Ontogenic time and worker longevity in the Australian stingless bee, Austroplebeia australis
Little is known about the biology and life cycle of the Australian stingless bee, Austroplebeia australis (Friese). The ontogenic times for developing offspring, as well as the longevity of adults, drive the overall life cycle of a social colony. The developmental times for brood within stingless be...
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Published in | Insectes sociaux Vol. 60; no. 2; pp. 259 - 264 |
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Main Authors | , , |
Format | Journal Article |
Language | English |
Published |
Basel
Springer-Verlag
01.05.2013
SP Birkhäuser Verlag Basel Birkhäuser |
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Abstract | Little is known about the biology and life cycle of the Australian stingless bee, Austroplebeia australis (Friese). The ontogenic times for developing offspring, as well as the longevity of adults, drive the overall life cycle of a social colony. The developmental times for brood within stingless bee species which build cluster-type nests, such as A. australis, are as yet unreported. A technique was developed whereby ‘donor’ brood cells were separated from the main brood cluster and ‘grafted’ into hive annexes, allowing workers from within the colony to access the brood ‘grafts’ for hygiene and maintenance activities, whilst enabling observation of developing brood. The mean ontogenic time for A. australis workers, maintained at ~27 °C, was 55 days, which is similar to that reported for other stingless bees. The maximum longevity of A. australis was determined by marking cohorts of worker bees within five colonies. Workers within all colonies demonstrated extended longevity, with an overall maximum longevity of 161 days, with the oldest bee living for 240 days. Extended longevity may result from evolutionary adaptations to the floral resource scarcity, which is regularly experienced in semi-arid, inland Australia, the natural habitat of A. australis. |
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AbstractList | Little is known about the biology and life cycle of the Australian stingless bee,
Austroplebeia australis
(Friese). The ontogenic times for developing offspring, as well as the longevity of adults, drive the overall life cycle of a social colony. The developmental times for brood within stingless bee species which build cluster-type nests, such as
A. australis
, are as yet unreported. A technique was developed whereby ‘donor’ brood cells were separated from the main brood cluster and ‘grafted’ into hive annexes, allowing workers from within the colony to access the brood ‘grafts’ for hygiene and maintenance activities, whilst enabling observation of developing brood. The mean ontogenic time for
A. australis
workers, maintained at ~27 °C, was 55 days, which is similar to that reported for other stingless bees. The maximum longevity of
A. australis
was determined by marking cohorts of worker bees within five colonies. Workers within all colonies demonstrated extended longevity, with an overall maximum longevity of 161 days, with the oldest bee living for 240 days. Extended longevity may result from evolutionary adaptations to the floral resource scarcity, which is regularly experienced in semi-arid, inland Australia, the natural habitat of
A.
australis
. Little is known about the biology and life cycle of the Australian stingless bee, Austroplebeia australis (Friese). The ontogenic times for developing offspring, as well as the longevity of adults, drive the overall life cycle of a social colony. The developmental times for brood within stingless bee species which build cluster-type nests, such as A. australis, are as yet unreported. A technique was developed whereby ‘donor’ brood cells were separated from the main brood cluster and ‘grafted’ into hive annexes, allowing workers from within the colony to access the brood ‘grafts’ for hygiene and maintenance activities, whilst enabling observation of developing brood. The mean ontogenic time for A. australis workers, maintained at ~27 °C, was 55 days, which is similar to that reported for other stingless bees. The maximum longevity of A. australis was determined by marking cohorts of worker bees within five colonies. Workers within all colonies demonstrated extended longevity, with an overall maximum longevity of 161 days, with the oldest bee living for 240 days. Extended longevity may result from evolutionary adaptations to the floral resource scarcity, which is regularly experienced in semi-arid, inland Australia, the natural habitat of A. australis. Little is known about the biology and life cycle of the Australian stingless bee, Austroplebeia australis (Friese). The ontogenic times for developing offspring, as well as the longevity of adults, drive the overall life cycle of a social colony. The developmental times for brood within stingless bee species which build cluster-type nests, such as A. australis, are as yet unreported. A technique was developed whereby 'donor' brood cells were separated from the main brood cluster and 'grafted' into hive annexes, allowing workers from within the colony to access the brood 'grafts' for hygiene and maintenance activities, whilst enabling observation of developing brood. The mean ontogenic time for A. australis workers, maintained at similar to 27 degree C, was 55 days, which is similar to that reported for other stingless bees. The maximum longevity of A. australis was determined by marking cohorts of worker bees within five colonies. Workers within all colonies demonstrated extended longevity, with an overall maximum longevity of 161 days, with the oldest bee living for 240 days. Extended longevity may result from evolutionary adaptations to the floral resource scarcity, which is regularly experienced in semi-arid, inland Australia, the natural habitat of A. australis. |
Author | Haigh, A. M Spooner-Hart, R Halcroft, M |
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Cites_doi | 10.1007/978-3-642-84666-3 10.1146/annurev.ento.46.1.79 10.1080/01650529509360958 10.1590/1809-43921983132453 10.1006/jtbi.2002.2545 10.1051/apido:2006013 10.1016/j.exger.2007.02.004 10.1007/s000400050099 10.1146/annurev.en.28.010183.000353 10.1080/00218839.1975.11099821 10.1007/BF02510869 10.1016/S0531-5565(00)00237-0 10.1016/B978-0-12-342203-3.50011-4 10.1146/annurev.en.15.010170.001043 10.1051/apido:2002017 10.1007/BF02232713 10.1051/apido:2004054 10.1146/annurev.en.12.010167.000311 10.1093/genetics/35.2.143 10.1007/BF00338020 10.1590/S0301-80591997000100020 10.3896/IBRA.1.47.1.13 10.1126/sageke.2004.26.pe28 10.1016/S0531-5565(00)00236-9 10.1007/BF02514731 10.2307/5525 10.1080/0005772X.1950.11094617 10.1007/BF01245700 10.1080/00218839.1963.11100072 10.1007/PL00001703 10.1017/CBO9780511574641 10.1093/beheco/6.3.269 |
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Keywords | Cluster-type brood Resource scarcity Brood development Flower Insecta Apidae Environmental factor Longevity Social insect Apoidea Arthropoda Development Hymenoptera Invertebrata Food supply Aculeata Worker insect |
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SubjectTerms | adults Animal and plant ecology Animal, plant and microbial ecology Animals Austroplebeia australis Autoecology Biological and medical sciences Biomedical and Life Sciences brood cells Entomology evolutionary adaptation Fundamental and applied biological sciences. Psychology habitats hygiene Life Sciences longevity progeny Protozoa. Invertebrata Research Article stingless bees worker bees |
Title | Ontogenic time and worker longevity in the Australian stingless bee, Austroplebeia australis |
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