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Winemaking as a form of food preservation is as old as civilization. Wine has been an integral component of people's daily diet since its discovery and has also played an important role in the development of society, religion, and culture. We are currently drinking the best wines ever produced. We are able to do this because of our increased understanding of grape growing, biochemistry and microbiology of fermentation, our use of advanced technology in production, and our ability to measure the various major and minor components that comprise this fascinating beverage.
Historically, winemakers succeeded with slow but gradual improvements brought about by combinations of folklore, observation, and luck. However, they also had monumental failures resulting in the necessity to dispose of wine or convert it into distilled spirits or vinegar. It was assumed that even the most marginally drinkable wines could be marketed. This is not the case for modem producers. The costs of grapes, the technology used in production, oak barrels, corks, bottling equipment, etc., have increased dramatically and continue to rise. Consumers are now accustomed to supplies of inexpensive and high-quality varietals and blends; they continue to demand better. Modem winemakers now rely on basic science and the systematic application of their art to produce products pleasing to the increasingly knowledgeable consumer base that enjoys wine as part of its civilized society.
The process of making wine involves a series of concerns for the grower, as well as the winemaker. The first concerns are viticultural, including delivery of sound, high-quality fruit at optimal maturity. Upon arrival at the winery, fruit quality is assessed, the grapes are processed, and fermentation is begun. Almost immediately, and in many instances simultaneously, chemical and microbiological stability of the young and/or aging wine becomes important. Finally, problems occur on occasion requiring utilization of remedial techniques to produce an acceptable product.
Production considerations serve as the framework in organizing this book. Within each chapter is information culled from the authors' collective years of experience, as well as from the literate wine community around the world. These chapters provide numerous practical, as well as fundamental, insights into the various aspects of the process. Winemakers will benefit from these insights while still maintaining (and gaining further insight into) their own.
Analytical techniques have become valuable tools of modem winemakers wishing to better understand their product. These analytical tools are another major feature of this text. The authors have gathered numerous procedures commonly used for grape, juice, and wine analysis. These procedures are presented as they are generally practiced in the industry around the world. We have formatted them into an easy-to-follow recipestyle to make them more useful to the winery technician. Our procedures provide instructions for preparing required reagents, stains, and media, and then outline the analyses in detail. To make these procedures more accessible, we have gathered them into a single chapter at the end of the "text" chapters. In addition to the "standard" laboratory procedures we have included a section of rapid "diagnostic" tests to assist in identifying problems encountered during winemaking. Several frequently used conversion and correction tables have also been collected into one section for the reader's convenience. Finally, we have provided some information on the safety aspects of the various reagents employed in conducting the laboratory analyses.
In developing material for this text, the authors have emphasized analyses as they would be carried out in a production laboratory. Realizing that different laboratories have different analytical capabilities, personnel, and equipment, we have in many instances provided several different approaches to the same analysis. Throughout this book we have given special attention to practical considerations and their importance in the total spectrum of winery operations. We have done the same with the laboratory procedures. It is the authors' wish that the book's format will satisfy the interests of laboratory personnel as well as winemakers. It is assumed that the reader has some basic preparation in the fields of chemistry and microbiology.
A novice reader would be advised to acquire a basic textbook in quantitative analysis for descriptions of fundamental laboratory skills. In writing this text we not only surveyed the literature of the winemaking world, but have solicited direct assistance from several guest authors. To help present the subject of laboratory chemical and microbiological measurements from both the historical and future perspective, we have selections by Gordon Burns, President of ETS Laboratory (St. Helena, CA), and Lisa Van de Water, Director of The Wine Lab (Napa, CA) and Pacific Rim Oenology Services (Blenheim, New Zealand). The issue of the health aspects of wine has never been a more important subject than it is today. To provide a perspective on this subject, Dr. Carlos Muller, Director of the Enology Program at California State University (Fresno, CA) has contributed a Chapter.
A rational approach to the uses and benefits of sensory analysis is always a complement to the subject of laboratory measurements. The sensory organs are, for the most part, our most sensitive analytical tool for monitoring certain wine components and microbiological processes. A chapter on sensory techniques is offered by Dr. Susan Duncan of the Department of Food Science and Technology, Virginia Polytechnic Institute (Blacksburg, VA). Finally, in adding a current perspective to the use of enzymes in juice and wine processing, we have solicited the efforts of Katherine Haight, Research Associate at the Viticulture & Enology Research Center (Fresno, CA). We are greatly appreciative of the efforts of these contributors, who have added an extra dimension to this text.
Preface
1 Introduction
Overview of Wine Analysis-Gordon H. Bums, Director, ETS Laboratories, St. Helena, CA
Reasons for Analysis
Common Analytical Components
Current Analytical Techniques
Future Analytical Techniques
A Technical Revolution in Winemaking-Lisa Van der Water, Director, the Wine Lab, Napa, CA, and Pacific Rim Enology Services, Blenheim, New Zealand
Relating pH and SO2
Grapes Are Important
Attention on Yeasts
Spoilage Microbes
Looking to the Future
Wine and Health-It Is More Than Alcohol-Carlos J. Muller, Director, Enology Program, California State University, Fresno, CA
Antioxidants
Coexistence (Synergism) of Alcohol and Wine Antioxidants
Salicylic Acid
Conclusion
2 Application of Sensory Evaluation in Wine Making. Susan E. Duncan, Assistant Professor, Department of Food Science and Technology, Virginia Polytechnic Institute and State University, Blacksburg, VA
Overview of Sensory Evaluation
Standardization of Sensory Evaluation
Sensory Panelists
Methods of Sensory Evaluation
Principal Component Analysis
Summary
3 Grape Maturity and Quality
Wine Quality
Maturity Sampling
Fruit Quality Evaluation
Pesticides
Sensory Considerations as an Indicator of Grape Maturity and Quality
Soluble Solids in Winemaking
Laboratory Measurements of Soluble Solids
Analysis
4 Hydrogen Ion (pH), and Fixed Acids
Organic Acid Content of Wine
Interaction of Hydrogen and Potassium Ions and Titratable Acidity
Hydrogen Ion Concentration and Buffers
Sample Preparation and Reporting TA Results
Adjustments in Titratable Acidity and pH
Legal Considerations
Sensory Considerations
Analysis
5 Carbohydrates
Reducing Sugars (Hexoses)
Pentoses
Sucrose
Polysaccharides (and Associated Instabilities)
Mute Production
Soluble Solids vs. Reducing Sugar Values
Analysis of Reducing Sugars
Invert Sugar Analysis
Analysis
6 Alcohol and Extract
Yeast Metabolism
Ester Formation
Methanol
Ethanol Production
Determination of Alcohol Content
Extract
Analysis
7 Phenolic Compounds and Wine Color
Representative Grape and Wine Phenols
Grape Growing and Processing Considerations
Factors Contributing to Wine Color and Color Stability
Oxidation
Oak Barrel Components
Evaluation of Color by Spectrophotometry
Analysis
8 Nitrogen Compounds
Nitrogen Compounds of Grapes and Wines
Effect of Vineyard Practices on Nitrogen Compounds
Wine Proteins
Prefermentation Processing Considerations
Fermentation and Post-fermentation Processing Considerations
Effect of Protein on Wine Stability
Processing Considerations and Protein Stability
Methods for Evaluation of Protein Stability
Determination of Total Protein and Nitrogen-Containing Compounds
Analysis
9 Sulfur-containing Compounds
Sulfate (SO4/ -2)
Sulfite (SO2-/ 3)
Hydrogen Sulfide (H2S)
Organic Sulfur-Containing Compounds
Vineyard Management
Hydrogen Sulfide and Mercaptans in Wine
Analysis
10 Sulfur Dioxide and Ascorbic Acid
Sulfur Dioxide as an Inhibitor of Browning Reactions
Compounds That Bind with Sulfur Dioxide
Distribution of Sulfite Species in Solution
Bound and Free Sulfur Dioxide
Sulfur Dioxide in Wine Production
Sources of Sulfur Dioxide
Analysis of Free and Total Sulfur Dioxide
Ascorbic Acid
Analysis
11 Volatile Acidity
Microbiological Formation of Acetic Acid
Acetate Esters
Sensory Considerations
Reduction of Volatile Acidity
Analytical Methods for Volatile Acidity
Analysis
12 Metals, Cations, and Anions
Copper
Iron and Phosphorus
Aluminum
Lead
Metal Removal
Fluoride
Analysis of Metals
Analysis
13 Sorbic Acid, Benzoic Acid, and Dimethyldicarbonate
Sorbic Acid
Benzoic Acid
Dimethyldicarbonate
Analytical Determination of Sorbic and Benzoic Acids and Dimethyldicarbonate
Analysis
14 Oxygen, Carbon Dioxide, and Nitrogen
Redox Potentials in Wine Systems
Oxygen
Acetaldehyde
Carbon Dioxide and Nitrogen
Use of Gases
Measurement of Carbon Dioxide
Analysis
15 Tartrates and Instabilitles
Potassium
Calcium
Bitartrate Stability
Methodology for Estimating Cold Stability
Correction of Bitartrate Instability
Calcium Tartrate Stability
Analysis
16 Fining and Fining Agents
Principles of Fining
Fining and Wine Stability
Summary of Important Considerations in Fining
Bentonite
Polysaccharides
Carbons
Silica Dioxide
Protein Fining Agents
Yeast Fining
Polyvinylpolypyrolidone
Tannin
Metal Removal
Riddling Aids
Utilization of Enzymes in Juice and Wine Production. Katherine G.Haight, Research Associate, Viticulture and Enology Research Center, Fresno, CA
Glucanases
Pectinases
Macerating Enzymes
Ultrafiltration
Future Developments
Summary
Procedures
17 Winery Sanitation
Water Quality
Preliminary Cleaning
Cleaners (Detergents)
Sanitizers
Cleaning and Sanitation Monitoring
Analysis
18 Microbiology of Winemaking
Molds
Yeasts
Wine Bacteria
Lactic Acid Bacteria
Controlling Microbial Growth in Wine (A Summary)
Procedures
19 Cork
Cork Microbiology
Identity and Properties of Odor-Active Metabolites
Preparation of Cork for Shipment
Analysis
20 Laboratory Procedures
Appendix I. Tables of Constants, Conversion Factors
Appendix II. Laboratory safely
Bibliography
Index