Terroir 2016 banner
IVES 9 IVES Conference Series 9 Electromagnetic conductivity mapping and harvest zoning: deciphering relationships between soil and wine quality

Electromagnetic conductivity mapping and harvest zoning: deciphering relationships between soil and wine quality

Abstract

Using electromagnetic conductivity mapping and GIS technology, we identified two unique soil zones within a 0.8-hectare Cabernet Franc block in central Virginia, USA. For three vintages we implemented a differential harvest and experimental winemaking based on soil zoning and noted that each zone produces unique wines despite the fact that both consist of the same rootstock, clone, row orientation, trellis system, vine age and undergo the same farming practices.

Significant differences observed between the two lots, particularly potassium (K+) levels and pH of the fruit and wine, have been consistent from vintage to vintage. Our findings suggest a relationship between soil physical characteristics, site hydrology, soil chemistry, nutrient levels in the vine and fruit, and wine chemistry (specifically K+ and pH).

Download the PDF

DOI:

Publication date: June 23, 2020

Issue: Terroir 2016

Type: Article

Authors

Ernest BEASLEY IV, MS, CPG (1), Benoit PINEAU (2), Lucie MORTON (3)

(1) HydroGeo Environmental, LLC, 418 East Main Street, Charlottesville, Virginia 22902
(2) Pollak Vineyards, 330 Newtown Road, Greenwood, Virginia 22943
(3) Vitipiont International Research Centre, PO Box 5607, Charlottesville, Virginia 22905

Contact the author

Keywords

geophysics, viticulture, terroir, soil, management zoning, potassium, wine, precision viticulture

Tags

IVES Conference Series | Terroir 2016

Citation

Related articles…

Data fusion approaches for sensory and multimodal chemistry data applied to storage conditions

The need to combine multimodal data for complex samples is due to the different information captured in each of the techniques (modes).

Read More

Short-term canopy strategies to enhance grapevine adaptation to climate change

Context and purpose of the study – Viticulture faces significant challenges due to climate change, with increased frequency of extreme weather events impacting grapevine growth, grape quality, and wine production.

Read More

Using GIS to assess the terroir potential of an Oregon viticultural region

Deciding to grow grapes in Oregon is complex issue due to our diverse geography, climate, and relatively short history of grape growing. For any potential grape grower, vineyard site selection is the single most important decision they will face.

Read More

Italy sweet revolution: how club grapes are transforming the table grape market

Italy is the leader table grape producer country in Europe and the eighth worldwide (OIV, 2021). The italian production area is sized at approximately 47,248 hectares with a production of 9.66 million quintals of grapes. Apulia and sicily are the main producing italian regions which collectively account for over the 90% of the italian production area (istat, 2022).

Read More

Beyond colors of rosé wines: impact of origin and winemaking technology on their color, polyphenol and thiol compositions

Rosé wine consumption is rapidly increasing with its market share in France that has grown from 11 % to 32 % in less than 20 years. A recent trend is also to produce rosé wines with lighter colors. Varieties, terroir and technology certainly have an influence on rosé wine colors.

Read More