Winery Philosophy: Crafting elegant and distinctive Pinot Noir and Chardonnay.
A family of enophiles, the Fullertons can trace their love of wine to Eric, who was first introduced to wine growing and production during his teenage years when he worked as a cellar hand in Germany (a story in and of itself). A few years later, his best friend in Denmark inherited an impressive cellar of Bordeaux and Burgundy wines. Together, they sought younger bottlings of the cellared wines, and held vertical tastings. Their interest in wine grew, and they began traveling throughout France discovering new producers to fuel their expanding passion.
When Eric and Susanne met in Stockholm, it did not take long for Susanne to fall in love with Eric and the wines he respected. Marriage soon followed, and they continued tasting, savoring, and cellaring wine.
In 2010, Alex Fullerton graduated from the University of Oregon with an Economics degree. Alex and Eric were tasting wine at Penner-Ash Wine Cellars, and began discussing home-brewing and the process of fermentation. The conversation led to the idea of Alex making wine. A couple of minutes later, Lynn Penner-Ash entered the room, and Eric asked her how Alex could enter the industry. Coincidentally, a harvest intern had dropped out that morning, and she needed a replacement. The next day Alex was offered a job as an intern, and later became a cellar hand at Penner-Ash. His passion ignited.
Alex next took off to New Zealand to work at Drylands Winery in Marlborough. Although the experience didn’t align with the handcrafted winemaking tradition in Oregon, he came back determined to learn more about growing and production. Penner-Ash welcomed him back again for the 2011 harvest, and he worked the following 2012 harvest at Bergström Wines under winemaker Josh Bergström. Lynn Penner-Ash and Josh Bergström both mentored and inspired Alex, deepening his knowledge of winemaking.
Fullerton Wines began in a garage in 2011. Alex and Eric partnered with their good friend Roger Wallberg and made a few barrels of Pinot Noir. Despite the challenging vintage, the wine impressed and Fullerton Wines was born. Today, Fullerton Wines crafts treasured Willamette Valley wines, focused purely on the Burgundian varietals of Pinot Noir and Chardonnay.
Winery Production: 11,300 / 9L cases
Varietals Produced: Pinot Noir:110ton, Chardonnay:30ton, Pinot Gris: 20ton, Syrah 2ton.
Pinot Noir: 8,150 cases, Chardonnay: 2,000 cases, Pinot Gris: 1,000 cases and Syrah:150 cases
Winemaker: Alex Fullerton
Alex Fullerton worked at Penner-Ash and Bergstrom in Willamette Valley, Oregon and Drylands in Blenheim, NZ majored in Economy @ UO, Studied Organic chemistry @ PSU and Viticulture & Enology @ OSU.
Vineyards: Ivy Slope (Estate) Chard, Croft PN, Fir Crest PN, Arbor Brook PN, Lichtenwalter PN, Bjornson PN, Momtazi PN, Ch Bianca Chard, Bella Vida PN, Apolloni PN, Bennett PN, La Velle PG, May's Vineyard Syrah.
Ivy Slope (Estate) 0.5 Acres All others by Acerage contracts.
Age of the vines: 7 - 50 years.
Everything is at a minimum Sustainable, Momtazi is Biodynamic and Croft is Organically certified.
Our holistic viticulture produces energetic fruit, great wine, and a healthier world.
Great wine requires great fruit. Growing high-quality grapes demands that we care for the soil in which the vines grow. Grapes, more than any other crop, convey the characteristics and health of their site. It is widely known that the best wines come from grapes grown in well-drained soils. Grape growers and winemakers are becoming increasingly aware of the devastating effects of synthetic fertilizers and herbicides on the structure, drainage, infiltration, and overall health of the soil. At Fullerton Wines, our pursuit of great wine guides us to organic and biodynamic farming methods because of its ability to build up healthy soils while also sequestering carbon into the soil (thereby helping to mitigate climate change). Through these methods, we improve the aggregate stability, drainage, water-holding capacity, and infiltration of the soils. We also reduce erosion and nutrient leaching.