Impact of vine water status on berry mass and berry tissue development of Cabernet franc (<i>Vitis vinifera</i> L.), assessed at berry level

Triolo, Roberta; Roby, Jean Philippe; Pisciotta, Antonino; Lorenzo, Rosario Di; Leeuwen, Cornelis van

doi:10.1002/jsfa.9834

Cited by 16 publications

(14 citation statements)

References 32 publications

(98 reference statements)

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“…The negative correlation may be explained by a physical inhibition of the flowering process or poor phytosanitary conditions due to high precipitation. The positive correlation may also be explained by water effects on berry development after bloom (Ojeda et al, 2001;Triolo et al, 2019), especially since Vineyard C was rain-fed.…”

Section: Discussionmentioning

confidence: 99%

“…In addition, both temperature and precipitation can have a reducing influence on yield development during extreme events. Finally, temperature and water availability are known to be particularly influential on yield during specific phenological periods (Ojeda et al, 2001;Petrie and Clingeleffer, 2005;Keller et al, 2010;Guilpart et al, 2014;Pagay and Collins, 2017;Triolo et al, 2019). These periods of sensitivity are related to the successive implementation of yield components (Laurent et al, 2021) and their timing and duration is hypothesised to vary depending on the terroir, including vineyard management factors.…”

Section: Introductionmentioning

confidence: 99%

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Local influence of climate on grapevine: an analytical process involving a functional and Bayesian exploration of farm data time series synchronised with an eGDD thermal index

et al. 2022

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Climate influence on grapevine physiology is prevalent and this influence is expected to increase with climate change. Climate influence on grapevine physiology can vary depending on the terroir. A better understanding of these local terroir variations is likely to be achieved with analyses that use local data; i.e., farm/vineyard data. Thus, the challenge lies in exploiting farm data to enable grape growers to understand their own terroir and consequently adapt their practices to the local conditions. In such a context, this article proposes an analytical process to site-specifically study climate influence on grapevine physiology by focusing on time series of the weather data often contained in farm data sets. This article focuses on temperature and precipitation influence on yield in the form of a case study. The analytical process includes the Extended Growing Degree Days (eGDD) and the Bayesian functional Linear regression with Sparse Steps functions (BLiSS) methods in order to detect site-specific periods of strong climate influence on grapevine yield. It uses data from three commercial vineyards situated in the Bordeaux region (France), California (USA) and Israel. In general, the periods of climate influence on grapevine yield detected for the three vineyards identified the same stages of yield development, which have already been studied in the scientific literature. However, some vineyard differences were observed, including: i) different periods of influence associated with a given stage of yield development between the vineyards, ii) different influential weather variables between the three vineyards for a given period, and iii) differing duration of the period of influence associated with a given stage of yield development between the vineyards. These results show the potential of the proposed analytical process for analysing the time series of farm weather data in order to extract site-specific climate indicators of grapevine yield.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Local influence of climate on grapevine: an analytical process involving a functional and Bayesian exploration of farm data time series synchronised with an eGDD thermal index

et al. 2022

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“…The phenylpropanoid pathway is controlled by diverse biotic and abiotic factors, among which, water availability is known to significantly affect the levels and physicochemical properties of grape phenolics. Specifically, a moderate water deficit is reported to positively affect the accumulation of skin anthocyanins (Theodorou et al, 2019) and proanthocyanidins (Cassasa et al, 2015) either indirectly by improving within vine allocation of photosynthates or increasing the skin proportion of (generally smaller) berries (Triolo et al, 2019), or by directly stimulating secondary metabolism by up-regulation of the specific genes of the phenylpropanoid pathway (Castellarin et al, 2007b). In fact, many studies have reported that berry mass per se is unlikely to be the main driver of increased phenolic concentration in grapes and that the cultural practices that induce those small berries are responsible for a large part of the observed changes in berry chemistry (Roby et al, 2004;Mirás-Avalos et al, 2019).…”

Section: Introductionmentioning

confidence: 99%

Effects of post-veraison irrigation on the phenolic composition of <i>Vitis vinifera</i> L. cv. ‘Xinomavro’ grapes

et al. 2021

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‘Xinomavro’ (the second planted red Greek variety behind ‘Agiorgitiko’) generally produces wines that are light in colour but with increased astringency, possibly related to grape flavonoid amount and composition; although irrigation is accepted as an effective means to enhance grape phenolic maturity, its role has not yet been sufficiently studied in the case of Xinomavro. This study aimed to determine the effect of post-veraison irrigation on berry anthocyanin and proanthocyanidin amount and composition, of field-grown Xinomavro vines (Vitis vinifera L.), under the typical summer conditions of Northern Greece. In a 10-year-old Xinomavro vineyard, two post-veraison watering regimes were applied—irrigation starting 20 days after veraison (mid-ripening irrigation, MRI) and irrigation starting immediately after veraison was completed (after veraison irrigation, AVI)—alongside non irrigated vines (NI), and vines irrigated continuously from berry set through harvest (continuous irrigation, CI). Proanthocyanidin composition was determined in both skins and seeds by employing phloroglucinolysis followed by HPLC-UV and MS detection (high-performance liquid chromatographic with tandem mass spectrometric and ultraviolet absorbance detection), and the anthocyanin profile was identified only in the skin extracts by HPLC-UV (high-performance liquid chromatographic with ultraviolet absorbance detection). Post-veraison irrigation increased yield parameters and reduced anthocyanin levels and the proportion of their stable forms (acylated vs. non-acylated, tri-oxygenated and methoxylated on the B-ring vs. di-oxygenated and hydroxylated), compared to NI vines; however, these effects were more pronounced in the case of early post-veraison irrigation (AVI) than late-season irrigation (MRI). Irrigation also increased the mean Degree of Polymerization (mDP) and prodelphinidin percentage of skin tannins and decreased mDP of seed tannins. In the light of the necessity to control the accelerated ripening under the increasingly hotter and drier climatic conditions, late irrigation (MRI) might provide a solution to avoid excessive sugar levels and allow a slightly higher yield without significant reductions in berry phenolic content. The results suggest that the optimisation of the timing of irrigation could provide an effective adaptation strategy to climate change in Mediterranean viticultural areas.

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“…The interaction between soil and irrigation was never significant for the productive parameters ( Table 5 ). Reductions of berry weight under rain-fed conditions have been already reported [ 55 , 56 , 57 , 58 , 59 , 60 ] and are most likely due to a reduction of cell expansion [ 56 ]. Soil type and irrigation treatment did not affect TSS content, while they had a significant influence on TA ( Table 6 ).…”

Section: Resultsmentioning

confidence: 99%

“…Neither soil nor irrigation influenced the must sugar. However, in the literature, contradictory results regarding the influence of irrigation on yield and must sugar have been obtained depending on vintage, cultivars and rootstocks, time and intensity of water deficit [ 13 , 14 , 59 , 60 , 61 , 62 , 63 , 64 , 65 ], as well as water amounts distributed during the season [ 57 ], in the ripening period, and near harvest.…”

Section: Resultsmentioning

confidence: 99%

Soil and Regulated Deficit Irrigation Affect Growth, Yield and Quality of ‘Nero d’Avola’ Grapes in a Semi-Arid Environment

Barbagallo

Vesco

Lorenzo

et al. 2021

Plants

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The present work studied the effect of two consecutive years of regulated deficit irrigation (RDI) compared to rain fed management on the vegetative growth, yield, and quality of ‘Nero d’Avola’ grapes. The trial was conducted separately in two soils (vertisol and entisol) located at the top and bottom hillside of the same vineyard. Vertisol was characterized by greater depth, organic matter, exchangeable K2O, and total N than entisol. RDI was based on an irrigation volume at 25% of estimated crop evapotranspiration (ETc) up to end of veraison and 10% of estimated ETc up to 15 days before harvest. Predawn water potential (PDWP) was used as indicator of plant water status and irrigation timing. No difference in irrigation management was evident between vertisol and entisol. Under Mediterranean climate conditions, RDI was able to enhance grape yield and vegetative growth, especially in vertisol, but it reduced berry titratable acidity and total anthocyanins. ‘Nero d’Avola’ showed to adapt to drought conditions in the open field. Both soil type and irrigation regimes may provide opportunities to obtain different ‘Nero d’Avola’ wine quality and boost typicality.

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Impact of vine water status on berry mass and berry tissue development of Cabernet franc (Vitis vinifera L.), assessed at berry level

Cited by 16 publications

References 32 publications

Local influence of climate on grapevine: an analytical process involving a functional and Bayesian exploration of farm data time series synchronised with an eGDD thermal index

Local influence of climate on grapevine: an analytical process involving a functional and Bayesian exploration of farm data time series synchronised with an eGDD thermal index

Effects of post-veraison irrigation on the phenolic composition of <i>Vitis vinifera</i> L. cv. ‘Xinomavro’ grapes

Soil and Regulated Deficit Irrigation Affect Growth, Yield and Quality of ‘Nero d’Avola’ Grapes in a Semi-Arid Environment

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