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Plant Salt Tolerance

Overview of attention for book
Cover of 'Plant Salt Tolerance'

Table of Contents

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    Book Overview
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    Chapter 1 Patch-Clamp Protocols to Study Cell Ionic Homeostasis Under Saline Conditions
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    Chapter 2 Studying Plant Salt Tolerance with the Voltage Clamp Technique
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    Chapter 3 Using the Multifunctional Xylem Probe for in situ Studies of Plant Water and Ion Relations Under Saline Conditions
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    Chapter 4 Measuring Intracellular Ion Concentrations with Multi-Barrelled Microelectrodes
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    Chapter 5 Single-Cell Sampling and Analysis (SiCSA)
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    Chapter 6 Plant Salt Tolerance
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    Chapter 7 Quantifying Kinetics of Net Ion Fluxes from Plant Tissues by Non-invasive Microelectrode Measuring MIFE Technique
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    Chapter 8 Quantitative Cryo-Analytical Scanning Electron Microscopy (CEDX): An Important Technique Useful for Cell-Specific Localization of Salt
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    Chapter 9 Fluorescence Lifetime Imaging (FLIM) Measurements in Salinity Research
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    Chapter 10 Cytosolic Ca 2+ Determinations in Studying Plant Responses to Salinity and Oxidative Stress
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    Chapter 11 Infrared Thermography in Plant Phenotyping for Salinity Tolerance
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    Chapter 12 In vivo Imaging of Nitric Oxide and Reactive Oxygen Species Using Laser Scanning Confocal Microscopy
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    Chapter 13 Metabolomics for Salinity Research
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    Chapter 14 Purification of Plant Plasma Membranes by Two-Phase Partitioning and Measurement of H + Pumping
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    Chapter 15 Determination of Reactive Oxygen Species in Salt-Stressed Plant Tissues
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    Chapter 16 Quantification of the Antioxidant Activity in Salt-Stressed Tissues
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    Chapter 17 Quantification of Abscisic Acid, Cytokinin, and Auxin Content in Salt-Stressed Plant Tissues
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    Chapter 18 Fluorescence-Activated Cell Sorting for Analysis of Cell Type-Specific Responses to Salinity Stress in Arabidopsis and Rice
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    Chapter 19 Transformation Using Controlled cDNA Overexpression System
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    Chapter 20 Transcriptome Analysis of Membrane Transporters in Response to Salinity Stress
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    Chapter 21 Marker-Assisted Selection in Plant Breeding for Salinity Tolerance
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    Chapter 22 Transcriptomics on Small Samples
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    Chapter 23 Plastid transformation for abiotic stress tolerance in plants.
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    Chapter 24 Manipulating Expression of Tonoplast Transporters
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    Chapter 25 Using Heterologous Expression Systems to Characterize Potassium and Sodium Transport Activities
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    Chapter 26 Isotope Techniques to Study Kinetics of Na + and K + Transport Under Salinity Conditions
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    Chapter 27 Trait Dissection of Salinity Tolerance with Plant Phenomics
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    Chapter 28 Measuring Soil Salinity
Attention for Chapter 28: Measuring Soil Salinity
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Chapter title
Measuring Soil Salinity
Chapter number 28
Book title
Plant Salt Tolerance
Published in
Methods in molecular biology, January 2012
DOI 10.1007/978-1-61779-986-0_28
Pubmed ID
22895776
Book ISBNs
978-1-61779-985-3, 978-1-61779-986-0
Authors

Marcus Hardie, Richard Doyle, Hardie M, Doyle R, Hardie, Marcus, Doyle, Richard

Abstract

Soil salinity is a form of land degradation in which salts accumulate in the soil profile to an extent that plant growth or infrastructure are negatively affected. A range of both field and laboratory procedures exist for measuring soil salinity. In the field, soil salinity is usually inferred from apparent electrical conductivity (EC(a)) using a range of devices, depending on the required depth of analysis, or size of the survey area. Field measurements of EC(a) require calibration to the actual salt content by laboratory analysis. In the laboratory, soil salinity is usually assessed by determining either the total soluble salts by evaporation of a soil water extract (TSS), or by determining the electrical conductivity (EC) of either a 1:5 distilled water:soil dilution, or a saturated paste extract. Although procedures for measuring soil salinity appear relatively straightforward, differences in methodology have considerable influence on measured values and interpretation of results.

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Mendeley readers

The data shown below were compiled from readership statistics for 251 Mendeley readers of this research output. Click here to see the associated Mendeley record.

Geographical breakdown

Country Count As %
Netherlands 1 <1%
Czechia 1 <1%
Unknown 249 99%

Demographic breakdown

Readers by professional status Count As %
Student > Master 40 16%
Student > Ph. D. Student 38 15%
Student > Bachelor 35 14%
Unspecified 10 4%
Student > Doctoral Student 10 4%
Other 38 15%
Unknown 80 32%
Readers by discipline Count As %
Environmental Science 51 20%
Agricultural and Biological Sciences 51 20%
Engineering 14 6%
Earth and Planetary Sciences 10 4%
Biochemistry, Genetics and Molecular Biology 9 4%
Other 31 12%
Unknown 85 34%

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