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@ARTICLE{Baier:89626,
author = {Baier, H. and Boettiger, H. and Drochner, M. and Eicker, N.
and Fischer, U. and Fodor, Z. and Frommer, A. and Gomez, C.
and Goldrian, G. and Heybrock, S. and Hierl, D. and Hüsken,
M. and Huth, T. and Krill, B. and Lauritsen, J. and Lippert,
T. and Maurer, T. and Mendl, B. and Meyer, N. and Nobile, A.
and Ouda, I. and Pivanti, M. and Pleiter, D. and Ries, M.
and Schäfer, A. and Schick, H. and Schifano, F. and Simma,
H. and Solbrig, S. and Streuer, T. and Sulanke, K.-H. and
Tripiccione, R. and Vogt, J.-S. and Wettig, T. and Winter,
F. and DESY},
title = {{QPACE}: power-efficient parallel architecture based on
{IBM} {P}ower{XC}ell 8i},
journal = {Computer science - research and development},
volume = {25},
issn = {1865-2034},
address = {Berlin},
publisher = {Springer},
reportid = {PHPPUBDB-14715},
pages = {149},
year = {2010},
abstract = {Dawson's burrowing bee is a large, fast-flying solitary
nesting bee endemic to the arid zone of Western Australia.
In this study the population structure of the species was
examined with molecular markers. Using eight microsatellite
loci, we genotyped 531 adult female bees collected from 13
populations of Dawson's burrowing bee, Amegilla dawsoni,
across the species range. The mean number of alleles per
locus ranged from 4 to 38 and expected heterozygosity was
uniformly high with a mean of 0.602. Pairwise comparisons of
F(ST) among all 13 populations ranged from 0.0071 to 0.0122
with only one significant estimate and an overall F(ST) of
0.001. The entire sample collection was in Hardy-Weinberg
equilibrium and there was no evidence of inbreeding with a
mean F(IS) of 0.010. The mating and nesting behaviour of
this bee suggests that gene flow would be limited by
monandry and the fact that almost $90\%$ of females mate
immediately on emergence. Nevertheless there is obviously
sufficient gene flow to maintain panmixia, and we suggest
that this results from infrequent and unreliable rainfall in
the species range, which causes the bees to congregate at
limited food resources, allowing a small number of unmated
females from one emergence site to come into contact with
males from another population. In addition, when drought
eliminates food resources near an emergence site, the whole
population may move elsewhere, increasing gene flow across
the species range.},
keywords = {Alleles / Animal Migration / Animals / Australia / Bees:
genetics / Female / Gene Flow / Genetic Variation / Genotype
/ Geography / Heterozygote / Microsatellite Repeats:
genetics / Nesting Behavior / Rain / Sexual Behavior,
Animal},
cin = {ZNP},
ddc = {004},
cid = {$I:(DE-H253)ZNP_-2012_-20130307$},
pnm = {51x - Programm Elementarteilchenphysik - Topic unbekannt
(POF2-51x)},
pid = {G:(DE-HGF)POF2-51x},
experiment = {EXP:(DE-MLZ)NOSPEC-20140101},
typ = {PUB:(DE-HGF)16},
pubmed = {pmid:16599959},
UT = {WOS:00},
doi = {10.1007/s00450-010-0122-4},
url = {https://bib-pubdb1.desy.de/record/89626},
}
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