Your search keyword '"Dimethyldisulfide"' showing total 2 results

1. Are Isomeric Alkenes Used in Species Recognition among Neo-Tropical Stingless Bees (Melipona Spp).

Author

Martin SJ, Shemilt S, da S Lima CB, and de Carvalho CAL

Subjects

Alkenes analysis, Animal Communication, Animals, Brazil, Chromatography, Gas, Isomerism, Species Specificity, Alkenes chemistry, Bees physiology

Abstract

Our understanding of the role of cuticular hydrocarbons (CHC) in recognition is based largely on temperate ant species and honey bees. The stingless bees remain relatively poorly studied, despite being the largest group of eusocial bees, comprising more than 400 species in some 60 genera. The Meliponini and Apini diverged between 80-130 Myr B.P. so the evolutionary trajectories that shaped the chemical communication systems in ants, honeybees and stingless bees may be very different. The aim of this study was to study if a unique species CHC signal existed in Neotropical stingless bees, as has been shown for many temperate species, and what compounds are involved. This was achieved by collecting CHC data from 24 colonies belonging to six species of Melipona from North-Eastern Brazil and comparing the results with previously published CHC studies on Melipona. We found that each of the eleven Melipona species studied so far each produced a unique species CHC signal based around their alkene isomer production. A remarkable number of alkene isomers, up to 25 in M. asilvai, indicated the diversification of alkene positional isomers among the stingless bees. The only other group to have really diversified in alkene isomer production are the primitively eusocial Bumblebees (Bombus spp), which are the sister group of the stingless bees. Furthermore, among the eleven Neotropical Melipona species we could detect no effect of the environment on the proportion of alkane production as has been suggested for some other species.

Published

2017

2. Are Isomeric Alkenes Used in Species Recognition among Neo-Tropical Stingless Bees (Melipona Spp)

Author

Sue Shemilt, Carlos Alfredo Lopes de Carvalho, Cândida B. da Silva Lima, and Stephen J. Martin

Subjects

0106 biological sciences, Entomology, Chromatography, Gas, Dimethyldisulfide, Alkenes, Q1, Chemical communication, 010603 evolutionary biology, 01 natural sciences, Biochemistry, Article, Honey Bees, Isomerism, Species Specificity, Stingless bees, Animals, Animal communication, Melipona, Ecology, Evolution, Behavior and Systematics, biology, Ecology, %22">Bombus , General Medicine, Bees, biology.organism_classification, Eusociality, Animal Communication, 010602 entomology, Chemical communciation, Sister group, Cuticular hydrocarbons, Brazil

Abstract

Our understanding of the role of cuticular hydrocarbons (CHC) in recognition is based largely on temperate ant species and honey bees. The stingless bees remain relatively poorly studied, despite being the largest group of eusocial bees, comprising more than 400 species in some 60 genera. The Meliponini and Apini diverged between 80–130 Myr B.P. so the evolutionary trajectories that shaped the chemical communication systems in ants, honeybees and stingless bees may be very different. The aim of this study was to study if a unique species CHC signal existed in Neotropical stingless bees, as has been shown for many temperate species, and what compounds are involved. This was achieved by collecting CHC data from 24 colonies belonging to six species of Melipona from North-Eastern Brazil and comparing the results with previously published CHC studies on Melipona. We found that each of the eleven Melipona species studied so far each produced a unique species CHC signal based around their alkene isomer production. A remarkable number of alkene isomers, up to 25 in M. asilvai, indicated the diversification of alkene positional isomers among the stingless bees. The only other group to have really diversified in alkene isomer production are the primitively eusocial Bumblebees (Bombus spp), which are the sister group of the stingless bees. Furthermore, among the eleven Neotropical Melipona species we could detect no effect of the environment on the proportion of alkane production as has been suggested for some other species. Electronic supplementary material The online version of this article (10.1007/s10886-017-0901-5) contains supplementary material, which is available to authorized users.

Published

2017