J
James H. Cane
Researcher at Utah State University
Publications - 135
Citations - 12797
James H. Cane is an academic researcher from Utah State University. The author has contributed to research in topics: Pollinator & Pollination. The author has an hindex of 41, co-authored 129 publications receiving 11260 citations. Previous affiliations of James H. Cane include Agricultural Research Service & United States Department of Agriculture.
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Journal Article
The solitary bee Melissodes thelypodii thelypodii Cockerell (Anthophoridae) collects pollen from wind-pollinated Amaranthus palmeri Watson
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Global Warming, Advancing Bloom and Evidence for Pollinator Plasticity from Long-Term Bee Emergence Monitoring.
TL;DR: In this paper, the earliest nesting or foraging activities of ground-nesting bees were observed over a period of 12 to 24 years, and the earliest annual bee activity ranged across 25 to 45 days, approximating reported multidecadal ranges for published wildflower bloom dates.
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Interspecific pairing between two siblingIps species (Coleoptera: Scolytidae)
TL;DR: Host and conspecific discrimination were tested as reproductive isolating mechanisms between bark beetles and hosts cooccur in southern California and induced pheromone production in host and nonhost logs using males of each species.
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Breeding biologies, pollinators, and seed beetles of two prairie-clovers, Dalea ornata and Dalea searlsiae (Fabaceae: Amorpheae), from the Intermountain West, USA
James H. Cane,James H. Cane,Melissa Weber,Melissa Weber,Stephanie A. Miller,Stephanie A. Miller +5 more
TL;DR: Both prairie-clovers proved to be self-compatible, but far fewer seeds resulted from either manual pollination with self-pollen or unassisted autogamy, which will require supplementation of bees for pollination and exclusion of seed beetles.
Journal Article
Violent weather and bees: Populations of the barrier island endemic, Hesperapis oraria (Hymenoptera: Melittidae) survive a category 3 hurricane
TL;DR: The vulnerability of non-social bee populations to climatic perturbations is poorly known, and extreme weather events, such as hurricanes, typhoons, tornadoes and hailstorms, are known to extensively impact above-ground plant and animal communities.