Application of Optical Fluorescence Spectroscopy for Studying Bee Abundance in Tropaeolum majus L. (Tropaeolaceae)

Abstract: Tropaeolum majus L. species produce flowers with all sorts of colors, from yellow to red. This work aimed to apply optical fluorescence spectroscopy to study bee abundance in T. majus, answering the following questions: (1) do corolla temperature and weather conditions affect the abundance of visiting bee species? (2) do flower color and corolla fluorescence affect the abundance of visiting bee species? (3) do red flowers attract more visiting bees? (4) is there a relationship between bee visits and flower com… Show more

“…For example, these compounds can absorb UV radiation and emit UV and/or visible radiation. The light emission of fluorochromes can be considered biocommunication signals between plants and insects [ 24 ]. The absorption and emission capacities of plants influence the behavior of insects.…”

Urban Flora Riches: Unraveling Metabolic Variation Along Altitudinal Gradients in Two Spontaneous Plant Species

“…For example, these compounds can absorb UV radiation and emit UV and/or visible radiation. The light emission of fluorochromes can be considered biocommunication signals between plants and insects [ 24 ]. The absorption and emission capacities of plants influence the behavior of insects.…”

Urban Flora Riches: Unraveling Metabolic Variation Along Altitudinal Gradients in Two Spontaneous Plant Species