The flowers of angiosperm plants present us with a staggering diversity of signal designs, but how did this diversity evolve? Answering this question requires us to understand how pollinators analyze these signals with their visual and olfactory sense organs, and how the sensory systems work together with post-receptor neural wiring to produce a coherent percept of the world around them. Recent research on the dynamics with which bees store, manage and retrieve memories all have fundamental implications on how pollinators choose between flowers, and in turn for floral evolution. New findings regarding how attention, peak shift phenomena, and speed accuracy tradeoffs affect pollinator choice between flower species show that analyzing the evo...
A fundamental question in biology is how animals efficiently locate and use diverse resources. Polli...
Pollinators such as bees are attracted to flowers by their visual display and their scent. Although ...
Flowering plants in Australia have been geographically isolated for more than 34 million years. In t...
The flowers of angiosperm plants present us with a staggering diversity of signal designs, but how d...
Morphologically complex flowers are characterized by bilateral symmetry, tube-like shapes, deep coro...
Angiosperms have evolved to attract and/or deter specific pollinators. Flowers provide signals and c...
Bee pollinators interact with flowers in a complex signal-receiver system. Chromatic traits that all...
Plant–pollinator interactions provide a natural experiment in signal evolution. Flowers are known to...
Pollinator-driven selection is thought to drive much of the extraordinary diversity of flowering pla...
Plant-pollinator interactions have a fundamental influence on flower evolution. Flower color signals...
Studying flower color evolution can be challenging as it may require several different areas of expe...
Insects use several different senses to forage on flowers, and detect floral cues such as color, sha...
Despite progress in understanding pollination network structure, the functional roles of floral sens...
A fundamental question in biology is how animals efficiently locate and use diverse resources. Polli...
Pollinators such as bees are attracted to flowers by their visual display and their scent. Although ...
Flowering plants in Australia have been geographically isolated for more than 34 million years. In t...
The flowers of angiosperm plants present us with a staggering diversity of signal designs, but how d...
Morphologically complex flowers are characterized by bilateral symmetry, tube-like shapes, deep coro...
Angiosperms have evolved to attract and/or deter specific pollinators. Flowers provide signals and c...
Bee pollinators interact with flowers in a complex signal-receiver system. Chromatic traits that all...
Plant–pollinator interactions provide a natural experiment in signal evolution. Flowers are known to...
Pollinator-driven selection is thought to drive much of the extraordinary diversity of flowering pla...
Plant-pollinator interactions have a fundamental influence on flower evolution. Flower color signals...
Studying flower color evolution can be challenging as it may require several different areas of expe...
Insects use several different senses to forage on flowers, and detect floral cues such as color, sha...
Despite progress in understanding pollination network structure, the functional roles of floral sens...
A fundamental question in biology is how animals efficiently locate and use diverse resources. Polli...
Pollinators such as bees are attracted to flowers by their visual display and their scent. Although ...
Flowering plants in Australia have been geographically isolated for more than 34 million years. In t...