LEADER 05380nam 22006614a 450 001 9910956136103321 005 20250616133708.0 010 $a1-281-00541-X 010 $a9786611005412 010 $a0-08-049216-9 035 $a(CKB)1000000000363911 035 $a(EBL)294662 035 $a(OCoLC)437181628 035 $a(SSID)ssj0000227465 035 $a(PQKBManifestationID)11176513 035 $a(PQKBTitleCode)TC0000227465 035 $a(PQKBWorkID)10264605 035 $a(PQKB)10041604 035 $a(Au-PeEL)EBL294662 035 $a(CaPaEBR)ebr10186334 035 $a(CaONFJC)MIL100541 035 $a(MiAaPQ)EBC294662 035 $a(EXLCZ)991000000000363911 100 $a20040817d2005 uy 0 101 0 $aeng 135 $aur|n|---||||| 181 $ctxt 182 $cc 183 $acr 200 10$aPrinciples of soil and plant water relations /$fM.B. Kirkham 205 $a1st ed. 210 $aAmsterdam ;$aNew York $cElsevier Academic Press$dc2005 215 $a1 online resource (521 p.) 300 $aDescription based upon print version of record. 311 08$a0-12-409751-0 320 $aIncludes bibliographical references and index. 327 $aFront Cover; Principles of Soil and Plant Water Relations; Copyright Page; Contents; Preface; Chapter 1. Introduction; I. Why Study Soil-Plant-Water Relations?; II. Plant Growth Curves; III. Appendix: Biography of John Napier; Chapter 2. Definitions of Physical Units and the International System; I.Definitions; II. Le Syste?me International d'Unite?s; III. Example: Applying Units of Work and Pressure to a Root; IV. Appendix: Biography of Isaac Newton; Chapter 3. Structure and Properties of Water; I. Structure of Water; II. Forces That Bind Water Molecules Together; III. Properties of Water 327 $aIV. Appendix: Biography of Johannes van der WaalsChapter 4. Tensiometers; I. Description of a Tensiometer; II. Types of Tensiometers; III. Temperature Effects on Tensiometers; IV. Applications of Tensiometers; V. Appendix: Biography of L.A. Richards; Chapter 5. Soil-Water Terminology and Applications; I. Water Content; II. Water Potential; III. Heads in a Column of Soil; IV. Movement of Water Between Tensiometers; V. Appendix: Biography of William L. Powers; Chapter 6. Static Water in Soil; I. Surface Tension; II. Examples of Surface Tension; III. Rise and Fall of Water in Soil Pores 327 $aIV. Appendix: History of Surface TensionV. Appendix: Biography of Marquis de Laplace; Chapter 7. Water Movement in Saturated Soil; I. Darcy's Law; II. Hydraulic Conductivity; III. Laplace's Equation; IV. Ellipse Equation; V. Linear Flow Laws; VI. Appendix: Biography of Apollonius of Perga; VII. Appendix: Biography of Henry Darcy; Chapter 8. Field Capacity, Wilting Point, Available Water, and the Non-Limiting Water Range; I. Field Capacity; II. Wilting Point; III. Available Water; IV. Non-Limiting Water Range; V. Biographies of Briggs and Shantz; Chapter 9. Penetrometer Measurements 327 $aI. Definition, Types of Penetrometers, and UsesII. Types of Tests; III. What Penetrometer Measurements Depend Upon; IV. Cone Penetrometer; V. Appendix: Biography of Champ Tanner; Chapter 10. Measurement of Oxygen Diffusion Rate; I. The Oxygen Diffusion Rate Method; II. Electrolysis; III. Model and Principles of the ODR Method; IV.Method; V. Appendix: Biography of Michael Faraday; Chapter 11. Infiltration; I. Definition of Infiltration; II. Four Models of One-Dimensional Infiltration; III. Two- and Three-Dimensional Infiltration; IV. Redistribution; V. Tension Infiltrometer or Disc Permeameter 327 $aVI. Minidisk InfiltrometerVII. Measurement of Unsaturated Hydraulic Conductivity and Sorptivity with the Tension Infiltrometer; VIII. Measurement of Repellency with the Tension Infiltrometer; IX. Measurement of Mobility with the Tension Infiltrometer; X. Ellipsoidal Description of Water Flow into Soil from a Surface Disc; XI. Appendix: Biography of John Philip; Chapter 12. Pore Volume; I. Definitions; II. Illustration of Breakthrough Curves and Pore Volumes; III. Mathematical Analysis of Pore Volume; IV. Calculation of a Pore Volume; V. Pore Volumes Based on Length Units 327 $aVI. Miscible Displacement 330 $aPrinciples of Soil and Plant Water Relations combines biology and physics to show how water moves through the soil-plant-atmosphere continuum. This text explores the instrumentation and the methods used to measure the status of water in soil and plants. Principles are clearly presented with the aid of diagrams, anatomical figures, and images of instrumentation. The methods on instrumentation can be used by researchers, consultants, and the military to monitor soil degradation, including measurements of soil compaction, repellency, oxygen diffusion rate, and unsaturated hydraulic conduc 606 $aPlant-water relationships 606 $aPlant-soil relationships 606 $aGroundwater flow 615 0$aPlant-water relationships. 615 0$aPlant-soil relationships. 615 0$aGroundwater flow. 676 $a572/.5392 700 $aKirkham$b M. 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