Soils are progressively recognized as the critical environmental compartment they are. More and
more practitioners and scientists address soil issues and work with soils in the context of
their specific field of interest and profession. The rising interest in soils drives a mounting
demand for soil information. This information must frequently be generated by field
measurements (e.g. of soil water content solute concentration in soil water redox potential
pH ...) in order to describe e.g. water and solute transport processes detect soil
degeneration or optimize crop production. Users of soil measurement techniques need guidelines
on how to decide which sensor technique is most appropriate for their soil measurement needs.
The authors of this book are renowned specialists in their fields of research and present
answers to questions such as: * Which parameters need to be measured? * What techniques do
exist and how do they differ? * Which precision is required and achievable at what price? *
Which is the best technical equipment for the study? * Which preconditions must be met to get
meaningful results? * How many replicates are required? * How is the equipment installed and
used optimally? * Which pitfalls lurk when using a certain method? * How to check data quality
and how to interpret the data? The book is not only useful for soil-science beginners” looking
for an introductory review of available techniques but also for more experienced colleagues by
providing best practice” guidelines for consistent reproducible installation and operation of
field instruments to collect reliable and meaningful data which can be gainfully interpreted.