Comparative analysis of volatile organic compounds from flowers attractive to honey bees and bumblebees

Abstract: Background: Pollinators help plants to reproduce and support economically valuable food for humans and entire ecosystems. However, declines of pollinators along with population growth and increasing agricultural activities hamper this mutual interaction. Nectar and pollen are the major reward for pollinators and flower morphology and volatiles mediate the specialized plant-pollinator interactions. Limited information is available on the volatile profiles attractive to honey bees and bumblebees. In this study w… Show more

“…They reported that the proboscis length, weight, and wing length are positively related, and lycanid butterflies had strong preference to Tridax procumbens, and Ocimum americanum flowers but less frequently in Syndrella nodiflora flower which could inf luence the conservation of t those butterf ly species. While, Dekebo et al (2022) analyzed volatile organic compounds (VOCs) from flowers which are known to attract honey bees and bumble bees. Results showed the monoterpene 1,3,6-octatriene, 3,7-dimethyl-, (E) (E-β -ocimene) was the dominating compound in most flowers analyzed in Lonicera japonica, Diospyros lotus, Amorpha fruticose and Robinia pseudoacacia.…”

Editorial of special issue “Plant-pollinator network: Processes and impacts”

“…They reported that the proboscis length, weight, and wing length are positively related, and lycanid butterflies had strong preference to Tridax procumbens, and Ocimum americanum flowers but less frequently in Syndrella nodiflora flower which could inf luence the conservation of t those butterf ly species. While, Dekebo et al (2022) analyzed volatile organic compounds (VOCs) from flowers which are known to attract honey bees and bumble bees. Results showed the monoterpene 1,3,6-octatriene, 3,7-dimethyl-, (E) (E-β -ocimene) was the dominating compound in most flowers analyzed in Lonicera japonica, Diospyros lotus, Amorpha fruticose and Robinia pseudoacacia.…”

Editorial of special issue “Plant-pollinator network: Processes and impacts”

Chemical Ecology of Rathayibacter toxicus and Associated Bacteria: Profiling Volatile Compounds for Insights into Annual Ryegrass Toxicity Causative Agent