Chemical profiles of body surfaces and nests from six Bornean stingless bee species

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Chemical profiles of body surfaces and nests from six Bornean stingless bee species. / Leonhardt, Sara Diana; Blüthgen, Nico; Schmitt, Thomas.
In: Journal of Chemical Ecology, Vol. 37, No. 1, 01.01.2011, p. 98-104.

Research output: Journal contributionsJournal articlesResearchpeer-review

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Leonhardt SD, Blüthgen N, Schmitt T. Chemical profiles of body surfaces and nests from six Bornean stingless bee species. Journal of Chemical Ecology. 2011 Jan 1;37(1):98-104. doi: 10.1007/s10886-010-9900-5

Bibtex

@article{24349d594e084cc7a411049339c1603d,
title = "Chemical profiles of body surfaces and nests from six Bornean stingless bee species",
abstract = "Stingless bees (Apidae: Meliponini) are the most diverse group of Apid bees and represent common pollinators in tropical ecosystems. Like honeybees they live in large eusocial colonies and rely on complex chemical recognition and communication systems. In contrast to honeybees, their ecology and especially their chemical ecology have received only little attention, particularly in the Old World. We previously have analyzed the chemical profiles of six paleotropical stingless bee species from Borneo and revealed the presence of species-specific cuticular terpenes- an environmentally derived compound class so far unique among social insects. Here, we compared the bees' surface profiles to the chemistry of their nest material. Terpenes, alkanes, and alkenes were the dominant compound groups on both body surfaces and nest material. However, bee profiles and nests strongly differed in their chemical composition. Body surfaces thus did not merely mirror nests, rendering a passive compound transfer from nests to bees unlikely. The difference between nests and bees was particularly pronounced when all resin-derived compounds (terpenes) were excluded and only genetically determined compounds were considered. When terpenes were included, bee profiles and nest material still differed, because whole groups of terpenes (e.g., sesquiterpenes) were found in nest material of some species, but missing in their chemical profile, indicating that bees are able to influence the terpene composition both in their nests and on their surfaces.",
keywords = "Ecosystems Research, Stingless beess, Meliponines, Cuticular profile, Wax chemistry, Resin Cements, Terpenes, Biology",
author = "Leonhardt, {Sara Diana} and Nico Bl{\"u}thgen and Thomas Schmitt",
year = "2011",
month = jan,
day = "1",
doi = "10.1007/s10886-010-9900-5",
language = "English",
volume = "37",
pages = "98--104",
journal = "Journal of Chemical Ecology",
issn = "1573-1561",
publisher = "Springer New York LLC",
number = "1",

}

RIS

TY - JOUR

T1 - Chemical profiles of body surfaces and nests from six Bornean stingless bee species

AU - Leonhardt, Sara Diana

AU - Blüthgen, Nico

AU - Schmitt, Thomas

PY - 2011/1/1

Y1 - 2011/1/1

N2 - Stingless bees (Apidae: Meliponini) are the most diverse group of Apid bees and represent common pollinators in tropical ecosystems. Like honeybees they live in large eusocial colonies and rely on complex chemical recognition and communication systems. In contrast to honeybees, their ecology and especially their chemical ecology have received only little attention, particularly in the Old World. We previously have analyzed the chemical profiles of six paleotropical stingless bee species from Borneo and revealed the presence of species-specific cuticular terpenes- an environmentally derived compound class so far unique among social insects. Here, we compared the bees' surface profiles to the chemistry of their nest material. Terpenes, alkanes, and alkenes were the dominant compound groups on both body surfaces and nest material. However, bee profiles and nests strongly differed in their chemical composition. Body surfaces thus did not merely mirror nests, rendering a passive compound transfer from nests to bees unlikely. The difference between nests and bees was particularly pronounced when all resin-derived compounds (terpenes) were excluded and only genetically determined compounds were considered. When terpenes were included, bee profiles and nest material still differed, because whole groups of terpenes (e.g., sesquiterpenes) were found in nest material of some species, but missing in their chemical profile, indicating that bees are able to influence the terpene composition both in their nests and on their surfaces.

AB - Stingless bees (Apidae: Meliponini) are the most diverse group of Apid bees and represent common pollinators in tropical ecosystems. Like honeybees they live in large eusocial colonies and rely on complex chemical recognition and communication systems. In contrast to honeybees, their ecology and especially their chemical ecology have received only little attention, particularly in the Old World. We previously have analyzed the chemical profiles of six paleotropical stingless bee species from Borneo and revealed the presence of species-specific cuticular terpenes- an environmentally derived compound class so far unique among social insects. Here, we compared the bees' surface profiles to the chemistry of their nest material. Terpenes, alkanes, and alkenes were the dominant compound groups on both body surfaces and nest material. However, bee profiles and nests strongly differed in their chemical composition. Body surfaces thus did not merely mirror nests, rendering a passive compound transfer from nests to bees unlikely. The difference between nests and bees was particularly pronounced when all resin-derived compounds (terpenes) were excluded and only genetically determined compounds were considered. When terpenes were included, bee profiles and nest material still differed, because whole groups of terpenes (e.g., sesquiterpenes) were found in nest material of some species, but missing in their chemical profile, indicating that bees are able to influence the terpene composition both in their nests and on their surfaces.

KW - Ecosystems Research

KW - Stingless beess

KW - Meliponines

KW - Cuticular profile

KW - Wax chemistry

KW - Resin Cements

KW - Terpenes

KW - Biology

UR - http://www.scopus.com/inward/record.url?scp=79251637496&partnerID=8YFLogxK

UR - https://www.mendeley.com/catalogue/0ee1fa72-476e-3856-b816-8e2e0e7ec502/

U2 - 10.1007/s10886-010-9900-5

DO - 10.1007/s10886-010-9900-5

M3 - Journal articles

C2 - 21165680

VL - 37

SP - 98

EP - 104

JO - Journal of Chemical Ecology

JF - Journal of Chemical Ecology

SN - 1573-1561

IS - 1

ER -