Performance of resistant grape varieties (PIWI), 'Felicia', 'Calardis Blanc' and 'Helios' in two locations of Santa Catarina State (BR)

Giovanni, Rodrigo Nogueira; Souza, André Luiz Kulkamp de; Caliari, Vinicius; Brighenti, Alberto Fontanella; Bender, Angelica; Malgarim, Marcelo Barbosa

doi:10.1590/0100-29452023001

ABSTRACT

Downy mildew (Plamopora viticola) is one of the major problems to produce wine grapes in Brazil, a main cause of yield losses in the Southern region of the country. An alternative to the use of pesticides is the use of resistant varieties (PIWI): wine grapes combining high oenological potential and resistance to diseases. The goal of this work was to assess the vegetative and productive performance and maturation of three PIWI varieties (‘Felicia’, ‘Calardis Blanc’ and ‘Helios’) produced at altitudes of 840m and 1250m in the 2020, 2021 and 2022 vintages. The study is focused on four phenological stages: budbreak (BBCH 7), full bloom (BBCH 65), veraison (BBCH 81) and maturity/harvest (BBCH 89). The criteria for measuring the productive performance were, the number of clusters, average cluster weight, production per plant, yield and Ravaz index. As parameters for technological and phenolic maturation, pH, soluble solids, total acidity and total polyphenols were evaluated. The budbreak occurred at the end of August until the second fortnight of September, the flowering occurred in the second week of October, the veraison occurred during the month of December, and the maturity/harvest occurred from the second fortnight of January until the beginning of February. The earliest budbreak occurred with ‘Felicia’ in the vineyard at 1250m and the latest occurred with ‘Calardis Blanc’. Regardless of the vineyard altitude, there was practically no difference in the flowering date between varieties and the vineyards altitude, the veraison and the maturity/harvest occurred earlier in the vineyard at 840m. The varieties produced at 840 m had a shorter cycle and proved to be more productive when compared to those produced at 1250 m. The studied varieties showed good phenological adaptation, high yield and maturation indices suitable for the production of quality still and sparkling white wines at both altitudes. From the results obtained, ‘Felicia’ and ‘Calardis Blanc’ seem to be the most promising varieties for cultivation in both altitude ranges.

Index terms
phenology; productive indices; technological maturation

RESUMO

O Míldio (Plasmopora viticola) é um dos grandes problemas para a produção de uvas viníferas (Vitis vinifera) no Brasil, principalmente na região Sul, podendo causar perdas de até 100% da produção. Além do uso de defensivos para o tratamento dessadoença,uma alternativa é a utilização de variedade resistentes (PIWI), que sãoconsideradas uvas viníferas por apresentar alto potencial enológico aliado a resistência adoenças. O objetivo deste trabalho foi avaliar o desempenho vegetativo, produtivo e a maturação de três variedades PIWI (‘Felicia’, ‘Calardis Blanc’ e ‘Helios’) produzidas em Videira (840m) eÁgua Doce (1250m) nas safras 2020, 2021 e 2022. Os estádios fenológicos avaliados forambrotação(BBCH 7), plena floração (BBCH 65), mudança de cor das bagas (BBCH 81) ematuridade/ colheita (BBCH 89). Para o desempenho produtivo foram avaliados o número de cachos,massa média de cachos, produção por planta, produtividade e índice de Ravaz.Para os parâmetros de maturação tecnológica e fenólica avaliou-se pH, teor de sólidos solúveis,acidez total e polifenóis totais. A brotação ocorreu no final de agosto até a segundasemana de setembro, a floração ocorreu na segunda quinzena de outubro, a mudança de cor ocorreu ao longo do mês de dezembro, e a maturidade/colheita ocorreu a partir da segunda quinzena de janeiro até o início de fevereiro. A brotação mais precoce aconteceu com a‘Felicia’ no vinhedo a 1250m e a mais tardia para a ‘Calardis Blanc’, independente daaltitude do vinhedo,praticamente não houve diferença na data de floração entre as variedades e aaltitude dos vinhedos, a mudança de cor e a maturidade/colheita foram mais precoces no vinhedo a 840m. As variedades produzidas em 840 m tiveram um ciclo mais curto edemonstraram ser mais produtivas quando comparadas às produzidas em 1250m. As variedadesestudadas apresentaram boa adaptação fenológica, elevada produtividade e índices dematuração adequados para a produção de vinhos brancos tranquilos e espumantes em ambasas altitudes. A partir dos resultados obtidos ‘Felicia’ e ‘Calardis Blanc’ demonstraram ser as variedades mais promissoras para o cultivo em ambas as faixas de altitude.

Termos para indexação
fenologia; índices produtivos; maturação tecnológica

Introduction

Brazil has recently stood out in grape production. The South region is the largest producer in the country, where most of grapes are used for processing (juices and wines) and the largest volume consists in ‘common’ grapes (V. labrusca and hybrids). Nonetheless nowadays, Santa Catarina State also stands out in processing wine grapes (V. vinifera), showing an increase in production and planted area in recent years (CALIARI, 2020).

Recently, the high altitude regions of Santa Catarina, characterized by altitudes ranging from 900 to 1400 meters, have shown to be a new frontier for wine production, producing grapes with distinct characteristics when compared to the other growing regions, enabling the production of high quality wines (FALCÃO et al., 2007; BORGHEZAN et al., 2011 BORGHEZAN, M.; GAVIOLI, O.; PIT, F.A.; SILVA, A.L.D. Comportamento vegetativo e produtivo da videira e composição da uva em São Joaquim, Santa Catarina. Pesquisa Agropecuária Brasileira, Brasília, DF, v.46, n.4, p.398-405, 2011. ; MALINOVSKI et al., 2012 MALINOVSKI, L.I.; WELTER, L.J.; BRIGHENTI, A.F.; VIEIRA, H.J.; GUERRA, M.P.; SILVA, A.L. da. Highlands of Santa Catarina/Brazil: a region with high potential for wine production. Acta Horticulturae, The Hague, v.931, p.433-9, 2012. , ALLEBRANDT et al., 2015 ALLEBRANDT, R.; MARCON FILHO, J.L.; BEM, B.P. de; WÜRZ, D.A.; BRIGHENTI, A.F.; KRETZSCHMAR, A.A.; RUFATO, L. Fenologia da variedade Merlot produzida sobre três porta-enxertos em elevadas altitudes de Santa Catarina. Revista Brasileira de Viticultura e Enologia, Bento Gonçalves, n.7, p.36-43, 2015. ; MACEDO et al., 2015 MACEDO, T.A.; MARCON FILHO, J.L.; BRIGHENTI, A.F.; SILVA, LC. da; RUFATO, L.; KRETZSCHMAR, A.A. Manejo do dossel vegetativo e qualidade físico-química dos cachos de ‘Sangiovese’ e ‘Tempranillo’ em região microclimática de altitude. Revista de Ciências Agroveterinárias, Lages, v.14, n.2, p.146-152, 2015. ; MARCON FILHO et al., 2015 MARCON FILHO, J.L.; HIPÓLITO, J.D.S.; MACEDO, T.A.D.; KRETZSCHMAR, A.A.; RUFATO, L. Raleio de cachos sobre o potencial enológico da uva 'Cabernet Franc' em duas safras. Ciência Rural, Santa Maria, v.45, n.12, p.2150-6, 2015. ).

In this sense, climatic conditions have a great influence on the vine in all its phenological stages and on the development of pathogens. It is therefore necessary to understand these climatic factors, in order to obtain the greater potential for vineyards in a given region (DELOIRE et al, 2005 DELOIRE, A.; VAUDOUR, E.; CAREY, V.; BONNARDOT, V.; VAN, L. C. Grapevine responses to terroir: a global approach. Journal International des Sciences de la Vigne et du Vin, Bordeaux, v.39, p.149-62, 2005. ). Distinct characteristics can be attributed to the climatic particularities of these regions, since the high rate of rainfall combined with high temperatures observed in traditional producing regions, increases the incidence of fungal diseases interfering in fruit quality (BACK et al, 2013 BACK, A. J.; DELLA BRUNA, E.; DALBÓ, M. A. Mudanças climáticas e a produção de uva no vale do Rio do Peixe-SC. Revista Brasileira de Fruticultura, v. 35, n. 1, p. 159-169, 2013. ; EPAGRI/CIRAM, 2020).

Downy mildew and powdery mildew are considered the main vine fungal diseases in Brazil and around the world, causing losses up to 100% when not controlled (CARISSE; BEAULIOU 2018 CARISSE, O.; BEAULIOU, C. Development of probability estimates of grape diseases infestation and extent of infestation for each major grape disease - A Risk Assessment System Pilot (AgriRisk). East Mountain: Nova Scotia Federation Agriculture, Agriculture and Agri-Food Canada and the Nova Scotia Departments of Agriculture and Environment, 2018. Disponível em: https://nsfa-fane.ca/wp-content/uploads/2018/08/Probability-Esimates-of-Grape-Diseases-Infestation-and-Extent.pdf. Acesso em: 25 jun. 2021.
https://nsfa-fane.ca/wp-content/uploads/... ; SAIFERT et al. 2018 SAIFERT, L.; SANCHEZ-MORA, F.D.; TAYBAR, A.; ZANGHELINI J.A.; GIACOMETI, R.; NOVAK, E.I.; DAL VESCO, L.L.; NODARI, R.O.; EIBACH, R. WELTER, L.J. Marker-assisted pyramiding of resistance loci to grape downy mildew. Pesquisa Agropecuária Brasileira, Brasília, DF, v.53, p.602-10, 2018. ).

In addition to phytosanitary treatments, the use of resistant varieties that are the result of interspecific crosses between Mediterranean (Vitis vinifera), North American and Asian species (Vitis spp) has been recognized as a way of overcoming the problem of fungal diseases.

The use of marker-assisted selection, combined with backcrosses with vinifera varieties, allowed the development of genotypes resistant to fungal diseases, which combine disease resistance genes and a significant percentage (over 85%) of V. vinifera; these cultivars are known as PIWI (from the German “Pizwiderstandsfähige”, meaning resistant to fungal diseases), accepted as vinifera varieties in European catalogs (SIVCEV et al., 2010 SIVCEV, B.V.; SIVCEV, I.L.; RANKOVIC-VASIC, Z.Z. Natural process and use of natural matters in organic viticulture. The Journal of Agricultural Science, Cambridge, v.55 n.2, p.195–215, 2010. ; SAIFERT et al., 2018 SAIFERT, L.; SANCHEZ-MORA, F.D.; TAYBAR, A.; ZANGHELINI J.A.; GIACOMETI, R.; NOVAK, E.I.; DAL VESCO, L.L.; NODARI, R.O.; EIBACH, R. WELTER, L.J. Marker-assisted pyramiding of resistance loci to grape downy mildew. Pesquisa Agropecuária Brasileira, Brasília, DF, v.53, p.602-10, 2018. ; VEZZULLI et al. 2018 VEZZULLI, S.; VECCHIONE, A.; STEFANINI, M.; ZULINI, L. Downy mildew resistance evaluation in 28 grapevine hybrids promising for breeding programs in Trentino region (Italy). European Journal of Plant Pathology, Dordrecht, v.150, p.485-95, 2018. ).

One of the advantages of these varieties is the reduction of the number of pesticide applications (FULLER et al. 2014), especially in warm humid areas such as southern Brazil. The use of PIWI cultivars can be considered an option for Brazilian growers, as a way to reduce the use of pesticides, consequently reducing costs and improving grape quality (DE BEM et al., 2016; BONIN et al., 2017). Also, more recent wine tastings have shown that it is possible to make wine from these varieties with a quality similar to that of traditional varieties (BASLER; PFENNINGER, 2003 BASLER, P.; PFENNINGER, H. Disease-resistant cultivars as a solution for organic viticulture. Acta Horticulturae, The Hague, v.603, p.681-5, 2003. ).

The fungal resistant grape are more vigorous and present a higher productivity when compared to V. vinifera in organic systems (REYNOLDS; VANDEN HEUVEL, 2009 REYNOLDS, A.G.; VANDEN HEUVEL, J.E. Influence of grapevine training systems on vine growth and fruit composition: a review. American Journal Enolology and Viticulture, Davis, v.60, p.251-68, 2009. ; SUN et al. 2011 SUN, Q.; SACKS, G.; LERCH, S.; VANDEN HEUVEL, J.E. Impact of shoot thinningand harvest date on yield components fruit composition, and wine quality of Maréchal Foch. American Journal Enolology and Viticulture, Davis, v.62, p.32-41, 2011. ; ROSSEUAU et al., 2013; BARTHE, 2015 BARTHE, C. Impact de la Charge Fruitière sur la Maturité et la Qualité du Raisin chez le Seyval Blanc et le Vandal Cliche, Deux Cépages Hybrides Cultivésau Québec. Thesis (Master Degree) - Université Laval, Québec, 2015. ). According to De Bem et al. (2016) DE BEM, B.P.; BRIGHENTI, E.; BONIN, B.F.; ALLEBRANT, R.; ARAÚJO, L.; BRIGHENTI, A.F.; BOGO, A. Downy mildew intensity in tolerant grapes varieties in highlands of southern Brazil. In: BIO WEB OF CONFERENCES, 7., 2016. Abstracts [...]. Cachan: EDP Sciences, 2016. p.01015. Disponível em: https://doi.org/10.1051/bioconf/20160701015. Acesso em: 25 maio 2021. , the PIWI cultivars ‘Regent’, ‘Cabernet Carbon’ and ‘Bronner’ cultivated in São Joaquim/SC, presented higher resistance to downy mildew in field and laboratory tests; also, those cultivars presented high potential for production of quality wines. Regarding to downy mildew resistance, Zanghelini et al. (2018) indicated that cultivars ‘Calardis Blanc’, ‘Felicia’ e ‘Helios’, had a partial resistance to downy mildew in the climatic conditions of Santa Catarina State. Bonin et al. (2017) BONIN, B.; DE BEM, B.; BRIGHENTI, A.; WURZ, D.; ALLEBRANDT, R.; BRIGHENTI, E.; ARAÚJO, L.; PINTO, F.A.M.F.; Bogo, A. Intensity of anthracnose in resistant varieties (PIWI) in the high altitude regions of southern Brazil. In: BIO WEB OF CONFERENCES, 9., 2017. Abstracts [...]. Cachan: EDP Sciences, 2017. p.01017. Disponível em: https://doi.org/10.1051/bioconf/20170901017. Acesso em: 28 maio 2021.
https://doi.org/10.1051/bioconf/20170901... observed that PIWI cultivars ‘Bronner’, ‘Cabernet Cortis’ and ‘Regent’ showed little resistance to Anthracnose. And finally, De Bem et al. (2020) DE BEM, B.P.; BOGO, A.; BRIGHENTI, A.F.; WRUZ, D.A.; ALLEBRANDT, R.; STEFANINI, M.; RUFATO, L. Dinâmica temporal do míldio da videira em variedades Piwi na região de San Michele all’Adige, Trentino - Itália. Summa Phytopathologica, Botucatu, v.46, p.212-20, 2020. in a study carried out in the region of Trento, in northern Italy, found that the white PIWI varieties Muscaris and Jasmine showed a high degree of resistance to downy mildew, while Bronner, Pӧlӧskei Muscotály and Solaris showed intermediate resistance and Bianca presented the highest susceptibility to downy mildew.

Siegfried and Temperli (2008) SIEGFRIED, W.; TEMPERLI, T. Piwi-Reben im vergleich-ein zwischenbericht. Schweizer Zeitschrift für Obst- und Weinbau, v.17, p.6–9, 2008. , reported yields ranging from 7,0 to 11,8 t ha-1 from fungal resistant grape, growed under conventional management with minimal treatment in Switzerland. These studies showed the potential of PIWI cultivars, however, the different genotypes must be evaluated in different regions and countries, to identify which ones are best adapted and present satisfactory production.

This study is aimed to evaluate the viticultural behavior of the PIWI varieties ‘Helios’, ‘Calardis Blanc’ and ‘Felicia’ grown in two regions with different altitude and climate conditions: Videira-SC (840 m) and Água Doce (1250 m) in Santa Catarina State, South region of Brazil.

Material and Methods

The experiment was carried out in the vintages 2020, 2021 and 2022 in vineyards located at the Epagri (Empresa de Pesquisa Agropecuária e Extensão Rural de Santa Catarina) Experimental Station, located in the municipality of Videira - SC (27°02’33” S, 51°08’08” W and 840 m a.s.l.) and at Villaggio Grando Winery, located in the municipality of Água Doce (26°43’31” S, 51°30’35” W and 1,250 m a.sl.). The accumulated chilling hours from April to September for the years 2019/2020; 2020/2021 and 2021/2022 were below or equal to 7.2°C, the monthly accumulated precipitation averages, maximum and minimum temperature data were obtained from the Environmental Variables of Database Santa Catarina (Epagri/CIRAM) and are described in Figure 1 and Figure 2.

Figure 1
Sum of chilling hours accumulated in the municipalities of Água Doce (1250m) and Videira (840m) in the vintages 2020, 2021 and 2022.

Figure 2
Precipitation (mm) and mean, maximum and minimum temperature (°C) in the municipalities of Água Doce (1250m) and Videira (840m) in the vintages 2020, 2021 and 2022.

The evaluated PIWI varieties were Felicia (Sirius x Vidal Blanc), Calardis Blanc (Calardis Musque x Seyve Villard 39-639) and Helios (Merzling x Freiburg 986-60).

Both locations had identical vineyards installed in the year 2015, the plants were grafted on Paulsen 1103, planted at a spacing of 3.0 m between rows and 1.2 m between plants. Fertilization was carried out in accordance with the Fertilizer and Liming Manual for Temperate Fruit Trees (Regional South Nucleus of Brazilian Society of Soil Science).

No irrigation was performed, plants were trained in VSP and pruned in a double spur cordon, leaving two buds per spur in a total of 50 buds per plant. Pruning was performed in August and early September in both areas. In the beginning of October was performed the shoot thining, leaving on average one shoot per sprouted bud. Leaf removal was performed in early December, after fruit set and before veraison. Vines were trimmed once shoots outgrew 20 cm above the top wire. Secondary shoot removal were performed at the end of spring until the beginning of summer, when vegetative growth was more intense. When necessary, mowing was carried out between the rows. Fungicide sprays were made at both locations, the first one for downy mildew at flowering time and the others according to specific needs identified during vineyard evaluations, the total number of phytosanitary treatments during the productions cycle were 50% less when compared to V. vinifera.

The experimental design was in completely randomized blocks, with five blocks and ten plants of each variety per plot. For every three plants per plot, the vine phenological stages were defined, based on the BBCH scale (LORENZ et al., 1995 LORENZ, D.H.; EICHHORN, K.W.; BLEIHOLDER, H.; KLOSE, R.; MEIER, U.; WEBER, E. Phenological growth stages of the grapevine (Vitis vinifera L. ssp.vinifera) – codes and descriptions according to the extended BBHC scale. Australian Journal of Grape and Wine Research, Victoria, v.1, n.2, p.100-3, 1995. ). The dates of occurrence of each phenological event were recorded between pruning and harvest. The four main phenological stages were budbreak, considering the date when 50% of the buds were at the green tip stage (BBCH 7); full bloom, when 50% (BBCH 65) of the inflorescences were open; beginning of ripening or veraison, when the berries have softened or changed color (BBCH 81); and maturity/ harvest, when physiological maturity was reached, that is, when the harvest point was reached according to chemical evaluation of the berries (BBCH 89).

Evaluations of productive variables, number and average weight of clusters (g), productivity per plant (Kg) and estimated yield (Ton) were carried out from three plants per plot. At the time of pruning, the Ravaz index was determined from the ratio between productivity per plant (kg) and the mass of pruned material from the same plant (Kg) (CUS, 2004 CUS, F. The effect of different scion/rootstock combin3.ations on yield properties of cv.‘Cabernet Sauvignon’. Acta Agriculturae Slovenica, Ljubljana, v.83, p.63-71, 2004. ).

After harvest, a sample of 50 berries per plot was sent to the Videira Experimental Station laboratory, where physical chemical analyzes were performed. Soluble solids content, expressed in °Brix, was determined by refractometer (Quimis®) reading; total acidity (mEq L^-1) and pH obtained by automatic titrator Easy PlusTM (Metller Toledo) and total polyphenols obtained by the Folin-Ciocalteu colorimetric method in a spectrophotometer (RAY Leigh – UV 2601) reading at 760 nm (OIV 2019).

Phenology data were analyzed using descriptive statistics (mean and standard deviation).

The grape production and quality data were submitted to analysis of variance (ANOVA) and when treatment effects were detected, the average comparison test was carried out by the Tukey Test at 5% error probability, using the R software. A standardized principal component analysis (PCA) was used to describe the effect of varieties on the mean of the variables cluster weight, number of clusters, yield, Ravaz index, soluble solids, total acidity, pH and total polyphenols.

Results and Discussion

The average dates of occurrence of the main phenological events are presented in Table 1. ‘Felicia’ and ‘Helios’ produced in Água Doce (1250 m) presented an anticipation of budbreak of 8 to 10 days when compared to Videira (840 m). For ‘Calardis Blanc’, no difference was observed in the average budbreak date in both evaluated sites (Table 1).

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Table 1
Dates of main phenological events of ‘Felicia’, ‘Calardis Blanc’ and ‘Helios’ cultivated in two altitude ranges of Santa Catarina. Average of 2020, 2021 and 2022 intages.

In the vineyard located at 840 m, budbreak ocurred between August 30th (‘Felicia’) and September 13th (Calardis B.). In the vineyard located at 1250 m, budbreak ocurred between August 20th (‘Felicia’) and September 12th (Calardis B.). In a previous study, it was verified that in the 2018 vintage, in Videira (840 m), the budbreak date of ‘Felicia’, ‘Helios’ and Calardis B. occurred on August 29th, September 5th and September 6th, respectively (BRIGHENTI et al., 2019 BRIGHENTI, E; SOUZA, A.L.K.; BRIGHENTI, A.F.; STEFANINI, M.; TRAPP, O.; GARDIN, J.P.P.; DALBÓ, M.A.; CALIARI, V.; WELTER, L.J.; CAMARGO, S.S. Field performance of five white Pilzwiderstandsfahige (PIWI) cultivars in the south of Brazil. Acta Horticulturae, The Hague, v.1248, p.115-22, 2019. ). ‘Felicia’ and Calardis B. varieties grown in São Joaquim (1100 m) in 2018 vintage showed budbreak on August 30th and September 4th, respectively (SOUZA et al., 2019 SOUZA, A. L. K.; BRIGHENTI, A.F.; BRIGHENTI, E.; CALIARI, V.; STEFANINI, M.; TRAPP, O.; GARDIN, J.P.P.; DALBÓ, M.A.; WELTER, L.J.; CAMARGO, S.S. Performance of resistant varieties (PIWI) at two different altitudes in Southern Brazil. In: BIO WEB OF CONFERENCES, 13., 2019. Abstracts [...]. Cachan: EDP Sciences, 2019. p.01021. ). Baietto (2022) observed the budbreak of the PIWI ‘Fleurtai’ in Canelones (Uruguai) at September 10th, very similar as the ‘Calardis Blanc’ studied in both altitudes.

Studying the phenology of 19 resistant varieties in northern Italy, Pacifico et al. (2013) PACIFICO, D.; GAIOTTI, F.; GIUSTI, M.; TOMASI, D. Performance of interspecific grapevine varieties in north-east Italy. Agricultural Sciences, Irvine, v.4, p.91-101, 2013. observed a high variability among genotypes in the budbreak phase, reflecting a higher and different sensitivity to spring weather compared with the vinifera Pinot Gris.

It is assumed that the earlier budbreak observed in the higher altitude vineyard may be related to the low temperatures and the greater number of accumulated cold hours. According to Anzanello et al. (2018) ANZANELLO, R.; FIALHO, F.B.; SANTOS, H.P.D. Chilling requirements and dormancy evolution in grapevine buds. Ciência e Agrotecnologia, Lavras, v.42, p.364-71, 2018. , the time required for budbreak decreases as the number of chilling hours increases, at a rate of one day for every 62 chilling hours for Chardonnay, Merlot and Cabernet Sauvignon.

Late budbreak is an interesting feature as it reduces the risk of damage that can be caused by late frosts, especially in vineyards located above 1000 m (BRIGHENTI et al., 2017; BORGHEZAN, et al., 2014 BORGHEZAN, M., VILLAR, L., DA SILVA, T. C., CANTON, M., GUERRA, M. P., CAMPOS, C. G. C. Phenology and vegetative growth in a new production region of grapevines: case study in são Joaquim, Santa Catarina, southern Brazil. Open Journal of Ecology, Irvine, v.4. n.6, p.322-35, 2014. ). For vineyards located at altitudes of 800 m, the probability of late frosts occurring in late August and early September is lower, but important.

For the date of full bloom, practically no differences were observed between the altitude ranges. Full bloom occurred on average 2.6 days in advance in the lower altitude vineyard. The average date of full bloom of ‘Felicia’ was between October 16 and 17, ‘Helios’ between October 18 and 20 and Calardis B. between October 21 and 26 (Table 1).

The average date of veraison also occurred earlier in the lower altitude vineyard (840 m), between December 2 and 16. In the highest altitude vineyard (1250 m) the average date of veraison occurred between December 19th and January 4. ‘Felicia’ presented the veraison on December 2 (840 m) and December 19 (1250 m). ‘Helios’ presented the veraison on December 8 (840 m) and January 4 (1250 m). And Calardis B. showed the veraison on December 16 (840 m) and January 1 (1250 m) (Table 1).

Maturity/harvest occurred on average 16 days earlier in the lower altitude vineyard.

In the lower altitude vineyard, the harvest took place between January 14th and 21st, while in the higher altitude vineyards, the grapes were harvested between February 3rd and 5th. In a previous study, it was verified that in the 2018 vintage, in Videira (840 m) the maturity/harvest date of the ‘Felicia’, ‘Helios’ and Calardis B. occurred on January 9th, January 12th and January 23rd, respectively (BRIGHENTI et al., 2019 BRIGHENTI, E; SOUZA, A.L.K.; BRIGHENTI, A.F.; STEFANINI, M.; TRAPP, O.; GARDIN, J.P.P.; DALBÓ, M.A.; CALIARI, V.; WELTER, L.J.; CAMARGO, S.S. Field performance of five white Pilzwiderstandsfahige (PIWI) cultivars in the south of Brazil. Acta Horticulturae, The Hague, v.1248, p.115-22, 2019. ). ‘Felicia’ and Calardis B. grown in São Joaquim (1100 m) in the 2018 vintage showed harvest on January 16th and January 30th, respectively (SOUZA et al., 2019 SOUZA, A. L. K.; BRIGHENTI, A.F.; BRIGHENTI, E.; CALIARI, V.; STEFANINI, M.; TRAPP, O.; GARDIN, J.P.P.; DALBÓ, M.A.; WELTER, L.J.; CAMARGO, S.S. Performance of resistant varieties (PIWI) at two different altitudes in Southern Brazil. In: BIO WEB OF CONFERENCES, 13., 2019. Abstracts [...]. Cachan: EDP Sciences, 2019. p.01021. ). The harvest date depends greatly on the point of technological maturation, which can be anticipated or postponed depending on local climatic conditions.

It seems that resistant varieties have lower requirements in terms of heat accumulation to shift from vegetative activity to a prioritized reproductive activity. The early veraison renders these varieties more suitable for cool climates or areas located at higher altitudes (FRIONI et al., 2020 FRIONI, T.; BRONZONI, V.; MONCALVO, A.; PONI, S.; GATTI, M. Evaluation of local minor cultivars and marginal areas to improve wines and increase the sustainability of the district ‘Colli Piacentini’. Acta Horticulturae, The Hague, v.1276, p.111-8, 2020. ). In a previous study, evaluating 19 resistant varieties, Pacifico et al. (2013) PACIFICO, D.; GAIOTTI, F.; GIUSTI, M.; TOMASI, D. Performance of interspecific grapevine varieties in north-east Italy. Agricultural Sciences, Irvine, v.4, p.91-101, 2013. verified that on average, the blooming, veraison and harvest dates for resistant varieties in northern Italy occurred later than observed with “Pinot gris”.

The duration of budbreak–full bloom sub-period is 10 to 14 days shorter in the lower altitude vineyard (840 m). Among the evaluated varieties, Calardis B. has the shortest duration of budbreak–full bloom sub-period in both evaluated locations (Figure 3).

Figure 3
Figure 3: Mean duration of phenological events of ‘Felicia’ (FE), ‘Calardis Blanc’ (CB) and ‘Helios’ (HE) after the winter solstices in two locations of Santa Catarina State, average values of 2020, 2021 and 2022 vintages.

In the full bloom-veraison sub-period, its duration was on average 14 days shorter in the lower altitude vineyard. There was little variation in the duration of this sub-period between the different varieties, but ‘Helios’ showed the shortest duration (Figure 3).

In the veraison-maturity sub-period, practically no differences were observed between the locations and the varieties ‘Helios’ and ‘Felicia’. The variety Calardis B. grown in the vineyard located at higher altitude had an average duration of 54 days for this sub-period, 11 days longer than the vineyards at lower altitude (Figure 3).

Long maturation periods can increase the possibilities of problems such as cluster rot, and early maturation is a very advantageous feature in tropical and subtropical conditions due because of high precipitation during grape ripening period in these production sites (SCHAEFER, 2016 SCHAEFER, W.W. New developments in tropical viticulture under monsoon climate. 2016. Acta Horticulturae, The Hague, v.1115, p.195-202, 2016. ). The results obtained in these works demonstrate a good adaptation of the studied cases in both studied regions.

When evaluating the same fungus resistant varieties in Videira (840m) in 2018 vintage, the same pattern of cycle duration was observed between the sub-periods evaluated (BRIGHENTI et al., 2019 BRIGHENTI, E; SOUZA, A.L.K.; BRIGHENTI, A.F.; STEFANINI, M.; TRAPP, O.; GARDIN, J.P.P.; DALBÓ, M.A.; CALIARI, V.; WELTER, L.J.; CAMARGO, S.S. Field performance of five white Pilzwiderstandsfahige (PIWI) cultivars in the south of Brazil. Acta Horticulturae, The Hague, v.1248, p.115-22, 2019. ). Similar results were obtained for ‘Felicia’ and Calardis B. produced in São Joaquim (1100 m) (SOUZA et al., 2019 SOUZA, A. L. K.; BRIGHENTI, A.F.; BRIGHENTI, E.; CALIARI, V.; STEFANINI, M.; TRAPP, O.; GARDIN, J.P.P.; DALBÓ, M.A.; WELTER, L.J.; CAMARGO, S.S. Performance of resistant varieties (PIWI) at two different altitudes in Southern Brazil. In: BIO WEB OF CONFERENCES, 13., 2019. Abstracts [...]. Cachan: EDP Sciences, 2019. p.01021. ).

As a result, the total cycle duration of the varieties was on average 25 days longer in the vineyard at the highest altitude (1250 m).

Temperature helps to explain the differences between cycle lengths. Milder temperatures delay fruit development, prolonging the period of berry growth (KELLER, 2010 KELLER, M. The science of grapevines: anatomy and physiology. New York: Elsevier, 2010. p.377 ). When a region has higher average temperatures, the grape growth cycle is shorter, due to the greater accumulation of heat that causes early maturation (MUNIZ et al. 2016).

The mean temperature over the cycle in the vineyard located at 840 m was 20.4°C, while the mean temperature in the vineyard located at 1250 m was 17.2°C.

The characterization of phenological sub-periods duration is important in the introduction of new grape varieties, as they allow the determination of vine development phases (vegetative growth, flowering, fructification, and fruit maturation), which occur seasonally, in relation to the climate, especially seasonal variations, in addition to being used to interpret how different regions interact with the plant (MATTAR, 2016 MATTAR, G.S. Produtividade, qualidade da uva e do vinho da videira SR 501-17 sobre diferentes porta-enxertos cultivada no estado de São Paulo. 2016. Dissertação (Mestrado) - Instituto Agronômico de Campinas, Campinas, 2016. , GRIS 2010 GRIS, E.F.; BRIGHENTI, E.; VIEIRA, H.J. Phenology and ripening of Vitis vinifera grapevarieties in São Joaquim, southern Brazil: a new South American wine growing region. Ciencia e Investigación Agraria, Santiago, v.37, p.61-75, 2010. , GIL; PSZCZÓLKOWISKI, 2007 GIL, G F.; PSZCZÓLKOWSKI, P. Viticultura: fundamentos para optimizar producción y calidad. Santiago: Edicionnes Universidad Católica de Chile, 2007. 535p. , BOLIANI, 1994 BOLIANI, A. C. Avaliação fenológica de videira (Vitis vinifera) cv.‘Itália’ e ‘Rubi’ na região Oeste do Estado de São Paulo. 1994. Tese (Doutorado em Produção Vegetal) - Faculdade de Ciências Agrárias e Veterinárias, Universidade Estadual Paulista, Jaboticabal, 1994. ).

Regarding the productive variables, it was observed that ‘Calardis Blanc’ stood out for the high number of clusters and, when produced at 840 m, it was the variety that presented the highest cluster number in all evaluated vintages. In all evaluated vintages and in both locations, ‘Felicia’ produced the lowest number of clusters. On the other hand, ‘Felicia’ cultivated at 840 m produced the heaviest clusters in all evaluated vintages (on average 186 g), while ‘Calardis Blanc’ cultivated at 1250 m produced the lowest weight clusters in all evaluated vintages (on average 94 g) (Table 2).

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Table 2
Cluster number and cluster weight of ‘Felicia’, ‘Calardis Blanc’ (C. Blanc) and ‘Helios’ cultivated in two different altitudes in vintages 2020, 2021 and 2022.

Similar results were obtained by other authors when studying the same varieties in Santa Catarina. In the 2018 vintage, in the vineyard located at 840 m, an average of 28 clusters were observed for ‘Helios’ and 50 clusters for ‘Calardis Blanc’ and ‘Felicia’. In the same experiment, ‘Felicia’ also presented the heaviest clusters (on average 176 g) and was followed by ‘Calardis Blanc’ (133 g) and ‘Helios’ (128 g) (BRIGHENTI et al., 2019 BRIGHENTI, E; SOUZA, A.L.K.; BRIGHENTI, A.F.; STEFANINI, M.; TRAPP, O.; GARDIN, J.P.P.; DALBÓ, M.A.; CALIARI, V.; WELTER, L.J.; CAMARGO, S.S. Field performance of five white Pilzwiderstandsfahige (PIWI) cultivars in the south of Brazil. Acta Horticulturae, The Hague, v.1248, p.115-22, 2019. ).

Still in the 2018 vintage, but in a vineyard located at 1100 m, an average of 50 clusters were observed for ‘Calardis Blanc’ and ‘Felicia’. In this experiment ‘Felicia’ also presented the heaviest clusters (on average 177 g) and was followed by ‘Calardis Blanc’ (134 g) (SOUZA et al., 2019 SOUZA, A. L. K.; BRIGHENTI, A.F.; BRIGHENTI, E.; CALIARI, V.; STEFANINI, M.; TRAPP, O.; GARDIN, J.P.P.; DALBÓ, M.A.; WELTER, L.J.; CAMARGO, S.S. Performance of resistant varieties (PIWI) at two different altitudes in Southern Brazil. In: BIO WEB OF CONFERENCES, 13., 2019. Abstracts [...]. Cachan: EDP Sciences, 2019. p.01021. ). In a recent work that evaluated the adaptation of resistant varieties in northern Italy, it was found for ‘Soreli’ values of 3.5 kg per plant, 30 clusters per plant and an average of 120 g per cluster; for ‘Sauvignon Kretos’ it was found 2.4 kg per plant, 25 clusters per plant and an average of 107 g per cluster; and for ‘Sauvignon Rytos’ it was found 2.4 kg per plant, 29 clusters per plant and an average of 85 g per cluster (FRIONI et al., 2021 FRIONI, T.; SQUERI, C.; DEL ZOZZO, F.; GUADAGNA, P.; GATTI, M.; VERCESI, A.; PONI, S. Investigating evolution and balance of grape sugars and organic acids in some new pathogen resistant white grapevine varieties. Horticulturae, Basel, v.7, n.8, p.229, 2021. ).

When evaluating the productivity per plant and estimated yield per hectare, it is possible to affirm that ‘Felicia’ and ‘Calardis Blanc’ produced at 840 m have the highest productive potential, with an average productivity of 6.0 kg per plant or 18 tons per hectare. With the exception of 2020 vintage, ‘Helios’ produced at 840 m also showed high yields, with an average of 5.0 kg per plant or 13 tons per hectare (Table 3).

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Table 3
Productivity, estimated yield and Ravaz Index of ‘Felicia’, ‘Calardis Blanc’(C Blanc.) and ‘Helios’ cultivated in two different altitudes in vintages 2020, 2021 and 2022.

Related results were obtained by other authors when studying the same varieties in Santa Catarina. In the 2018 vintage, in a vineyard located at 1100 m, an average productivity of 2 kg per plant or 6 tons per hectare was observed for ‘Felicia’ and ‘Calardis Blanc’ (SOUZA et al., 2019 SOUZA, A. L. K.; BRIGHENTI, A.F.; BRIGHENTI, E.; CALIARI, V.; STEFANINI, M.; TRAPP, O.; GARDIN, J.P.P.; DALBÓ, M.A.; WELTER, L.J.; CAMARGO, S.S. Performance of resistant varieties (PIWI) at two different altitudes in Southern Brazil. In: BIO WEB OF CONFERENCES, 13., 2019. Abstracts [...]. Cachan: EDP Sciences, 2019. p.01021. ), values below those found in the vineyard located at 1250 m in the present study. Still in the 2018 vintage, but in the vineyard located at 840 m, an average productivity of 9.0 kg was observed for ‘Felicia’, 6.6 kg for ‘Calardis Blanc’ and 3.7 kg for ‘Helios’, which corresponds to 20 tons, 6.7 tons and 3.7 tons per hectare respectively (BRIGHENTI et al., 2019 BRIGHENTI, E; SOUZA, A.L.K.; BRIGHENTI, A.F.; STEFANINI, M.; TRAPP, O.; GARDIN, J.P.P.; DALBÓ, M.A.; CALIARI, V.; WELTER, L.J.; CAMARGO, S.S. Field performance of five white Pilzwiderstandsfahige (PIWI) cultivars in the south of Brazil. Acta Horticulturae, The Hague, v.1248, p.115-22, 2019. ). Pedò et al, (2019) PEDÒ, S.; BOTTURA, M.; PORRO, D. Development, yield potential and nutritional aspects of resistant grapevine varieties in Trentino Alto Adige. In: BIO WEB OF CONFERENCES, 13., 2019. Abstracts [...]. Cachan: EDP Sciences, 2019. p.02004. , observed for ‘Helios’ in Trento Province 0,6 kg wich corresponds 3 tons per hectare. Casanova-Gascon et al. (2019) CASANOVA-GASCÓN, J.; BERNAD-EUSTAQUIO, A.; AYUSO-RODRÍGUEZ, J.M.; ELBAILE-MUR, A.; TORRES-SÁNCHEZ, S.; JARNÉ-CASASÚS, A.; FERRER-MARTÍN, C. Comportamiento de variedades de vid resistentes a enfermedades fúngicas en la comarca del Somontano. Agronomy, Madison, v.9 p.1-16, 2019. studying the PIWI varieties ‘Sauvigner gris’ and ‘Muscaris’ in Spain the harvest weight were 2,15 kg and 1,74 kg, wich corresponds to 8,5 tons and 6,9 tons per hectare respectively. Pacifico et al. (2013) PACIFICO, D.; GAIOTTI, F.; GIUSTI, M.; TOMASI, D. Performance of interspecific grapevine varieties in north-east Italy. Agricultural Sciences, Irvine, v.4, p.91-101, 2013. studying 19 hybrids varieties, observed a production average of 8,1 kg per plant, where the most productive hybrid was observed with over 20 t/h and 4 - 5 t/ha obtained for the least productive varieties.

These results confirm the high productive potential of the PIWI varieties, as well as their adaptation to the edaphoclimatic characteristics of different regions. When comparing the results obtained with PIWI varieties with wine grapes such as Merlot and Cabernet Sauvignon produced in São Joaquim (1400 m) and Campo Belo do Sul (900 m), regions with altitudes similar to Videira and Água Doce, the productive rates of resistant varieties were much higher than those obtained by Muniz et al (2015) MUNIZ, J.N.; SIMON, S.; BRIGHENTI, A.F.; MALINOVSKI, L.I.; PANCERI, C.P.; VANDERLINDE, G.; SILVA, A.D. Viticultural performance of Merlot and Cabernet Sauvignon (Vitis vinifera L.) cultivated in high altitude regions of Southern Brazil. Journal of Life Sciences, Libertyville, v.9 n.9, p.399-410, 2015. . When studying the Chardonnay variety in the 2018 and 2019 vintages in São Joaquim (1200 m), other authors found productivity values between 1.7 and 8.4 tons per hectare (PANCERI et al., 2018 PANCERI, C.; MENDES, M.; CANOSSA, A.T.; MACHADO, B.D.; BRIGHENTI, A.F.; BRIGHENTI, E. Cordão esporonado x Guyot: Influência da intensidade de poda sobre os aspectos produtivos e qualitativos da uva chardonnay em região de altitude de sc. Revista da Jornada de Pós-Graduação e Pesquisa-Congrega Urcamp, Bagé, p.985-97, 2018. ; WÜRZ et al., 2021 WÜRZ, D.A.; DE SOUZA, D.S.; CANOSSA, A.T.; REINEHR, J.; RUFATO, L. Efeito do manejo da desfolha no desempenho agronômico da videira Chardonnay em região de elevada altitude de Santa Catarina. Revista Eletrônica Científica Da UERGS, Porto Alegre, v.7 n.1, p.74-81. 2022. ).

Nowadays, remunerative productivity is a necessary requirement for new genotypes, and it should be associated with desired grape quality and low to moderate susceptibility to biotic and abiotic stress. Moreover, high basal bud fruitfulness allows the implementation of spur-pruning systems prone to the mechanization of winter operations (PONI et al., 2018). The Ravaz index is a parameter used to establish the balance and vigor of the plants, the ideal is that these indexes are between 4 and 10. Values below 4 indicate an excess of vigor or low grape production, while values a from 7 onwards, may indicate excess of production and risk of plant depletion (carbohydrates and nutrients) (ZALAMENA, et al.2013 ZALAMENA, J.; CASSOL, P.C.; BRUNETTO, G.; GROHSKOPF, M.A.; MAFRA, M.S.H. Estado nutricional, vigor e produção em videiras cultivadas com plantas de cobertura. Revista Brasileira de Fruticultura, Jaboticabal, v.35, n.4, p.1190-200, 2013 ; KLIEWER; DOKOOZLIAN, 2005 KLIEWER, W.M.; DOKOOZLIAN, N.K. Leaf area/ crop weight ratios of grapevines: influence on fruit composition and wine quality. American Journal of Enology and Viticulture, Davis, v.56, n.2, p.170- 181, 2005 YUSTE, 2005 YUSTE, D.J. Factores de desequilibrio de la vid: alternativas para el manejo eficaz del potencial vegetativo hacia el equilibrio del viñedo. In: Chamorro, J. Control del vigor y del rendimiento en el marco de una viticultura de calidad. La Rioja: APROVI, 2005 , v.1. ). The Ravaz index values found in this work indicate that the plants are in balance, or with a tendency towards excess production, especially in the vineyard located at 840 m (Table 3). Overproduction did not affect the quality of the grapes and can be resolved by bud number adjustment during pruning or cluster thinning.

The highest pH values were found in the ‘Felicia’, the average of the three evaluated vintages was 3.61 to 840 m and 3.52 to 1250 m. ‘Calardis Blanc’ showed intermediate pH values, on average 3.48 at 840 m and 3.36 at 1250 m. And ‘Helios’ had the lowest pH values in 2020 and 2021 vintages, on average the values obtained in this experiment were 3.37 at 840 m and 3.33 at 1250 m. In general, regardless of the variety, the grapes produced in the lower altitude vineyard had higher pH values (Table 4).

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Table 4
. Total polyphenols and pH of ‘Felicia’, ‘Calardis Blanc’ (Calardis B.) and ‘Helios’ cultivated in two different altitudes in vintages 2020, 2021 and 2022.

The pH values observed by Brighenti et al. (2019) BRIGHENTI, E; SOUZA, A.L.K.; BRIGHENTI, A.F.; STEFANINI, M.; TRAPP, O.; GARDIN, J.P.P.; DALBÓ, M.A.; CALIARI, V.; WELTER, L.J.; CAMARGO, S.S. Field performance of five white Pilzwiderstandsfahige (PIWI) cultivars in the south of Brazil. Acta Horticulturae, The Hague, v.1248, p.115-22, 2019. evaluating the varieties ‘Felicia’, ‘Calardis Blanc’ and ‘Helios’, were superior when compared to those obtained in Videira and Água Doce for these same varieties. Pedò et al. 2019 observed pH values of 3,30 for ‘Helios’ produced in Trento, and Casanova- Gascon et al. (2019) CASANOVA-GASCÓN, J.; BERNAD-EUSTAQUIO, A.; AYUSO-RODRÍGUEZ, J.M.; ELBAILE-MUR, A.; TORRES-SÁNCHEZ, S.; JARNÉ-CASASÚS, A.; FERRER-MARTÍN, C. Comportamiento de variedades de vid resistentes a enfermedades fúngicas en la comarca del Somontano. Agronomy, Madison, v.9 p.1-16, 2019. noted 3,37 and 3,43 pH values for ‘Souvignier gris’ and ‘Muscaris’ respectively. When studying the adaptation of resistant varieties in northern Italy, Frioni et al. (2021) FRIONI, T.; SQUERI, C.; DEL ZOZZO, F.; GUADAGNA, P.; GATTI, M.; VERCESI, A.; PONI, S. Investigating evolution and balance of grape sugars and organic acids in some new pathogen resistant white grapevine varieties. Horticulturae, Basel, v.7, n.8, p.229, 2021. found the following values of pH, 3.42 for Soreli, 3.33 for Sauvignon Kretos and 3.23 for Sauvignon Rytos.

The pH values obtained in this experiment were also higher than those obtained in Sauvignon Blanc grapes by Marcon et al.(2020) MARCON, J.L.; WURZ, D.A.; BRIGHENTI, A.F.; ALLEBRANDT, R.; DE BEM, B.P.; RUFATO, L. Agronomic performance of ‘Sauvignon Blanc’variety trained in Y-trellis and vertical shoot position trellis in a high-altitude region of southern Brazil. Ciência e Técnica Vitivinícola, Dois Portos, v.35, n.2, p.167-75, 2020. and in Chardonnay by Panceri et al.(2018) PANCERI, C.; MENDES, M.; CANOSSA, A.T.; MACHADO, B.D.; BRIGHENTI, A.F.; BRIGHENTI, E. Cordão esporonado x Guyot: Influência da intensidade de poda sobre os aspectos produtivos e qualitativos da uva chardonnay em região de altitude de sc. Revista da Jornada de Pós-Graduação e Pesquisa-Congrega Urcamp, Bagé, p.985-97, 2018. in high altitude regions. The ideal pH for producing quality wines is between 3.10 and 3.50 and values outside this range can affect the wine final quality (JACKSON, 2010). Values of pH above 3.6 are undesirable as they can cause low color intensity, impair microbial stability and increase sensitivity to oxidation (KELLER, 2010 KELLER, M. The science of grapevines: anatomy and physiology. New York: Elsevier, 2010. p.377 ).

‘Felicia’ produced at 840 m showed the highest concentrations of total polyphenols in the three evaluated vintages. The lowest concentrations of total polyphenols were found in the variety ‘Calardis Blanc’ (1250 m) in 2020, in ‘Calardis Blanc’ (840 m) in 2021, in ‘Calardis Blanc’ (840 and 1250 m) and ‘Helios’ (840 m) in 2022 (Table 4). The values obtained in this study ranged from 1134.9 mg L-1 for ‘Felicia’ to 221.6 mg L-1 for ‘Calardis Blanc’. When evaluating the concentration of total polyphenols in white grape varieties produced in São Joaquim (1400 m), values of 995 mg L-1 were found for Trebbiano Toscano, 648 mg L^-1 for Chardonnay, 506 mg L-1 for Moscato Giallo and 283 mg L-1 for Riesling Renano were found (BRIGHENTI et al., 2017 BRIGHENTI, E.; CASAGRANDE, K.; CARDOSO, P.Z.; PASA, M.S.; CIOTTA, M.N.; BRIGHENTI, A.F. Total polyphenols contents in different grapevine varieties in highlands of southern Brazil. In: BIO WEB OF CONFERENCES, 9., 2017. Abstracts [...]. Cachan: EDP Sciences, 2017. Disponível em: doi: 10.1051/ bioconf/20170901024. Acesso em: 28 maio 2021. ).

Many authors have reported that polyphenol composition is due not only to the type of cultivar but also to the location where the grapes are grown and to environmental and management practices, as well as to the growing season (JONES; DAVIS, 2000 JONES, G.V.; DAVIS, R.E. Climate Influences on Grapevine Phenology, Grape Composition, and Wine Production and Quality for Bordeaux, France. American Journal of Enology and Viticulture, Davis, v.51, p.249-61, 2000. ; MATEUS et al., 2002 MATEUS, N.; MACHADO, J.M.; FREITAS, V. Development changes of anthocyanins in Vitis vinifera grapes grown in the Douro Valley and concentration in respective wines. Journal of the Science of Food and Agriculture, Chichester, v.82, p.1689-95, 2002. ). Climatic variables such as precipitation and solar radiation play an important role in the accumulation of phenolic compounds in grapes.

Precipitation is an important climatic factor in terms of the formation of phenolic compounds in the skin of the grapes (JONES; DAVIS, 2000 JONES, G.V.; DAVIS, R.E. Climate Influences on Grapevine Phenology, Grape Composition, and Wine Production and Quality for Bordeaux, France. American Journal of Enology and Viticulture, Davis, v.51, p.249-61, 2000. ). Polyphenols have the function of protecting plants from physical (such as the sun UV radiation) and biological (fungi, viruses, bacteria) attacks. Typically, in places where there are high rainfall levels, there is stress from the plant to combat, mainly, fungal diseases, inducing the production of phenolic compounds (DOWNEY et al., 2006 21. DOWNEY, M.O.; DOKOOZLIAN, N.K.; KRSTIC, M.P.Cultural practice and environmental impacts on the flavonoid composition of grapes and wine: a review of recent research. American Journal of Enology and Viticulture, Davis, v.57, p.257-68, 2006. ; DAI et al., 2011 DAI, Z.W.; OLLAT, N.; GOMES, E.; DECROOCQ, S.; TANDONNET, J.P.; BORDENAVE, L.; PIERI, P.; HILBERT, G.; KAPPEL, C.; LEEUWEN, C.V.; VIVIN, P.; DELROT, S. Ecophysiological, genetic, and molecular causes of variation in grape berry weight and composition: a review. American Journal of Enology and Viticulture, Davis, v.62, p.413-25, 2011. ).

The incidence of solar radiation in grape clusters also contributes to the activation of metabolism and the formation of substances responsible for wine quality, such as phenolic compounds, especially flavonols (DOWNEY et al., 2006 21. DOWNEY, M.O.; DOKOOZLIAN, N.K.; KRSTIC, M.P.Cultural practice and environmental impacts on the flavonoid composition of grapes and wine: a review of recent research. American Journal of Enology and Viticulture, Davis, v.57, p.257-68, 2006. ). This difference can give the wines produced in high altitude regions of Santa Catarina State more intense coloration, more complex aroma, greater structure and persistence (GRIS et al., 2010 GRIS, E.F.; BRIGHENTI, E.; VIEIRA, H.J. Phenology and ripening of Vitis vinifera grapevarieties in São Joaquim, southern Brazil: a new South American wine growing region. Ciencia e Investigación Agraria, Santiago, v.37, p.61-75, 2010. ; MALINOVSKI et al., 2012 MALINOVSKI, L.I.; WELTER, L.J.; BRIGHENTI, A.F.; VIEIRA, H.J.; GUERRA, M.P.; SILVA, A.L. da. Highlands of Santa Catarina/Brazil: a region with high potential for wine production. Acta Horticulturae, The Hague, v.931, p.433-9, 2012. ).

For soluble solids, ‘Felicia’ grown at 840 m showed high values in all evaluated vintages.

For the other varieties there was a marked effect of the vintage, in 2020, ‘Felicia’ (840 m) presented values of 20.7 °Brix, while the lowest values were obtained for ‘Calardis Blanc’ (1250 m) and ‘Helios’ (1250 m), with 15.6 ° Brix and 17.4 °Brix respectively. In the vintage 2021, ‘Helios’ (1250 m) presented the lowest values of soluble solids, with 16.5 °Brix, while the other varieties did not differ. In the vintage 2022, in both locations, ‘Calardis Blanc’ produced grapes with the lowest concentration of soluble solids, 16.9 °Brix at 840 m and 18.3 °Brix at 1250 m, the other varieties did not differ from each other (Table 5).

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Table 5
Soluble solids and total acidity of ‘Felicia’, ‘Calardis Blanc’ (Calardis B.) and ‘Helios’ cultivated in two different altitudes in vintages 2020, 2021 and 2022.

Oscillations in soluble solids values in different vintages can be associated with high variations in precipitation during the grape ripening period, as can be seen in Figure 2. The soluble solids contents verified in this study were like those found by Brighenti et al. (2019) BRIGHENTI, E; SOUZA, A.L.K.; BRIGHENTI, A.F.; STEFANINI, M.; TRAPP, O.; GARDIN, J.P.P.; DALBÓ, M.A.; CALIARI, V.; WELTER, L.J.; CAMARGO, S.S. Field performance of five white Pilzwiderstandsfahige (PIWI) cultivars in the south of Brazil. Acta Horticulturae, The Hague, v.1248, p.115-22, 2019. in São Joaquim for the ‘Felicia’, ‘Calardis Blanc’ and ‘Helios’. For Helios, in Trento – Italy, Pedò et al. (2019) observed a high amount of soluble solids in ‘Helios’ (21, 3°Brix) and Tuchshmid et al (2006) observed 21,6°Brix for Helios and 19,0°Brix for ‘Bronner’. When studying the adaptation of resistant varieties in northern Italy, Frioni et al. (2021) FRIONI, T.; SQUERI, C.; DEL ZOZZO, F.; GUADAGNA, P.; GATTI, M.; VERCESI, A.; PONI, S. Investigating evolution and balance of grape sugars and organic acids in some new pathogen resistant white grapevine varieties. Horticulturae, Basel, v.7, n.8, p.229, 2021. found values above 22° Brix for Soreli, Sauvignon Rytos and Sauvignon Kretos.

The lowest values of total acidity, approximately 67 mEq L^-1, were obtained in ‘Calardis Blanc’ (840 m) in 2020 and 2021 vintages. Low acidity values were also obtained in ‘Felicia’ (in both locations) in 2020 and 2021 and in ‘Calardis Blanc’ (1250 m) in 2021. In the vintage 2022 there was no difference between the different varieties.

The results obtained by Brighenti et al.(2019) BRIGHENTI, E; SOUZA, A.L.K.; BRIGHENTI, A.F.; STEFANINI, M.; TRAPP, O.; GARDIN, J.P.P.; DALBÓ, M.A.; CALIARI, V.; WELTER, L.J.; CAMARGO, S.S. Field performance of five white Pilzwiderstandsfahige (PIWI) cultivars in the south of Brazil. Acta Horticulturae, The Hague, v.1248, p.115-22, 2019. in São Joaquim (1100 m) were higher when compared to those produced in Videira and Água Doce for both varieties.

These values are lower than those obtained by other authors, who obtained 130.5 mEq L-1 and 127.3 mEq L-1 evaluating the variety Chardonnay (PANCERI et al., 2018 PANCERI, C.; MENDES, M.; CANOSSA, A.T.; MACHADO, B.D.; BRIGHENTI, A.F.; BRIGHENTI, E. Cordão esporonado x Guyot: Influência da intensidade de poda sobre os aspectos produtivos e qualitativos da uva chardonnay em região de altitude de sc. Revista da Jornada de Pós-Graduação e Pesquisa-Congrega Urcamp, Bagé, p.985-97, 2018. ; WÜRZ et al., 2020 WÜRZ, D.A.; DE SOUZA, D.S.; CANOSSA, A.T.; REINEHR, J.; RUFATO, L. Efeito do manejo da desfolha no desempenho agronômico da videira Chardonnay em região de elevada altitude de Santa Catarina. Revista Eletrônica Científica Da UERGS, Porto Alegre, v.7 n.1, p.74-81. 2022. ). Tuchshmid et al (2006) noted total acidity in Swizerland for ‘Helios’ 113,5 mEq/L. Pedò et al. 2006 observed the values of 71,9 mEq/L for ‘Helios’ in Trento – Italy; and Baietto (2022) in Canelones - Uruguai observed values of 81,17 for ‘Fleurtai’.

Among two the production sites, the total acidity of grapes produced in Videira was lower than in Água Doce, which can be explained by the shorter maturation cycle due to lower altitude and higher temperatures.

High altitude regions tend to produce grapes with higher levels of acidity and aromas, which favors the production of white and sparkling wines (MANSOUR et al. 2022 MANSOUR, G.; GHANEM, C.; MERCENARO, L.; NASSIF, N.; HASSOUN, G.; DEL CARO, A. Effects of altitude on the chemical composition of grapes and wine: a review. OENO One, Villenave-d'Ornon, v.56, n.1, p.227-39, 2022. ).

It is important to point out that the final quality of a wine is related to the grape stage of maturation, especially the concentration of soluble solids and total acidity, in the case of the production of sparkling wines, a medium sugar content and the presence of acidity result in products with high market acceptance (CALIARI et al, 2014 CALIARI, V.; BURIN, V.M.; ROSIER, J.P.; BORDIGNON, M.T. Aromatic profile of Brazilian sparkling wines produced with classical and innovative grape varieties. Food Research International, Ottawa, v.62, p.965-73, 2014. ; MANSOUR et al, 2022 MANSOUR, G.; GHANEM, C.; MERCENARO, L.; NASSIF, N.; HASSOUN, G.; DEL CARO, A. Effects of altitude on the chemical composition of grapes and wine: a review. OENO One, Villenave-d'Ornon, v.56, n.1, p.227-39, 2022. ). Thus, based on the results obtained for soluble solids and acidity, it is possible to infer that still wines and quality sparkling wines can be produced from grapes produced in the evaluated locations.

In Figure 4 it is possible to observe the PCA of the PIWI varieties grown at different altitudes, in this case factor 1 (PC1) and factor 2 (PC2) explain, respectively, 55.12 and 34.09% of the data variation; together, they explain 89.21% of the total variability. The dispersion of treatments can be observed from their distribution in the coordinate system.

Figure 4
Projection of the principal component analysis of 8 variables used to evaluate the performance of vine fungal resistant varieties (PIWI), during the 2020, 2021 and 2022 vintages in Videira (840 m) and Água Doce (1250 m).

According to the PCA, it was possible to separate the varieties into 4 groups according to similarity standards. In group A are the varieties ‘Helios’ and ‘Calardis Blanc’ grown at 1250 m, they are associated with higher levels of total acidity, higher number of bunches, lower cluster weight, lower levels of total polyphenols, lower yield, lower levels of solids soluble and lower Ravaz index.

In group B are ‘Helios’ cultivated at 840 m and ‘Felicia’ cultivated at 1250 m, these varieties are associated with a smaller number of clusters per plant and intermediate values of soluble solids, pH, yield and cluster weight. In group C is the ‘Calardis Blanc’ variety grown at 840 m, it is associated with a high Ravaz index, high number of clusters, high yield and low acidity. And in group D is the variety ‘Felicia’ grown at 840 m, which is associated with higher values of soluble solids, cluster weight, total polyphenols, pH and higher yield.

Conclusions

The varieties produced at 840 m had a shorter cycle and proved to be more productive when compared to those produced at 1250 m.

The Calardis Blanc variety produced at both altitudes, sprouted later, and it can be considered an advantage to avoid the late frosts, which eventually occur in these regions.

The studied varieties showed good phenological adaptation, high yield, and maturation indices suitable for the production of quality still and sparkling white wines at both altitudes.

‘Felicia’ and ‘Calardis Blanc’ proved to be the most promising varieties for cultivation in both altitude ranges.

Acknowledgements

The Winery Villagio Grando, the Federal University of Santa Catarina, the Julius Kühn Institute – Germany; to the Edmund Mach Foundation – Italy for the support in carrying out this experiment.

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Publication Dates

Publication in this collection
21 Aug 2023
Date of issue
2023

History

Received
30 Sept 2022
Accepted
28 Mar 2023

This is an Open-Access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

[1] ALLEBRANDT, R.; MARCON FILHO, J.L.; BEM, B.P. de; WÜRZ, D.A.; BRIGHENTI, A.F.; KRETZSCHMAR, A.A.; RUFATO, L. Fenologia da variedade Merlot produzida sobre três porta-enxertos em elevadas altitudes de Santa Catarina. Revista Brasileira de Viticultura e Enologia, Bento Gonçalves, n.7, p.36-43, 2015.

[2] ANZANELLO, R.; FIALHO, F.B.; SANTOS, H.P.D. Chilling requirements and dormancy evolution in grapevine buds. Ciência e Agrotecnologia, Lavras, v.42, p.364-71, 2018.

[3] BACK, A. J.; DELLA BRUNA, E.; DALBÓ, M. A. Mudanças climáticas e a produção de uva no vale do Rio do Peixe-SC. Revista Brasileira de Fruticultura, v. 35, n. 1, p. 159-169, 2013.

[4] BASLER, P.; PFENNINGER, H. Disease-resistant cultivars as a solution for organic viticulture. Acta Horticulturae, The Hague, v.603, p.681-5, 2003.

[5] BARTHE, C. Impact de la Charge Fruitière sur la Maturité et la Qualité du Raisin chez le Seyval Blanc et le Vandal Cliche, Deux Cépages Hybrides Cultivésau Québec Thesis (Master Degree) - Université Laval, Québec, 2015.

[6] BOLIANI, A. C. Avaliação fenológica de videira (Vitis vinifera) cv.‘Itália’ e ‘Rubi’ na região Oeste do Estado de São Paulo 1994. Tese (Doutorado em Produção Vegetal) - Faculdade de Ciências Agrárias e Veterinárias, Universidade Estadual Paulista, Jaboticabal, 1994.

[7] BONIN, B.; DE BEM, B.; BRIGHENTI, A.; WURZ, D.; ALLEBRANDT, R.; BRIGHENTI, E.; ARAÚJO, L.; PINTO, F.A.M.F.; Bogo, A. Intensity of anthracnose in resistant varieties (PIWI) in the high altitude regions of southern Brazil. In: BIO WEB OF CONFERENCES, 9., 2017. Abstracts [...]. Cachan: EDP Sciences, 2017. p.01017. Disponível em: https://doi.org/10.1051/bioconf/20170901017 Acesso em: 28 maio 2021.
» https://doi.org/10.1051/bioconf/20170901017

[8] BORGHEZAN, M.; GAVIOLI, O.; PIT, F.A.; SILVA, A.L.D. Comportamento vegetativo e produtivo da videira e composição da uva em São Joaquim, Santa Catarina. Pesquisa Agropecuária Brasileira, Brasília, DF, v.46, n.4, p.398-405, 2011.

[9] BORGHEZAN, M., VILLAR, L., DA SILVA, T. C., CANTON, M., GUERRA, M. P., CAMPOS, C. G. C. Phenology and vegetative growth in a new production region of grapevines: case study in são Joaquim, Santa Catarina, southern Brazil. Open Journal of Ecology, Irvine, v.4. n.6, p.322-35, 2014.

[10] BRIGHENTI, E; SOUZA, A.L.K.; BRIGHENTI, A.F.; STEFANINI, M.; TRAPP, O.; GARDIN, J.P.P.; DALBÓ, M.A.; CALIARI, V.; WELTER, L.J.; CAMARGO, S.S. Field performance of five white Pilzwiderstandsfahige (PIWI) cultivars in the south of Brazil. Acta Horticulturae, The Hague, v.1248, p.115-22, 2019.

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Variety - Altitude	Budbreak	Full Bloom	Veraison	Maturity/Harvest
Felicia 840 m	30-aug ± 9	16-oct ± 9	02-dec ± 12	16-jan ±12
Felicia 1250 m	20-ago ± 9	17-oct ± 10	19-dec ± 14	03-feb ± 8
Calardis B. 840 m	13-sep ± 13	21-oct ± 9	16-dec ± 6	14-jan ± 11
Calardis B. 1250 m	12-sep ± 12	26-oct ± 13	01-jan ± 11	03-feb ± 17
Helios 840 m	03-sep ± 18	18-oct ± 9	08-dec ± 10	21-jan ± 16
Helios 1250 m	26-aug ± 12	20-oct ± 11	04-jan ± 10	05-feb ± 10

Variety - Altitude	Cluster Number			Cluster Weight (g)
Variety - Altitude	2020	2021	2022	2020	2021	2022
Felicia 840 m	31.3 b	32.0 b	41.5 b	210.0 a	153.0 a	195.2 a
Felicia 1250 m	36.6 b	30.9 b	41.3 b	169.6 b	116.1 bc	100.8 cd
C Blanc 840 m	51.16 a	52.0 a	61.8 a	112.7 c	109.1 bc	108.4 bc
C. Blanc 1250 m	52.3 a	50.5 a	54.0 ab	115.3 c	96.4 c	71.4 d
Helios 840 m	27.7 b	35.5 b	45.3 ab	138.8 bc	139.8 ab	133.2 b
Helios 1250 m	35.7 b	35.5 b	40.9 b	128.0 c	115.9 bc	80.1 cd

Variety - Altitude	Productivity (Kg)			Yield (Ton per hectare)			Ravaz Index
Variety - Altitude	2020	2021	2022	2020	2021	2022	2020	2021	2022
Felicia 840 m	6.5 a	4.9 ab	8.1 a	18.1 a	13.7 ab	22.6 a	8.0 ns	7.9 bc	9.7 a
Felicia 1250 m	6.2 a	3.5 b	4.2 bc	17.2 a	9.7 b	11.6 bc	7.1	6.3 c	6.1 bc
C. Blanc 840 m	5.8 ab	5.7 a	6.7 a	16.0 ab	15.9 a	18.5 a	7.8	12.2 a	8.4 ab
C. Blanc 1250 m	6.0 ab	4.8 ab	3.7 bc	16.5 ab	13.2 ab	10.4 bc	7.4	8.9 abc	5.0 c
Helios 840 m	3.9 c	5.0 ab	6.0 ab	10.6 c	13.8 ab	16.6 ab	6.0	11.1 ab	8.4 ab
Helios 1250 m	4.6 bc	4.1 ab	3.2 c	12.7 bc	11.4 b	8.8 c	6.0	7.2 c	5.1 c

Variety - Altitude	pH			Total Polyphenols (mg L^-1)
Variety - Altitude	2020	2021	2022	2020	2021	2022
Felicia 840 m	3.87 a	3.61 a	3.34 ab	1134.9 a	802.3 a	724.9 a
Felicia 1250 m	3.74 b	3.52 b	3.31 b	442.2 c	502.5 bc	780.5 a
C. Blanc. 840 m	3.69 b	3.51 b	3.26 b	807.8 b	333.2 d	570.5 b
C. Blanc. 1250 m	3.50 c	3.47 b	3.12 c	221.6 d	653.6 ab	303.9 b
Helios 840 m	3.59 c	3.34 c	3.19 c	567.2 c	385.2 cd	401.0 b
Helios 1250 m	3.41 d	3.18 d	3.41 a	434.4 c	417.2 cd	661.7 a

Variety - Altitude	Soluble Solids (°Brix)			Total Acidity (mEq L^-1)
Variety - Altitude	2020	2021	2022	2020	2021	2022
Felicia 840 m	20.7 a	18.0 a	19.7 a	78.5 ab	75.4 ab	79.0 ns
Felicia 1250 m	18.8 b	18.0 a	20.9 a	73.3 a	80.4 b	89.5
C. Blanc. 840 m	18.5 b	17.2 ab	16.9 c	67.0 a	66.8 a	78.7
C. Blanc. 1250 m	15.6 d	18.0 a	18.3 b	87.8 b	73.5 ab	78.1
Helios 840 m	18.4 bc	18.0 a	20.0 a	88.9 b	87.4 c	83.2
Helios 1250 m	17.4 c	16.5 b	19.0 ab	88.1 b	97.0 d	74.2

Brasil

Brasil

Performance of resistant grape varieties (PIWI), 'Felicia', 'Calardis Blanc' and 'Helios' in two locations of Santa Catarina State (BR)

Desempenho de variedades das uvas resistentes (PIWI), 'Felicia', 'Calardis Blanc' e 'Helios' produzidas em dois locais do estado de Santa Catarina (BR)

ABSTRACT

RESUMO

Introduction

Material and Methods

Results and Discussion

Conclusions

Acknowledgements

Publication Dates

History