Written by an internationally recognized group of editors and contributors,
Handbook of Elemental Speciation, Volume 2 provides a comprehensive, cross-disciplinary presentation of the analytical techniques involved in speciation.
- Comprehensive coverage of key elements and compounds in situ
- Addresses the analysis and impact of these elements and compounds, e.g. arsenic, lead, copper, iron, halogens, etc., in food, the environment, clinical and occupational health
- Detailed methodology and data are reported, as well as regulatory limits
- Includes general introduction on the impact in these key areas
This Handbook explores elemental species in both living and non-living systems. It is of interest to a wide range of scientists, including analytical chemists, biochemists, toxicologists, clinicians and environmental scientists in academia, government laboratories and industry. Those involved in regulatory or legislative activities will find it to be a source of relevant information. It is also intended to be a comprehensive database for students in these disciplines.
The analytical methodology has been the subject of Volume 1 of this Handbook. This second volume covers in great detail the various species of 21 elements, of the actinides and of four groups of compounds (halogens, volatile metal compounds of biogenic origin, metal complexes of humic substances and metal complexes of proteins) within four key areas: environment, food, occupation and clinical health. Chapters on modelling of trace element species in the environment, food, health and disease illustrate the power of modern chemometric techniques in describing the behaviour of elemental species in complicated systems.
Elemental speciation is a relatively young discipline and as a consequence, the fundamental knowledge is sometimes fragmentary and incomplete. Thus, each contribution is a stand-alone reference, written by a recognized expert in the field, aiming to be as informative as possible.
The information contained in the two volumes of this Handbook provides a state-of-the-art introduction to this young and exciting scientific domain. The editors hope it will constitute a stimulating basis for further research.
