A comparison of distances flown by different visitors to flowers of the same species
Abstract
There is no evidence that flight characteristics depend on anything as straightforward as whether flower visitors have high or low energetic requirements, and all the visitors to a given plant species fly similar, short distances between successively visited flowers and plants.
Local Knowledge Graph (10 entities)
Knowledge graph centered on A comparison of distances flown by different visit with 11 nodes and 24 connections. Top connected: Competition for hummingbird pollination and sequen, Pollen dispersal and optimal outcrossing in Delphi, Optimal foraging: movement patterns of bumblebees , Effective mutualism between sequentially flowering, Pollen precedence and stigma closure: a mechanism .
Related Works
Items connected by shared entities, co-authorship, citations, or semantic similarity.
Optimal foraging in bumblebees: rule of movement between flowers within inflorescences
Optimal foraging in hummingbirds: rule of movement between inflorescences
Optimal foraging: movement patterns of bumblebees between inflorescences
Data from: Atypical flowers can be as profitable as typical hummingbird flowers
Data from: Foraging efficiency and size matching in a plant – pollinator community: the importance of sugar content and tongue length
Data supplementing Lichtenberg et al. (2020) Competition for nectar resources does not affect bee foraging tactic constancy. Ecological Entomology
Shrubland Ecosystem Genetics And Biodiversity: Proceedings
Ecosystem Disturbance and Wildlife Conservation in Western Grasslands
A New Hydrologic Perspective of How Beaver Ponds Function
Cited By (176 times, 11 in Knowledge Hub)
Stimulation of flower nectar replenishment by removal: a survey of eleven animal-pollinated plant species
Nectar Yeasts in the Tall Larkspur <i>Delphinium barbeyi</i> (Ranunculaceae) and Effects on Components of Pollinator Foraging Behavior
The effects of road dust on pollination and reproduction of the native wildflower species, <i>Delphinium nuttallianum</i>
Reciprocal benefits in a plant-pollinator mutualism
The structure of plant-pollinator interactions in montane meadow environments
Predicting patterns of mating and potential hybridization from pollinator behavior
Spatial genetic heterogeneity in a population of the montane perennial plant Delphinium nelsonii
Pollen precedence and stigma closure: a mechanism of competition for pollination between Delphinium nelsonii and Ipomopsis aggregata
Pollen and gene dispersal: the influences of competition for pollination
Experimental studies of pollen carryover: effects of floral variability in Ipomopsis aggregata
Experimental studies of pollen carryover: hummingbirds and Ipomopsis aggregata
References (26)
9 in Knowledge Hub, 17 external