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Saturday, May 16, 2020

Etna DOC sub-region terroirs (after Benjamin North-Spencer, author, The New Wines of Mount Etna)

I have been conducting InstaGramLive chats with a number of Etna producers and the issue of what constitutes the layer below the top-level Etna DOC, and the terroirs of that next level, kept coming up. Was the next level down broad geographical categories (East, North, etc.) or was it down at the Contrada level? I asked Benjamin North-Spencer to come back to my InstaGramLive platform to provide his perspective as to the construct of the Etna DOC sub-zones and the terroirs associated with each. This post summarizes our discussion.

The sub-regions that Ben described were the Southwest, Southeast, East, Northeast, and North. A summary of his perspectives are contained in the chart following and additional clarifying information is provided in the text following the chart.


Southwest
This was a hotspot until it fell out of favor during the 1800s.

The current surface that we see on Mt. Etna today is the Mongibello facade, consisting of material 15,000 years old and younger. That material overlays an earlier, much wider, shield volcano that has outcroppings in the extreme north and south of the Etna wine region. The material overlaying the shield volcano ranges from 10 to 100 m in depth and consists of recent volcanics: silica, lapilli (tephra of from 2 to 64 mm in size) rippidu, and bombs/blocks (effluvia greater than 64 mm in size are called bombs when molten and blocks when solid).

Rainfall here, according to my research, amounts to approximately 500 mm/year.

Southeast
My research shows that rainfall in the region is distributed as follows: between 1.000 and 1.200 mm/yr on the northern, eastern, and southeastern slopes and 500 mm/yr on the southwest slopes. The southeast and eastern slopes are unprotected from the autumn and winter rains but the combination of rapid runoff and early morning sun contribute to their attractiveness as growing regions (especially for whites).

This area has a massive fissure that flows up from the city of Catania to the central craters. According to Ben, there are 35 lateral parasitic craters that feed off the central plumbing. These craters form cones of sand and are endowed with pyroclastic that overlay on themselves. These cones have metal at the top and, as a result of gravitational erosion, a lot more silica and organically rich material at the plateaus. There is a wealth of rich organic material in the areas between the cones, as well as a lot of rich, black volcanic material.

This is a great place to grow grapes: all of the cones; all of the aspects that are presented; all of the different elevations ranging between 400 and 900 m. This is also the area that receives the largest amount of of volcanic sand from the regular eruptions of the volcano. Ben says that we are talking about 1500 lbs of fresh soil each year because of the way the winds spin around the volcano.

East
The southeast and eastern slopes are unprotected from the autumn and winter rains but the combination of rapid runoff and early morning sun contribute to their attractiveness as growing regions (especially for whites). The Foti Aeris vineyard is located on the east slope and, as explained by Salvo, lies between the mountain and the sea and the warm air from the latter meets with the cold air from the former over Milo with the result being significant rainfall over the entire growing area (My research).

The Valle del Bove, the horseshoe-shaped structure that dominates on this side of the volcano, is, according to Ben, the original shield volcano's crater. This crater blew the top (15,000 years ago, according to Ben; 8,000 and 60,000 years according to other sources) off the mountain and then fell back in on itself. It collected snowfall from the mountain, forming a glacial lake, and decomposing the volcanics that were the core of the seven volcanoes that comprised the Elliptico. The eastern flank of the volcano was involved in a landslide and deposited water and eroded volcanics over the slope where we find Milo located today. These eroded volcanics were distributed over a very steep and plateaued environment.

Milo is the only area within the DOC where Etna Bianco Superiore can be produced.

Wines on the volcano's east are salty. According to Ben, the soils have a high mineral content but, in addition, breezes coming in off the sea are trapped at altitude and the salt moisture they contain come back to earth with the rain. These mineral, saline wines are endowed with incredible acidity and longevity and, if produced well, can age for 15 to 20 years.

The decomposition of volcanic material forms allophane, a type of primordial clay, which is sticky for nutrients and holds water temporarily so that it can be accessed by the vine roots. The allophanes, due to their construct, provide a much greater surface area for nutrient attachment than does other more traditional clays.

Northeast
Overlying lava flows, most from the Mongibelo volcano. The soils are very fertile due to the rain softening the volcanics and mixing in the organics that fall out of the forests that sit above the DOC areas.

This area is very beautiful, according to Ben; it has a lot of exposure to the Alcantara Valley. It is exposed to the winds from the north that flow in between the volcano and the Nebrodi Mountains and to the Grecale in its southern reaches.

Steep slopes with great exposure to sunshine during the summer and at midday.

We start to see more international varieties here: Syrah, Chardonnay, Nero d' Avola. Softer tannins, more opulent fruit for the Nerello Mascalese here than for the same variety to the north. Also greater tropical notes.

North
As it relates to climate, my research shows that the Nebrodi Mountains offer some protection to the north slope of Mt Etna but some wind does make it over the top, bringing rain in the autumn and winter and moisture year-round. There are some benefits to this moisture though. The runoff, unlike the case for the runoff on the eastern and southeastern slopes, proceeds downhill at a moderate pace and is absorbed by the lava beneath the soil, This water store then becomes available to the vine roots during the growing season. The major beneficiary of this process is the area between the towns of Solicchiata and Randazzo. The wind from the northeast blows steam from the vents to the southeast creating a shadow which serves to reduce evaporation.

Ben sees the soils of the North as being very young and associated primarily with the current facade (15,000 years old and less). As a result of the youth of the volcanic deposits, the wines have great fruit, great structure, and longevity. The wines also have elegance, better acidity, minerals, and tannins, features that make them collectible. They are also delicious up front.

Ben sees a change in weather as you get up towards Rovitello. There is a dryness in the soil and old vines (100+ years) are planted on their own roots

As you move towards Randazzo, the growers are farming on an outcropping of the ancient volcano. The elevations here are a little lower. Ben says that you can see the interconnectivity between the vines, the old volcanoes, and, maybe, a little bit of limestone that has been pushed up by the tectonic collision between the African and Eurasian plates.

He sees the whites on this side as having a bit more intensity of fruit, more mature fruit, and saline mineral flavors with some tropical notes. The grapes here do not experience as significant a temperature shock as is the case in the previously visited sub-regions.

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One of the things that we did not discuss during our conversation  -- but I am sure that Ben would agree is very important -- is the role of altitude in the character of the harvested grape. At 3,350 m (10,991 feet), Mt. Etna is the highest mountain in Sicily.

According to Nesto and di Savino (The World of Sicilian Wine), at the highest elevations for viticulture, the climate on Mt. Etna is similar to North Italy's, becoming more Sicilian as you proceed downslope. As a result, growing environments differ, depending on altitude and aspect.

The chart below shows the impact of altitude on the grape-growing environment. According to Nesto and di Savino, conditions at the highest elevations are particularly helpful for white and Rosato wines and grapes used in their production can be found growing as high as 1300 m (4265 feet). These high-elevation climatic conditions reduce the incidence of vine pests and diseases and naturally limits vine yield. Below 900 m, conditions become more suitable for red wine production.


As I told Ben during our discussion, this was the first time that I had been treated to such a comprehensive discourse on Etna terroir at the sub-DOC level. I found it fascinating.


©Wine -- Mise en abyme

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