Cabernet Sauvignon () is one of the world's most widely recognized red wine grape varieties. It is grown in nearly every major wine producing country among a diverse spectrum of climates from Australia and British Columbia, Canada to Lebanon's Beqaa Valley.

This grape variety appeared in France in the 17th century as a result of natural crossbreeding. Its popularity is often attributed to its ease of cultivation—the grapes have thick skins and the vines are hardy and naturally low yielding, budding late to avoid frost and resistant to viticulture hazards.

The classic profile of Cabernet Sauvignon tends to be full-bodied wines with high tannins and noticeable acidity that contributes to the wine's aging potential. In cool areas, it has flavors of blackcurrant and green pepper; in warmer places, it may taste like black cherry and olive; in very hot climates, it can have a jammy flavor.

History and origins

left|thumb|upright|Cabernet Franc

For many years, the origin of Cabernet Sauvignon was not clearly understood, and many myths and conjectures surrounded it. Until recently, the grape was rumoured to have ancient origins, perhaps even being the Biturica grape used to make ancient Roman wine and referenced by Pliny the Elder. This belief was widely held in the 18th century, when the grape was also known as Petite Vidure or Bidure, apparently a corruption of Biturica. There was also a belief that Vidure was a reference to the hardwood (French vigne dure) of the vine, with a possible relationship to Carménère which was once known as Grand Vidure. Another theory was that the grapevine originated in the Rioja region of Spain.

While the period when the name Cabernet Sauvignon became more prevalent over Petite Vidure is not certain, records indicate that the grape was a popular Bordeaux planting in the 18th century Médoc region. The first estates known to have actively grown the variety (and the likely source of Cabernet vines for other estates) were Château Mouton and Château d'Armailhac in Pauillac. A later haplotype-based genomic study published in 2026 proposed that berry colour locus inheritance in Cabernet sauvignon was more consistent with a Sauvignon gris lineage. The study suggested that the close genetic relationship between Sauvignon blanc and Sauvignon gris may have limited the resolution of earlier SSR marker-based parentage analyses published in 1997.

thumb|Sauvignon blanc

Offspring and White Cabernet

While not as prolific in mutating as Pinot noir, nor as widely used in the production of offspring, Cabernet Sauvignon has been linked to other grape varieties. In 1961, a cross of Cabernet Sauvignon and Grenache produced the French wine grape Marselan. Cygne blanc is a white-berried seedling of Cabernet Sauvignon that was discovered in 1989 growing in a garden in Swan Valley, Western Australia. Cabernet blanc is a crossing of Cabernet Sauvignon and an unknown hybrid grape variety that was discovered in Switzerland in the late 20th century.

In 1977 a vine producing 'bronze' grapes was found in the vineyards of Cleggett Wines in Australia. They propagated this mutant, registered it under the name of Malian, and sold pale red wines under that name. In 1991 one of the Bronze Cabernet vines started producing white grapes. Cleggett registered this "White Cabernet" under the name of Shalistin. Compared to its Cabernet parent, Malian appears to lack anthocyanins in the subepidermal cells but retains them in the epidermis, whereas Shalistin has no anthocyanins in either layer. The team that went on to discover the VvMYBA1 and VvMYBA2 genes that control grape colour have suggested that a gene involved in anthocyanin production has been deleted in the subepidermis of Malian, and then subepidermal cells invaded the epidermis to produce Shalistin.

During a series of trials between 1924 and 1930, the pollen of Cabernet Sauvignon was used to fertilize Glera vines (the white wine grape used to make the sparkling wine Prosecco) to create the red Italian wine grape Incrocio Manzoni 2.15.

In 1972, the Australian agency CSIRO crossed Cabernet Sauvignon grapes with the Spanish Sumoll variety to create three new varieties: Cienna, Tyrian and Rubienne.

In 1983, Cabernet Sauvignon was crossed with the white German wine grape Bronner to create the white wine grape Souvignier gris.

Viticulture

left|thumb|200px|Cabernet Sauvignon leaf. In cooler climate conditions, vines will focus more energy in producing foliage, which is needed to capture sunlight for [[photosynthesis, rather than ripening grapes. This makes canopy management and aggressive pruning an important consideration for growers.]]

While Cabernet Sauvignon can grow in a variety of climates, its suitability as a varietal wine or as a blend component is strongly influenced by the warmth of the climate. The vine is one of the last major grape varieties to bud and ripen (typically 1–2 weeks after Merlot and Cabernet franc In the South Australian wine region of Coonawarra, Cabernet Sauvignon has produced vastly different results from grape vines planted in the region's terra rosa soil – so much so that the red soil is considered the "boundary" of the wine region, with some controversy from wine growers with Cabernet Sauvignon, planted on red soil.

In addition to ripeness levels, the harvest yields can also have a strong influence on the resulting quality and flavours of Cabernet Sauvignon wine. The vine itself is prone to vigorous yields, particularly when planted on the vigorous SO4 rootstock. Excessive yields can result in less concentrated and flavorful wine with flavours more on the green or herbaceous side. In the 1970s, a particular clone of Cabernet Sauvignon that was engineered to be virus free was noted for its very high yields-causing many quality-conscious producers to replant their vineyards in the late 20th century with different clonal varieties. To reduce yields, producers can plant the vines on less vigorous rootstock and also practice green harvesting with aggressive pruning of grape clusters soon after veraison.

The Cabernet Sauvignon grape itself is very small, with a thick skin, creating a high 1:12 ratio of seed (pip) to fruit (pulp). From these elements, the high proportions of phenols and tannins can have a stark influence on the structure and flavour of the wine—especially if the must is subjected to long periods of maceration (skin contact) before fermentation. In Bordeaux, the maceration period was traditionally three weeks, which gave the winemaking staff enough time to close down the estate after harvest to take a hunting holiday. These long maceration periods result in very tannic and flavorful wines that require years of ageing. Wine producers wishing to make a wine more approachable within a couple of years will drastically reduce the maceration time to as little as a few days. Following maceration, the Cabernet must be fermented at high temperatures of up to 30 °C (86 °F). The fermentation temperature will play a role in the result, with deeper colours and more flavour components being extracted at higher temperatures while more fruit flavours are maintained at a lower temperature. In Australia, there has been experimentation with carbonic maceration to make softer, fruity Cabernet Sauvignon wines. Other Tuscan wine regions followed suit, blending Cabernet Sauvignon with Sangiovese and even making varietal versions of the grape. Gradually the DOC system caught on and began allowing more regions to use the grape in their DOC-designated wines. Cabernet Sauvignon in Tuscany is characterized by ripe black cherry flavours that can give a perception of sweetness as well as strong notes of blackcurrant. The wines typically reach an alcohol level around 14% but can still maintain notable acidity levels. Cabernet Sauvignon can dominate the blend when blended with Sangiovese in significant quantities, with most Tuscan producers aiming to find a particular balance that suits their desired style.

China

The first vintage produced by Emma Gao at Silver Heights Winery in Ningxia was praised by Chinese and international winemakers, and two of her red wines are among the best-known produced in China. They are a Cabernet Sauvignon 'Emma's Reserve' and a Bordeaux blend 'The Summit'. Resveratrol has also been shown to promote the clearance of amyloid-beta peptides. It has also been shown that non-alcoholic extracts of Cabernet Sauvignon protect hypertensive rats during ischaemia and reperfusion.

See also

  • International variety

References

  • Cabernet Sauvignon Grape - Cabernet Sauvignon Grape Information Page on appellationamerica.com
  • Cabernet Sauvignon - Cabernet Sauvignon on DryRedWines.com