terclim by ICS banner
IVES 9 IVES Conference Series 9 Open-GPB 9 Open-GPB-2024 9 Flash - Abiotic interactions 9 The adaptation and resilience of scions and rootstocks to water constraint

The adaptation and resilience of scions and rootstocks to water constraint

Abstract

The ability of grapevine cultivars and rootstocks to cope with and adapt to recurring water constraints is the focus of this study. The contribution of intrinsic (epigenetic) and extrinsic (rootzone microbial community) factors to water stress resilience will be discussed. The study was conducted in a validated model vineyard where three scion cultivars (Pinotage, Shiraz, and Cabernet Sauvignon) on two rootstocks (Richter 110 and USVIT8-7) grow under recurring seasonal water constraint (and control) scenarios since planting (in 2020). Comprehensive profiling of the site, soil, atmospheric conditions, plants, and their physiological responses provide contextual data for the analyses conducted. Sampling occurred twice in a season, firstly when no water constraint was evident yet (in that season), or after a period of confirmed water stress. For the epigenetic analyses, an initial baseline methylation analysis was performed, indicating that the %methylation drops towards the second time point (as water constraint developed). A more detailed analysis followed to also test for developmental patterns and to identify target plants for a deeper epigenetic analysis. The soil microbial community analysis showed that the rootstock-scion combinations significantly influenced fungal communities in terms of the level of diversity and community composition and structure, while sampling time points contributed significantly to differences in the bacterial community diversity. Clear alterations were observed in the vineyard microbiome with increasing water constraints. The combined data provides insight into the adaptability of grapevines and confirms the value of long-term experimentation and a high level of characterisation of complex field phenotyping sites in grapevine.

DOI:

Publication date: June 13, 2024

Issue: Open GPB 2024

Type: Article

Authors

Melané A Vivier*, Riyana Diljee, Nomfundo Shange, Anscha Zietsman, Reinhard Swart, Talitha Venter, Carlos Poblete-Echeverria, Philip R Young, Mathabatha Evodia Setati

South African Grape and Wine Research Institute (SAGWRI), Faculty of AgriSciences, Stellenbosch University, Matieland 7602, South Africa

Contact the author*

Keywords

Scion, Rootstock, Water stress, Epigenetics; Grapevine Microbiome

Tags

IVES Conference Series | Open GPB | Open GPB 2024

Citation

Related articles…

Hyperspectral imaging for precision viticulture

Precision viticulture aims to optimize vineyard management by monitoring and responding to variability within vine plots. this work presents a comprehensive study on the application of hyperspectral imaging (hsi) technology for monitoring purposes in precision viticulture. authors explore the deployment of hsi sensors on various platforms including laboratory settings, terrestrial vehicles, and unmanned aerial vehicles, facilitating the collection of high-resolution data across extensive vineyard areas.

Comparison of integrated, organic and biodynamic viticultural practices

In this video recording of the IVES science meeting 2021, Johanna Döring (Hochschule Geisenheim University Department of General and Organic Viticulture, Geisenheim, Germany) speaks about the comparison of integrated, organic and biodynamic viticultural practices. This presentation is based on an original article accessible for free on OENO One.

Epigenetic regulation of APT3 seems to explain the masculinized phenotype of a floral mutant of Listán Prieto

While most cultivated grapevines (Vitis vinifera L.) possess perfect flowers, their wild ancestors were dioecious.

Soil humidity and early leaf water potential affected by water recharge before budbreak in cv. Tempranillo deficitary irrigated during the summer in the D. O. Ribera del Duero

The availability of water for irrigation is usually greater at the beginning of spring than in the following months, until the end of summer, in most regions of Spain.

Comparison between the volatile chemical profile of two different blends for the enhancement of  “Valpolicella Superiore”

Valpolicella is a famous wine producing region in the province of Verona owing its fame above all to the production of two Protected Designation of Origins (PDOs) withered wines: Amarone and Recioto. In recent years, however, the wineries have been interested in the enhancement and qualitative increase of another PDO, Valpolicella Superiore. All the Valpolicella PDOs wines are produced with a unique grape blend, mainly Corvina, Corvinone, Rondinella and a range of other minor varieties.