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200 14$aThe biology of the deep ocean$b[electronic resource] /$fPeter Herring
210   $aOxford ;$aNew York $cOxford University Press$d2002
215   $a1 online resource (325 p.)
225 1 $aBiology of habitats
300   $aDescription based upon print version of record.
311   $a0-19-854955-5 
311   $a0-19-854956-3 
320   $aIncludes bibliographical references (p. [255]-273) and index.
327   $aCover; Contents; Chapter 1 The deep-sea dimension; The scale of the task; The vertical dimension; Differences between marine and terrestrial ecosystems; Measurements and methods; Biological sampling; Conclusion; Chapter 2 Living, growing, and daylight; The fuel source: primary production; The seasonal cycle; Measurements of primary production; Grazing and secondary production; Conclusion; Chapter 3 Life at the bottom; The benthic environment; Sampling the benthos; Food resources; Hydrothermal vents and cold seeps; The hadal zone; Spatial heterogeneity; Conclusion
327   $aChapter 4 Patterns and changesGlobal views and patterns; Horizontal distributions; Vertical distributions; Conclusion; Chapter 5 On being efficient; Energy management; Maximizing energy input-how to eat a lot; Maximizing assimilation efficiency; Minimizing energy output-how to keep up in the water; Metabolism, energy, and pressure; Conclusion; Chapter 6 Feeling and hearing; Sensing vibrations; Vibrations in water; The hydrodynamic receptor system of fishes; Sound production by fishes; Invertebrate hydrodynamic receptors; Sounds of marine mammals; Electroreception and magnetic cues; Conclusion
327   $aChapter 7 Chemical messagesTaste or smell?; Chemical cues and receptors; Conclusion; Chapter 8 Seeing in the dark; Light in the ocean; Eyes and their design conflicts; Fish; Invertebrates; Conclusion; Chapter 9 Camouflage, colour, and lights; Camouflage and colour; Lights in a dark environment: bioluminescence; Conclusion; Chapter 10 Size, sex, and seasonality; Life histories; Fecundity and egg size; Body size; Sex; Juvenile characters (progenesis); Seasonality; Conclusion; Chapter 11 A wonderful variety of life: biodiversity of the deep-sea fauna; Origins and habitats; What is biodiversity?
327   $aConclusionReferences; Appendix: The marine phyla; Introduction; 'Kingdom' Protista: some important heterotrophs; Kingdom Animalia; Index; A; B; C; D; E; F; G; H; I; J; K; L; M; N; O; P; R; S; T; U; V; W; X; Y; Z
330   $aThe deep ocean environment is the most extensive on our planet. Its denizens are normally unseen but whenever they are exposed to view they are regarded as bizarre aliens from a different world. The Biology of the Deep Ocean takes a close look at this apparently hostile world and explains how its inhabitants are exquisitely adapted to survive and flourish within it.The book begins with an analysis of how conditions in the oceanic environment differ from those in the familiar terrestrial world and then describes the techniques (and ingenuity) required to reveal the populations inhabiting the co
410  0$aBiology of habitats.
606   $aDeep-sea biology
606   $aMarine biology
608   $aElectronic books.
615  0$aDeep-sea biology.
615  0$aMarine biology.
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200 10$aBramante et l'architecture renaissante $el'art de ressusciter le classicisme antique /$fpar Tatiana Sgalbiero ; avec la collaboration d'Elisabeth Bruyns
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330   $a De?cryptez l'art de Bramante en moins d'une heure!Peintre de formation, Bramante est de?s ses de?buts fascine? par la repre?sentation de l'espace. S'installant a? Milan a? la fin des anne?es 1470, il se tourne vers l'architecture et participe a? divers projets, mais sans parvenir a? s'imposer. C'est lorsqu'il arrive a? Rome, en 1500, que sa carrie?re prend son ve?ritable essor : influence? par l'art antique, il conc?oit de?sormais ses constructions dans le plus pur respect des normes dites classiques. Son style est de?s lors conside?re? comme l'apothe?ose de l'architecture renaissante.Ce livre vous permettra d'e
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