Banner of 46th World Congress of Vine and Wine
IVES 9 IVES Conference Series 9 OIV 9 OIV 2025 9 Resilient viticultural practices for sustainable ecosystems 9 Evaluation of the adaptation of Palomino Fino clones based on their physiological response

Evaluation of the adaptation of Palomino Fino clones based on their physiological response

Abstract

Genetic diversity within grapevine cultivars is a fundamental resource for varietal improvement and adaptation to cultivation requirements. Clonal selection is currently the most widely accepted method of improving wine grape varieties and relies on the identification of somatic variants exhibiting desirable traits. Palomino Fino is the most extensively cultivated autochthonous grapevine variety in Andalusia, traditionally used in the production of Sherry wines. Despite the existence of 28 officially recognized Palomino Fino clones, their physiological behavior has not been recently studied. In this context, this research work aimed to evaluate ten certified Palomino Fino clones (coded from 1 to 10) through measurements of photosynthetic rate (AN), leaf stomatal conductance (gs), intrinsic water use efficiency (WUEi), and effective quantum yield of photosystem II (PhiPSII). Significant intravarietal variability was observed in all parameters. Clones 7 and 8 maintained higher values of AN and gs throughout most of the season, along with elevated PhiPSII values, indicating greater physiological performance and adaptability. Conversely, clones 1, 2, 3, and 10 showed generally lower photosynthetic rates, meanwhile clones 1 and 10 exhibited higher WUEi, suggesting a potential advantage under water-limited conditions. These results highlight the value of physiological characterization in guiding clonal selection for vineyard adaptation in the context of climate change.

DOI:

Publication date: September 22, 2025

Issue: 46th World Congress of Vine and Wine

Type: Oral

Authors

Ana Jiménez-Cantizano1, José Antonio Delgado-Rujano2, Juan Manuel Pérez-González1, Manuel Rueda-Martínez1, Pau Sancho-Galán3, Saray Gutiérrez-Gordillo4, Antonio Amores-Arrocha1

1 Department of Chemical Engineering and Food Technology, Vegetal Production Area, University of Cadiz, Agrifood Campus of International Excellence (ceiA3), IVAGRO, P.O. Box 40, 11510 Puerto Real, Spain

2 Department of Analytical Chemistry, Faculty of Science, University of Cadiz, Agrifood Campus of International Excellence (ceiA3), IVAGRO, P.O. Box 40, 11510 Puerto Real, Spain

3 Department of Chemical Engineering and Food Technology, Food Technology Area, University of Cadiz, Agrifood Campus of International Excellence (ceiA3), IVAGRO, P.O. Box 40, 11510 Puerto Real, Spain

4 Plant Ecophysiology and Irrigation (ECOVER), Instituto de Recursos Naturales y Agrobiología (IRNAS), Consejo Superior de Investigaciones Científicas (CSIC), Avda. Reina Mercedes, 41012 Seville, Spain 

Contact the author*

Tags

IVES Conference Series | OIV | OIV 2025

Citation

Related articles…

On quality assurance of winemaking components

This report examines product quality assurance issues arising when technological aids and food additives are utilized in winemaking.

Socioeconomic impact of the LIFE Climawin project from the perspective of employees

This study examines, from the perspective of the employees at Bosque de Matasnos—a demonstrative winery participating in the LIFE Climawin project—the socioeconomic impact and potential contributions of the initiative to the wine sector and the sustainable development of the Ribera del Duero region in Spain.

Embracing innovation for a future-ready wine industry: insights from Moldova’s AI-powered pilot project

In 2023–2024, the Republic of Moldova launched its first AI-powered wine pilot, integrating artificial intelligence into the vitivinicultural value chain.

StartupLab and HackaVitis: open innovation and technology transfer in the wine sector

The study analyzes a set of open innovation actions promoted by the innovation environments of the Instituto Federal do Rio Grande do Sul (IFRS), in cooperation with entities, companies in the sector and the Department of Innovation, Science and Technology of Rio Grande do Sul.

Rară Neagră 2.0: prospecting, improving and safeguarding the biodiversity in an eastern european heritage grape variety

The Rară Neagră 2.0 project aims to restore and safeguard the intra-varietal diversity of the ancient Eastern European grape variety Rară Neagră through polyclonal selection and the establishment of a certified genetic conservatory.