Author: Anthony Joseph Rynders
Publisher:
ISBN:
Category :
Languages : en
Pages : 262

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Book Description

Author: Antonio Morata
Publisher: Academic Press
ISBN: 0128144009
Category : Science
Languages : en
Pages : 408

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Book Description
Red Wine Technology is a solutions-based approach on the challenges associated with red wine production. It focuses on the technology and biotechnology of red wines, and is ideal for anyone who needs a quick reference on novel ways to increase and improve overall red wine production and innovation. The book provides emerging trends in modern enology, including molecular tools for wine quality and analysis. It includes sections on new ways of maceration extraction, alternative microorganisms for alcoholic fermentation, and malolactic fermentation. Recent studies and technological advancements to improve grape maturity and production are also presented, along with tactics to control PH level. This book is an essential resource for wine producers, researchers, practitioners, technologists and students. Winner of the OIV Award 2019 (Category: Enology), International Organization of Vine and Wine Provides innovative technologies to improve maceration and color/tannin extraction, which influences color stability due to the formation of pyranoanthocyanins and polymeric pigments Contains deep evaluations of barrel ageing as well as new alternatives such as microoxigenation, chips, and biological ageing on lees Explores emerging biotechnologies for red wine fermentation including the use of non-Saccharomyces yeasts and yeast-bacteria coinoculations, which have effects in wine aroma and sensory quality, and also control spoilage microorganisms

Author:
Publisher:
ISBN: 9782981525505
Category :
Languages : en
Pages : 200

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Author: Kirk-Othmer
Publisher: John Wiley & Sons
ISBN: 0470047488
Category : Science
Languages : en
Pages : 2762

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Book Description
This is an easily-accessible two-volume encyclopedia summarizing all the articles in the main volumes Kirk-Othmer Encyclopedia of Chemical Technology, Fifth Edition organized alphabetically. Written by prominent scholars from industry, academia, and research institutions, the Encyclopedia presents a wide scope of articles on chemical substances, properties, manufacturing, and uses; on industrial processes, unit operations in chemical engineering; and on fundamentals and scientific subjects related to the field.

Author: Kenneth C. Fugelsang
Publisher: Рипол Классик
ISBN: 5881474686
Category : History
Languages : en
Pages : 415

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Author: Stuart C. Chescheir
Publisher:
ISBN:
Category : 4-ethylphenol
Languages : en
Pages : 68

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Book Description
The yeast Brettanomyces bruxellensis is the most important wines spoilage yeast encountered during winemaking as it can survive in wine for long periods, requires minimal nutrients for growth, and can be difficult to control. Brettanomyces produces two major spoilage products, the volatile phenols 4-ethylphenol (Band-Aid, medicinal smell) and 4-ethylguaiacol (smoke, clove smell) by decarboxylation and subsequent reductions of the hydroxycinnamic acids p-coumaric acid and ferulic acid. Hydroxycinnamic acids are naturally present in grapes and wine and are also often present in the form of tartaric acid- hydroxycinnamic acid esters which B. bruxellensis cannot utilize. The first objective of this study was therefore to investigate the ability of other wine microorganisms to hydrolyze tartaric acid bound hydroxycinnamic acids and the impact this may have on volatile phenol production by Brettanomyces. Of the thirty five strains of wine microorganisms tested only one, the commercial strain O. oeni VFO, hydrolyzed tartaric acid bound hydroxycinnamic acids in wine and increased the concentrations of the free hydroxycinnamic acids p- coumaric acid and ferulic acid. Because of this, B. bruxellensis produced significantly higher concentrations of 4-ethylphenol and 4-ethylguiaciol when growing in wine where VFO had conducted the malolactic fermentation. In contrast, wines that underwent MLF with O. oeni Alpha or VP41 contained similar 4-EP and 4-EG concentrations to the control. A subsequent study investigated interactions between the wine spoilage yeast Brettanomyces bruxellensis and wine lactic acid bacteria (LAB) and the impact on Brettanomyces growth and volatile phenol production. Studies in acidic grape juice (AGJ) broth (pH 3.50, 5% ethanol) demonstrated that growth of O. oeni could inhibit Brettanomyces growth in a strain dependent manner. Production of 4-ethyphenol was also delayed and reduced in a strain dependent manner. For example, in the control a maximum of 19 mg/L 4-EP was produced by B. bruxellensis UCD-2049 while during growth in media where VP41 had previously grown only 7.9 mg/L 4-EP was produced. When B. bruxellensis was inoculated into Pinot noir wine where malolactic fermentation (MLF) had been performed by O. oeni VFO, populations of B. bruxellensis quickly decreased below detectable levels and did not recover during the course of the experiment (50 days). In contrast, when B. bruxellensis UCD-2049 was inoculated into Pinot noir wine where Pediococcus damnosus OW2 had previously grown populations did not decrease and growth occurred in a similar manner to the control. The reason for this decrease in population was further explored by inoculating B. bruxellensis into AGJ broth (pH 3.50) where there had been previous growth of O. oeni Alpha or VP41. In half the treatments the O. oeni were removed by sterile filtration prior to Brettanomyces inoculation. Although there was delayed growth of B. bruxellensis in media where O. oeni had previously grown there was no significant difference between growth in sterile filtered and non-sterile filtered treatments. The relief of inhibition by sterile filtration suggests that neither nutrient depletion nor the production of an extracellular inhibitory compound by O. oeni were the causes of Brettanomyces inhibition, as sterile filtration would not have impacted these. Future work in this field should include screening a larger and more diverse group of wine microorganisms for the ability to hydrolyze tartaric ester bound hydroxycinnamic acids. This should include non-Saccharomyces yeast such as Kloeckera that are known to be present during early fermentation as well as spoilage bacteria such as Lactobacillus. In addition, the inhibition of B. bruxellensis should be explored further by testing O. oeni against a larger number of B. bruxellensis strains and additional mechanisms of inhibition should be investigated.

Author: Helmut König
Publisher: Springer
ISBN: 3319600214
Category : Technology & Engineering
Languages : en
Pages : 711

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Book Description
The second edition of the book begins with the description of the diversity of wine-related microorganisms, followed by an outline of their primary and energy metabolism. Subsequently, important aspects of the secondary metabolism are dealt with, since these activities have an impact on wine quality and off-flavour formation. Then chapters about stimulating and inhibitory growth factors follow. This knowledge is helpful for the growth management of different microbial species. The next chapters focus on the application of the consolidated findings of molecular biology and regulation the functioning of regulatory cellular networks, leading to a better understanding of the phenotypic behaviour of the microbes in general and especially of the starter cultures as well as of stimulatory and inhibitory cell-cell interactions during wine making. In the last part of the book, a compilation of modern methods complete the understanding of microbial processes during the conversion of must to wine.This broad range of topics about the biology of the microbes involved in the vinification process could be provided in one book only because of the input of many experts from different wine-growing countries.

Author: Giuseppe Spano
Publisher: Frontiers Media SA
ISBN: 2889451216
Category :
Languages : en
Pages : 233

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Book Description
During spontaneous food/beverage fermentations, the microbiota associated with the raw material has a considerable importance: this microbial consortium evolves in reason of the nutrient content and of the physical, chemical, and biological determinants present in the food matrix, shaping fermentation dynamics with significant impacts on the ‘qualities’ of final productions. The selection from the indigenous micro-biodiversity of ‘virtuous’ ecotypes that coupled pro-technological and biotechnological aptitudes provide the basis for the formulation of ‘tailored’ starter cultures. In the fermenting food and beverage arena, the wine sector is generally characterized by the generation of a high added value. Together with a pronounced seasonality, this feature strongly contributes to the selection of a large group of starter cultures. In the last years, several studies contributed to describe the complexity of grapevine-associated microbiota using both culture-dependent and culture-independent approaches. The grape-associated microbial communities continuously change during the wine-making process, with different dominances that correspond to the main biotechnological steps that take place in wine. In order to simplify, following a time trend, four major dominances can be mainly considered: non-Saccharomyces, Saccharomyces, lactic acid bacteria (LAB), and spoilage microbes. The first two dominances come in succession during the alcoholic fermentation: the impact of Saccharomyces (that are responsible of key enological step of ethanol production) can be complemented/integrated by the contributions of compatible non-Saccharomyces strains. Lactic acid bacteria constitute the malolactic consortium responsible of malolactic fermentation, a microbial bioconversion often desired in wine (especially in red wine production). Finally, the fourth dominance, the undesired microbiota, represents a panel of microorganisms that, coupling spoilage potential to the resistance to the harsh conditions typical of wine environment, can cause important economic losses. In each of these four dominances a complex microbial biodiversity has been described. The studies on the enological significance of the micro-biodiversity connected with each of the four dominances highlighted the presence of a dichotomy: in each consortia there are species/strains that, in reason of their metabolisms, are able to improve wine ‘qualities’ (resource of interest in starter cultures design), and species/strains that with their metabolism are responsible of depreciation of wine. Articles describing new oenological impacts of yeasts and bacteria belonging to the four main categories above mentioned (non-Saccharomyces, Saccharomycetes, lactic acid bacteria, and spoilage microbes) are welcome. Moreover, in this Research Topic, we encourage mini-review submissions on topics of immediate interest in wine microbiology that link microbial biodiversity with positive/negative effects in wine.

Author: Margaret A. Davenport
Publisher:
ISBN:
Category :
Languages : en
Pages : 234

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Book Description

Author: Antonio Morata
Publisher: BoD – Books on Demand
ISBN: 9535135996
Category : Technology & Engineering
Languages : en
Pages : 302

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Book Description
Yeast - Industrial Applications is a book that covers applications and utilities of yeasts in food, chemical, energy, and environmental industries collected in 12 chapters. The use of yeasts in the production of metabolites, enzymatic applications, fermented foods, microorganism controls, bioethanol production, and bioremediation of contaminated environments is covered showing results, methodologies, and processes and describing the specific role of yeasts in them. The traditional yeast Saccharomyces cerevisiae is complemented in many applications with the use of less known non-Saccharomyces yeasts that now are being used extensively in industry. This book compiles the experience and know-how of researchers and professors from international universities and research centers.