Francisco E. Espinosa scite author profile

Francisco E. Espinosa

4Publications

26Citation Statements Received

41Citation Statements Given

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Seed Morphology in Key Spanish Grapevine Cultivars

Cervantés

Gómez

Espinosa³

et al. 2021

Agronomy

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Ampelography, the botanical discipline dedicated to the identification and classification of grapevine cultivars, was grounded on the description of morphological characters and more recently is based on the application of DNA polymorphisms. New methods of image analysis may help to optimize morphological approaches in ampelography. The objective of this study was the classification of representative cultivars of Vitis vinifera conserved in the Spanish collection of IMIDRA according to seed shape. Thirty eight cultivars representing the diversity of this collection were analyzed. A consensus seed silhouette was defined for each cultivar representing the geometric figure that better adjusted to their seed shape. All the cultivars tested were classified in ten morphological groups, each corresponding to a new model. The models are geometric figures defined by equations and similarity to each model is evaluated by quantification of percent of the area shared by the two figures, the seed and the model (J index). The comparison of seed images with geometric models is a rapid and convenient method to classify cultivars. A large proportion of the collection may be classified according to the new models described and the method permits to find new models according to seed shape in other cultivars.

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Phenological Study of 53 Spanish Minority Grape Varieties to Search for Adaptation of Vitiviniculture to Climate Change Conditions

Muñoz-Organero¹,

Espinosa²,

Cabello³

et al. 2022

Horticulturae

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The main phenological stages (budburst, flowering, veraison, and ripeness) of 53 Spanish minority varieties were studied to determine their potential to help winegrowers adapt to climate change conditions. In total, 43 varieties were studied in the same location in Spain (Alcalá de Henares, in the Madrid region) and 10 varieties in 5 other regions (Galicia, Navarre, Catalonia, Extremadura, and Andalusia). Other traits of agronomic and oenological interest, such as yield and acidity, were also monitored. The results allow for the grouping of the varieties into several clusters according to the time of ripeness (very early—only for red varieties—and early, intermediate, and late, for both red and white varieties) and yield (high, medium, and low). The total acidity in the grape juice ranged from 3 to 11 g of tartaric acid/L. The average temperatures were higher (up to 3–4 °C during summer) compared to historical averages during the 1957–2021 time period. Advanced phenology phases and reduced acidity are regarded as negative effects of climate change for winegrowing practices. Since some minority varieties showed late or intermediate ripening, high acidity, and high (1 Kg/shoot) or medium (0.5 Kg/shoot) yield, our findings suggest that they may be cultivated in the coming years by winegrowers as an approach to mitigate climate change effects.

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Seed Morphology in Key Spanish Grapevine Cultivars

Cervantés¹,

Gómez²,

Espinosa³

et al. 2021

Preprint

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Minority grapevine varieties as climate change adaptation strategy: Exploring heat tolerance plasticity

Espinosa¹,

Organero²,

Fernández

et al. 2023

BIO Web Conf.

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Climate change is increasing average temperatures and intensity and frequency of extreme events such as heat waves. Productivity declines and plant damage due to those changes are already described for several majority varieties, especially in the Mediterranean basin. Less explored minority varieties can arise as alternatives due high heat tolerance, or for having high acclimation potential to heat. We evaluated the heat tolerance after acclimation in three summer thermic environments of four Spanish varieties: two majority (‘Tempranillo’, ‘Airén’) and two minority (‘Jarrosuelto’, ‘Morate’). Summer thermic environments differed in average temperature, and length of the warm period. Varieties differed in heat tolerance and its plasticity due to the acclimation to the environments. Within the majority varieties, ‘Tempranillo’ showed low heat tolerance and moderate plasticity in heat tolerance highlighting its susceptibility to climate change. ‘Airén’ had slightly higher tolerance than ‘Tempranillo’ and certain adaptation capacity to environments. Within the minority, ‘Jarrosuelto’ had high tolerance to heat events but low heat tolerance plasticity. ‘Morate’ was the variety with highest heat tolerance plasticity, indicating its strong adaptive potential. Majority varieties displayed susceptibility to heat events and global warming negative effects. However, minority varieties can offer solutions either by having high tolerance to heat or by having high acclimation.

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