Introduction to Vine / Wine - II

FACTORS THAT INFLUENCE THE QUALITY OF WINE_

 1. CLIMATE, MICRO-CLIMATE & BIO-CLIMATE

  The grapes will provide juice of the quality necessary for conversion into a drinkable wine where two climatic conditions prevail:

* Enough sun to ripen the grape and

* The winter is moderate, yet cool enough to give the vine a chance to rest and restore its strength for the growing and fruiting season

This shows that the grapes and hence the vine needs a good balance of heat, cold and moisture. Temperature should average 14 - 16°C. The lowest annual average temperature necessary for the vine to flourish is 10°C. It is estimated that the vine needs about 27 inches of rain per year mainly in winter and spring and at least 1400 hours of sunshine.

Micro-climate: A particular beneficial weather pattern prevailing in a single vineyard or a group of vineyards or within a small region is called a micro-climate. It could be hills or mountains protecting the vines from heavy winds, or even a break in the mountain range allowing the air to freshen and fan the vines in very hot weather.  It could be the angle of the sun, especially the clear brilliant morning sun that strikes one vineyard more favourably than another. The rise and fall of the terrain also has an effect, as also the location besides water body for ground moisture and reflected heat. These subtle differences in atmospheric conditions, combined with the quality of the soil and the grape variety used, are the reasons why some vineyards have such outstanding reputations.

Bio-climate: The relationship of soil and climate in a specific vineyard is called its bio-climate. Knowledge about bio-climate is used to obtain stable yields of high-quality grapes.

 2. ASPECT

Vineyards are ideally planted on south-facing slopes (particularly in the northern hemisphere) where they point the sun and benefit from maximum sunshine and good drainage. Setting is of prime importance to capture the sunlight for photosynthesis and good ripening. Some vineyards are sited at a height of 243 m or more on mountain sides, while many of the great vineyards are located in river valleys and along lake sides benefiting from humidity and reflected heat.

 

3. Nature of SOIL

  Vineyards thrive where other crops struggle. Poor soils rich in minerals are best for the vine as they provide nutrients such as phosphate, iron, potassium, magnesium and calcium. These minerals and nutrients contribute to the final taste of the wine. Favored soils are chalk, limestone, slate, sand, gravel, pebbles, clay, alluvial and volcanic. These soils have a good drainage and moisture retention capability to keep the vine roots healthy. Soil is analyzed annually and any chemical deficiency is compensated for. Drainage is very important, as the vine does not like having wet feet.

 

4. VINE FAMILY, COMPOSITION OF VINE AND GRAPE SPECIES 

  Vine: The plant, which bears the grape, is called a Vine. The vine belongs to the Ampelidaceae family. This family has around 10 genera but only genus Vitis is important for making wines. This genus has a subgenus known as Euvites and this subgenus has around 60 species. Some of these species are Vinifera, Labbrusca, Riparia, Rupestris, Berlandieri etc. Thus, there are five family of species: Vitis Vinifera, Vitis Lambrusca, Vitis Riparia, Vitis Rupestris, Vitis Berlandieri whose noble grapes can be used for producing classic wines. The plant Vitis Viniffera produces grapes, which are used for the production of best quality wines throughout the world, with few exceptions. These are in the east coast of America and Canada where other species are cultivated because they are more suited to the terrain and climatic conditions. Thus, Vine family is one of the important factors that influence the quality of wine.

Composition of vine: The vine consists of: 

Roots: These are for anchorage and for absorbing nutrients and moisture from the earth. The root system is large and can reach to a depth of about 12 metres.

Leaves: When sunlight falls on leaves that have chlorophyll, carbon dioxide is absorbed from the atmosphere and combines with water, absorbed through roots, to make sugar. The sap stores this sugar within the grape. Leaves also shade the grapes in very hot climate. Flowers: Vine flowers are very small and self-pollinate between May to June in the northern hemisphere and from November to December in the southern hemisphere. Flowering lasts for about ten days. If frost arrives during the flowering, unprotected vines will not bear grapes.

Grapes: After pollination, grapes are formed which are small, hard and green initially but swell out and change colour as they ripen in August and September. They are usually fully ripe 100 days after flowering. A ton of grapes produces 675 litres, equivalent to 960 bottles of wine.

Grape: The grape must be in harmony with the soil, the location of the vineyard and local climatic conditions. It should be disease resistant, give a good yield and produce the best quality wine possible. Wine is produced from either varietal grapes, which is a classic single grape like Riesling or from hybrids, which are a cross such as Riesling X Silvaner = Miiller -Thurgau. Grapes behave differently in different soils. Hence, Pinot Noir is a classic in Burgundy and a disaster in Bordeaux.

5. GRAPE  

The grape is made up of stalk, skin, pips and pulp and its respective roles are as follows:

Stalk: The stalk imparts tannic acid to wine. It is mostly used in the making of big, flavoursome heavy bodied red wine and is not used when making white and light bodied wines. Tannin acts as a preservative and antioxidant. If over-used, it makes the wine astringent and nasty. It is recognized on the palate by its tongue-furring properties.

Skin: The outer skin or cuticle has a whitish cloudy coat called bloom. This waxy substance contains wild yeasts and wine yeasts, which contribute to the fermentation process. It also contains other micro­organisms such as bacteria acetobacter that is a potential danger to wine. If uncontrolled, it turns wine into vinegar. The inside of the skin imparts colour that is extracted during fermentation.

Pips: Crushed pips impart tannic acid, oils and water. They do not contribute to vinification, if left uncrushed.

Pulp: The flesh of the grape provides the juice called must, which is essential for fermentation. The must contains 78-80% water; 10-25% sugar and 5-6% acids. Water makes up the bulk. Sugar is formed in the grape by sunlight and is of two kinds: grape sugar (dextrose and glucose) and fruit juice (levulose and fructose). They are found in about equal quantities. Tartaric, malic, tannic and citric acids in the must help to preserve and keep the wine fresh and brilliant. It gives it a proper balance. Esters are formed when the acids come in contact with alcohol and it gives the wine its aroma or bouquet. The must (unfermented grape juice) also has trace elements of nitrogeneous compounds such as albumen, peptones, amides, ammonium salts and nitrates, as well as potassium, phosphoric acid and calcium, all of which have an influence on the eventual taste of the wine

6. VITICULTURE

Viticulture denotes the method of cultivation of vine. An overworked vineyard without compensatory treatment or a neglected vineyard will only produce second-rate wine, so the farming of the vineyard is of great importance. It involves:

• Vine selection;                  
• keeping the vineyard healthy;
• ploughing to aerate the soil;
• weeding;
• fertilising;
• pruning to regulate quality;
• training the vines;
• spraying to combat diseases;
• harvesting.

7. VINIFICATION

Vinification encompasses the methods of making wine.

This includes:

•  the pressing of the grapes
• the treatment and fermentation of the must
•  ageing & maturing the wine and occasionally topping it up to keep the air out
• racking, fining and filtration to make the wine star bright: 

     Racking is running the clear wine off its lees or sediment from one cask to another. Fining is further clarification of wine usually before bottling. A fining agent such as isinglass, bentonite clay etc is added and this attracts the sediment suspended in the wine, causing it to coagulate and fall to the bottom of the container. Filtration is the final clarification before bottling. It removes any remaining suspended matter and leaves the wine healthy and star bright in appearance.

•      blending - compensatory
•      bottling for further maturing or for sale.