driver of diversification in D. sect. Arachnopus.
Highlights
Prey selectivity among sympatric predatory organisms is thought to be an important ecological driver of sympatric speciation (Doebeli and Dieckmann 2000, Bu€rger et al 2006)
Coelophylla Planch.; Verbeek and Boasson 1993) and of one species of bladderwort (Utricularia volubilis R.Br.; Płachno et al 2014). This essential lack of knowledge regarding prey selectivity in carnivorous plants (CPs) limits our understanding of their ecological requirements (Cross et al 2018), which is important for detecting sympatric speciation processes and may potentially hinder effective conservation and ecological restoration efforts (Clarke et al 2018)
Our data contribute to the understanding of prey spectra, prey attraction, and prey specialization in CPs
Summary
Prey selectivity among sympatric predatory organisms is thought to be an important ecological driver of sympatric speciation (Doebeli and Dieckmann 2000, Bu€rger et al 2006). Research in this area has generally focused on the detection of competition-driven prey selectivity in the animal kingdom and even uncovered several cases of likely sympatric speciation events (Knudsen et al 2010). Coelophylla Planch.; Verbeek and Boasson 1993) and of one species of bladderwort (Utricularia volubilis R.Br.; Płachno et al 2014) This essential lack of knowledge regarding prey selectivity in CPs limits our understanding of their ecological requirements (Cross et al 2018), which is important for detecting sympatric speciation processes and may potentially hinder effective conservation and ecological restoration efforts (Clarke et al 2018)
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
