GiESCO 2019 banner
IVES 9 IVES Conference Series 9 GiESCO 9 Rootstock differences in soil-water uptake during drying-wetting cycles imaged with 3d electrical resistivity tomography

Rootstock differences in soil-water uptake during drying-wetting cycles imaged with 3d electrical resistivity tomography

Abstract

Context and purpose of the study – Limited knowledge has been acquired on grapevine roots and rhizosphere processes because of harder access when compared to aerial parts. There is need for new methods to study root behavior in undisturbed field conditions, and relate these effects on canopy and yield. The aim of this multidisciplinary study was to image and quantify spatial-temporal differences in soil-water uptake by genetically different rootstocks and to assess the response of the canopy during drought and rewetting.

Material and methods – During two years, three replicates of 10 plants of Chardonnay, 5 plants grafted onto 110R and 5 on 101-14 Mgt, were monitored in a drip-irrigated experimental vineyard. Each experimental unit was equipped with time-domain reflecrometer sensors for continuous measurement of soil water and with stainless-steel rods and micro-borehole electrodes for time-lapse 2D and 3D electrical resistivity tomography (ERT). The soil profile was described with soil pits at both ends of the experimental units and sampled for physical-chemical analysis. Grapevine water status of each vine was monitored routinely with 3h-lag diurnal cycles of water potentials and leaf gas-exchanges (from predawn to following night) and δ13C at harvest. Light and Ci photosynthesis response curves, predawn Fv/Fm were measured under dry and wet conditions. Grape composition, yield components and pruning-weights were also measured.

Results – Different models were tested to develop a pedotransfer function and transform electrical resistivity into soil volume wetness. Due to the sandy nature of the soil the Archie law performed well and was used to map water depletion in 3D with an error of 1.2 %vol., R2 = 0.73 (measured on an independent test set). Before rewetting the grapevine experienced severe drought stress in both years of the study (< – 10MPa in predawn), and amount of soil water per vine was significantly correlated to single plant water potentials and to canopy size. One fold differences in the amount of soil water absorbed by the two rootstocks were reached at the end of the drought period, with distinct spatial patterns. The 110R was more conservative, and soil depletion was localized in space around each vines, while the 101-14 was less conservative and more homogenously and deeply depleted the soil profile affecting whole plant water status and leaf physiology that was more depressed. Replenishment of the fraction of transpired soil water by drip irrigation was imaged by time-lapse ERT, and differences were observed in the reaction to rewetting by the two rootstocks.

Download the PDF

DOI:

Publication date: September 28, 2023

Issue: GiESCO 2019

Type: Poster

Authors

Luca BRILLANTE1*, M. Andrew WALKER2, Andrew J. McELRONE2, 3, S. Kaan KURTURAL2

Dep. of Viticulture and Enology, California State University, Fresno, CA 93740, USA
Department of Viticulture and Enology, University of California, Davis, CA 95616, USA
USDA-Agricultural Research Service, Davis, CA 95616, USA

Contact the author

Keywords

grapevine, rootstocks, Electrical Resistivity Tomography ERT, water stress, soil water, drought, drip irrigation

Tags

GiESCO | GiESCO 2019 | IVES Conference Series

Citation

Related articles…

Exploring zoxamide sensitivity in Plasmopara viticola populations: implications for fungicide management in precision agriculture

Fungicides play a critical role in managing grapevine downy mildew caused by the oomycete Plasmopara viticola, a biotrophic and polycyclic pathogen with a high risk of fungicide resistance. Zoxamide, categorized as a low to medium resistance risk, disrupts cell division by inhibiting tubulin polymerization. Resistance to zoxamide is uncommon in field isolates. This six-year study (2017-2022) aimed to detect and quantify zoxamide sensitivity in P. viticola populations across varying resistance pressures in Italian grapevine regions. Analysis of 126 samples from 57 vineyards, mainly in North-Eastern Italy, revealed that most samples exhibited EC50, EC95, and MIC values below 0.1 and 10 mg/L of zoxamide, respectively. Nineteen vineyards showed reduced sensitivity (MIC>100 mg/L), but only four samples were characterized by 24-54% resistant oospores at >100 mg/L of zoxamide.
Read More

Effect of Yeast Derivative Products on Aroma compounds retention in model wine

For many years, enological research has developed commercial formulates of yeast derivatives as stabilizing agents and technological adjuvants in winemaking. These products are obtained from yeast by autolytic, plasmolytic, or hydrolytic processes that liberate many macromolecules from the yeast cell, principally polysaccharides and oligosaccharides and most specifically mannoproteins that are well known for their ability to improve tartaric stability and to reduce the occurrence of protein hazes (Ángeles Pozo-Bayón et al., 2009; Charpentier & Feuillat, 1992; Morata et al., 2018; Palomero et al., 2009).

Read More

1H-NMR-based Untargeted Metabolomics to assess the impact of soil type on the chemical composition of Mediterranean red wines

Untargeted metabolomics has proven to be an effective method to study the impact of the terroir on metabolic profile of wines. In this context, the aim of this study was to evaluate the effects of different soil types on the chemical composition of Mediterranean red wines, through 1H-NMR metabolomics combined with chemometrics.Grapes from Nero d’Avola L. red cultivar cultivated on four different soil types were separately vinified to obtain four different red wines.One milliliter of raw wine was analyzed by means of a Bruker Avance II 400 spectrometer operating at 400.15 MHz

Read More

Drought responses of grapevine cultivars under different environments

Using grapevine genetic diversity is one of the strategies to adapt viticulture to climate change. In this sense, assessing the plasticity of cultivars in their responses to environmental conditions is essential. For this purpose, the drought tolerance of Grenache, Tempranillo and Semillon cultivars grafted onto SO4 was evaluated at two experimental vineyards, one located in Valencia (Spain) and the other in Bordeaux (France). This was done by assessing gas exchange parameters, water relations and leaf hydraulic traits at the end of the season.

Read More

The use of plasma activated water in barrel disinfection: impact on oak wood composition

The use of barrels is a practice that improves the quality of wines. The porous structure of wood favors the accumulation of microorganisms that can deteriorate the quality of wines so that barrel cleaning and sanitizing treatments are essential. The burning of sulphur discs has been the most common practice in winemaking because ots biocide effect. Nevertheless, its effectiveness is still insufficient and it is harmful for human health.

Read More