DownloadThe Portobello Bookshop Gift Guide 2024

Cation Binding by Humic Substances

Edward Tipping author

Format:Paperback

Publisher:Cambridge University Press

Published:14th Jul '05

Currently unavailable, and unfortunately no date known when it will be back

This paperback is available in another edition too:

Cation Binding by Humic Substances cover

This book provides description, modelling and interpretation of important environmental interactions for environmental scientists, ecologists and geochemists.

The first comprehensive account of these important environmental interactions, this book describes the binding reactions, how they can be mathematically modelled, and how this knowledge is used to interpret environmental phenomena in soils, waters and sediments. A valuable resource for advanced undergraduate and graduate students, environmental scientists, ecologists and geochemists.Humic substances are highly-abundant organic compounds formed in soils and sediments by the decay of dead plants, microbes and animals. This book focuses on the important binding properties of these compounds which regulate the chemical reactivity and bioavailability of hydrogen and metal ions in the natural environment. Topics covered include the physico-chemical properties of humic matter and interactions of protons and metal cations with weak acids and macromolecules. Experimental laboratory methods are also discussed, together with mathematical modelling. Finally the author looks at how the results of this research can be used to interpret environmental phenomena in soils, waters and sediments. This comprehensive account of cation binding by humic matter is a valuable resource for advanced undergraduate and graduate students, environmental scientists, ecologists and geochemists.

'I wholeheartedly recommend the book to all workers in the field.' John Hamilton-Taylor, Chemistry and Industry
' … this is a very useful and important monograph'. Angewandte Chemie

ISBN: 9780521675659

Dimensions: 244mm x 170mm x 23mm

Weight: 710g

448 pages