Free Flashcards for DipWSET D1: Wine Production
DECK Number 10
Instructions before starting:
I RECOMMEND YOU LEAVE THE CARDS IN THE INITIAL ORDER AND USE THE “SHUFFLE” OPTION ONLY WHEN YOU MASTER THE WHOLE DECK (= 0 MISTAKE)
Read the Term on the Card and give your answer Click on “Check the Answer” button to check your knowledge Click on “Got It!” if your answer was correct
Click on “Need more practice” to review the card at the end of the deck and try answering another time
Click on “Shuffle” button to change cards order
GOOD LUCK!!
[qdeck]
[h] DipWSET D1 SET 10 Finishing
[i] DipWSET D1 – Wine Production Flashcards
SET 10 Finishing
I RECOMMEND YOU LEAVE THE CARDS IN THE INITIAL ORDER AND USE THE “SHUFFLE” OPTION ONLY WHEN YOU MASTER THE WHOLE DECK (= 0 MISTAKE)
– Read the Term on the Card and give your answer
– Click on “Check the Answer” button to check your knowledge
– Click on “Got It!” if your answer was correct
– Click on “Need more practice” to review the card at the end of the deck and try answering another time
– Click on “Shuffle” button to change cards order
[start]
[q]
Besides hygiene, the most important consideration when bottling wine in its final container is ____ ____.
Why?
[a]
Oxygen management
The amount of oxygen in the final container determines the shelf life and development of the wine.
-
- too much oxygen = premature browning and oxidized notes;
- too little oxygen = reductive characters
[q] What does OTR stand for?
[a]
Oxygen transmission rate
[q]
The total oxygen in a wine is a combination of these four things:
[a]
- Amount of dissolved oxygen in the wine;
- Oxygen in the head space (usually the greatest contributor);
- Amount of oxygen in the closure;
- Oxygen transmission rate (OTR) of the cork or closure
[q]
What are today’s packaging options for wine, and which is the most preferred option?
[a]
Glass;
Plastic / PET (polyethylene terephthalate);
Bag-in-box;
Tetra Pak / Brick;
Pouch;
Can
[q]
What are the advantages of glass packaging?
[a]
- Inert material that transfers no taint;
- Bottles can be delivered to wineries in a near-sterile condition, having been shrink-wrapped while still hot;
- Inexpensive to manufacture and there is a variety of colors;
- Recyclable;
- Best option for aging wine because it is impermeable to oxygen
[q]
What are the disadvantages of glass packaging?
[a]
- High carbon footprint due to the heat needed to manufacture it;
- Heavy to transport, which also contributes to its carbon footprint especially if it is transported far from its final market;
- Somewhat fragile;
- Once a bottle of wine has been opened, it is subject to rapid oxidation;
- Clear bottles susceptible to light strike
[q]
Which type of wine is most suitable to be packaged in PET (polyethylene terephthalate)?
[a]
- Wines with a limited shelf life;
- Wines for quick consumption and in informal settings (outdoor eating, travel);
- Wine designated for airplanes where breakage is a hazard
[q]
What is the bag in the Bag-in-box made of?
[a]
2 possibilities:
-
- Very thin aluminium foil (which protects the wine from oxygen) covered on both sides by an acceptable plastic;
- Plastic that gives some protection from oxygen and is resistant to cracking
[q]
What are the advantages of packaging wine in Bag-in-box?
[a]
- Wine on tap (pour any serving size)
- Good protection from oxygen because the bag collapses inside the box
- Range of sizes (1.5–20 liters), can be used for home and commercial use
- Easy to store (stackable)
- Low environmental impact (light to transport, recyclable)
[q] What does wine that’s been packaged in Bag-in-box have to have (vis-à-vis wine packaged in a glass bottle)?
[a]
- Slightly higher SO2 level to counter oxidation;
- Low dissolved oxygen level;
- No head space;
- Low carbon dioxide to avoid the bag from bulging or bursting
[q]
Where does most oxygen ingress occur in Bag-in-box??
[a]
The tap
[q]
What is the average shelf life range for wines packaged in Bag-in-box?
[a]
6-9 months, depending on how the wine was made
[q] What material is the Tetra Pak, or ‘Brick’, made of?
[a]
Paper card with plastic layers and an aluminium foil layer that prohibits oxygen and light from affecting the wine
[q]
In what kinds of markets do Tetra Paks / Bricks do well?
[a]
Ones where lower price points drive the market
[q]
What are the advantages of packaging wine in cans?
[a]
- Light in weight
- Easy to open
- Impermeable to oxygen
- Recyclable
[q]
Aluminium cans have to be lined with ____ to avoid the material being attacked by the acidity of the wine
[a]
Plastic
[q]
The types of wines being packaged in cans are:
- Inexpensive and mid-priced
- Mid-priced and high-priced
- High-priced exclusively
[a]
Inexpensive and mid-priced wines
[q] What are the five most common closures for wine bottles?
[a]
- Natural cork;
- Technical corks;
- Synthetic closures;
- Screwcap;
- Glass stoppers / Vinolok
[q] What are the advantages of using natural cork as a closure?
[a]
- Light
- Flexible
- Inert
- Comes from a renewable, natural resource
- Has a positive image in the eyes of consumers – opening a bottle with a corkscrew is seen as part of the enjoyment and ritual of drinking wine
[q] Shorter, lower-grade corks are cheaper and are usually used for what kind of wine?
[a]
Inexpensive wines intended for short term consumption
[q]
Better quality, longer corks are typically used for what kind of wines?
[a]
Higher-priced wines that can be aged in bottle
[q]
What are the two major issues with natural cork?
[a]
Corks can transmit TCA (2,4,6-trichloroanisole) to the wine (on average 3–5% of bottles closed with cork suffer from TCA);
Natural corks have variable rates of oxygen ingress
[q] In an effort to reduce the incidence of cork taint, what are some of the measures the industry has taken?
[a]
- Cleaning corks with steam extraction (Amorim);
- Creating a technical cork made from recomposed cork particles that have been cleaned and reconstituted with plastic; it looks and behaves like natural cork (Diam);
- Stricter quality control during cork production, e.g. using high-cost high-tech solutions to check for the presence of TCA;
- Putting an impermeable membrane between the cork and the wine that gives a wrinkled appearance on the end of the cork and prevents any aromas reaching the wine
[q]
What are three technical corks available on the market today?
[a]
- Agglomerated cork
- cork granules are glued together;
- should only be used on inexpensive wines intended to be drunk quickly after purchase;
- One-plus-one cork
- the central section is inexpensive agglomerate and both ends are finished with a disc of natural cork;
- Diam cork
- recomposed cork particles that have been cleaned and reconstituted with plastic, and come with varying oxygen-ingress rates
[q] What are synthetic closures made from?
[a]
Food-grade plastic with a silicone coating
[q] Name two hazards that come with using synthetic closures
[a]
- Limited protection from oxygen ingress;
- Flavor scalping (the plastic absorbs some of the flavor molecules in the wine)
[q]
The seal in screwcaps that protects wine from oxygen can be made of two materials.
What are those materials, and how permeable/impermeable are they?
[a]
- Tin, which is impermeable to oxygen;
- Saran, which is a form of plastic with low permeability to oxygen
[q]
How do winemakers avoid their wine developing reductiveness after bottling their wine under screwcap?
[a]
They use slightly lower levels of SO2
[q]
Glass stoppers are really only suitable for:
- Inexpensive wines
- Mid-priced wines
- Premium and super-premium wines
[a]
- Premium and super-premium wines
[q]
Most wines that are based on fresh, fruity flavors are best consumed:
- within a year of bottling as maturing results in a loss of primary fruit flavors
- after several years because they’re not at their best immediately after bottling
[a]
Within a year of bottling as maturing results in a loss of primary fruit flavors
[q] Describe the ideal environment for bottle maturation.
[a]
The wine should rest undisturbed in a cool dark place with a constant temperature, around 10–15°C / 50–59°F. There should also be constant humidity.
If sealed with a cork, the bottles should rest lying on their sides, so the cork stays moist and keeps the bottle sealed (if the cork dries out, the wine will oxidize)
[q] What are the three hygiene procedures to follow in a winery?
[a]
- Cleaning
- this removes surface dirt
- Sanitation
- this reduces undesirable organisms to an acceptable level
- made of water + detergent, another sanitising agent and/or steam
- this uses ~10 liters of water for every liter of wine produced
- Sterilization
- this eliminates unwanted organisms
- sterilization is done with high strength alcohol or with steam
[q] Briefly explain why HACCP (Hazard Analysis of Critical Control Points) is a common approach used in wineries to assess quality assurance
[a] It’s a process that examines all the potential hazards and everything that could go wrong in the winery so the winery can prevent and correct any issues before they happen
[q]
Why would a wine company seek to have their quality standards to be externally audited by a third party against the standards of the ISO (International Organization for Standardization)?
[a]
To give confidence to all the parties down the supply chain: the wholesaler, the retailers who will sell the wine, and the end consumer
[q]
The EU and many other markets require wines to be assigned lot numbers and to have those lot numbers printed on the wine’s label.
What does having a lot number enable the winery to do in the event of complaints or problems?
[a]
-
To trace back:
- Where the grapes came from;
- What additives were used;
- What processes the wine went through;
- How the wine was transported
[q] What are the two main types of containers used for shipping bulk wine?
[a]
- Flexitank – a single-use, recyclable polyethylene bag that fits into a standard container (more common);
- ISO tank – a stainless steel vessel that can be reused many times that is built to the ISO standard; it may have additional insulation
[q] What is the advantage of shipping wine in bottle as a complete product?
[a]
Everything is controlled by the producer: the wine, the bottling, the labelling and any external packaging
[q] What are the disadvantages of shipping wine in bottle as a complete product?
[a]
- Less wine can be shipped in one container, so the cost to ship is higher
- The financial and environmental cost of shipping the weight of glass (as well as the wine)
- Potential damage/spoilage to the wine due to sometimes high and fluctuating temperatures in transit
- Potential damage of labels and packaging in transport
- The shorter shelf life of inexpensive wine because it is bottled earlier than if it were bottled in or close to the final market
[q]
What are the advantages of shipping wine in bulk?
[a]
- Environmentally friendly and cheaper (containers hold 2-2.5x as much wine as filled bottles, reducing the wine’s carbon footprint)
- The greater thermal inertia of a whole container filled with wine, so there is less fluctuation of temperature (reducing the risk of oxidation)
- Strict quality control: chemical analysis can be performed at the filling and emptying of the container
- The wine can be adjusted at the point of bottling
- The shelf life of a wine can be extended, which is most relevant for bag-in-box and its relatively short shelf life
[q] What are the disadvantages of shipping wine in bulk?
[a]
- Loss of the direct relationship with the producer
- Business and employment opportunities transfer from the producer’s country to that of the final market
[q]
Why is the majority of white wines made with no or minimal skin contact?
[a]
Because the most important aroma and flavor compounds in white grapes are found in the pulp, so skin contact isn’t required for aroma and flavor extraction
[q]
What are two negative effects if a white wine sees excessive skin contact?
[a]
The wine can:
-
- Taste bitter
- Feel coarse on the palate
[q]
Give five reasons why a winemaker would use no skin contact or minimal skin contact on their white wines
[a]
- If the wine is meant to express delicate, fruity flavors;
- If the winemaker wants a smooth mouthfeel;
- If the winemaker wants a light color on the wine;
- If the fruit was picked under-ripe;
- If the wine is inexpensive and meant to be drunk very young
[q]
What are the two key factors that can influence extraction during skin contact?
[a]
- Time;
- longer time on skins = greater extraction of flavor + tannins
- Temperature
[q]
How does a cooler temperature affect extraction during skin contact?
[a]
Chilled juice during skin contact (15°C /59°F or below) reduces the rate of extraction of flavors and tannins.
It also:
- allows more control;
- reduces the rate of oxidation and microbial spoilage, including likelihood of spontaneous fermentation
[q]
What are some white grape varieties on which skin contact is most effective?
[a]
Aromatic grape varieties like Riesling, Gewurztraminer, Viognier, Muscat and Sauvignon Blanc
- they have many aroma compounds that can be extracted from the skins;
- aromatic varieties are not often matured in oak, so skin contact is also a way of enhancing texture.
[q] Describe the profile of an ‘orange wine.’
[a]
- Fermented on their skins, usually without temperature control or sulfur additions;
- Notable levels of tannins;
- Main flavors and characteristics are tertiary, e.g. nuts, hay, and dried fruit, which emerge from aromatic and phenolic compounds extracted from the skins;
- Typically dry (though not always)
[q] What are the advantages of using whole-bunch pressing for white grapes?
[a]
- Reduces the chance of oxidation before and during pressing
- more so if an inert gas (e.g. nitrogen) is used in the press
- Very gentle way of pressing grapes
- Yields juice that is low in solids, tannins and color
- Stems provide channels for the juice to drain
[q] What are the disadvantages of using whole-bunch pressing for white grapes?
[a]
- Restricted only to hand-harvested grapes;
- Whole bunches take up a lot of room in the press;
- fewer grapes can be loaded for each press cycle;
- Only really suited for smaller batches of premium wines;
- Inefficient for grapes that need to be processed quickly and efficiently
[q]
What is the difference between “free run” juice and “press” juice?
[a]
Free run = juice from destemmed grapes that is drained off as soon as the grapes are crushed. It is lowest in solids, tannins, and color, and it’s higher in acidity (low pH). Good for lighter bodied style of wine.
Press juice = juice from the grapes being pressed. The first part of the first pressing is somewhat similar to free run in that solids, tannins, and color are low, but ultimately it has lower sugar and acidity than free run. As pressure is sustained and more is applied for each press fraction, the less like free run the juice becomes. Press juice makes wines with fuller body compared to wines made from free run
[q] What is the hyperoxidation technique, and what does it do?
[a]
It is a technique in which the winemaker deliberately exposes the must to large quantities of oxygen before fermentation.
It targets the compounds in the must that oxidize most readily, turning these compounds in the must brown
[q]
When employing the hyperoxidation technique, how do winemakers remove the compounds that have turned brown?
[a]
These compounds naturally precipitate out of the wine during fermentation, which return the wine back to its normal color
[q]
In what other ways does hyperoxidation help winemakers when they make white wines?
Is hyperoxidation typically better suited for neutral or aromatic grape varieties?
[a]
- Can remove bitter compounds from unripe grape skins, seeds and stems;
- Can destroy some of the most volatile aroma compounds found in the must;
- typically better suited to less aromatic grape varieties, e.g. Chardonnay
[q] At what points can clarification occur in winemaking?
[a]
- Between pressing and fermentation;
- After fermentation
[q] What is the aim of clarification?
[a]
To reduce the amount of suspended solids in the must
[q] Winemakers typically aim for the proportion of solids in the must to be somewhere between ___–___%.
[a]
0.5–2%
[q]
What does a higher proportion of solids in a white wine must lend to the finished product?
Wine at what price point is best suited for using this technique?
[a]
- Texture;
- Greater range and complexity of aromas from fermentation.
Best suited for small-volume, premium wines
[q] What is a risk of having too many solids in white wine must during fermentation?
[a]
Off-flavors developing from reactions between compounds within the solids
- at lower levels, they can smell like reductive sulfur compounds;
- at higher levels, can smell like rotten egg.
[q]
- Why is it good to have some solids in your must?
- What is a risk of having low to no solids in your must?
[a]
- Solids provide nutrients for yeast;
- Low to no solids can lead to stuck fermentations; these musts also need careful management, and yeast nutrients may need to be added
[q]
What are the four options winemakers have to clarify must?
[a]
- Sedimentation (simplest form);
- Flotation;
- Centrifugation;
- Clarifying agents.
[q]
Bentonite:
- How does sedimentation work?
[a]
- The must is chilled to 4°C / 39°F to reduce oxidation and microbial spoilage, and to avoid spontaneous fermentation;
- Suspended solids in the must are left to fall over time with gravity
[q]
What does the rate of sedimentation depend on?
How long does sedimentation typically take?
[a]
Size and shape of the vessel
Large, tall vessels = longer sedimentation;
Smaller, shorter vessels = shorter sedimentation.
Sedimentation takes 12-24 hours
[q] What happens to the must and solids after sedimentation?
[a]
- The must is racked to a fermentation vessel;
- The solids are usually filtered by cross flow or depth filters to extract extra juice
[q]
How does flotation work?
[a]
An inert gas (like nitrogen) is bubbled up through the must and as it rises it brings with it solid particles; those particles are then skimmed off.
If oxygen is used as the gas, this is a method of hyperoxidation
[q]
- speeds up the rate of clarification
- slows down the rate of clarification
- doesn’t affect the rate of clarification
[a]
Speeds up the rate of clarification
[q]
What needs to be added to the must in order for flotation to work?
[a]
Fining agents, which help bind the particles together
[q]
Flotation can be used:
- on both must or wine
- only on must
- only on wine
[a]
Only on must
[q]
Flotation can be used:
- Only as a continuous process
- Only as a batch process
- Either as a continuous or batch process
[a]
Either as a continuous or batch process
[q]
Centrifugation can be used on:
[a]
Wine as well as must
[q]
How does centrifugation work?
[a]
It’s a machine that has a rapidly rotating container which uses centrifugal force to separate solids from liquids
[q]
What are the advantages of centrifugation?
[a]
- It clarifies must quickly;
- Can be used continuously, which saves time and money
[q]
What are the disadvantages of centrifugation?
[a]
- Equipment is expensive to buy;
- Used only in wineries that need to process large volumes of must quickly;
- Increases the must’s exposure to oxygen unless the machine is flushed with inert gas
[q]
What is the common clarifying agent added to must which helps break down pectins in the must?
[a]
Pectolytic enzymes
-
- They only aid the clarification of must, not wine;
- They encourage rapid separation between the liquid juice and solids
[q]
White wines ferment at cooler temperatures than red wines, but winemakers can use very cool or slightly warmer fermentation temperatures for their white wines.
What are the benefits of each?
[a]
Very cool fermentation temperatures (~15°C / 59°F) help produce desired fruity, volatile aroma and flavor compounds;
Slightly warmer temperatures (17–25°C / 63–77°F, or higher) promote yeast health and avoid the production of certain esters, e.g. isoamyl acetate (banana). Slightly warmer temperatures are favored for wines that will see oak
[q]
Stainless steel tanks are the vessels of choice when a winemaker is making which style of white wine:
- Fruity, floral whites
- Neutral white wine
- Orange wines
[a]
Fruity, floral whites
[q]
What are the advantages (and one disadvantage) of fermenting in small oak barrels?
[a]
-
- More labor intensive due to monitoring several barrels instead of one large vessel, which can drive up costs
Advantages:
- Wines have deeper color, fuller body, more integrated oak-derived aromas;
- Small size of barrels increases lees contact, which contributes texture;
- Provides more blending options since every barrel will be different.
Disadvantage:
– More labor intensive due to monitoring several barrels instead of one large vessel, which can drive up costs
- More labor intensive due to monitoring several barrels instead of one large vessel, which can drive up costs
[q] What are the effects of malolactic conversion on wine?
[a]
- Reduction in acidity;
- Increase of pH;
- Increase in microbiological stability;
- Modification to the flavors of wine (butter)
[q] Why is malolactic conversion avoided in certain white wines?
[a]
To preserve the distinctive, primary aromatics of the grape
[q]
What are the aims of aging wine sur lie?
[a]
- Give the wine more body
- Soften the mouthfeel
- Help to stabilize the wine
- Protect the wine from oxygen
[q]
Lees stirring is also called ___.
[a]
Bâtonnage
[q] What are some of the beneficial effects from bâtonnage?
[a]
- Increases the release of yeast compounds into the wine;
- Introduces oxygen exposure;
- this increases the effects from the lees and decreases fruity flavors;
- reduces the development of reductive sulfur compounds and off-aromas
[q]
What are the three main ways of producing wine with residual sugar?
[a]
- Concentrating the sugar in the grape must;
- Stopping the fermentation before dryness;
- Blending a sweetening component into the wine
[q] What are the four methods of concentrating grape must?
[a]
- Drying grapes on the vine;
- Drying grapes off the vine;
- Noble rot;
- Freezing the grapes
[q]
What happens to grapes when they’re left to dry on the vine?
[a]
- They shrivel;
- water is lost by grape transpiration and the sugars concentrate;
- Flavors develop into very ripe or extra-ripe flavors
[q] What is the benefit of cutting or breaking off a cane of the vine a short time before harvest in order to dry out the grapes that are still attached to that cane?
[a]
- The grapes shrivel more quickly than they would if they were still attached to the rest of the vine, concentrating the grapes’ sugars, acids and flavors faster;
- Reduced hang time lowers risk of grey rot;
- Some grapes will exhibit very high levels of sugar without extra-ripe flavors
[q]
What happens in the process of drying grapes off the vine?
[a]
- Causes water inside the grapes to evaporate, thereby concentrating the acids, sugars and flavors
- Speed up drying
- Avoids the development of grey rot
[q]
What are the conditions needed for Noble Rot to develop?
[a]
Humid, misty mornings followed by sunny, dry afternoons
[q]
How does Botrytis cinerea attack grapes?
What are the distinctive aromas attributed to Noble Rot?
[a]
Damp, humid mornings allow the fungus to develop on the grapes;
The fungus punctures the grape skin, leaving tiny holes;
Warm sunny afternoons slow the development of the rot and cause water to evaporate from the grape, concentrating its sugars, acids and flavors.
Distinctive aromas of Noble Rot include honey, apricot, citrus zest, ginger and dried fruits (some tasters also include saffon!)
[q]
How can Botrytis cinerea go from being Noble Rot to Grey Rot?
[a]
If conditions are too damp, the fungus will develop too fast and split the grapes, encouraging infections
[q]
Grapes affected by Noble Rot are not easy to process in the winery.
What steps do winemakers have to take in order to process these grapes?
[a]
- Chilling the must;
- High doses of SO2;
- Use inert gases to minimize the oxidation of the must
[q]
What happens to the water in grapes if they’re left to freeze on the vine?
[a]
The water freezes and turns to ice, so when the grapes are picked and pressed this ice stays behind in the press and the sugars of the resulting juice is intensely concentrated
[q] At what temperature can Canadian Icewines be harvested?
[a]
−8°C / 18°F or below
[q]
What are some of the characteristics needed for vines used in Ice Wine production?
[a]
The vines need to:
- Be winter-hardy;
- Produce grapes with resilient skins that give protection from disease;
- Withstand the strain of freeze–thaw cycles
[q] Picking grapes in the autumn and then freezing them at a winery to later be used for sweet wine production is called ____.
[a]
Cryoextraction
[q] What is the most common way of stopping fermentation to create a sweet wine?
[a]
- By chilling the wine to below 10°C /50°F and/or adding a high dose of SO2to inhibit the yeast
- It is then racked off its sediment and sterile filtered to ensure fermentation does not start again later on
[q]
What is the easiest way of producing a wine with residual sugar?
[a]
Blending in a sweetening component
[q]
What are the most common sweetening components used to make sweet wines?
[a]
- Sugar
- Rectified concentrated grape must (RCGM)
- Unfermented grape juice
[q] What are the benefits of using RCGM as a sweetening component?
[a]
- Neutral in flavor as it’s just the sugar from the grape
- Can use less of it to sweeten wine
- Inexpensive
[q]
Many of the choices involved in red winemaking are focused on the extraction of ____, ____, and ____.
[a]
Anthocyanins, tannins, and flavors from the grape skins
[q] Many of the choices involved in red winemaking are focused on the extraction of ____, ____, and ____.
[a]
Anthocyanins, tannins, and flavors from the grape skins
[q] What four factors affect extraction in red winemaking?
[a]
- Temperature
- higher temperatures result in greater extraction;
- Time on skins
- the longer the skin contact, the greater the extraction;
- Cap management
- the more the skins are mixed through the juice, the greater the extraction;
- The extraction medium
- is the solution more water (read: grape must) or more alcoholic (wine)?
[q]
Anthocyanins as single molecules are not that stable. However, when they combine with ___, they become more stable, thereby increasing color stability.
What helps to facilitate this reaction?
[a]
- Tannins
- Oxygen helps facilitate this reaction (this means that processes that encourage oxygen into the wine – barrel aging, microoxygenation – help with color stability)
[q] The broad majority of red wines are made using whole cluster or destemmed berries?
[a]
Destemmed berries
[q]
What is the chief aim of pre-fermentation maceration?
[a]
Extract color and flavor without extracting tannins
[q]
Anthocyanins are soluble in
[a]
Both must and wine
[q]
Tannins are more soluble in
[a]
Alcoholic liquids
[q]
Red grapes are typically cold soaked around what temperature?
What does this reduce?
[a]
roughly 4–10°C / 39–50°F
This reduces:
- the rate of oxidation
- microbial spoilage
- spontaneous fermentation
[q]
Cold soaks, or pre-fermentation macerations, usually last about how long?
[a]
3–7 days
[q]
During the 3-7 days of cold soaking, the grapes are punched down and/or the fresh must is pumped over the grapes.
What does this help with?
[a]
- Slower extraction which can be monitored and controlled
- Inhibits the growth of spoilage microbes that need oxygen
[q] Name two maceration techniques that use heat in aiding extraction
[a]
- Flash détente;
- Thermovinification
[q]
To what temperature is the must heated for thermovinification?
[a]
roughly 50–60°C / 122–140°F, sometimes higher
[q]
To what temperature are destemmed grapes heated when employing flash détente?
What happens in flash détente?
[a]
85–90°C / 185–194°F and then rapidly cooled under a vacuum
This process takes place in as little as two minutes. (The short time at high temperatures limits the risk of ‘cooked’ flavors developing.) The process bursts the cells in the grape skins, allowing a very rapid extraction of anthocyanins and flavors
[q]
Why do wines produced using thermovinification or flash détente have difficulty with color stability?
[a]
Because there is not enough tannin to bind with the anthocyanins to form more stable compounds – remember, tannins are better extracted in alcoholic solutions and in neither of these techniques is alcohol present.
Thermovinification and flash détente are techniques best reserved for inexpenisve reds meant to be drunk young
[q]
Why are flash détente and thermovinification beneficial for grapes affected by botrytis?
[a]
Because the high temperatures of both techniques denature oxidative enzymes (laccase) produced by the rot
[q]
What are the five major cap management techniques?
[a]
- Punching down;
- Pumping over;
- Rack and return;
- Ganimede tanks;
- Rotary fermenters
[q]
Performing cap management does two key things
[a]
Promotes extraction + redistributes heat
[q] How do choices of cap management influence the style of a wine?
[a]
- The winemaker can change the frequency of mixing and the time spent mixing, determining extraction;
- When the mixing occurs during fermentation the winemaker can influence which compounds are extracted;
- Temperature during mixing can affect which compounds are extracted and to what degree
[q]
What is the French term for ‘punching down’?
[a]
Pigeage
[q]
What is the French term for ‘pumping over’?
[a]
Remontage
[q] What is the French term for ‘rack and return’?
[a]
Délestage
[q]
Why is rack and return more extractive than pumping over or punching down?
[a]
Because it breaks up the cap and mixes the juice and skins thoroughly; due to its effectiveness it’s only used 1-3 times during fermentation.
It is commonly used for red wines where medium to high levels of extraction are desired
[q]
How do Ganimede tanks work?
[a]
They bubble CO2 or oxygen up through the must/wine which breaks up the cap quickly and effectively, thereby increasing extraction of color, flavor, and tannin
[q]
Why are rotary fermenters so effective at extracting color, flavor, and tannin?
[a]
- Because of their horizontal orientation, the tank increases the surface area between the grape skins and the juice;
- The whole tank rotates and its internal blades break up the cap and mixes the skins and juice;
- The tank can be programmed to rotate as many times and for a certain amount of time as the winemaker desires
[q]
What are two other maceration options used in addition to cap management techniques to increase color, flavor, and tannin in the final wine?
[a]
- Must concentration
- Co-fermentation
[q] What is ‘must concentration’?
[a]
When some of the juice is drawn off immediately after crushing (and before fermentation starts) which increases the volume of skin-to-juice ratio
[q]
What is the French term for ‘must concentration’?
What do winemakers usually do with the juice they bled off?
[a]
Saignée
They usually make rosé
[q] Define co-fermenting (or co-fermentation).?
[a]
When different grape varieties ferment together in the same vessel
[q]
When a winemaker is employing whole bunches in their fermentation, why do they need to ensure the bunches are fully ripe?
[a]
Because unripe stems can add unpleasant green flavors and bitter tannins instead of the “spicy” and “herbal” flavors when stems are fully ripe
[q]
The objective of whole-berry/whole-bunch fermentations is to create what kind of environment for the fruit?
Why?
[a]
An oxygen-free environment
To add texture and create distinctive aromas in the final wine
[q] What happens to the grapes when they’re fermented as whole berries or whole bunches?
[a]
- The grapes change from aerobic respiration to anaerobic metabolism (intracellular fermentation [carbonic maceration]);
- Glycerol levels increase, which adds texture to the final wine;
- A range of distinctive aromas is created inside the grape from the intracellular fermenation (banana, kirsch)
[q]
What are the three forms of whole-berry / whole-bunch fermentation?
[a]
- Carbonic maceration
- Semi-carbonic maceration
- Whole berries/bunches with crushed fruit
[q]
In carbonic maceration, once the alcohol level within the grapes reaches ___% the grape skins split and the grapes release their juice
[a]
2%
[q]
In carbonic maceration, how is that 2% alcohol achieved within the berries (where does it come from)?
What effect does this have on the must?
[a]
Malic acid within the grape is broken down to create ethanol, which reduces malic acid levels lowering the total acidity (and raising the pH) of the must
- the must can see malic acid reductions of up to 50%
[q]
Besides distinctive aromatics, what are the two key features of a wine that has undergone carbonic maceration?
[a]
- Intensely colored;
- Low in tannin
[q]
Why isn’t new oak used on wines that have been fermented with carbonic maceration?
[a]
Because the flavors of the oak (vanilla, toast) would interefere with the fruity, low tannin, candy-like flavors of the wine.
Wines made with carbonic maceration also are meant to be drunk within a year of harvest, so it doesn’t make financial sense to use new oak on these wines
[q]
What is the main difference between carbonic maceration and semi-carbonic maceration?
[a]
No CO2 is added to the tank in semi-carbonic maceration.
In semi-carbonic maceration, the ambient yeasts start to ferment the juice that has been released from the grapes, which have burst under the sheer weight of all the whole bunches. CO2 is produced from those ambient yeasts metabolizing the sugar in the released juice which fills the tank, and then the remainder of the whole berries/bunches undergo carbonic maceration
[q] If a winemaker uses semi-carbonic maceration but they want to produce a more serious wine with slightly more concentration, body and tannin, what can they do after the semi-carbonic maceration has completed?
[a]
- Continue alcoholic fermentation on the skins and incorporate punching down or pumping over;
- Post-fermentation maceration and/or maturation in oak to add complexity
[q]
What is the thought behind adding whole berries/bunches to crushed fruit and how that affects the final wine?
[a]
Many winemakers believe it lends a smoother texture and more vibrant and fresh primary aromas (than crushed fruit fermentations) to the final wine
[q]
Winemakers who aim to produce fruity, low tannin wines will generally ferment at relatively cool temperatures, ___ºC.
Winemakers who want greater extraction and the concentration and tannin structure to age their wine will ferment at slightly warmer temperatures, ___ºC.
[a]
Cool temperatures: 20°C / 68°F
Warm temperatures: 30°C / 86°F
[q]
Post-fermentation maceration is generally conducted on:
- High-volume, inexpensive wines
- Premium and super-premium wines
[a]
Premium and super-premium wines
[q]
Why do winemakers employ post-fermentation maceration? What does it do for the wine?
[a]
This practice is thought to further extract tannins and encourage tannin polymerization, with the aim of improving tannin structure and texture and the wine’s aging potential
[q]
When are red wines pressed?
[a]
When no more extraction is desired, so the timing differs depending on the style of wine being produced.
-
- If carbonic was used, maybe the grapes are pressed when the fermenting must reaches 2%;
- The wine might be pressed before alcoholic fermentation is complete so it can finish fermentation in oak barrels;
- Maybe the wine is pressed after post-fermentation maceration because the winemaker wanted greater tannin extraction
[q]
Malolactic conversion is normally carried out on red wines.
What does malolactic conversion increase and decrease in the wine?
[a]
- Decreases the acidity of the wine
- Increases the pH of the wine
[q] What are the key benefits of maturing red wine in oak barrels?
[a]
- The barrels impart flavors of the oak (vanilla, clove);
- Barrels provide gentle oxidation:
- helps soften tannins;
- helps develop tertiary aromas and flavors that can enhance complexity and quality
[q]
What are the three chief ways of making rosé wine?
[a]
- Direct pressing (also known as ‘Vin Gris’)
- Short maceration
- Blending
[q]
In direct pressing, how does the winemaker control the final color of the wine?
[a]
- The pressure used when pressing
- The duration of the pressing time
- How much press juice is used
[q] Rosés made with short maceration produce wines that are deeper in color and more pronounced in flavor than those made using ___ ___.
[a]
Direct pressing
[q]
In the blending method for rosé production, the white and red wines are
[a]
Blended after they’ve already fermented
[q]
Rosé wines are usually fermented at:
- Cool temperatures (12–16°C / 54–61°F)
- Warm temperatures (30°C / 86°F)
[a]
Cool temperatures (12–16°C / 54–61°F)
[q]
Which vessel is most often used in rosé production?
[a]
- Stainless steel tanks
[q] How do rosés with residual sugar typically get their sweetness?
[a]
- By stopping the fermentation before it reaches dryness;
- By blending a sweetening component into the dry rosé
[q]
Malolactic conversion in rosé wines is usually:
[a]
Avoided
(buttery flavors from malo not desirable)
[q]
Because the appearance of rosé wines plays a big role in their appeal, the majority of rosé wines will be ____ and ____ to increase their clarity
[a]
Fined and filtered
[q]
Rosé wines that have some residual sugar must be ____ filtered to remove any unwanted microbes that could cause problems later after finishing and packaging
[a]
Sterile
[x] GOOD JOB!! [restart]
[/qdeck]