Instituto de Ciencias de la Vid y del Vino (Gobierno de La Rioja, CSIC, Universidad de La Rioja), Logroño, Spain.
J Sci Food Agric. 2019 Aug 15;99(10):4833-4841. doi: 10.1002/jsfa.9741. Epub 2019 May 14.
Soil and climate are among the most determining factors for the composition of grapes. Among the compounds present in grapes, anthocyanins mainly determine their organoleptic and health-related properties. The purpose of this work was to study the influence of three different soils on the anthocyanin content of Tempranillo grapes (Vitis vinifera L.) from 2016 and 2017 vintages. The soils of the vineyards were classified as Fluventic Haploxerepts (FH), Typic Calcixerepts (TC) and Petrocalcic Palexerolls (PP).
Non-acylated anthocyanins, and those derived from malvidin and peonidin, were the most abundant in grapes, regardless of soil type and year. During the wetter season (2016), the grapes with the highest concentration of total anthocyanins and several of the major anthocyanins were those from TC and PP soils, in which nitrogen availability was lower than that in FH soil. However, during the drier season (2017), no significant differences were observed, although trends similar to those seen in the 2016 season were recognized. Principal component analysis showed a good separation of samples according to the two seasons and to the three soils in each season.
In vineyards that resemble each other closely and that are located in a unique mesoclimatic area where similar plant material is used and similar managements practices are applied, soil characteristics, which condition water holding capacity and nitrogen availability for the vines, in conjunction with seasonal conditions, were the factors that predominantly determined the anthocyanin composition in grapes. © 2019 Society of Chemical Industry.
土壤和气候是决定葡萄成分的最重要因素之一。在葡萄中存在的化合物中,主要是花色苷决定了它们的感官和与健康相关的特性。本工作的目的是研究三种不同土壤对 2016 年和 2017 年份 Tempranillo 葡萄(Vitis vinifera L.)花色苷含量的影响。葡萄园的土壤被分类为 Fluventic Haploxerepts(FH)、Typic Calcixerepts(TC)和 Petrocalcic Palexerolls(PP)。
非酰化花色苷和来自于矢车菊素和锦葵色素的花色苷,无论土壤类型和年份如何,在葡萄中都最为丰富。在较湿润的季节(2016 年),TC 和 PP 土壤中葡萄的总花色苷和几种主要花色苷浓度最高,其中氮的有效性低于 FH 土壤。然而,在较干燥的季节(2017 年),则未观察到显著差异,尽管仍能看出与 2016 年相似的趋势。主成分分析显示,根据两个季节和每个季节的三种土壤,很好地分离了样品。
在相似的微气候地区,类似的葡萄园使用相似的植物材料和相似的管理实践,土壤特性,这些特性影响了葡萄藤的持水能力和氮有效性,结合季节性条件,是决定葡萄花色苷组成的主要因素。© 2019 化学工业协会。
