LEADER 00807nam0-22002891i-450- 001 990000075290403321 035 $a000007529 035 $aFED01000007529 035 $a(Aleph)000007529FED01 035 $a000007529 100 $a20011111d--------km-y0itay50------ba 101 0 $aita 105 $ay-------001yy 200 1 $aHandbuch der gesammten Thonwaarenindustrie$fBruno Kerl. 205 $a2. stark vermehrte und verbesserte Auf. 210 $aBraunschweig$cC. A. Schwetschke und Sohn$d1879 215 $aXXIII, 744 p.$cill.$d23 cm 610 0 $aCeramiche$aIndustria 676 $a666.3 700 1$aKerl,$bBruno 801 0$aIT$bUNINA$gRICA$2UNIMARC 901 $aBK 912 $a990000075290403321 952 $a13 AR 17 B 12$b2775$fFINBC 959 $aFINBC 997 $aUNINA DB $aING01 LEADER 05399nam 2200685 a 450 001 9910145578503321 005 20210209220611.0 010 $a1-281-32029-3 010 $a1-282-12394-7 010 $a9786612123948 010 $a9786611320294 010 $a0-470-98886-X 010 $a0-470-99427-4 035 $a(CKB)1000000000409415 035 $a(EBL)351347 035 $a(OCoLC)476171812 035 $a(SSID)ssj0000222382 035 $a(PQKBManifestationID)11215762 035 $a(PQKBTitleCode)TC0000222382 035 $a(PQKBWorkID)10170978 035 $a(PQKB)10429165 035 $a(MiAaPQ)EBC351347 035 $a(MiAaPQ)EBC4957965 035 $a(Au-PeEL)EBL4957965 035 $a(CaONFJC)MIL132029 035 $a(OCoLC)741343700 035 $a(EXLCZ)991000000000409415 100 $a20060821d2007 uy 0 101 0 $aeng 135 $aur|n|---||||| 181 $ctxt 182 $cc 183 $acr 200 00$aPlant solute transport$b[electronic resource] /$fedited by Anthony Yeo, Tim Flowers 210 $aOxford ;$aAmes, Iowa $cBlackwell Pub.$d2007 215 $a1 online resource (434 p.) 300 $aDescription based upon print version of record. 311 $a1-4051-3995-1 320 $aIncludes bibliographical references and index. 327 $aPlant Solute Transport; Contents; Preface; Contributors; 1 General introduction; 1.1 Introduction; 1.2 Synopsis; 1.3 Concluding remarks; Reference; 2 Solutes: what are they, where are they and what do they do?; 2.1 Solutes: inorganic and organic; 2.2 Analysis of inorganic elements; 2.2.1 Obtaining material for analysis; 2.2.2 Optical methods; 2.2.3 Mass spectrometry; 2.2.4 X-ray fluorescence; 2.2.5 Ion-specific electrodes; 2.2.6 Ion chromatography; 2.3 Solute concentrations; 2.4 Organic compounds; 2.5 Range of solutes found in plants; 2.6 Localisation; 2.6.1 Stereological analysis 327 $a2.6.2 Inorganic elements and electron microscopy2.6.3 Ion-specific microelectrodes; 2.6.4 Direct sampling; 2.6.5 Use of fluorescent dyes; 2.6.6 Flux analysis; 2.6.7 Organic compounds; 2.7 What do they do?; 2.7.1 Vacuoles; 2.7.2 Organelles and the cytoplasm; 2.7.3 Cell walls; 2.7.4 Conclusions; References; 3 The driving forces for water and solute movement; 3.1 Introduction; 3.2 Water; 3.3 Free energy and the properties of solutions; 3.3.1 Free energy and chemical potential; 3.3.2 Water potential and water potential gradients; 3.3.3 Osmosis and colligative properties; 3.4 Cell water relations 327 $a3.5 Water movement3.5.1 Water movement through the soil; 3.5.2 Water in cell walls; 3.5.3 Water movement across a root (or leaf); 3.5.4 Water movement through the xylem and phloem; 3.6 Solute movement; 3.6.1 Chemical, electrical and electrochemical potentials and gradients; 3.6.2 Diffusion - Fick's first law; 3.6.3 Diffusion potential; 3.6.4 Nernst potential; 3.6.5 Donnan systems; 3.6.6 Goldmann equation; 3.7 Coupling of water and solute fluxes; References; 4 Membrane structure and the study of solute transport across plant membranes; 4.1 Introduction; 4.2 Plant membranes 327 $a4.2.1 Plant membrane composition4.2.2 Plant membrane structure; 4.3 Studying solute transport across plant membranes; 4.4 Transport techniques using intact or semi-intact plant tissue; 4.4.1 Plant growth; 4.4.1.1 Solution design; 4.4.1.2 Using inhibitors; 4.4.2 Accumulation and net uptake; 4.4.3 Radioactive tracers; 4.4.4 Fluorescent solute probes; 4.4.5 Electrophysiology; 4.4.5.1 Voltage-based measurements (membrane potential and ion concentration); 4.4.5.2 Voltage clamping; 4.5 Using isolated membranes for transport studies; 4.5.1 Isolating membranes 327 $a4.5.2 Assaying transport activities of protoplasts and membrane vesicles4.6 Using molecular techniques to inform transport studies; 4.6.1 Revealing the molecular identity of transporters and testing gene function; 4.6.2 Location of transport proteins; 4.6.3 Heterologous expression; 4.7 Combining techniques (an example of increasing resolution and physiological context); 4.8 Future development; 4.9 Conclusions; Acknowledgements; References; 5 Transport across plant membranes; 5.1 Introduction; 5.1.1 Plant solutes; 5.1.2 Definitions and terminology; 5.1.3 Some formalisms; 5.2 Passive transport 327 $a5.2.1 Diffusion through membranes 330 $aThis book provides a broad overview of solute transport in plants. It first determines what solutes are present in plants and what roles they play. The physical bases of ion and water movement are considered. The volume then discusses the ways in which solutes are moved across individual membranes, within and between cells, and around the plant. Having dealt with the role of plant solutes in 'normal' conditions, the volume proceeds to examine how the use of solutes has been adapted to more extreme environments such as hot, dry deserts, freezing mountains and saline marshes. A crucial stage in 606 $aPlant translocation 608 $aElectronic books. 615 0$aPlant translocation. 676 $a571.2 686 $a42.43$2bcl 701 $aYeo$b A. R$0908106 701 $aFlowers$b T. 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