State-of-the-art of tools and methods to assess vine water status

Rienth, Markus; Scholasch, Thibaut

doi:10.20870/oeno-one.2019.53.4.2403

Cited by 51 publications

(45 citation statements)

References 126 publications

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“…In the two organic treatments, grapes were more exposed to light and their compactness was reduced. This different fruit morphology likely contributed to the lower incidence of acetic acid rot in organic versus integrated management systems, and these effects were even more pronounced for biodynamic versus organic management systems (Meissner et al, 2019). These results suggest that organic, and especially biodynamic management practices, promote favourable grape morphology and thereby product quality.…”

Section: Introductionmentioning

confidence: 88%

“…Sharp increases in the global production of organic and biodynamic viticulture and the consumption of their products over recent decades (Willer et al, 2013;Castellini et al, 2017) demonstrate the remarkable interest of both winegrowers and consumers in vineyard management systems with a presumed reduced environmental impact. In response to this trend, a long-term and randomised field trial was established in 2006 (Geisenheim, Germany) to compare the influences of integrated, organic and biodynamic management systems on the development of plants, pests and diseases, as well as the impact on soil and the product quality of grapes and wine (Meissner et al, 2010;Meissner et al, 2019). In the first four years of the trial, the two organic management systems exhibited higher soil quality, lower grape yield and lower vegetative growth compared to the integrated management system.…”

Section: Introductionmentioning

confidence: 99%

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Quality assessment of grape juice from integrated, organic and biodynamic viticulture using image forming methods

et al. 2020

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Aim: The image forming methods biocrystallisation, capillary dynamolysis and circular chromatography are introduced as a complementary tool for grape quality assessment. These methods were used to investigate grape juice samples from a long-term field trial comparing integrated, organic and biodynamic viticultural practices.Methods and results: Characteristic changes in structures created by the reaction of metal salts with grape juice were evaluated using biocrystallisation, circular chromatography and capillary dynamolysis image forming methods. In particular, this study tested the effects of cultivation method, aging time and juice concentration on structure formation.To assess grape quality, the images of the encoded grape juice samples were: i) grouped into pairs with similar image features, ii) characterised based on reference images (e.g., high versus low resistance to degradation, or the amount of substance necessary for structure formation), iii) ranked according to structures associated with grape quality, and iv) assigned to the different production methods (classification). In order for similar structural features in the image forming methods to be expressed, all samples of grape juice harvested from integrated production over four years required higher juice concentrations than samples from organic and biodynamic origin. This was interpreted as the latter two production systems having higher structure formation efficacy. Furthermore, juices produced from the integrated management system exhibited more structures, indicative of a lower resistance to aging. In three out of four harvest years, the biodynamic samples exhibited the highest structure forming efficacy and resistance to aging.Conclusion: These findings are consistent with enhanced form maintenance and thus higher internal product quality of biodynamic and organic grapes compared to grapes from integrated farming.Significance and impact of the study: Image forming methods may serve as a valuable tool for grape juice and wine quality assessment to complement compound-specific chemical analyses.

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Section: Introductionmentioning

confidence: 88%

Section: Introductionmentioning

confidence: 99%

Quality assessment of grape juice from integrated, organic and biodynamic viticulture using image forming methods

et al. 2020

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“…The average values for the main compounds which determine berry quality in all plots at the last sampling date in the three different years are depicted in Figure 6 (A-E). The δ13C analysis ( Figure 6E) shows that no water deficit (δ13C < -26) was experienced by the vines in 2017 and 2019, and that water deficit was mild (-24.5 to -26) to moderate (-23 to -23) in 2018 (Rienth and Scholasch 2019). No differences were found in N ass between different years; however, a greater variability between plots can be observed in 2019 ( Figure 6F).…”

Section: Precipitation Plant Water Regime and Berry Maturitymentioning

confidence: 95%

“…As can be seen in Figure 8, Ѱ Leaf in most affected plots reached values as low as -1.5 MPa, corresponding to severe water stress. However, most of the assessed plots were within the range of mild to severe water stress, with values of between -1.1 and -1.3 MPa (Rienth and Scholasch, 2019;van Leeuwen et al, 2009;Zufferey, 2007). It is well known that water deficits can cause a reduction in berry size, depending on their severity and time of occurrence during berry development (Ojeda et al, 2001;Ojeda et al, 1999;Scholasch and Rienth, 2019).…”

Section: Precipitation Plant Water Regime and Berry Maturitymentioning

confidence: 99%

A vine physiology-based terroir study in the AOC-Lavaux region in Switzerland

et al. 2020

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Understanding how different pedoclimatic conditions interact with vine and berry physiology, and subsequently impact wine quality, is paramount for an good valorization of viticultural terroirs and can help to optimize mitigation strategies in the face of global warming.The aim of the present study was to establish terroir zones in a steep slope region in Switzerland based on vine and berry physiology. The study area, Villette in the AOC Lavaux, was a unique experimental site due to the homogeneity of plant material in a relatively small microclimate (140 ha) and a multiplicity of different expositions, soil types and altitudes. Vine and berry physiology as well as temperature of twenty-two plots were monitored during three consecutive seasons to investigate whether a link with pedoclimatic parameters can be established.The annual temporal variation of the average temperature was 142 growing degree days (GDD) over all years. Remarkably, spatial temperature variability was twice as high, with a variation between most extreme plots of 395 GDDs on average over all years. PCA and hierarchical clustering of assessed vine and berry physiological parameters resulted in a vintage dependent grouping of plots differing between years, which was not congruent with geological entities. This highlights the importance of the vintage effect, which had a large influence on vine and berry physiology and impacted terroir zones more than soil groups. Important differences in budburst and flowering were observed between plots, whereas altitude was the main driver of precocity in all years, being relatively independent of the vintage, which confirms the importance of topography in viticultural terroirs.

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“…Radiation can be easily quantified as well (Smart, 1986). Many indicators have been validated to assess vine nitrogen status (Spayd et al, 1993;van Leeuwen et al, 2000;Hilbert et al, 2003) and vine water status (Cifre et al, 2005;van Leeuwen et al, 2009;Rienth and Scholasch, 2019). Today, major parameters determining terroir expression can be quantified and even spatialized at vineyard scale (van Leeuwen et al, 2018;de Rességuier et al, 2020).…”

Section: Understanding the Effect Of Terroir On Wine Typicitymentioning

confidence: 99%

Recent advancements in understanding the terroir effect on aromas in grapes and wines

et al. 2020

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Terroir is about the link between wine and its origin. It has long been understood by sensory evaluation that the taste of wine from a given variety can be related to its origins. Specific organoleptic characteristics of wine are influenced by environmental factors such as soil and climate. By deconstructing the effect of measurable soil and climate parameters on grape and wine aroma compounds, the terroir effect on wine typicity can be better understood. Climate influences on vine development and grape ripening are mainly associated with temperature, radiation and rainfall, while soil influences are primarily associated with water availability and nitrogen supply. Significant advances have been made over recent years in understanding wine aromas and their molecular basis and influences of climate and soil on a wide range of molecules responsible for wine aroma expression. This article aims to review these recent research advances to obtain a more comprehensive understanding of how terroir influences wine typicity. The effect of terroir on wine quality and typicity is sometimes considered intangible and difficult to explain on a scientific basis. By combining agronomic, analytical and sensory approaches, however, this review shows that the terroir effect is mediated by measurable factors that can easily be monitored in the vineyard. Assessment of the results compiled by this review allows the suggestion that terroir expression at specific sites might be maximized by choosing appropriate plant material in relation to soil and climate, by acting on manageable parameters like vine water and nitrogen status, or by implementing canopy management to modify microclimate in the bunch zone.

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State-of-the-art of tools and methods to assess vine water status

Cited by 51 publications

References 126 publications

Quality assessment of grape juice from integrated, organic and biodynamic viticulture using image forming methods

Quality assessment of grape juice from integrated, organic and biodynamic viticulture using image forming methods

A vine physiology-based terroir study in the AOC-Lavaux region in Switzerland

Recent advancements in understanding the terroir effect on aromas in grapes and wines

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