Terroir 1996 banner
IVES 9 IVES Conference Series 9 From local classification to regional zoning. The use of a geographic information system (GIS) in Franconia / Germany. Part 3: classification of soil parameters in vineyards

From local classification to regional zoning. The use of a geographic information system (GIS) in Franconia / Germany. Part 3: classification of soil parameters in vineyards

Abstract

La conservation de la fertilité du sol est un aspect primordial dans la viticulture durable. Différents paramètres, comme par exemple la topographie, la composition du sol, les conditions climatiques, influencent la fertilité du sol des surfaces viticoes. En ce qui concerne ces paramètres, de nouvelles technologies, telle qu’un SIG, permettent de réunir digitalement les informations sur le sol et le climat. Une représentation cartographique sur un SIG permet l’analyse de contextes complexes, une classification locale et la détermination d’un zonage régional. L’ensemble de ces informations améliore la recherche et simplifie la gestion des surfaces viticoles. Environ 20 % des surfaces viticoles franconiennes se situent sur des pentes escarpées. Ici, la protection du sol est essentielle à la conservation de sa fertilité. De nombreux paramètre du sol, comme sa texture, sa composition, sa teneur en éléments grossiers, l’épaisseur des horizons, le type du paillage, sont saisis dans le SIG. Ensuite, un zonage régional peut être effectué grâce à des types et des groupes de sol permettant par exemple des évaluations régionales de la capacité de stockage de l’eau. L’inclination, l’exposition, la longueur et la forme des surfaces viticoles ainsi que la direction d’écoulement des eaux de surface peuvent être déterminés par une modélisation de terrain en trois dimensions. Combinant les données pluviométriques ce système d’information permet la création de cartes régionales et locales sur le danger d’érosion dans les régions viticoles. Grâce aux paramètres du sol et autres données saisies dans le SIG, comme par exemple les informations sur les précipitations ou la végétation, il est possible d’évaluer quantitativement le déblayage annuel sur les terroirs utilisant le modèle d’érosion PC-ABAG (équivalent de l’USLE = Universal Soif Lass Equation). Grâce à cela on peut classifier le potentiel érosif sur des pentes escarpées à l’aide de cartes du danger d’érosion générées par le SIG et mener une évaluation quantitative du déblayage dans ces terroirs. Ceci permet une planification des mesures de protection contre l’érosion. Pour cette raison, le SIG en viticulture est un excellent instrument de travail pour les chercheurs et conseillers, et les producteurs de raisins en vue de l’analyse, l’enregistrement et l’évaluation des paramètres du sol et du danger d’érosion dans des surfaces viticoles.

The conservation of soil fertility is the first objective in sustainable viticulture. Various parameters as e.g. slope and exposition of vineyards, soil composition, climatic conditions (precipitation), etc. influence the soil fertility of vineyard sites. Considering these parameters, new computer software such as a GIS enables the digital compilation of information on soil and climate. GIS-mapping allows the analysis of complex correlations, creation of local classifications and the establishment of a regional zoning. The synoptical compilation of information by a GIS improves the research and simplifies vineyard management.
About 20 % of the Franconian vineyards are planted on steep slopes. Here, soil conservation is important to preserve soil fertility. Many local soil parameters as type, composition and rock content, thickness of the soil horizon, type of soil covering, etc. are recorded in the GIS. Subsequently, a regional zoning of soil types and groups can be created with help of the GIS.

Besides that, slope, orientation, length and shape of vineyards are deterrnined by a three­dimensional terrain modelling with the GIS. Connected with precipitation data, this enables the generation of local and regional erosion risk maps of viticultural regions. Soil and topographie parameters combined with other data recorded in the GIS, e.g. information on precipitation, type of vineyard (productive/new) and vegetation, allow a quantitative estimation of the average soil erosion per year within vineyards by using the erosion model PC-ABAG (equivalent to the USLE = Universal Sail Lass Equation). Thus, the erosion risk potential of steep slopes can be classified regionally with the help of GIS-generated erosion risk maps and the local quantitative estimation of soil erosion within individual vineyards. This allows planning of erosion protection measures. Therefore, the viticultural GIS is an excellent aid to researchers arid consultants, grape producers and wine growing estates for recording, analysing and assessing soil parameters and erosion risk in vineyards.

 

 

 

DOI:

Publication date: February 16, 2022

Issue: Terroir 2002 

Type: Article

Authors

A. Schwab; S. Königer; S. Michel

Bayerische Landesanstalt für Weinbau und Gartenbau, Abt. Weinbau und Rebenzüchtung, Hermstr. 8, D-97209 Veitshochheim, Germany

Contact the author

Keywords

zonage régional, SIG, sol, fertilité, danger d’érosion
regional zoning, GIS, soil, fertility, erosion risk

Tags

IVES Conference Series | Terroir 2002

Citation

Related articles…

Grape must quality and mesoclimatic variability in Fruška Gora wine-growing region, Serbia

The Fruška Gora mountain is a traditional wine-growing region in Serbia situated in the Pannonian Basin. Due to such a position, the vicinity of the Danube River and the presence of concave configuration, it is suitable for grape production. This paper provides analyses of spatial variations in meteorological parameters and grape juice quality within Fruška Gora wine region over three consecutive vintages (2018-2020). The examined period can be defined as warm with cool nights during September (AVG 18,9°C; GDD 1918°C; CI 12°CF) and with the presence of mesoclimatic variability. The East part of the study area was somewhat drier and hotter compared to other parts of the region. The analyses of grape must samples (190 in total) of five cultivars (Cabernet-Sauvignon, Merlot, Chardonnay, Sauvignon blanc and Grašac (Welschriesling)) commonly grown across the region (19 sites), were performed using Fourier Transform Infrared Technology (FTIR). Among all cultivars, Sauvignon blanc was harvested first in the East area (DOY=246±5, GDD at harvest=1552±74, 22.2±0.7 °Brix), while the latest harvest was recorded for Cabernet-Sauvignon in the West (DOY=283±5, GDD at harvest=1936±187, 23.4±1.0 °Brix ). Both the red and white cultivars had higher acidity and YAN in the grape must if the vines were grown in the North and East compared to South and West areas. According to PCA analysis, Grašac showed the lowest variation in grape must chemical composition. Thus, the results confirm that Grašac is the most stable cultivar in Fruška Gora. All monitored cultivars reached technological fruit ripeness by the end of the growing season. However, it was difficult to reach full ripeness of red cultivars, mostly beacuse of uncoupling of technolocical and phenolic ripeness. Thus, Cabernet-Sauvignon had higher variations in GDD sums at harvest compared to other cultivars, which probably increased variations in grape must quality.

Pruned vine biomass exclusion from a clay loam vineyard soil – examining the impact on physical/chemical properties

The wine industry worldwide faces increasing challenges to achieve sustainable levels of carbon emission mitigation. This project seeks to establish the feasibility of harvesting winter pruned vineyard biomass (PVB) for potential use in carbon footprint reduction, through its use as a renewable biofuel for energy production. In order to make this recommendation, technical issues such as the potential environmental impact, chemical composition and fuel suitability, and logistical challenges of harvesting biomass needs to be understood to compare with the results from similar studies. Of particular interest is the role PVB plays as a carbon source in vineyard soils and what effect annual removal might have on soil carbon sequestration. A preliminary trial was established in the Waite Campus vineyard (University of Adelaide) to test current management strategies. Vines are grown in a Eutrophic, Red Dermosol clay loam soil with well managed midrow swards. A comparison was undertaken of mid-row treatments in two 0.25 Ha blocks (Shiraz and Semillon), including annual cultivation for seed bed preparation, the deliberate exclusion of PVB (25 years) and incorporation of PVB (13 years) at an average of 3.4 and 5.5 Mg/Ha-1 for Shiraz and Semillon respectively. In both 0-10cm and 10-30cm soil core sample depths, combined soil carbon % measures in the desired range of 1.80 to 3.50, were not significantly different between treatments or cultivars and yielded an estimated 42 Mg/ha-1 of sequestered soil carbon. Other key physical and chemical measures were likewise not significantly different between treatments. Preliminary results suggest that in a temperate zone vineyard, managed such as the one used in this study, there is no long term negative impact on soil carbon sequestration through removing PVB. This implies that growers could confidently harvest PVB for use in several end fates including as a bio fuel.

Modeling the suitability of Pinot Noir in Oregon’s Willamette Valley in a changing climate

Air temperature is the key driver of grapevine phenology and a significant environmental factor impacting yield and quality for a winegrape growing region. In this study the optimal downscaled CMIP5 ensemble for computing thegrowing season average temperature (GST) viticulture climate classification index was determined to spatially compute on a decadal basis predictions of the GST climate index and the grapevine sugar ripeness (GSR) model for Pinot Noir throughout the Willamette Valley (WV) American Viticultural Area (AVA). Forecasts for average temperature and a 220 g/L target sugar concentration level were computed using daily Localized Constructed Analogs (LOCA) downscaled CMIP5 historic and Representative Concentration Pathways (RCP) future climate projections of minimum and maximum daily temperature. We explore spatiotemporal trends of the GST climate classification index and Pinot Noir specific applications of the GSR phenology model for the WV AVA. Spatiotemporal computations of the GST climate index and Pinot Noir specific applications of the GSR model enable the opportunity to explore relationships between their computed values with one intent being to provide updated GST ranges that better align with current temperature-based modeling understanding of Pinot Noir grapevine phenology and the viticultural application of LOCA CMIP5 climate projections for the WV AVA. The Pinot Noir specific applications of the GSR model or the GST index with updated bounds indicate that the percent of the WV AVA area suitable for Pinot Noir production is currently at or near its peak value in the upper 80s to lower 90s of this century.

Influence of weather and climatic conditions on the viticultural production in Croatia

The research includes an analysis of the impact of weather conditions on phenological development of the vine and grape quality, through monitoring of four experimental cultivars (Chardonnay, Graševina, Merlot and Plavac mali) over two production years. In each experimental vineyard, which were evenly distributed throughout the regions of Slavonia and The Croatian Danube, Croatian Uplands,

Analysis of Cabernet Sauvignon and Aglianico winegrape (V. vinifera L.) responses to different pedo-climatic environments in southern Italy

Water deficit is one of the most important effects of climate change able to affect agricultural sectors. In general, it determines a reduction in biomass production, and for some plants, as in the case of grapevine, it can endorse fruit quality. The monitoring and management of plant water stress in the vineyard