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Full-Text Articles in Life Sciences
Plants, Parasites, And Pollinators: The Effects Of Medicinal Pollens On A Common Gut Parasite In Bumble Bees, George Locascio
Plants, Parasites, And Pollinators: The Effects Of Medicinal Pollens On A Common Gut Parasite In Bumble Bees, George Locascio
Masters Theses
Declines in several pollinator species are due to a variety of factors, including pathogens. Incorporating pollinator-friendly plant species into wild and agricultural habitats could reduce the stress of pathogens if food sources act medicinally against pathogens. Previous research demonstrated one domesticated sunflower cultivar (Helianthus annuus) can dramatically reduce a gut pathogen (Crithidia bombi) of the common eastern bumble bee, Bombus impatiens. To ascertain the breadth of this medicinal trait, we tested whether pollen from several H. annuus cultivars and four relatives could also reduce C. bombi infections in B. impatiens. We also investigated whether …
Context-Dependent Medicinal Effects Of Anabasine And Infection-Dependent Toxicity In Bumble Bees, Evan C. Palmer-Young, Alison Hogeboom, Alexander J. Kaye, Dash Donnelly, Jonathan Andicoechea, Sara June Connon, Ian Weston, Kimberly Skyrm, Rebecca E. Irwin, Lynn S. Adler
Context-Dependent Medicinal Effects Of Anabasine And Infection-Dependent Toxicity In Bumble Bees, Evan C. Palmer-Young, Alison Hogeboom, Alexander J. Kaye, Dash Donnelly, Jonathan Andicoechea, Sara June Connon, Ian Weston, Kimberly Skyrm, Rebecca E. Irwin, Lynn S. Adler
Biology Department Faculty Publication Series
Background
Floral phytochemicals are ubiquitous in nature, and can function both as antimicrobials and as insecticides. Although many phytochemicals act as toxins and deterrents to consumers, the same chemicals may counteract disease and be preferred by infected individuals. The roles of nectar and pollen phytochemicals in pollinator ecology and conservation are complex, with evidence for both toxicity and medicinal effects against parasites. However, it remains unclear how consistent the effects of phytochemicals are across different parasite lineages and environmental conditions, and whether pollinators actively self-medicate with these compounds when infected.
Approach
Here, we test effects of the nectar alkaloid anabasine, …
Testing Dose-Dependent Effects Of The Nectar Alkaloid Anabasine On Trypanosome Parasite Loads In Adult Bumble Bees, Winston E. Anthony, Evan C. Palmer-Young, Anne S. Leonard, Rebecca E. Irwin, Lynn S. Adler
Testing Dose-Dependent Effects Of The Nectar Alkaloid Anabasine On Trypanosome Parasite Loads In Adult Bumble Bees, Winston E. Anthony, Evan C. Palmer-Young, Anne S. Leonard, Rebecca E. Irwin, Lynn S. Adler
Biology Department Faculty Publication Series
The impact of consuming biologically active compounds is often dose-dependent, where small quantities can be medicinal while larger doses are toxic. The consumption of plant secondary compounds can be toxic to herbivores in large doses, but can also improve survival in parasitized herbivores. In addition, recent studies have found that consuming nectar secondary compounds may decrease parasite loads in pollinators. However, the effect of compound dose on bee survival and parasite loads has not been assessed. To determine how secondary compound consumption affects survival and pathogen load in Bombus impatiens, we manipulated the presence of a common gut parasite, …
Pollen Biology, Alice Cheung, Hen-Ming Wu
Pollen Biology, Alice Cheung, Hen-Ming Wu
Science and Engineering Saturday Seminars
No abstract provided.