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181   $ctxt$2rdacontent
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200 14$aThe riverscape and the river /$fS.M. Haslam$b[electronic resource]
210  1$aCambridge :$cCambridge University Press,$d2008.
215   $a1 online resource (xv, 404 pages) $cdigital, PDF file(s)
300   $aTitle from publisher's bibliographic system (viewed on 05 Oct 2015).
311   $a1-107-40747-8 
311   $a0-521-83978-5 
320   $aIncludes bibliographical references and indexes.
327   $g1.$tIntroduction --$g2.$tNatural river and its destruction --$g3.$tNatural riverscape and its modification --$g4.$tResources I. Water resources and their loss --$g5.$tDevelopment and variation of rivers --$g6.$tDevelopment and variation of riverscapes --$g7.$tBuilding blocks of river vegetation --$g8.$tBuilding blocks of flood plain vegetation --$g9.$tResources II. Plants and animals, cleaning and minerals --$g10.$tBuilding blocks of the riverscape --$g11.$tPatterns, boundaries and fragmentation --$g12.$tResources III. Settlements and constructions --$g13.$tHarsh riverscape --$g14.$tTempered or smiling riverscape --$g15.$tEnvoi.
330   $aIn this study Dr Haslam examines how the quantity, function and ecology of water changes as it moves from watershed to river. The development of river and riverscape, their ecology, the effect of human activities (such as water abstractions, flood control and management for recreational use) and water resources are described both in principle and using case histories. Contrasting examples are given from across the world, including Iceland, Hungary, Malta, Britain and the USA, which enables understanding of how water and riverscape interact with each other, and with human impact. The study, development and loss of water resources is also described, including the extreme example of Malta, whose clean water now depends solely on oil imports. This innovative book is written for graduate students and professionals interested in how water and riverscape interact.
517 3 $aThe Riverscape & the River
606   $aRivers
606   $aValley ecology
606   $aStream ecology
615  0$aRivers.
615  0$aValley ecology.
615  0$aStream ecology.
676   $a551.48/3
700   $aHaslam$b S. M$g(Sylvia Mary),$f1934-$01032131
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LEADER 05454nam  2200673Ia 450 
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200 00$aCellular and biomolecular recognition$b[electronic resource] $esynthetic and non-biological molecules /$fedited by Raz Jelinek
210   $aWeinheim $cWiley-VCH ;$aChichester $cJohn Wiley [distributor]$d2009
215   $a1 online resource (371 p.)
300   $aDescription based upon print version of record.
311   $a3-527-32265-5 
320   $aIncludes bibliographical references and index.
327   $aCellular and Biomolecular Recognition; Contents; Preface; List of Contributors; 1: Development of Functional Materials from Rod-Like Viruses; 1.1 Introduction; 1.2 Overview; 1.2.1 TMV; 1.2.2 M13 Bacteriophage; 1.3 Programmable Protein Shells; 1.3.1 Chemical Modifications; 1.3.2 Genetic Modifications; 1.3.2.1 Genetic Modification of TMV; 1.3.2.2 M13 Genetic Modification; 1.3.3 Chemical Modification in Combination with Genetic Mutation; 1.4 Templated Syntheses of Composite Materials; 1.4.1 Synthesis of Inorganic Materials Using TMV as the Template; 1.4.2 Bacteriophage M13 as the Template
327   $a1.5 Self-Assembly of Rod-Like Viruses1.5.1 Controlled 1D Assembly; 1.5.1.1 TMV Head-to-Tail Assembly; 1.5.1.2 Conductive 1D TMV Composite Fibers; 1.5.1.3 Weaving M13 Bacteriophage into Robust Fibers; 1.5.1.4 Nanoring Structure; 1.5.2 Fabrication of Thin Films by 2D Self-Assembly; 1.5.3 Controlling the 3D Assembly of TMV and M13; 1.6 Virus-Based Device and Applications; 1.7 Outlook; References; 2: Biomimetic Nanoparticles Providing Molecularly Defined Binding Sites - Protein-Featuring Structures versus Molecularly Imprinted Polymers; 2.1 Introduction; 2.2 Core Materials and Functionalities
327   $a2.2.1 Inorganic Core Materials2.2.1.1 Inorganic Crystalline Nanoparticles; 2.2.1.2 Particles with Silica Cores; 2.2.1.3 Metals and Metal Oxides; 2.2.2 Organic Core Materials; 2.2.2.1 Polymers, Lipids and Fullerenes; 2.3 Functional Shells; 2.3.1 Organic Shells; 2.3.2 MIPs; 2.3.2.1 Tools for MIP Development; 2.3.2.2 Bulk MIP and Proteins; 2.3.2.3 Nanospheric MIPs in General; 2.3.2.4 Nanospheric MIPs and Proteins; 2.4 Applications; 2.4.1 Biopurification; 2.4.1.1 Magnetic Nanoparticles; 2.4.1.2 MIPs with Magnetizable Cores; 2.4.2 Drug Delivery and Drug Targeting
327   $a2.4.2.1 Nanoparticle Systems for Drug Delivery2.4.2.2 Ligands on Nanoparticle Surfaces; 2.4.2.3 Targeting of Specific Cells; 2.5 Products; 2.5.1 MIPs-Applications and Products; 2.5.2 Luminex Assay; 2.6 Conclusions; References; 3: Interaction Between Silica Particles and Human Epithelial Cells: Atomic Force Microscopy and Fluorescence Study; 3.1 Interaction of Silica with Biological Cells: Background; 3.2 Interaction of a Silica Particle with the Cell Surface: How It Is Seen with AFM; 3.2.1 AFM; 3.2.2 AFM on Cells; 3.2.2.1 Cell Culture; 3.2.2.2 AFM; 3.2.3 AFM Probe Preparations
327   $a3.2.4 Models to Analyze the Cell Surface: Need for a Two-Layer Model3.2.5 Experimental Data; 3.2.5.1 Surface Brush on Cancer and Normal Cells; 3.2.5.2 Measurement of Adhesion: Silica Particle-Cell Interaction; 3.2.5.3 Can the Difference in Adhesion Be Used to Detect Cancer Cells?; 3.3 Ultra-Bright Fluorescent Silica Particles to Be Used to Study Interaction with Cells; 3.4 Ultra-Bright Fluorescent Silica Particles to Distinguish Between Cancer and Normal Cells; 3.4.1 Methods and Materials; 3.4.1.1 Spectrofluorometric and Optical Measurements of the Particles Attached to Cells
327   $a3.4.1.2 Detection of Affinity of Fluorescent Silica Particles to Cells
330   $aWith its exploration of the scientific and technological characteristics of systems exploiting molecular recognition between synthetic materials, such as polymers and nanoparticles, and biological entities, this is a truly multidisciplinary book bridging chemistry, life sciences, pharmacology and medicine.The authors introduce innovative biomimetic chemical assemblies which constitute platforms for recruitment of cellular components or biological molecules, while also focusing on physical, chemical, and biological aspects of biomolecular recognition. The diverse applications covered includ
606   $aBiomolecules
606   $aCellular recognition
606   $aBiomimetics
606   $aBiomolecules$xStructure
615  0$aBiomolecules.
615  0$aCellular recognition.
615  0$aBiomimetics.
615  0$aBiomolecules$xStructure.
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