P2 Flashcards
ACID
An integral component of wine structure and balance that lends a tart, fresh, taste. Acid contributes to wine color, stability, and longevity. The principal acids in wine are tartaric and malic.
ACID ADJUSTMENT/ACID CONTROL
A modification in wine acidity either upwards or downwards. Acid adjustment is subject to regulatory limits in many regions. Acidification is usually accomplished via tartaric acid addition. Deacidification is accomplished biologically (MLF) or less frequently chemically (calcium carbonate) or mechanically (reverse osmosis, electrodialysis.)
ACIDIFICATION
An increase in wine acidity enacted to improve balance and stability. Acid adjustment is subject to regulatory limits in many regions. Acidification is usually accomplished via tartaric acid addition.
ACIDITY
An integral component of wine structure and balance that contributes a tart, fresh taste. Acidity impacts wine color, stability, and longevity. The principal wine acids are tartaric and malic.
AGEING POTENTIAL
The period of time the wine will evolve favorably or hold it’s integrity after packaging. Ageing potential (AP) is a mark of quality and is one of the features that distinguishes fine wine from almost all other beverages. The exact AP for any wine is subjective, but is based on its concentration of fruit, balance of structural elements, and complexity.
ALCOHOL
Alcohols are hydroxyl compounds. In wine, the main alcohol is ethanol which is formed during fermentation of grape sugars. It is responsible for wine’s intoxicating effect but also a key component of balance and structure. Alcohol provides sweetness, body, warmth, and if excessive, bitterness. Ethanol is a powerful solvent also carries aromas, flavors, and phenolic components.
ALCOHOLIC FERMENTATION
“The conversion of sugar into ethanol (also known as ethyl alcohol) and carbon dioxide carried out by yeast in the absence of oxygen (‘anaerobically’). This
conversion also produces heat, which has to be managed.”
AMBIENT YEAST
aka native, wild, natural…collective term for non-Saccharomyces yeast genera indigenous to vineyards or wineries capable of initiating fermentations but not viable at alcohol levels >5%, both prized for their ability to add complexity of aroma, flavor and texture and feared for their less predictable performance and characteristics such as volatile acid production
ANTHOCYANINS
a complex group of phenolic compounds found in grape skins responsible for the color in red and rose wines as a precursor to pigmented tannins. Anthocyanins, unless bound, are unstable and are capable of changing form based on pH (lighterin concentration and more blue in higher pH) and are bleached by SO2. Anthocyanin concentrations increase as the berry ripens and are intensified by direct sunlight onto berry skins. An important aspect in fermentation is the transfer of anthocyanins to the wine medium and the formation of more stable pigmented tannins.
AUTOLYSIS
dead yeast cell decomposition that releases protein compounds and complex sugars which contribute to wine texture, flavor, and weight.
BALANCE
the harmony between a wine’s fruit aroma and flavor intensity with its structural elements such as acid, alcohol, sweetness, and texture.
BIODYNAMIC WMKG
An extreme form of organic viticulture based on the philosophies of Rudolf Steiner. Certified biodynamic wine must be made from certified biodynamically grown grapes. In the winery, certain processes are required or encouraged by the certifying body. Demeter International is the main certifying association. Although it sets certain global standards, Demeter certifiers in each country determine the specification for that country. Thus, for example, for Demeter-certified biodynamic wine in the UK, natural yeasts are encouraged, but organic or, if unavailable, commercial yeasts can be used.
BLENDING
Literally mixing together and encompasses grape varieties, ripeness levels, vineyard sites, fermentation or maturation vessels, or vintages
BRETTANOMYCES BRUXELLENSIS
Brettanomyces bruxellensis (brett) is a spoilage yeast in wine commonly used in the beer industry. In small amounts it can be considered a complexity element in certain wine styles, but is a fault at higher concentration levels. It is most often associated with wines that have undergone barrel maturation, both red and white, but is most often associated with red wines. Brett needs oxygen and residual sugar to maximize growth and once established in a cellar is difficult to manage. Brett produces three main aroma/flavor compounds 4 EP (ethyl phenol–band aid, sweaty saddle), 4 EG (ethyl guaiacol–smoke spice), and 4 EC (ethyl catechol–horse, barnyard) While strain adaptation has been noted in research it can be controlled by molecular SO2 levels of at least 0.625 mg/l, creating a management challenge for high pH wines. A further risk is the unprotected period wine may have between primary fermentation and MLF. Cellar practices to limit brett risk include; 1) excellent cellar hygiene; 2) SO2 maintenance, 3) cooler cellar temperature; 4) acid adjustment to increase SO2 molecular levels; 5) treating oak barrels with radiant heat, ozone, steam (somewhat debatable effects); 6) avoidance of oak or at least old oak (again debatable); 7) minimizing period between fermentation and MLF; 8)fermenting to dryness followed by filtration to 0.8 microns. If detected via plating or Scorpion panel (PCR test), brett can be treated with chitosan (4g/hl) followed by filtration (generally to at least 0.8 microns, but RdV at 1.0); DMDC to remove the yeasts. Infected wine can only be filtered and then blended to reduce the concentration or treated via reverse osmosis or vacuum distillation, where allowed.
BUFFERS
Solutions that can resist changes in pH.
CARBONIC MACERATION
It involves placing only whole, uncrushed bunches into vessels that are filled with CO2 to remove all the oxygen. This causes the intracellular fermentation to start, producing about two per cent alcohol by volume. At this point, either the grapes are crushed in the normal way or the grape skins start to split and the grapes release their juice. Normal fermentation commences.
CENTRIFUGATION
A clarification technique that involves a centrifuge (machine that comprises a rapidly rotating container) which uses centrifugal force to separate solids from liquids.
CHAPTALIZATION
The practice of adding dry sugar (beet or cane sugar) to fermenting must to boost the alcohol of the finished wine.
CLARIFICATION
It is a procedure happening between pressing and fermentation, and/or after fermentation that aims to reduce the amount of suspended solids within the must.
CLARIFYING AGENTS
Compounds that can be added to the must as processing aids to speed up the rate of sedimentation.
CO-FERMENTATION
This is the process of fermenting different grape varieties together in the same vessel. It usualy contributes for aroma, colour intensity and stability.
COLD SOAK
“Gentle technique that is also known as cold maceration or pre-fermentation maceration. The juice and skins are typically chilled (to around 4–10°C / 39–50°F) to reduce the rate of oxidation, the threat from spoilage organisms and the risk of a spontaneous fermentation starting. Allows the extraction of anthocyanins in a largely aqueous environment.
COMPLEXITY
An important, yet subjective, element of wine quality that refers to layers of aromas, flavors, and textures that are supplemental to primary grape characteristics and their harmony. Complexity is derived from winemaking, tertiary evolution, and terroir influences such as minerality and indigenous yeasts. The expectation of complexity is linked to wine style.
CONTAMINANT
Potential harmful substance found in wine either a result of air or water pollution, vineyard treatment residues, poor winery hygiene, affected dry goods or transport materials, or aduteration. A contaminant becomes a taint once it becomes detectable at a human sensory level.
Contaminated wine
wine affected by a potential harmful substance introduced via an external source. This is opposed to a fault which results from an imperfection that was generated within the wine.
CRUSHING
“It happens at the beginning of the winemaking process, is the
application of sufficient pressure to the grapes to break the skins and release the juice,
making it available for fermentation.”
CRYOEXTRACTION
a method of concentration achieved by freezing the must, or the final wine, and removing ice from it.
CULTURED YEAST
a selected yeast strain or mix of stains, isolated and grown for particular performance characteristics and available commercially
DAP
Diammonium phosphate, an inorganic source of Nitrogen a yeast nutrient.
DEACIDIFICATION
The process of adding calcium carbonate (chalk) or potassium carbonate, that lowers acidity by the formation and precipitation of tartrates. A high-tech option is deacidification by ion exchange.
DEFECTIVE WINE
a wine that does not meet technical specifications
DIRECT PRESSING
Method that makes some of the lightest-coloured rosés. The grapes of a black grape variety are either whole bunch pressed or destemmed (possibly crushed) and immediately pressed to minimise any maceration. Pneumatic presses are typically used and will often be flushed with inert gas to avoid oxidation of the aromas and flavours and browning of the delicately-coloured juice.
ENRICHMENT
In the EU it refers to a range of practices: adding dry sugar, grape must, grape concentrate or rectified concentrated grape must (RCGM – manufactured, flavourless syrup from grapes) and the processes of concentration (reverse osmosis, vacuum extraction, chilling).
ENZYMES
Proteins that catalyzes a biochemical reaction. The most significant enzymes in wine production are pectinases (juice yield and extraction), laccase (oxidative/browning), glycosidases (aromatic intensity), glucanases (texture–break down yeast manoproteins and aid filtration) and lysozyme (attacks the cell walls of LAB.)
ESTERASES
Enzymes that cause the breakdown of esters (which confer fruitiness). 1st sign of Brettanomyces contamination.
EXTRACTION
the desirable transfer of grape phenolics to the must and final wine achieved over the course of the production process. Over-extraction in contrast is a fault that results when phenolics dominate the wine and impair its balance.
FAULT
A fault is a property that renders the wine a departure from the acceptable norm, or winemaker’s intention. Faults are caused by microbial (yeast, bacteria, fungal, contaminants or enzymes, (brett, VA, acetaldehyde, refermentation, films, biogenic amines, geranium or mouse taint, TCA, oxidation/laccase), chemical (oxidation, reduction, metals haze, protein instability, tartrates) and environmental factors (light strike, smoke taint, heat damage) NB: To limit essays one can argue based on frequency, severity, ease to avoid or treat, or that faults arise from a factor internal to the wine and anything external is a taint and therefore beyond the scope to be considered.
FERMENTATION TEMPERATURE
temperature of grape must during the period when yeast are converting grape sugars to ethanol and carbon dioxide. Fermentation temperature affects fermentation speed, yeast performance, extraction levels, as well as aroma and flavor.
FINE LEES
smaller, fluffier, post-fermentation sediments that deposit after first 24 hrs and offer complexing elements
FLASH DÉTENTE
Maceration using heat: Destemmed grapes are quickly heated to 85–90°C (185– 194°F) and then rapidly cooled under a vacuum. This takes place in as little as two minutes. The process bursts the cells in the grape skins, allowing a very rapid extraction of anthocyanins and flavours.
FLOTATION
A clarification technique that involves bubbling gas up through the must. As the bubbles of gas rise, they bring with them the solid particles that are then skimmed off the top of the vessel. Combine with pectic enzymes
FREE RUN JUICE
The juice that can be drained off as soon as the grapes are crushed.
