Your search keyword '"Stefanos Koundouras"' showing total 18 results

1. Carbon isotope natural abundance (δ13C) in grapevine organs is modulated by both water and nitrogen supply

Author

Demetris Taskos, Eleftheria Zioziou, Nikolaos Nikolaou, Georgios Doupis, and Stefanos Koundouras

Subjects

carbon isotope composition, 13C discrimination, nitrogen fertilisation, irrigation, leaf, cane, Agriculture, Botany, QK1-989

Abstract

Our objective was to investigate the effect of water and nitrogen (N) availability on the carbon isotope composition of leaf blades, canes and ripe berry must (juice) in field grown grapevines. In two consecutive years, the combination of two irrigation treatments [Irrigation (I): 70 % of crop evapotranspiration (ETc) and no irrigation (NI)] and three rates of ammonium nitrate [0 (N0), 60 (N60) and 120 (N120) kg/ha N] were applied to two separate vineyards planted with cv. Xinomavro and cv. Cabernet-Sauvignon respectively in a randomised complete block design. Carbon isotope composition (δ13C) of leaf blades, stem water potential (Ψs), and leaf gas exchange were measured at berry set, bunch closure, veraison and maturity during each growing season. δ13C of bulk berry must at maturity and of dormant canes was also measured. Leaf δ13C and cane δ13C decreased with water supply, but increased with N fertilisation. Must δ13C was lower in the irrigated N0 and N60 vines, whereas irrigation treatments did not differ under the N120 rate. The relative weight of irrigation and fertilisation effect on leaf δ13C varied across samplings: N application accounted for a higher proportion of leaf δ13C variance during the early stages of berry growth, whereas irrigation induced higher variance of leaf δ13C after veraison. The weight of the irrigation effect on cane δ13C was higher from that of fertilisation. Discrimination mechanisms against 13C in grapevine could be mediated by both N fertilisation and irrigation. The well-documented explanation of δ13C variation based on isotopic effects during CO2 diffusion through leaf stomata and carboxylation driven by water conditions may not apply to all cases, since additional discriminating processes against 13C associated with CO2 transfer from the intercellular spaces to the carboxylation sites may be affected by nitrogen supply. The study provides evidence for the first time that carbon isotope composition of leaf blades, canes and berry must is modulated by nitrogen supply. Interpretations of carbon isotope natural abundance in field grown grapevine tissues should therefore consider both water and nitrogen availability.

Published

2020

2. Carbon isotope natural abundance (δ13C) in grapevine organs is modulated by both water and nitrogen supply

Author

Dimitrios Taskos, Eleftheria Zioziou, Nikolaos Nikolaou, Georgios Doupis, and Stefanos Koundouras

Subjects

carbon isotope composition, 13C discrimination, nitrogen fertilisation, irrigation, leaf, cane, Agriculture, Botany, QK1-989

Abstract

Our objective was to investigate the effect of water and nitrogen (N) availability on the carbon isotope composition of leaf blades, canes and ripe berry must (juice) in field grown grapevines. In two consecutive years, the combination of two irrigation treatments [Irrigation (I): 70 % of crop evapotranspiration (ETc) and no irrigation (NI)] and three rates of ammonium nitrate [0 (N0), 60 (N60) and 120 (N120) kg/ha N] were applied to two separate vineyards planted with cv. Xinomavro and cv. Cabernet-Sauvignon respectively in a randomised complete block design. Carbon isotope composition (δ13C) of leaf blades, stem water potential (Ψs), and leaf gas exchange were measured at berry set, bunch closure, veraison and maturity during each growing season. δ13C of bulk berry must at maturity and of dormant canes was also measured. Leaf δ13C and cane δ13C decreased with water supply, but increased with N fertilisation. Must δ13C was lower in the irrigated N0 and N60 vines, whereas irrigation treatments did not differ under the N120 rate. The relative weight of irrigation and fertilisation effect on leaf δ13C varied across samplings: N application accounted for a higher proportion of leaf δ13C variance during the early stages of berry growth, whereas irrigation induced higher variance of leaf δ13C after veraison. The weight of the irrigation effect on cane δ13C was higher from that of fertilisation. Discrimination mechanisms against 13C in grapevine could be mediated by both N fertilisation and irrigation. The well-documented explanation of δ13C variation based on isotopic effects during CO2 diffusion through leaf stomata and carboxylation driven by water conditions may not apply to all cases, since additional discriminating processes against 13C associated with CO2 transfer from the intercellular spaces to the carboxylation sites may be affected by nitrogen supply. The study provides evidence for the first time that carbon isotope composition of leaf blades, canes and berry must is modulated by nitrogen supply. Interpretations of carbon isotope natural abundance in field grown grapevine tissues should therefore consider both water and nitrogen availability.

Published

2020

3. Irrigation and Leaf Removal Effects on Polyphenolic Content of Grapes and Wines Produced from cv. ‘Agiorgitiko’ (Vitis vinifera L.)

Author

Evangelia HORTI, Maria KYRALEOU, Stamatina KALLITHRAKA, Manolis PAVLIDIS, Stefanos KOUNDOURAS, Ioannis KANAKIS, and Yorgos KOTSERIDIS

Subjects

anthocyanins, defoliation, irrigation, phenolic compounds, Forestry, SD1-669.5, Agriculture (General), S1-972

Abstract

Vitis vinifera L. cv. ‘Agiorgitiko’ is one of the most important red grape varieties of Greece, cultivated almost exclusively in the region of Nemea in north-eastern Peloponnese. This work aimed to study the influence of some commonly applied viticultural practices on the polyphenolic composition of ‘Agiorgitiko’. Leaf removal at veraison, irrigation, and a combination of both, were applied and the phenolic content of the grapes and of the produced wines was compared. The results showed that leaf removal decreased berry size, enhanced total anthocyanin, total phenol and malvidin 3-O-monoglucoside accumulation in skins and increased the amount of extractable anthocyanins in the juice. The combination of irrigation and leaf removal caused a significant increase in total phenols in the skin and in the amount of extractable anthocyanins in juice. As far as the produced wines were concerned, color intensity, tannin content and total polyphenols were increased due to leaf removal. Both irrigation and leaf removal resulted in wines with the highest concentration of malvidin 3-O-monoglucoside, although neither practice resulted in any significant difference in anthocyanin concentration of the wines. Vines where only irrigation was applied produced berries with reduced extractable anthocyanins, increased seed total phenols and lower wine total tannins. The study showed that increasing cluster sun exposure of ‘Agiorgitiko’ vines may be, overall, beneficial to the quality of the produced wine.

Published

2016

4. Effects of postveraison water regime on the phenolic composition of grapes and wines of cv. Agiorgitiko (Vitis vinifera L.)

Author

Stefanos Koundouras, Ioannis Kanakis, Efrosyni Drossou, Stamatina Kallithraka, and Yorgos Kotseridis

Subjects

irrigation, berry growth, skin anthocyanins, seed flavan-3-ols, wine tannins, Agriculture, Botany, QK1-989

Abstract

Aims: Vine water deficit is widely accepted as a powerful means to control grape and wine attributes. However, quality improvement is often achieved at the expense of a reduction in yield, especially when water deficit conditions are applied during the preveraison period. The aim of the present work was to test an irrigation regime based on manipulating water availability from veraison to harvest, as a means to control berry and wine composition with minimum effect on reproductive growth parameters. Methods and results: A field trial was conducted during two consecutive years (2007-2008) in Nemea, Southern Greece. Three irrigation treatments were applied on seven-year-old, vertical shoot positioned and spur pruned Agiorgitiko vines (Vitis vinifera L.), from veraison through harvest : irrigation at 70 % of crop evapotranspiration (ETc) (I70), irrigation at 30 % of ETc (I30) and non irrigated (NI). Irrigation amount produced significant differences in postveraison midday stem water potential pattern, especially during the drier year 2008. Yield was increased by irrigation in 2008, whereas berry growth was unaffected in both seasons. Berries of NI vines achieved higher total skin anthocyanin content in 2007, although individual anthocyanin levels were not affected by water regime. Irrigation effect on skin tannins was inconsistent but seed tannins were higher in I70 vines, with increased levels of catechin and epicatechin monomers. Among wine attributes, tannin concentration, but not anthocyanin, was mostly responsive to water deficit-induced changes in berry phenolic composition. The wines made from I70 grapes had a higher tannin content than those made from NI grapes. Conclusions: The results presented show that postveraison water regime had a significant effect on skin anthocyanins and, more markedly, on seed tannins, without altering berry growth parameters. Especially for seed tannins, this effect appears to predominate over variations in climatic conditions between years. Significance and impact of the study: This trial suggests that Agiorgitiko vines grown on the loamy soils of Nemea perform better under non irrigated conditions during the postveraison period since rainfed vines had improved phenolic composition (higher colour with lower contribution of seed tannins) without significant loss in productivity.

Published

2013

5. Changes in Tannin Composition of Syrah Grape Skins and Seeds during Fruit Ripening under Contrasting Water Conditions

Author

Maria Kyraleou, Stamatina Kallithraka, Nikolaos Theodorou, Pierre-Louis Teissedre, Yorgos Kotseridis, and Stefanos Koundouras

Subjects

irrigation, proanthocyanidins, flavan-3-ols, galloylation, polymerization, prodelphinidins, terminal and extension subunits, Organic chemistry, QD241-441

Abstract

Tannin accumulation and composition were determined in skins and seeds isolated from Vitis vinifera cv. Syrah grapes submitted to contrasting water regimes under semiarid climatic conditions. Three irrigation treatments were conducted, starting at berry set through harvest of two growing seasons, 2011 and 2012: irrigation at 100% of crop evapotranspiration ETc (FI), irrigation at 50% of ETc (DI) and non-irrigated (NI). Seed total tannins did not vary with maturity but those of skins underwent a progressive decline (especially in 2011), expressed both on a fresh weight and on a per berry basis. Skin total tannin concentration and content per berry were increased under NI and DI conditions, mainly in 2012. In contrast, seed total tannins (in 2012) and flavan-3-ol monomers and tannin oligomers (both years) were higher in the fully irrigated vines (FI). Skin polymer size increased during ripening, NI and DI skins showing higher mean degree of polymerization (mDP) compared to FI at harvest. NI was also associated with a lower percentage of galloylation (%G) in skin oligomeric fraction (in 2012) and a lower percentage of prodelphinidins in the skin polymeric fraction (both years) at harvest. The mDP and %G of seed extracts did not vary during ripening and were higher in NI but only in 2012. According to the results, management of vine water status was shown to influence tannin amount and composition of Syrah grapes grown under semiarid conditions.

Published

2017

6. Effects of post-veraison irrigation on the phenolic composition of Vitis vinifera L. cv. ‘Xinomavro’ grapes

Author

Stamatina Kallithraka, Stefanos Koundouras, Maria Kyraleou, Yorgos Kotseridis, Eleftheria Zioziou, Seraphim Theocharis, and Nikolaos Nikolaou

Subjects

Irrigation, Horticulture, chemistry.chemical_compound, chemistry, Proanthocyanidin, Yield (wine), Anthocyanin, Ripening, Berry, Vineyard, Food Science, Veraison

Abstract

‘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.

Published

2021

7. Vine performance benchmarking of indigenous Cypriot grape varieties Xynisteri and Maratheftiko

Author

Stefanos Koundouras, Cassandra Collins, Susan E.P. Bastian, Trent E. Johnson, Christodoulos Karaolis, Savvas Savvides, and Alexander Willem Copper

Subjects

0106 biological sciences, Irrigation, Vine, Stomatal conductance, 010504 meteorology & atmospheric sciences, Phenology, Horticulture, 01 natural sciences, Veraison, Geography, Yield (wine), Viticulture, 010606 plant biology & botany, 0105 earth and related environmental sciences, Food Science, Terroir

Abstract

Aim: The aims of this study were to (1) formulate a baseline understanding of the performance of the indigenous Cypriot white grape Xynisteri and the red grape Maratheftiko (Vitis vinifera L.), and (2) compare these varieties to Shiraz and Sauvignon blanc grown in a Cypriot vineyard.Materials and results: The investigation involved multiple dry grown vineyards from the Krasochoria region of Lemesos, Cyprus, during the 2017, 2018 and 2019 vintages. Vine performance measurements, including midday stem water potential, stomatal conductance, chlorophyll content, stomata density, vine phenology and vegetative and reproductive measurements, were taken at flowering, veraison and pre-harvest. Xynisteri had the greatest stomatal density, more shoots, more leaves, heavier bunches, greater yield, higher leaf water potential at harvest, and a stomatal conductance equal to Maratheftiko, but greater than that of both Shiraz and Sauvignon blanc. Maratheftiko had the longest shoots, largest shoot diameter and the greatest chlorophyll content out of all four varieties.Conclusions: This study identified the ability of the indigenous Cypriot grape varieties, Xynisteri and Maratheftiko, to better tolerate hot and dry conditions when compared to more commonly cultivated varieties grown in the same environmental conditions.Significance and impact of the study: The changing climate of wine growing regions worldwide is placing great pressure on the resources for sustainable viticulture. Many vineyards in hot climate zones base their businesses on European grape varieties traditionally grown in regions with abundant water resources. It is therefore necessary for the global wine industry to investigate grape varieties that are indigenous to hot climates. The eastern Mediterranean island of Cyprus is one such place, with more than 10 indigenous grape varieties that grow well in a hot climate without irrigation. Consumer studies have demonstrated that wines made from these Cypriot varieties are equally, if not more, acceptable than wines made from more traditional European grapes; therefore, the potential for their use in other hot wine growing regions is promising.

Published

2020

8. Carbon isotope natural abundance (δ13C) in grapevine organs is modulated by both water and nitrogen supply

Author

Stefanos Koundouras, Nikolaos Nikolaou, Eleftheria Zioziou, Georgios Doupis, and Dimitrios Taskos

Subjects

0106 biological sciences, Irrigation, Ammonium nitrate, chemistry.chemical_element, Growing season, Berry, Horticulture, 01 natural sciences, irrigation, 040501 horticulture, Veraison, lcsh:Agriculture, chemistry.chemical_compound, lcsh:Botany, 13C discrimination, Cane, nitrogen fertilisation, cane, carbon isotope composition, δ13C, biology, leaf, lcsh:S, 04 agricultural and veterinary sciences, biology.organism_classification, Nitrogen, lcsh:QK1-989, chemistry, 0405 other agricultural sciences, 010606 plant biology & botany, Food Science

Abstract

Our objective was to investigate the effect of water and nitrogen (N) availability on the carbon isotope composition of leaf blades, canes and ripe berry must (juice) in field grown grapevines.In two consecutive years, the combination of two irrigation treatments [Irrigation (I): 70 % of crop evapotranspiration (ETc) and no irrigation (NI)] and three rates of ammonium nitrate [0 (N0), 60 (N60) and 120 (N120) kg/ha N] were applied to two separate vineyards planted with cv. Xinomavro and cv. Cabernet-Sauvignon respectively in a randomised complete block design. Carbon isotope composition (δ13C) of leaf blades, stem water potential (Ψs), and leaf gas exchange were measured at berry set, bunch closure, veraison and maturity during each growing season. δ13C of bulk berry must at maturity and of dormant canes was also measured.Leaf δ13C and cane δ13C decreased with water supply, but increased with N fertilisation. Must δ13C was lower in the irrigated N0 and N60 vines, whereas irrigation treatments did not differ under the N120 rate. The relative weight of irrigation and fertilisation effect on leaf δ13C varied across samplings: N application accounted for a higher proportion of leaf δ13C variance during the early stages of berry growth, whereas irrigation induced higher variance of leaf δ13C after veraison. The weight of the irrigation effect on cane δ13C was higher from that of fertilisation.Discrimination mechanisms against 13C in grapevine could be mediated by both N fertilisation and irrigation. The well-documented explanation of δ13C variation based on isotopic effects during CO2 diffusion through leaf stomata and carboxylation driven by water conditions may not apply to all cases, since additional discriminating processes against 13C associated with CO2 transfer from the intercellular spaces to the carboxylation sites may be affected by nitrogen supply.The study provides evidence for the first time that carbon isotope composition of leaf blades, canes and berry must is modulated by nitrogen supply. Interpretations of carbon isotope natural abundance in field grown grapevine tissues should therefore consider both water and nitrogen availability.

Published

2020

9. Effects of foliar application of inactivated yeast on the phenolic composition of Vitis vinifera L. cv. Agiorgitiko grapes under different irrigation levels

Author

Ioannis Kanakis, Maria Kyraleou, Gerard Logan, Evangelia Chorti, Stamatina Kallithraka, Charikleia Kogkou, Yorgos Kotseridis, and Stefanos Koundouras

Subjects

Irrigation, Horticulture, chemistry.chemical_compound, Chemistry, Anthocyanin, Deficit irrigation, food and beverages, Growing season, Berry, Sugar, Vineyard, Food Science, Veraison

Abstract

Recent climate changes have caused the rising of average growing season temperatures leading to the advancement of vine phenological stages and to earlier harvests. This could result in the production of grapes with advanced berry sugar accumulation, but incomplete phenolic ripeness, thereby jeopardizing wine quality. This study aims to evaluate the effects of the application of a new product consisting of yeast derivatives on the phenolic maturity and composition of Agiorgitiko grapes and wines, under contrasting water conditions. The experiment was arranged as a 2×2 factorial design in a commercial vineyard situated in southern Greece, combining foliar spraying with LalVigne® Mature (two applications after veraison and an untreated control) and water conditions (deficit irrigation and nonirrigated). Irrigation accelerated berry sugar accumulation, increased berry weight and anthocyanin content, and decreased skin tannin concentration. Spraying with yeast derivatives did not affect phenolic content of berry components, and it had no effect on must attributes. Foliar application of yeast derivatives resulted in a higher phenolic potential of the produced wines, only when combined with irrigation.

Published

2017

10. Anthocyanin content and composition in four red winegrape cultivars (Vitis vinifera L.) under variable irrigation

Author

Nikolaos Theodorou, Eleftheria Zioziou, Stefanos Koundouras, Yorgos Kotseridis, Nikolaos Nikolaou, Stamatina Kallithraka, and Maria Kyraleou

Subjects

0106 biological sciences, Irrigation, Deficit irrigation, phenolic compounds, Berry, Grapevine, water regime, phenolic compounds, acylated anthocyanins, tri-oxygenated anthocyanins, Horticulture, Biology, 01 natural sciences, Vineyard, lcsh:Agriculture, chemistry.chemical_compound, Yield (wine), lcsh:Botany, Cultivar, lcsh:S, acylated anthocyanins, grapevine, 0104 chemical sciences, lcsh:QK1-989, 010404 medicinal & biomolecular chemistry, chemistry, water regime, Anthocyanin, Composition (visual arts), tri-oxygenated anthocyanins, 010606 plant biology & botany, Food Science

Abstract

Aim: The aim of this study was to determine and compare anthocyanin content and profile under variable irrigation regimes in four red grape cultivars (Vitis vinifera L.), the Greek indigenous cvs. Agiorgitiko and Xinomavro, alongside Syrah and Grenache noir.Methods and results: Three irrigation treatments were applied in a 6-year-old vineyard comprising all four varieties in a block design, starting at bunch closure (E-L 32) through harvest of 2012 and 2013: full irrigation (FI) at 100% of crop evapotranspiration (ETc), deficit irrigation (DI) at 50% of ETc and non-irrigated (NI). The identification of the compounds was performed by HPLC. Results showed that, under the hot summer conditions of the Greek climate, the four cultivars had a similar response regarding vigor and yield parameters, with values increasing with water supply. Anthocyanin concentration was maximized under non-irrigated conditions in all cultivars, but anthocyanin profile and relative distribution of individual anthocyanins among irrigation treatments showed a strong cultivar effect.Conclusion: Xinomavro seemed to favor the synthesis of more stable forms of anthocyanins under limited water supply (acylated over non-acylated and tri-oxygenated & methoxylated on the B-ring over di-oxygenated & hydroxylated) while Agiorgitiko had an opposite behavior, which might imply a need for a different irrigation strategy.Significance and impact of the study: To the best of our knowledge, this is the first comparative report of anthocyanin composition and profile in berry skin, under contrasting water status, for the two most important red winegrapes of Greece.

Published

2019

11. Irrigation and Leaf Removal Effects on Polyphenolic Content of Grapes and Wines Produced from cv. ‘Agiorgitiko’ (Vitis vinifera L.)

Author

Stefanos Koundouras, Maria Kyraleou, Stamatina Kallithraka, Yorgos Kotseridis, Evangelia Chorti, and Manolis Pavlidis

Subjects

0106 biological sciences, Wine, chemistry.chemical_classification, Irrigation, 04 agricultural and veterinary sciences, Plant Science, Berry, Horticulture, 01 natural sciences, Malvidin, 040501 horticulture, Veraison, chemistry.chemical_compound, chemistry, Agronomy, Polyphenol, Anthocyanin, Tannin, 0405 other agricultural sciences, Agronomy and Crop Science, 010606 plant biology & botany

Abstract

Vitis vinifera L. cv. ‘Agiorgitiko’ is one of the most important red grape varieties of Greece, cultivated almost exclusively in the region of Nemea in north-eastern Peloponnese. This work aimed to study the influence of some commonly applied viticultural practices on the polyphenolic composition of ‘Agiorgitiko’. Leaf removal at veraison, irrigation, and a combination of both, were applied and the phenolic content of the grapes and of the produced wines was compared. The results showed that leaf removal decreased berry size, enhanced total anthocyanin, total phenol and malvidin 3-O-monoglucoside accumulation in skins and increased the amount of extractable anthocyanins in the juice. The combination of irrigation and leaf removal caused a significant increase in total phenols in the skin and in the amount of extractable anthocyanins in juice. As far as the produced wines were concerned, color intensity, tannin content and total polyphenols were increased due to leaf removal. Both irrigation and leaf removal resulted in wines with the highest concentration of malvidin 3-O-monoglucoside, although neither practice resulted in any significant difference in anthocyanin concentration of the wines. Vines where only irrigation was applied produced berries with reduced extractable anthocyanins, increased seed total phenols and lower wine total tannins. The study showed that increasing cluster sun exposure of ‘Agiorgitiko’ vines may be, overall, beneficial to the quality of the produced wine.

Published

2016

12. Effect of irrigation regime on anthocyanin content and antioxidant activity of Vitis vinifera L. cv. Syrah grapes under semiarid conditions

Author

Stefanos Koundouras, Maria Kyraleou, Stamatina Kallithraka, Niki Proxenia, Nikolaos Theodorou, and Yorgos Kotseridis

Subjects

0106 biological sciences, Irrigation, Nutrition and Dietetics, Deficit irrigation, 04 agricultural and veterinary sciences, Berry, Biology, 040401 food science, 01 natural sciences, Vineyard, Veraison, Horticulture, chemistry.chemical_compound, 0404 agricultural biotechnology, chemistry, Anthocyanin, Semi-arid climate, Botany, Irrigation management, Agronomy and Crop Science, 010606 plant biology & botany, Food Science, Biotechnology

Abstract

BACKGROUND Irrigation management is a powerful technique to control grape and wine colour. However, water deficit effects on anthocyanins are often contrasting, depending on the severity of water restriction. In addition, the effect of irrigation on the antiradical capacity of grapes has not been extensively studied. In this work the effect of water availability on anthocyanin profile and content as well as the antioxidant activity of Syrah grapes was investigated in an irrigation trial under semiarid climate conditions. RESULTS Three irrigation treatments were applied in a 15-year-old Vitis vinifera cv. Syrah vineyard, starting at berry set through harvest of 2011 and 2012: full irrigation (FI) at 100% of crop evapotranspiration (ETc), deficit irrigation (DI) at 50% of ETc and non-irrigated (NI). NI grapes were characterized by increased individual anthocyanin content. However, differences among irrigation treatments were significant only around 18–24 days after veraison, when anthocyanin accumulation was maximum. The antioxidant activity of the skin extracts was not affected by irrigation. CONCLUSION Irrigation proved to be an effective technique to control anthocyanin content in Syrah grapes under semiarid conditions. However, anthocyanin accumulation pattern should be considered by winemakers to appropriately select harvest time for improved wine colour. © 2015 Society of Chemical Industry

Published

2015

13. Life Cycle Assessment of Two Vineyards after the Application of Precision Viticulture Techniques: A Case Study

Author

Konstantinos G. Arvanitis, Spyros Fountas, Athanasios Balafoutis, Evangelos Anastasiou, and Stefanos Koundouras

Subjects

Canopy, Crop residue, Irrigation, Geography, Planning and Development, variable rate irrigation, variable rate nutrient application, leaf canopy reflectance, soil moisture, Vitis vinifera L, TJ807-830, 010501 environmental sciences, Management, Monitoring, Policy and Law, TD194-195, 01 natural sciences, Vineyard, Renewable energy sources, Yield (wine), GE1-350, Life-cycle assessment, 0105 earth and related environmental sciences, Environmental effects of industries and plants, Renewable Energy, Sustainability and the Environment, 04 agricultural and veterinary sciences, Environmental sciences, Agronomy, Precision viticulture, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Environmental science, Viticulture

Abstract

Precision viticulture is the application of site-specific techniques to vineyard production to improve grape quality and yield and minimize the negative effects on the environment. While there are various studies on the inherent spatial and temporal variability of vineyards, the assessment of the environmental impact of variable rate applications has attracted limited attention. In this study, two vineyards planted with different grapevine cultivars (Sauvignon Blanc and Syrah) were examined for four consecutive growing seasons (2013–2016). The first year, the two vineyards were only studied in terms of soil properties and crop characteristics, which resulted in the delineation of two distinct management zones for each field. For the following three years, variable rate nutrient application was applied to each management zone based on leaf canopy reflectance, where variable rate irrigation was based on soil moisture sensors, meteorological data, evapotranspiration calculation, and leaf canopy reflectance. Life cycle assessment was carried out to identify the effect of variable rate applications on vineyard agro-ecosystems. The results of variable rate nutrients and water application in the selected management zones as an average value of three growing seasons were compared to the conventional practice. It was found that the reduction of product carbon footprint (PCF) of grapes in Sauvignon Blanc between the two periods was 25% in total. Fertilizer production and distribution (direct) and application (indirect) was the most important sector of greenhouse gas (GHG) emissions reduction, accounting for 17.2%, and the within-farm energy use was the second ranked sector with 8.8% (crop residue management increase GHG emissions by 1.1%, while 0.1% GHG reduction is obtained by pesticide use). For the Syrah vineyard, where the production was less intensive, precision viticulture led to a PCF reduction of 28.3% compared to conventional production. Fertilizers contributed to this decrease by 27.6%, while within-farm energy use had an impact of 2.2% that was positive even though irrigation was increased, due to yield rise. Our results suggest that nutrient status management offers the greatest potential for reducing GHG emissions in both vineyard types. Variable rate irrigation also showed differences in comparison to conventional treatment, but to a lesser degree than variable rate fertilization. This difference between conventional practices and precision viticulture is noteworthy, and shows the potential of precision techniques to reduce the effect of viticulture on GHG emissions.

Published

2017

14. Changes in Tannin Composition of Syrah Grape Skins and Seeds during Fruit Ripening under Contrasting Water Conditions

Author

Stefanos Koundouras, Stamatina Kallithraka, Yorgos Kotseridis, Nikolaos Theodorou, Maria Kyraleou, Pierre-Louis Teissedre, Agricultural University of Athens, Aristotle University of Thessaloniki, Unité de Recherche Oenologie [Villenave d'Ornon], and Institut National de la Recherche Agronomique (INRA)-Université de Bordeaux (UB)-Institut des Sciences de la Vigne et du Vin (ISVV)

Subjects

Polymers, Pharmaceutical Science, Berry, galloylation, irrigation, Analytical Chemistry, Drug Discovery, [SDV.IDA]Life Sciences [q-bio]/Food engineering, Tannin, Vitis, Vitis vinifera, 2. Zero hunger, chemistry.chemical_classification, terminal and extension subunits, Chemistry, proanthocyanidins, flavan-3-ols, polymerization, prodelphinidins, pratique d'irrigation, food and beverages, Ripening, 04 agricultural and veterinary sciences, 040401 food science, Horticulture, Proanthocyanidin, oenologie, Chemistry (miscellaneous), Seeds, Molecular Medicine, Composition (visual arts), Seasons, Irrigation, climat semi-aride, Growing season, Article, lcsh:QD241-441, 0404 agricultural biotechnology, vitis vinifera, lcsh:Organic chemistry, Botany, [SPI.GPROC]Engineering Sciences [physics]/Chemical and Process Engineering, Physical and Theoretical Chemistry, tanin, Organic Chemistry, Water, syrah, Fruit, Tannins

Abstract

International audience; Tannin accumulation and composition were determined in skins and seeds isolated from Vitis vinifera cv. Syrah grapes submitted to contrasting water regimes under semiarid climatic conditions. Three irrigation treatments were conducted, starting at berry set through harvest of two growing seasons, 2011 and 2012: irrigation at 100% of crop evapotranspiration ETc (FI), irrigation at 50% of ETc (DI) and non-irrigated (NI). Seed total tannins did not vary with maturity but those of skins underwent a progressive decline (especially in 2011), expressed both on a fresh weight and on a per berry basis. Skin total tannin concentration and content per berry were increased under NI and DI conditions, mainly in 2012. In contrast, seed total tannins (in 2012) and flavan-3-ol monomers and tannin oligomers (both years) were higher in the fully irrigated vines (FI). Skin polymer size increased during ripening, NI and DI skins showing higher mean degree of polymerization (mDP) compared to FI at harvest. NI was also associated with a lower percentage of galloylation (%G) in skin oligomeric fraction (in 2012) and a lower percentage of prodelphinidins in the skin polymeric fraction (both years) at harvest. The mDP and %G of seed extracts did not vary during ripening and were higher in NI but only in 2012. According to the results, management of vine water status was shown to influence tannin amount and composition of Syrah grapes grown under semiarid conditions.

Published

2017

15. Using active canopy sensors and chlorophyll meters to estimate grapevine nitrogen status and productivity

Author

Dimitris Taskos, Stamatis Stamatiadis, Nikolaos Theodorou, Nikolaos Nikolaou, Stefanos Koundouras, K. Karakioulakis, and Eleftheria Zioziou

Subjects

Canopy, Vine, Irrigation, Red edge, Vegetation, Normalized Difference Vegetation Index, Horticulture, chemistry.chemical_compound, chemistry, Yield (wine), Chlorophyll, Botany, Environmental science, General Agricultural and Biological Sciences

Abstract

Effects of nitrogen (Ν) and water supply on grapevine leaf transmittance and canopy reflectance were studied over 2 years (2009–2010) in two vineyards planted with cvs. Cabernet Sauvignon and Xinomavro (Vitis vinifera L.) located in northern Greece. Three N (0, 60 and 120 kg ha−1) and two irrigation (irrigated at 70 % of crop evapotranspiration and non-irrigated) treatments were managed in triplicate in randomized blocks. Measurements with two transmittance-based chlorophyll meters (CM: SPAD-502 and CCM-200) and two active canopy sensors (Crop Circle ACS-210; amber band and Crop Circle ACS-430; red and red edge bands) were conducted on four and two growth stages, respectively. Fertilization increased leaf N and chlorophyll concentrations, as well as CM readings and vegetation indices. The CCM and SPAD values did not vary across growth stages and better estimated leaf N and chlorophyll concentrations in Cabernet Sauvignon than in Xinomavro. The SPAD readings provided better predictions of leaf N concentration. The vegetation indices of the ACS-430 sensor correlated with leaf N and chlorophyll concentrations and dormant wood in Cabernet Sauvignon; the red edge-based indices were generally more efficient than the red-based indices. Consistent relationships were observed for all ACS-430 indices with yield and for red edge-based indices with total phenols early in the season for both vineyards. The correlation between ACS-210 sensor indices and vine properties was low. These results showed that the two technologies examined could provide information on grapevine performance early in the season but have limitations that may restrict their use in vineyards because the acquired relationships were not consistent across vineyards and instruments.

Published

2014

16. Effect of irrigation regime on perceived astringency and proanthocyanidin composition of skins and seeds of Vitis vinifera L. cv. Syrah grapes under semiarid conditions

Author

Yorgos Kotseridis, Stamatina Kallithraka, Maria Kyraleou, Stefanos Koundouras, Kleopatra Chira, Pierre-Louis Teissedre, Agricultural University of Athens, Aristotle University of Thessaloniki, Unité de Recherche Oenologie [Villenave d'Ornon], and Institut National de la Recherche Agronomique (INRA)-Université de Bordeaux (UB)-Institut des Sciences de la Vigne et du Vin (ISVV)

Subjects

Irrigation, Agricultural Irrigation, Astringent, Deficit irrigation, Berry, astringency, 01 natural sciences, Catechin, tannin mean polymerization degree, Analytical Chemistry, Anthocyanins, chemistry.chemical_compound, 0404 agricultural biotechnology, Phenols, Botany, percent galloylation, [SDV.IDA]Life Sciences [q-bio]/Food engineering, Biflavonoids, Humans, Tannin, Vitis, [SPI.GPROC]Engineering Sciences [physics]/Chemical and Process Engineering, water deficit, 2. Zero hunger, chemistry.chemical_classification, Greece, Plant Extracts, Chemistry, 010401 analytical chemistry, Water, 04 agricultural and veterinary sciences, General Medicine, 040401 food science, 6. Clean water, 0104 chemical sciences, Horticulture, Proanthocyanidin, Fruit, Taste, Anthocyanin, Seeds, Composition (visual arts), Desert Climate, Tannins, proanthocyanidins, Food Science

Abstract

International audience; In this work, the effect of water availability on astringency of seed and skin extracts of Vitis vinifera cv. Syrah berries under the typical semiarid conditions of Greece was investigated. Moreover, astringency was assessed in relation to proanthocyanidin composition. For this purpose, three irrigation treatments were applied starting at berry set through harvest of 2011 and 2012: full irrigation (FI) at 100% of crop evapotranspiration, deficit irrigation (DI) at 50% and non-irrigated (NI). FI skin and seed extracts were perceived significantly more astringent than NI. Total phenol, total tannin, (+)-catechin, (-)-epicatechin and procyanidin C1 concentrations were positively correlated with astringency. Positive correlations were also obtained among astringency and average degree of polymerization and proportion of the extension units of shorter tannins while astringency of larger tannins was correlated with the proportion of terminal units. On the contrary, total anthocyanin and epigallocatechin contents were negatively correlated with astringency.

Published

2016

17. Irrigation and Rootstock Effects on the Phenolic Concentration and Aroma Potential of Vitis vinifera L. cv. Cabernet Sauvignon Grapes

Author

Margarita Karamolegkou, Nikolaos Nikolaou, J. T. Tsialtas, Stefanos Koundouras, Effimia Hatzidimitriou, Eleftheria Zioziou, Yorgos Kotseridis, Eirini Dimopoulou, and Stamatina Kallithraka

Subjects

Irrigation, Genotype, Growing season, Berry, Vineyard, Anthocyanins, chemistry.chemical_compound, Glucosides, Phenols, Species Specificity, Evapotranspiration, Vitis, Aroma, Flavonoids, biology, Chemistry, Polyphenols, Water, food and beverages, Agriculture, General Chemistry, biology.organism_classification, Agronomy, Fruit, Anthocyanin, Odorants, Seeds, General Agricultural and Biological Sciences, Rootstock

Abstract

Compositional changes of skin and seed phenolic compounds and berry glycosylated aroma precursors were measured in Vitis vinifera L. cv. Cabernet Sauvignon onto 1103P and SO4 rootstocks, in three irrigation regimes (FI, 100% of evapotranspiration; DI, 50% of evapotranspiration; and NI, non-irrigated). The study was conducted in a commercial vineyard of central Greece, in a factorial experiment during two growing seasons (2005-2006). Grape samples were obtained at commercial harvest. The deficit water supply decreased berry size but did not affect the skin/pulp weight ratio. Water limitation, especially pre-veraison, caused a substantial increase of skin anthocyanin concentration, and this effect was independent of water deficit-induced reductions in berry size and vine vigor. Among individual anthocyanins, malvidin-3-O-glucoside was mostly affected by water supply. The rootstock genotype did not affect berry growth parameters and skin polyphenol concentrations. The irrigation regime (mainly post-veraison) and rootstock genotype affected total flavan-3-ol monomers in seed tissue, mainly as a result of variations in the catechin amount. The lower seed phenolic concentration was found in non-irrigated and SO4-grafted vines, probably as a result of the restriction of scion vigor caused by these treatments, thereby altering cluster exposure. Skin and seed tannins were not affected by either rootstock or irrigation. The limited water supply was associated with increased aroma potential at harvest.

Published

2009

18. Leaf area estimation by simple measurements and evaluation of leaf area prediction models in Cabernet-Sauvignon grapevine leaves

Author

Stefanos Koundouras, J. T. Tsialtas, and Eleftheria Zioziou

Subjects

Perimeter, Irrigation, Horticulture, Physiology, Botany, Growing season, Plant Science, Cultivar, Rootstock, Root-mean-square deviation, Vineyard, Mathematics, Veraison

Abstract

For two growing seasons (2005 and 2006), leaves of grapevine cv. Cabernet-Sauvignon were collected at three growth stages (bunch closure, veraison, and ripeness) from 10-year-old vines grafted on 1103 Paulsen and SO4 rootstocks and subjected to three watering regimes in a commercial vineyard in central Greece. Leaf shape parameters (leaf area − LA, perimeter − Per, maximum midvein length − L, maximum width − W, and average radial − AR) were determined using an image analysis system. Leaf morphology was affected by sampling time but not by year, rootstock, or irrigation treatment. The rootstock×irrigation×sampling time interaction was significant for all the leaf shape parameters (LA, Per, L, W, and AR) and the means of the interaction were used to establish relationships between them. A highly significant linear function between L and LA could be used as a non-destructive LA prediction model for Cabernet-Sauvignon. Eleven models proposed for the non-destructive LA estimation in various grapevine cultivars were evaluated for their accuracy in predicting LA in this cultivar. For all the models, highly significant linear functions were found between calculated and measured LA. Based on r 2 and the mean square deviation (MSD), the model proposed for LA estimation in cv. Cencibel [LA = 0.587(L×W)] was the most appropriate.

Published

2008