Combined effects of water status and iron deficiency chlorosis on grape composition in non-irrigated vineyards

Authors

DOI:

https://doi.org/10.1590/1678-992x-2018-0084

Keywords:

Vitis vinifera L., chlorophyll, drought, leaf area index, stress

Abstract

Although water deficit and iron deficiency chlorosis are common environmental stresses in the Mediterranean area, few data are reported in the literature on their effects on vineyards, when acting simultaneously. The main objective of this research was to study the combined effects of iron deficiency and water status on vigor, yield and fruit composition in rainfed vineyards. Moreover, the investigation aimed to evaluate the feasibility of using foliar chlorophyll content (Chl) and predawn leaf water potential (LWP), measured at veraison, to assess potential quality of grapes in the framework of precision viticulture. For this, 24 non-irrigated ‘Tempranillo’ vineyard subzones were monitored in Ribera del Duero (North-Central Spain) during three consecutive seasons (2011-2013). The analysis of variance and principal component analysis showed that malic acid concentrations of the must were impacted only by Chl, whereas total soluble solids and total acidity were mainly modified by LWP. Both water and iron status reduced yield and berry weight and had additive effects on extractable anthocyanin content in grapes, total polyphenol index and color density of the must. In all seasons, the ratio Chl/LWP had a better predicting value for quality parameters of these grapes than leaf area index, Chl or LWP individually. The present work demonstrates the potential interest of physiological indexes combining water status and foliar chlorosis as indicators of grape phenolic potential in rainfed vineyards affected by iron deficiency.

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Published

2019-08-02

Issue

Section

Crop Science

How to Cite

Combined effects of water status and iron deficiency chlorosis on grape composition in non-irrigated vineyards. (2019). Scientia Agricola, 76(6), 473-480. https://doi.org/10.1590/1678-992x-2018-0084