001484617 000__ 07023cam\\2200601\a\4500
001484617 001__ 1484617
001484617 003__ OCoLC
001484617 005__ 20240117003331.0
001484617 006__ m\\\\\o\\d\\\\\\\\
001484617 007__ cr\un\nnnunnun
001484617 008__ 231209s2023\\\\si\\\\\\ob\\\\001\0\eng\d
001484617 019__ $$a1412620193
001484617 020__ $$a9789819957361$$q(electronic bk.)
001484617 020__ $$a9819957362$$q(electronic bk.)
001484617 020__ $$z9819957354
001484617 020__ $$z9789819957354
001484617 0247_ $$a10.1007/978-981-99-5736-1$$2doi
001484617 035__ $$aSP(OCoLC)1412500174
001484617 040__ $$aYDX$$beng$$cYDX$$dOCLCO$$dGW5XE$$dEBLCP$$dOCLCO
001484617 049__ $$aISEA
001484617 050_4 $$aQK711.2
001484617 08204 $$a571.2$$223/eng/20231219
001484617 1001_ $$aBhatla, Satish C.
001484617 24510 $$aPlant physiology, development and metabolism /$$cSatish C. Bhatla, Manju A. Lal.
001484617 250__ $$a2nd ed.
001484617 260__ $$aSingapore :$$bSpringer,$$c2023.
001484617 300__ $$a1 online resource
001484617 504__ $$aIncludes bibliographical references and index.
001484617 5050_ $$aIntro -- Preface: Second Edition -- Preface: First Edition -- Contents -- About the Authors -- Part I -- 1: Concepts of Plant Water Relations -- Box 1.1 How Do Plants Passively Harness Energy to Pump Water from Roots to the Canopies? A Global Scenario -- 1.1 Water Potential and Its Components -- 1.1.1 Solute Potential -- Box 1.2 Methods to Measure Osmotic Potential -- 1.1.2 Pressure Potential -- 1.1.3 Gravitational Potential -- 1.1.4 Matric Potential -- Box 1.3 Imbibition -- 1.1.5 Relationship Between Different Components of Water Potential -- 1.2 Intercellular Transport of Water
001484617 5058_ $$a1.2.1 Diffusion -- 1.2.2 Mass Flow -- 1.2.3 Osmosis -- Box 1.4 Significance of Osmosis -- Box 1.5 Reverse Osmosis -- 1.3 Short Distance Transport -- 1.3.1 Water Absorption by Roots -- 1.4 Long Distance Transport -- 1.4.1 Mechanism/s of Transport Across Xylem -- 1.5 Transpiration -- Box 1.6 Transpiration Ratio -- 1.5.1 Factors Affecting the Rate of Transpiration -- 1.5.2 Ecological Adaptations to Reduce Transpiration -- 1.5.3 Antitranspirants -- 1.5.4 Stomatal Movement -- Box 1.7 Primary Sensors of CO2/Bicarbonate in Stomata are Two Protein Kinases -- 1.6 Guttation -- 1.7 Summary
001484617 5058_ $$aFurther Reading -- 2: Essential and Functional Mineral Elements -- 2.1 Essential Elements -- 2.2 Beneficial or Functional Elements -- 2.3 Macro- and Microelements -- 2.4 Microelements or Micronutrients/Trace Elements -- 2.5 Toxicity Due to Mineral Nutrients -- 2.6 Mineral Deficiency Symptoms -- 2.7 Acquisition and Metabolic/Developmental Roles of Mineral Elements -- 2.7.1 Macronutrients -- 2.7.2 Micronutrients -- 2.8 Summary -- Further Reading -- 3: Mechanisms of Water and Solute Transport -- 3.1 Soil and Plant Water Relationships -- 3.2 Water and Ion Uptake From Soil Into Roots
001484617 5058_ $$a3.3 Symplastic Transport Across Plasmodesmata -- Box 3.1 Do Bacteria and Animal Cells Have Plasmodesmata-Like Intracellular Channels? -- 3.4 Diffusion Versus Bulk Transport of Water and Solutes -- Box 3.2 Diffusion Is a Spontaneous Process Which Obeys Fickś Law -- Box 3.3 Narnst Equation Predicts Internal and External Ion Concentrations at a Given Membrane Potential -- 3.5 Structural Features of Xylem Elements Which Facilitate Water and Solute Transport -- 3.6 Membrane Transport System -- 3.7 Uniporters and Co-transporters -- 3.8 Ion Channels
001484617 5058_ $$aBox 3.4 Patch Clamp Technique to Measure Ion Channel Activity -- 3.8.1 Potassium Channels -- 3.8.2 Calcium Channels -- 3.8.3 Anion Channels -- 3.8.4 Aquaporins -- 3.9 Pumps -- 3.9.1 P-Type ATPases -- Box 3.5 Electrophysiological Processes in Plant Cells -- 3.9.2 Endomembrane-Associated Ca2+ Pump -- 3.9.3 F-Type ATPases -- 3.9.4 V-Type ATPases -- 3.9.5 H+-Pyrophosphatase (PPase) -- 3.9.6 ABC-Type Pumps -- 3.10 Summary -- Further Reading -- Part II -- 4: Concepts in Metabolism -- Box 4.1 Metabolic Redundancy -- Box 4.2 C1 Metabolism -- 4.1 Basic Energetic Principles Governing Metabolism
001484617 506__ $$aAccess limited to authorized users.
001484617 520__ $$aThis textbook is second edition of popular textbook of plant physiology and metabolism. The first edition of this book gained noteworthy acceptance (more than 4.9 Million downloads) among graduate and masters level students and faculty world over, with many Universities recommending it as a preferred reading in their syllabi. The second edition provides up to date and latest information on all the topics covered while also including the basic concepts. The text is supported with clear, easy to understand Figures, Tables, Box items, summaries, perspectives, thought-provoking multiple-choice questions, latest references for further reading, glossary and a detailed subject index. Authors have also added a number of key concepts, discoveries in the form of boxed- items in each chapter. Plant physiology deals with understanding the various processes, functioning, growth, development and survival of plants in normal and stressful conditions. The study involves analysis of the above-stated processes at molecular, sub-cellular, cellular, tissue and plant level in relation with its surrounding environment. Plant physiology is an experimental science, and its concepts are very rapidly changing through applications from chemical biology, cytochemical, fluorometric, biochemical and molecular techniques, and metabolomic and proteomic analysis. Consequently, this branch of modern plant biology has experienced significant generation of new information in most areas. The newer concepts so derived are being also rapidly put into applications in crop physiology. Novel molecules, such nanourea, nitric oxide, gaseous signalling molecules like hydrogen sulphide, are rapidly finding significant applications among crop plants. This textbook, therefore, brings forth an inclusive coverage of the field contained in 35 chapters, divided into five major units. It serves as essential reading material for post-graduate and undergraduate students of botany, plant sciences, plant physiology, agriculture, forestry, ecology, soil science, and environmental sciences. This textbook is also of interest to teachers, researchers, scientists, and policymakers.
001484617 588__ $$aOnline resource; title from PDF title page (SpringerLink, viewed December 19, 2023).
001484617 650_0 $$aPlant physiology.
001484617 650_0 $$aPlants$$xDevelopment.
001484617 650_0 $$aPlants$$xMetabolism.
001484617 650_6 $$aPhysiologie végétale.
001484617 650_6 $$aPlantes$$xDéveloppement.
001484617 650_6 $$aPlantes$$xMétabolisme.
001484617 655_0 $$aElectronic books.
001484617 7001_ $$aLal, Manju A.
001484617 77608 $$iPrint version: $$z9819957354$$z9789819957354$$w(OCoLC)1390677475
001484617 852__ $$bebk
001484617 85640 $$3Springer Nature$$uhttps://univsouthin.idm.oclc.org/login?url=https://link.springer.com/10.1007/978-981-99-5736-1$$zOnline Access$$91397441.1
001484617 909CO $$ooai:library.usi.edu:1484617$$pGLOBAL_SET
001484617 980__ $$aBIB
001484617 980__ $$aEBOOK
001484617 982__ $$aEbook
001484617 983__ $$aOnline
001484617 994__ $$a92$$bISE