Acessibilidade / Reportar erro

Gibberellic acid reduces clusters rot of ‘Sauvignon blanc’ grapes

Ácido giberélico reduz a podridão dos cachos de uvas ‘Sauvignon Blanc’

Abstract

The ripening of grapes is impaired by climatic conditions due to the prolonged rainy season and thus facilitates the proliferation of diseases such as grape clusters rotting, caused by the fungus Botrytis cinerea, even before the ideal harvesting point. The aim of the study was to evaluate the effect of gibberellic acid (GA3) on rot and on physical-chemical quality of ‘Sauvignon Blanc’ grapevine. The experiment was carried out in the production season of 2016 and 2017 in Campanha region in Rio Grande do Sul, Brazil. The GA3 treatments were at the doses of 0 (control); 2; 4; 6 and 8 mg L-1 of GA3. The percentage of clusters rotting and maturation index decreased, however, the titratable acidity increased with GA3 doses. The cluster and rachis length increased with application of GA3. The cluster width; cluster, rachis and berry mass and the soluble solids were not influenced by application of GA3. In ‘Sauvignon Blanc’ grapevine, GA3 reduced the percentage of clusters rotting and improved the cluster and rachis length characteristics and titrable acidity.

Index terms
Gibberellin; Grapevines; Cluster stretching

Resumo

A maturação das uvas é prejudicada pelas condições climáticas, devido ao prolongado período chuvoso e desta forma, facilita a proliferação de doenças como a podridão dos cachos de uvas, causada pelo fungo Botrytis cinerea, antes mesmo do ponto ideal para colheita. O objetivo do trabalho foi avaliar o efeito do ácido giberélico (AG3) na podridão e na qualidade físico-química dos cachos da videira ‘Sauvignon Blanc’. O experimento foi desenvolvido, nas safras produtivas de 2016 e 2017, na região da Campanha no Rio Grande do Sul, Brasil. Os tratamentos com AG3 foram nas doses de 0 (testemunha); 2; 4; 6 e 8 mg L-1 de AG3. A porcentagem de podridão dos cachos e o índice de maturação diminuíram, no entanto, a acidez titulável aumentou com as doses de AG3. O comprimento do cacho e engaço aumentaram com aplicação de AG3. A largura do cacho, massa do cacho, do engaço e da baga e os sólidos solúveis não foram influenciados pela aplicação de AG3. Em videira ‘Sauvignon Blanc’, o AG3 reduziu a porcentagem de podridões dos cachos e melhorou as características de comprimento do cacho e engaço e acidez titulável.

Termos para indexação
Giberelina; Videiras; Alongamento do cacho

Introduction

The grapevine (Vitis vinifera L.) is one of the most cultivated fruit trees in the world, thus, the excellence of wine quality is directly related to grape quality (MORENO et al., 2011 MORENO, D.; BERLI, F.J.; PICCOLI, P.N.; BOTTINI, R. Gibberellins and abscisic acid promote carbonal location in roots and berries of grapevines. Journal of Plant Growth Regulation, Durham, v.30, p.220–228, 2011. ). However, the grapes quality may be affected by the high rainfall volumes, especially during grape maturation, with significant losses due to the occurrence of cluster rot caused by the fungus Botrytis cinerea (GIOVANNINI, 2008 GIOVANINNI E. Produção de uvas para vinhos, suco e mesa. Renascença, Porto Alegre, v.3, p.15-325, 2008. ). This problem is aggravated in grapevines such as the ‘Sauvignon Blanc’ cultivar because it presents small and compact clusters, as well as causing economic losses and degrading grape and wine quality (KY et al., 2012 KY, I.; LORRAIN, B.; JOURDES, M.; PASQUIER, G.; FERMAUD, M.; GENY, L.; REY, P., DONECHE, B.; TEISSEDRE, P.L. Assessment of grey mould (Botrytis cinerea) impact on phenolic and sensory quality of Bordeaux grapes, musts and wines for two consecutive vintages. Australian Journal of Grape and Wine Research, Adelaide, v.18, p.215–226, 2012. ). The grape clusters compaction provides a maturity that can occur due to the reduction in the incidence of sunlight in the berries, especially in the berries located inside the cluster (OIV, 2007 OIV – Organisation International de la Vigne et du Vin. World vitivinicultural statistics e structure of the world vitivini cultural industry. Paris, 2007. ).

Some plant regulators can be used in order to stretch the grapevine cluster and reduce the incidence of cluster rot caused by the fungus Botrytis cinerea.

Among these plant regulators is the gibberellic acid (GA3), this endogenous regulator is essential in the growth and development of plants and regulates some processes such as seed germination, stem elongation, leaf expansion, flower and fruit development, and floral transition (DAGAR et al., 2012 DAGAR, A.; WEKSLER, A.; FRIEDMAN, H.; LURIE, S. Gibberellic acid (GA3) application at the end of pit ripening: effect on ripening and storage of two harvests of ‘September Snow’ peach. Scientia Horticulturae, Amsterdam, v.140, p.125–130, 2012. ). Thus the morphological characteristics of grape clusters and berries can be improved with the use of plant regulators, such as GA3 (BHAT et al., 2011 BHAT, Z.A.; RASHID, R.; BHAT, J.A. Effect of plant growth regulators on leaf number, leaf area and leaf dry matter in grape. Notulae Scientia Biologicae, Cluj-Napoca, v.3, p.87-90, 2011. ).

Positive effects of GA3 were observed in ‘Sauvignon Blanc’, ‘Riesling’, ‘Lemberge’ and ‘Kadarka’ cultivars, in the early ripening of grapes and in the high values of soluble solids, which is an important factor for the production of quality grapes and wines (TESZLAK et al., 2013 TESZLAK, P.; KOCSIS, M.; GAAL, K.; NIKFARDJAM, M.P. Regulatory effects of exogenous gibberellic acid (GA3) on water relations and CO2 assimilation among grapevine (Vitis vinifera L.) cultivars. Scientia Horticulturae, Amsterdam, v.159, p.41–51, 2013. ). The application of GA3 also promoted the increase of fresh and dry mass of ‘Fujiminori’ grapes (JUN et al., 2001 JUN, W.; JIAHUANG, Z.; KAI, X.; QINPING, W.; ZHENLIN, W. Effects of exogenous GA3 on fruit development and endogenous hormones in Fujiminori grape. Journal of Fruit Science, New York, v.18, n.4, p. 209-212, 2001. ) and improved the quality of ‘Bordô’ grapes, causing an increase in soluble solids content and a reduction in titratable acidity (CHIAROTTI et al., 2011 CHIAROTTI, F.; BIASI, L.A.; CUQUEL, F.L.; GUERIOS, I.T. Melhoria da qualidade de uva 'Bordô' para produção de vinho e suco de uva. Revista Brasileira de Fruticultura, Jaboticabal, v.33, p.618-624, 2011. Número especial ). In ‘Niagara’ the application of GA3 promotes the increase of berries mass, rachis mass and berry diameter (GUERIOS et al., 2016 GUERIOS, I.T.; CHIAROTTI, F.; CUQUEL, F.L.; BIASI, L.A. Growth regulators improve bunch and berry characteristics in ‘Niagara Rosada’ grape. Acta Horticulturae, The Hague, v.1115, p.243-248, 2016. ). GA3 increased the productivity of seedless grape cultivars, promoting fruit growth and improving the cluster architecture (FERRARA et al., 2014 FERRARA, G.; MAZZEO, A.; NETTI, G.; PACUCCI, C.; MATARRESE, A.M.S.; CAFAGNA, I.; MASTROLLI, P.; VEZZOSO, M.V.; GALLO, V. Girdling, gibberellic acid, and forchlorfenuron: effects on yield, quality, and metabolic profile of table grape cv. Itália. American Journal of Enology and Viticulture, Davis, v.65, p.381-387, 2014. ). In seedless grapes such as ‘Sunny Rouge’, GA3 improved grapes yield and quality, besides influencing the hardness and elasticity of grape skin (YAMADA et al., 2003 YAMADA, M.; YAMANE, H.; KURIHARA, A.; NAGATA, K.; YOSHINAGA, K.; HIKARAWA, N.; SATO, A.; IWANAWI, H.; OZAWA, T.; SUMI, T.; HIRABAYASHI, T.; MATSUMOTO, R.; KAKUTANI, M.; NAKAJIMA, I. New grape variety Sunny Rouge. Bulletin of the National Institute of Fruit Tree Science Japan, Fujimoto, v.2, p.33–42, 2003. ).

However, the efficiency of the GA3 treatment depends on the time of application, its concentration of GA3 solution and the climatic conditions after the application (KAPŁAN, 2011 KAPLAN, M. Effect of growth regulator application technique on quality of grapevine ‘Einset Seedless’ variety (In Polish). Acta Agrobotanica, Lublin, v.64, p189–196, 2011. ). Although studies about GA3 on grapevine have been reported in the literature, there is not enough information about suitable concentrations of GA3 to control the cluster rot (Kaplan et al., 2017 KAPLAN, M.; NAJDA, A.; BARYLA, P.; KLIMEK, K. Effect of gibberellic acid concentration and number of treat ments on yield components of “Einset Seedless” grapevine cultivar. Horticultural Science, Slezská, v.44, p.95–200, 2017. ).

Given the above, the purpose of the study was to evaluate the effect of GA3 in the rot and physical and chemical quality of ‘Sauvignon Blanc’ grapevine in Campanha region of Rio Grande do Sul, Brazil.

Material and methods

The study was carried out in the production cycles 2015/2016 and 2016/2017, in a commercial vineyard of the Miolo winery, located in Campanha region, municipality of Candiota, Rio Grande do Sul (RS), Brazil, with latitude 31º 33’ 29” S, longitude 53º 40’ 21” W and altitude of 220 meters. The climate of the region is temperate with hot and dry summers according to the classification of Köppen. The region has an average annual temperature and rainfall of 17.8° C and 1,388 mm, respectively. The soil is classified as Eutrophic Red-Yellow Argilossol (STRECK et al., 2008 STRECK, E.V.; KÄMPF, N.; DALMOLIN, R.S.D.; KLANT, E.; NASCIMENTO P.D., SCHNEIDER P.; GIASSON E.; PINTO L.F.S. Solos do Rio Grande do Sul. 2.ed. Porto Alegre: EMATER/Ascar, 2008. p.222. ).

The vineyard used was from the 14-year-old Sauvignon Blanc cultivar grafted on the SO4 rootstock in clone 317 with spacing of 3.0 m between rows and 1.20 m between plants and conducted in Guyot system. The experimental design was randomized blocks with four repetitions for each treatment. The plants used within each block for the pulverization were the three central plants (useful plot/portion), eliminating the border of each treatment and spraying all clusters of the plants.

Gibberellic acid (GA3) was derived from the commercial product Pro-Gibb®, containing 10% active ingredient.

Added 0.025% of nonionic adhesive spreader Silwet L-77® in the syrup. Treatments with GA3 solutions were 0 (control); 2; 4; 6 and 8 mg L-1 of GA3. For the control treatment, water and adhesive spreader were applied.

The pulverizations were performed when 50% of the clusters were in the growth stage developed inflorescence (DI) (EICHHORN and LORENZ, 1984 EICHHORN, K.W.; LORENZ, D.H. Phaenologische Entwicklungsstadien der Rebe. European and Mediterranean. Plant Protection Organization. v.4, p.295-298, 1984. ). The applications of GA3 were made via localized pulverization (manual sprayer) in all clusters of the grapevine until reaching the pour point.

The grapes were harvested, in the final maturation process, to be destined to the elaboration of sparkling wine. The plant yield was counted using the average number of clusters and the average mass of clusters of the useful plot. For the other variables, a uniform sample of five clusters of the useful plot for each treatment was randomly collected. After the harvest, the clusters were conditioned in thermal boxes and transported to the Fruit Laboratory of the Federal University of Pelotas (UFPel) in RS for the quality evaluations of the grape clusters.

The quality evaluations of the grape clusters were as follows: clusters rot caused by the fungus Botrytis cinerea, results expressed as percentage (%); plant yield, the results being expressed in kg/plant; length and width of clusters and rachis measured using a digital caliper, expressed in (mm); mass of the clusters, rachis and berries, quantified with the aid of a digital scale expressed in (g).

For the determination of the berries soluble solids (SS), the digital refractometer was used and the results were expressed in °Brix; titratable acidity (TA) indicated by the titration with 0.1 N of NaOH solution until reaching pH 8.1, and the results expressed in % of tartaric acid, according to the methodology described by AOAC (2007) AOAC – Official methods of analysis of the Association of Official Analytical Chemists. Arlington: Association of Official Analytical Chemists. 2007. ; the maturation index was obtained by the SS/TA ratio Analyzes of variance were performed by the F test (p ≤ 0.05), and when the treatments were significant regression analysis was performed.

Results and discussion

The average percentage of ‘Sauvignon Blanc’ grape clusters caused Botrytis cinerea fungus in 2016 and 2017 season decreased on average by 14.88% with GA3 treatments compared to the control that obtained the average value of 21.34% (Figure 1). We observed in general that for the variable rotting percentage there were no differences between the GA3 doses applied in the grape clusters, however differences were verified between the control and GA3 doses. In the ‘Vignoles’ grapevines when 10 mg L-1 of GA3 was applied before blossom and another two applications of fungicide, the fungus Botrytis sp. was controlled (HED et al., 2011 HED, B.; NGUGI, H.K.; TRAVIS, J.W. Use of gibberellic acid for management of bunch rot on Chardonnay and Vignoles grape. Plant Disease, Pilot Knob Road, v.95, p.269-278, 2011. ).

Figure 1
Rotting average percentage in clusters of ‘Sauvignon Blanc’ grapes treated with gibberellic acid in Campanha region in RS.

In ‘Sauvignon Blanc’ grapevines treated with the 6 mg L-1 dose of GA3, the average plant yield was 3.55 kg / plant, whereas the control resulted in an average of 1.85 kg / plant in both seasons evaluated (Figure 2). The increase in yield of ‘Thompson Seedless’ grapes with 25 mg L-1 of GA3 after fruiting was also noted (MARZOUK et al., 2011 MARZOUK, H.A.; KASSEM, H.A. Improving yield, quality, and shelf life of Thompson seedless grapevine by pre harvest foliar applications. Scientia Horticulturae, Amsterdam, v.130, p.425-430, 2011. ).

Figure 2
Average plant yield of ‘Sauvignon Blanc’ grapes treated with gibberellic acid in Campanha region in RS

The variables such length of cluster and stem in ‘Sauvignon Blanc’ grapevine presented higher values with the increase of GA3 doses in the two years of studies (Figures 3A and 3B). The increase of these variables must be due to the gibberellins promote the growth of plant organs, by increasing the volume of existing or newly divided cells (JONG et al., 2009 JONG, M.; MARIANI, C.; VRIEZEN, W.H. The role of auxin and gibberellin in tomato fruit set. Journal of Experimental Botany, Oxford, v.60, p.1.523-1.532, 2009. ). Sangeetha et al. (2015) SANGEETHA, J.; SIVACHANDIRAN, S.; SELVASKANTHAN. S. Influence of Different Application Methods of Gibberellic acid (GA3) on Quality and Yield of Grapes (Vitis vinifera L.). International Joural, Toronto, v.2, p.10-14, 2015. also observed increased in the clusters length on ‘Israel Blue’ grapevine when the 5 mg L-1 dose of GA3 was applied before blossom and at doses of 10 mg L-1, 15 mg L-1, 40 mg L-1 and 30 mg L-1 of GA3 at 2, 4, 6 and 8 weeks after blossom.

Figure 3
Effect of gibberellic acid (GA3) application on the inflorescence developed in clusters of ‘Sauvignon Blanc’ vines. A) Cluster length; B) Rachis length. Candiota-RS, 2016 and 2017 seasons.

The GA3 had no significant effect on the width of ‘Sauvignon Blanc’ cluster in the 2016 and 2017 seasons.

However, for the rachis width, the effect of GA3 was more significant at 4 mg L-1 dose as compared to the control and at doses of 6 and 8 mg L-1 (Figure 4). A study developed by Rodrigues et al. (2010) RODRIGUES, A.; ARAÚJO, J.P.C.; GIRARDI, E.A.; SCARPARE, F.V.; FILHO, J.A.S. Aplicação de AG3 e CPPU na qualidade da uva ‘Itália’ em Porto Feliz-SP. Revista Brasileira de Fruticultura, Jaboticabal, v.33, n.1, p.1-7, 2010. no significant differences were observed for the clusters width after the application of different doses of GA3 (0, 10, 20 and 30 mg L-1) in the winter and spring cycle on ‘Italy’ grapevine.

Figure 4
Average rachis width of ‘Sauvignon Blanc’ grapes treated with gibberellic acid in Campanha region in RS.

The results of the GA3 treatments for cluster, rachis and berry mass of ‘Sauvignon Blanc’ grapevines were not significant in the analysis of variance in the two seasons. However, in the ‘BRS Clara’ the increase of the clusters mass occurred after the use of 50 mg L-1 of GA3 with one application (berries of 4 to 5 mm in diameter) or two applications (berries of 9 to 10 mm of diameter) (SOUZA et al., 2010 SOUZA, R.T.; NACHTIGAL, J.C.; MORANTE, J.P.; SANTANA, A.P.S. Efeito de doses e formas de aplicação de reguladores de crescimento em uvas sem sementes, cv. BRS Clara, em região tropical. Revista Brasileira de Fruticultura, Jaboticabal, v.32, n.3, p.763-768, 2010. ). According to Tecchio et al. (2009) TECCHIO, M.A.; TERRA, M.M.; CIA, P.; PAIOLI-PIRES, E.J.; MOURA, M.F.; SANCHES, J.; BENATO, E.A.; HERNANDES, J.L.; VALENTINI, S.R. DE. T.; SIGRIST, J.M.M. Efeito do ácido naftalenoacético e do cloreto de cálcio na redução das perdas pós-colheita em uva ‘Niagara Rosada’. Revista Brasileira de Fruticultura, Jaboticabal, v.31, n.1, p.53-61, 2009. , the application of GA3 in the concentration of 60 mg L-1, in the ‘Mars’ grapevine, increased the fresh rachis mass.

In ‘Rubi’ grapevines the application of gibberellic acid in 3.0 concentration; 100 mg L-1 at 30 days after full blossom increased the berries mass (ROBERTO et al., 2002 ROBERTO, S.R.; KANAI, H.T.; YANO, M.Y.; SASANO, E.M.; GENTA, W. Efeito do ácido giberélico e anelamento de tronco nas características dos cachos da videira ‘Rubi’. Semina: Ciências Agrárias, Londrina, v.23, p.151-156, 2002. ).

In ‘Ruby Seedless’ and ‘Thompson Seedless’ grapevines after the application of GA3 at dose of 40 mgL-1 (berries around 15 mm in diameter) and 30 mg L-1 (berries between 4 and 5 mm in diameter) did not altered soluble solids values (ZOFFOLI et al., 2009 ZOFOLLI, J.P.; LATORRE, B.A.; NARANJO, P. Preharvest applications of growth regulators and their effect on postharvest quality of table grapes during cold storage. Postharvest Biology and Technology, Amsterdam, v.52, n.2, p. 183-192, 2009 ). Titratable acidity increased after application of the GA3 doses compared to the control in the ‘Sauvignon Blanc’ grapes or berries (Figure 5A). Özer et al. (2012) ÖZER, C.; YASASIN, A.S.; ERGONU, O.; AYDIN, S. The effects of berry thinning and gibberellin on receluzumu table grapes. Pakistan Journal of Agricultural Sciences, Faisalabad, v.49, p.105-112, 2012. studying ‘Reçel Üzümü’ grapevine after applying 40 mg L-1 in berries with 4 to 5 mm in diameter, observed higher values of titratable acidity in the control. However, the maturation index (SS/TA) decreased after application of GA3 in ‘Sauvignon Blanc’ grapes (Figure 5B). In ‘Perlette’ grapes the application of 50 mg L-1 of GA3, 14 days after full blossom increased ratio (ZAHEDIL et al., 2013 ZAHEDI, M.; MORTAZAVI, S.; MOALLEMI, N.; ABDOSSI, V. Effect of pre-harvest application of gibberellic acid and ethephon on the quality of table grape. Journal of Ornamental and Horticultural Plants, Rasht, v.3, p.125– 131, 2013. ).

Figure 5
Effect of gibberellic acid (GA3) application on the inflorescence developed in clusters of ‘Sauvignon Blanc’ vines. A) Titratable acidity; B) Ratio. Candiota-RS, 2016 and 2017 seasons.

Conclusions

In ‘Sauvignon Blanc’ grapevine, the gibberellic acid reduced the percentage of clusters rotting and improved the characteristics such as cluster and stem length, and titratable acidity. The cluster width, cluster, rachis and berry mass, and soluble solids were not influenced by GA3.

Acknowledgements

We would like to thank the Lab/Frut team, UFPeL and Capes.

  • AOAC – Official methods of analysis of the Association of Official Analytical Chemists. Arlington: Association of Official Analytical Chemists. 2007.
  • BHAT, Z.A.; RASHID, R.; BHAT, J.A. Effect of plant growth regulators on leaf number, leaf area and leaf dry matter in grape. Notulae Scientia Biologicae, Cluj-Napoca, v.3, p.87-90, 2011.
  • CHIAROTTI, F.; BIASI, L.A.; CUQUEL, F.L.; GUERIOS, I.T. Melhoria da qualidade de uva 'Bordô' para produção de vinho e suco de uva. Revista Brasileira de Fruticultura, Jaboticabal, v.33, p.618-624, 2011. Número especial
  • DAGAR, A.; WEKSLER, A.; FRIEDMAN, H.; LURIE, S. Gibberellic acid (GA3) application at the end of pit ripening: effect on ripening and storage of two harvests of ‘September Snow’ peach. Scientia Horticulturae, Amsterdam, v.140, p.125–130, 2012.
  • EICHHORN, K.W.; LORENZ, D.H. Phaenologische Entwicklungsstadien der Rebe. European and Mediterranean. Plant Protection Organization v.4, p.295-298, 1984.
  • FERRARA, G.; MAZZEO, A.; NETTI, G.; PACUCCI, C.; MATARRESE, A.M.S.; CAFAGNA, I.; MASTROLLI, P.; VEZZOSO, M.V.; GALLO, V. Girdling, gibberellic acid, and forchlorfenuron: effects on yield, quality, and metabolic profile of table grape cv. Itália. American Journal of Enology and Viticulture, Davis, v.65, p.381-387, 2014.
  • GIOVANINNI E. Produção de uvas para vinhos, suco e mesa. Renascença, Porto Alegre, v.3, p.15-325, 2008.
  • GUERIOS, I.T.; CHIAROTTI, F.; CUQUEL, F.L.; BIASI, L.A. Growth regulators improve bunch and berry characteristics in ‘Niagara Rosada’ grape. Acta Horticulturae, The Hague, v.1115, p.243-248, 2016.
  • HED, B.; NGUGI, H.K.; TRAVIS, J.W. Use of gibberellic acid for management of bunch rot on Chardonnay and Vignoles grape. Plant Disease, Pilot Knob Road, v.95, p.269-278, 2011.
  • JONG, M.; MARIANI, C.; VRIEZEN, W.H. The role of auxin and gibberellin in tomato fruit set. Journal of Experimental Botany, Oxford, v.60, p.1.523-1.532, 2009.
  • JUN, W.; JIAHUANG, Z.; KAI, X.; QINPING, W.; ZHENLIN, W. Effects of exogenous GA3 on fruit development and endogenous hormones in Fujiminori grape. Journal of Fruit Science, New York, v.18, n.4, p. 209-212, 2001.
  • KAPLAN, M. Effect of growth regulator application technique on quality of grapevine ‘Einset Seedless’ variety (In Polish). Acta Agrobotanica, Lublin, v.64, p189–196, 2011.
  • KAPLAN, M.; NAJDA, A.; BARYLA, P.; KLIMEK, K. Effect of gibberellic acid concentration and number of treat ments on yield components of “Einset Seedless” grapevine cultivar. Horticultural Science, Slezská, v.44, p.95–200, 2017.
  • KY, I.; LORRAIN, B.; JOURDES, M.; PASQUIER, G.; FERMAUD, M.; GENY, L.; REY, P., DONECHE, B.; TEISSEDRE, P.L. Assessment of grey mould (Botrytis cinerea) impact on phenolic and sensory quality of Bordeaux grapes, musts and wines for two consecutive vintages. Australian Journal of Grape and Wine Research, Adelaide, v.18, p.215–226, 2012.
  • MARZOUK, H.A.; KASSEM, H.A. Improving yield, quality, and shelf life of Thompson seedless grapevine by pre harvest foliar applications. Scientia Horticulturae, Amsterdam, v.130, p.425-430, 2011.
  • MORENO, D.; BERLI, F.J.; PICCOLI, P.N.; BOTTINI, R. Gibberellins and abscisic acid promote carbonal location in roots and berries of grapevines. Journal of Plant Growth Regulation, Durham, v.30, p.220–228, 2011.
  • OIV – Organisation International de la Vigne et du Vin. World vitivinicultural statistics e structure of the world vitivini cultural industry. Paris, 2007.
  • ÖZER, C.; YASASIN, A.S.; ERGONU, O.; AYDIN, S. The effects of berry thinning and gibberellin on receluzumu table grapes. Pakistan Journal of Agricultural Sciences, Faisalabad, v.49, p.105-112, 2012.
  • ROBERTO, S.R.; KANAI, H.T.; YANO, M.Y.; SASANO, E.M.; GENTA, W. Efeito do ácido giberélico e anelamento de tronco nas características dos cachos da videira ‘Rubi’. Semina: Ciências Agrárias, Londrina, v.23, p.151-156, 2002.
  • RODRIGUES, A.; ARAÚJO, J.P.C.; GIRARDI, E.A.; SCARPARE, F.V.; FILHO, J.A.S. Aplicação de AG3 e CPPU na qualidade da uva ‘Itália’ em Porto Feliz-SP. Revista Brasileira de Fruticultura, Jaboticabal, v.33, n.1, p.1-7, 2010.
  • SANGEETHA, J.; SIVACHANDIRAN, S.; SELVASKANTHAN. S. Influence of Different Application Methods of Gibberellic acid (GA3) on Quality and Yield of Grapes (Vitis vinifera L.). International Joural, Toronto, v.2, p.10-14, 2015.
  • SOUZA, R.T.; NACHTIGAL, J.C.; MORANTE, J.P.; SANTANA, A.P.S. Efeito de doses e formas de aplicação de reguladores de crescimento em uvas sem sementes, cv. BRS Clara, em região tropical. Revista Brasileira de Fruticultura, Jaboticabal, v.32, n.3, p.763-768, 2010.
  • STRECK, E.V.; KÄMPF, N.; DALMOLIN, R.S.D.; KLANT, E.; NASCIMENTO P.D., SCHNEIDER P.; GIASSON E.; PINTO L.F.S. Solos do Rio Grande do Sul. 2.ed. Porto Alegre: EMATER/Ascar, 2008. p.222.
  • TECCHIO, M.A.; TERRA, M.M.; CIA, P.; PAIOLI-PIRES, E.J.; MOURA, M.F.; SANCHES, J.; BENATO, E.A.; HERNANDES, J.L.; VALENTINI, S.R. DE. T.; SIGRIST, J.M.M. Efeito do ácido naftalenoacético e do cloreto de cálcio na redução das perdas pós-colheita em uva ‘Niagara Rosada’. Revista Brasileira de Fruticultura, Jaboticabal, v.31, n.1, p.53-61, 2009.
  • TESZLAK, P.; KOCSIS, M.; GAAL, K.; NIKFARDJAM, M.P. Regulatory effects of exogenous gibberellic acid (GA3) on water relations and CO2 assimilation among grapevine (Vitis vinifera L.) cultivars. Scientia Horticulturae, Amsterdam, v.159, p.41–51, 2013.
  • YAMADA, M.; YAMANE, H.; KURIHARA, A.; NAGATA, K.; YOSHINAGA, K.; HIKARAWA, N.; SATO, A.; IWANAWI, H.; OZAWA, T.; SUMI, T.; HIRABAYASHI, T.; MATSUMOTO, R.; KAKUTANI, M.; NAKAJIMA, I. New grape variety Sunny Rouge. Bulletin of the National Institute of Fruit Tree Science Japan, Fujimoto, v.2, p.33–42, 2003.
  • ZAHEDI, M.; MORTAZAVI, S.; MOALLEMI, N.; ABDOSSI, V. Effect of pre-harvest application of gibberellic acid and ethephon on the quality of table grape. Journal of Ornamental and Horticultural Plants, Rasht, v.3, p.125– 131, 2013.
  • ZOFOLLI, J.P.; LATORRE, B.A.; NARANJO, P. Preharvest applications of growth regulators and their effect on postharvest quality of table grapes during cold storage. Postharvest Biology and Technology, Amsterdam, v.52, n.2, p. 183-192, 2009

Publication Dates

  • Publication in this collection
    05 Aug 2019
  • Date of issue
    2019

History

  • Received
    05 Mar 2019
  • Accepted
    03 June 2019
Sociedade Brasileira de Fruticultura Via de acesso Prof. Paulo Donato Castellane, s/n , 14884-900 Jaboticabal SP Brazil, Tel.: +55 16 3209-7188/3209-7609 - Jaboticabal - SP - Brazil
E-mail: rbf@fcav.unesp.br