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140122 ||| eng |
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|a 9783642846663
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|a Moritz, Robin
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|a Bees as Superorganisms
|h Elektronische Ressource
|b An Evolutionary Reality
|c by Robin Moritz, Edward E. Southwick
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250 |
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|a 1st ed. 1992
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260 |
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|a Berlin, Heidelberg
|b Springer Berlin Heidelberg
|c 1992, 1992
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300 |
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|a XVI, 395 p
|b online resource
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|a 1 What Is a Superorganism? -- 1.1 From Cells to Metazoan Organisms -- 1.2 What Makes a Social Group a Superorganism? -- 1.3 Diversity of Superorganisms -- 1.4 What Not to Expect from Superorganisms -- 2 Evolution of Superorganisms -- 2.1 From Solitary Individuals to Superorganisms: The Theories -- 2.2 From Solitary Individuals to Superorganisms: The Evidence -- 3 Physiology -- 3.1 Development -- 3.2 Glands and Secretions -- 3.3 Feeding and Digestion -- 3.4 Respiration -- 3.5 Circulation -- 3.6 Colonial Excretion and Water Balance -- 3.7 Metabolic Physiology -- 3.8 Neurophysiology -- 3.9 Muscle Function -- 3.10 Circadian Rhythms and Sleep -- 4 Communication Network of the Superorganism -- 4.1 The Analysis of Communication Networks -- 4.2 Division of Labour -- 4.3 Food Procurement and Temperature Regulation -- 4.4 Search for Housing -- 4.5 Pheromones -- 4.6 Learning -- 4.7 Social Intelligence and Network Analysis -- 5 Ecology -- 5.1 Demography of Natural Populations -- 5.2 Community Structure -- 5.3 Superorganism Size -- 5.4 Ecological Impact of Superorganismic Honeybees -- 6 Reproduction -- 6.1 Individual Reproduction -- 6.2 Colonial Reproduction -- 7 Genetics -- 7.1 Gene Expression vs Genotype Expression -- 7.2 Genetic Basis of Honeybees -- 7.3 Genetic Variation in Honeybee Colonies -- 7.4 Quantitative Genetics -- 7.5 Behavioural Genetics -- 7.6 Population Genetics -- 8 Natural Selection -- 8.1 Selection at the Individual Level -- 8.2 Kin Selection -- 8.3 Selection on Phenotypes of Superorganisms -- 8.4 Africanized Honeybees: A Large-Scale Evolutionary Experiment -- 8.5 Selection in Superorganisms: Too Complex to Study? -- References
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653 |
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|a Neurosciences
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653 |
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|a Zoology
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653 |
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|a Neurosciences
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653 |
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|a Ecology
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|a Ecology
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|a Zoology
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700 |
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|a Southwick, Edward E.
|e [author]
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|a eng
|2 ISO 639-2
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|b SBA
|a Springer Book Archives -2004
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|u https://doi.org/10.1007/978-3-642-84666-3?nosfx=y
|x Verlag
|3 Volltext
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|a 590
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|a The honeybee (Apis melli/era L. ) is one of the better studied organisms on this planet. There are plenty of books on the biology of the honeybee for all, the scientist, the beekeeper, and the layman. In view of this flood of publications one is tempted to ask: why does it require another one? The answer is simple: a new one is not required and we do not intend to present a new book on "the honeybee". This would really just add some more inches to the already overloaded bookshelf without sub stantial new information. Instead, we intend to present a book on the honeybee colony. This of course immediately releases the next question: so what is the difference? Although the difference may look insignificant at first glance, we try to guide the reader with a fundamentally different approach through the biology of honeybees and eusocial insect societies in general. The biology of individual colony members is only addressed when it is necessary to explain colonial mechanisms, and the colony as a whole, as a biological unit, which is the main focus of this treatise. Both of us felt that all current textbooks on bee biology put too much emphasis on the individual worker, queen or drone in the colony. Often it is com pletely neglected that the colony is a very significant (if not the most significant) biological structure in bee biology
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