Publicaciones en las que colabora con Éric Gomès (13)

2024

  1. Increased temperature, elevated atmospheric CO2 and water deficit modify grape composition of different 'Tempranillo' (Vitis vinifera L.) clones

    Acta Horticulturae, pp. 187-196

2021

  1. Impact of 2100-Projected Air Temperature, Carbon Dioxide, and Water Scarcity on Grape Primary and Secondary Metabolites of Different Vitis vinifera cv. Tempranillo Clones

    Journal of agricultural and food chemistry, Vol. 69, Núm. 22, pp. 6172-6185

2020

  1. High Temperature and Elevated Carbon Dioxide Modify Berry Composition of Different Clones of Grapevine (Vitis vinifera L.) cv. Tempranillo

    Frontiers in Plant Science, Vol. 11

2018

  1. Tempranillo clones differ in the response of berry sugar and anthocyanin accumulation to elevated temperature

    Plant Science, Vol. 267, pp. 74-83

2017

  1. Influencia de la radiación ultravioleta B sobre la composición de la uva (cv. Tempranillo) en condiciones de sequía

    Tierras: Agricultura, Núm. 257, pp. 102-104

2016

  1. Ultraviolet-B alleviates the uncoupling effect of elevated CO 2 and increased temperature on grape berry (Vitis vinifera cv. Tempranillo) anthocyanin and sugar accumulation

    Australian Journal of Grape and Wine Research, Vol. 22, Núm. 1, pp. 87-95

  2. Sensitivity of grapevine phenology to water availability, temperature and CO 2 concentration

    Frontiers in Environmental Science, Vol. 4, Núm. JUL

  3. Erratum to "Ultraviolet-B alleviates the uncoupling effect of elevated CO2 and increased temperature on grape berry (Vitis vinifera cv. Tempranillo) anthocyanin and sugar accumulation" [Australian Journal of Grape and Wine Research 22, 2016, 87-95], [doi: 10.1111/ajgw.12213]

    Australian Journal of Grape and Wine Research

2015

  1. Characterization of the adaptive response of grapevine (cv. Tempranillo) to UV-B radiation under water deficit conditions

    Plant Science, Vol. 232, pp. 13-22

  2. Climate change conditions (elevated CO2 and temperature) and UV-B radiation affect grapevine (Vitis vinifera cv. Tempranillo) leaf carbon assimilation, altering fruit ripening rates

    Plant Science, Vol. 236, pp. 168-176

2014

  1. Ultraviolet-B radiation and water deficit interact to alter flavonol and anthocyanin profiles in grapevine berries through transcriptomic regulation

    Plant and Cell Physiology, Vol. 55, Núm. 11, pp. 1925-1936

  2. Ultraviolet-B radiation modifies the quantitative and qualitative profile of flavonoids and amino acids in grape berries

    Phytochemistry, Vol. 102, pp. 106-114

2013

  1. Short- and long-term physiological responses of grapevine leaves to UV-B radiation

    Plant Science, Vol. 213, pp. 114-122