the researchers and professors of the Enology Research Unit at the Institut des Sciences de la Vigne et du Vin (ISVV), who provided their expertise to update this Volume 2:
Jean‐Christophe Barbe, Professor, Bordeaux Sciences Agro, researcher in the Enology Research Unit, ISVV, Université de Bordeaux (Volume 2, Chapter 2) regarding volatile esters;
Philippe Darriet, Director of the Enology Research Unit, Université de Bordeaux (Volume 2, Chapters 7, 8, and 13) regarding varietal aromas, off‐odors, and evolution of aroma during bulk aging of red wines;
Rémy Ghidossi, Professor, ISVV, Université de Bordeaux, researcher in the Enology Research Unit (Volume 2, Chapters 10–12) regarding winemaking practices and processes;
Axel Marchal, Professor HDR, ISVV, Université de Bordeaux, researcher in the Enology Research Unit (Volume 2, Chapter 13) regarding the evolution of taste components during bulk aging of wines;
Martine Mietton‐Peuchot†, Professor, ISVV, Université de Bordeaux, researcher in the Enology Research Unit (Volume 2, Chapters 10–12) regarding winemaking practices and processes;
Claudia Nioi, Enology Research Unit, ISVV, Université de Bordeaux (Volume 2, Chapter 13) regarding the dissolved oxygen assay and measurement of oxidation–reduction potential in wines;
Alexandre Pons, HDR researcher in the Enology Research Unit, ISVV, Université de Bordeaux (Volume 2, Chapters 7, 8, and 13) regarding varietal aromas, off‐odors, and evolution of aroma during bulk aging of red wines;
Sophie Tempere, Associate Professor, ISVV, Université de Bordeaux, researcher in the Enology Research Unit (Volume 2, Chapter 8) regarding psychophysical phenomena associated with the perception of off‐odors in wines;
Cécile Thibon, research engineer, INRAE, researcher in the Enology Research Unit, ISVV, Université de Bordeaux (Volume 2, Chapter 7) regarding varietal aromas.
The following persons also participated:
Michaël Jourdes, Associate Professor HDR, ISVV, Université de Bordeaux (Volume 2, Chapters 6 and 9) regarding polyphenols and colloidal phenomena in wines;
Stéphanie Marchand‐Marion, Associate Professor HDR, ISVV, Université de Bordeaux (Volume 2, Chapters 2, 3, 5, and 8) regarding alcohols, carbohydrates, certain nitrogen compounds, and compounds associated with off‐odors;
Pierre‐Louis Teissedre, Professor, ISVV, Université de Bordeaux (Volume 2, Chapters 1, 3, 4, 8, and 13) regarding several aspects of grape and wine composition (organic acids, carbohydrates, dry extract and inorganic matter, phenolic compounds) and the role of polysaccharides in the elimination of compounds causing wine spoilage.
PREFACE TO THE SECOND EDITION
The two‐volume Enology Handbook was published simultaneously in Spanish, French, and Italian in 1999 and has been reprinted several times. The Handbook has apparently been popular with students as an educational reference book, as well as with winemakers, as a source of practical solutions to their specific technical problems and scientific explanations of the phenomena involved.
It was felt appropriate at this stage to prepare an updated, reviewed, corrected version, including the latest enological knowledge, to reflect the many new research findings in this very active field. The outline and design of both volumes remain the same. Some chapters have changed relatively little as the authors decided there had not been any significant new developments, while others have been modified much more extensively, either to clarify and improve the text or, more usually, to include new research findings and their practical applications. Entirely new sections have been inserted in some chapters.
We have made every effort to maintain the same approach as we did in the first edition, reflecting the ethos of enology research in Bordeaux. We use indisputable scientific evidence in microbiology, biochemistry, and chemistry to explain the details of mechanisms involved in grape ripening, fermentations and other winemaking operations, aging, and stabilization. The aim is to help winemakers achieve greater control over the various stages in winemaking and choose the solution best suited to each situation. Quite remarkably, this scientific approach, most intensively applied in making the finest wines, has resulted in an enhanced capacity to bring out the full quality and character of individual terroirs. Scientific winemaking has not resulted in standardization or leveling of quality. On the contrary, by making it possible to correct defects and eliminate technical imperfections, it has revealed the specific qualities of the grapes harvested in different vineyards, directly related to the variety and terroir, more than ever before.
Interest in wine in recent decades has gone beyond considerations of mere quality and taken on a truly cultural dimension. This has led some people to promote the use of a variety of techniques that do not necessarily represent significant progress in winemaking. Some of these are simply modified forms of processes that have been known for many years. Others do not have a sufficiently reliable scientific interpretation, nor are their applications clearly defined. In this Handbook, we have only included rigorously tested techniques, clearly specifying the optimum conditions for their utilization.
As in the previous edition, we deliberately omitted three significant aspects of enology: wine analysis, tasting, and winery engineering. In view of their importance, these topics will each be covered in separate publications.
The authors would like to take the opportunity of the publication of this new edition of Volume 1 to thank all those who have contributed to updating this work:
Marina Bely for her work on fermentation kinetics and the production of volatile acidity (Sections 2.3.4 and 14.2.5).
Isabelle Masneuf for her investigation of the yeasts' nitrogen supply (Section 3.4.2).
Gilles de Revel for elucidating the chemistry of SO2, particularly details of combination reactions (Section 8.4).
Gilles Masson for the section on rosé wines (Section 14.1).
Cornelis