Rootstock-scion interaction: 2.effect on the composition of cabernet sauvignon grape must.

Rootstock-scion interaction: 2.effect on the composition of cabernet sauvignon grape must.

The interaction between rootstock, scion and the environment may induce different responses to the grapevine physiology and, consequently, to the grape composition. The vineyards of Serra Gaúcha, Brazil, are established in different soil types, each with different morphological and physicochemical attributes. Moreover, the grapevines are grafted onto a diversity of rootstocks. Therefore, this study aimed to determine the effect of 15 rootstocks in the composition of the Cabernet Sauvignon (CS) grape must. The following rootstocks were used: Rupestris du Lot, 101-14 Mgt., 3309 C, 420A Mgt., 5BB K, 161-49 C, SO4, Solferino, 1103 P, 99 R, 110 R, Gravesac, Fercal, Dogridge and Isabel, featuring some genetic diversity altogether. The experimental design was in randomized blocks with 15 treatments, three replicates, 10 vines per plot. The grapes were harvested at maturity for four years, and then crushed for winemaking. Next, the grape musts were centrifuged to separate the solid phase from the liquid phase, which was used for analyses related to sugar, acidity and minerals. The data were submitted to correlation analysis and Principal Component Analysis. The main results from the average of four years show that, in general, the grape musts of the CS/101-14 Mgt., CS/161-49 C, CS/3309 C, CS/Rupestris du Lot and CS/Gravesac combinations had high values of density, total soluble solids, pH and °Brix/titratable acidity ratio, and low titratable acidity, which was high with CS/99 R, CS/110 R, CS/Dogridge and CS/1103 P. Potassium had higher concentrations in the grape musts of CS/SO4 and CS/5BB K. Titratable acidity did not correlate with density and total soluble solids, but positively correlated with yield. Density, total soluble solids, and the concentration of potassium were positively correlated with pH. Index terms: Vitis vinifera, grapevine, grafting, composition, minerals.

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Detalhes bibliográficos
Principais autores: MIELE, A., RIZZON, L. A.
Outros Autores: ALBERTO MIELE, CNPUV; Luiz Antenor Rizzon, Engo.-Agro., Dr., Embrapa Uva e Vinho. Aposentado. E-mail: luiz.rizzon@terra.com.br.
Formato: Artigo de periódico biblioteca
Idioma:English
eng
Publicado em: 2017-08-17
Assuntos:Grapevine, Grafting, Composition, Grape, Scion, Grapevine physiology, Serra Gaúcha, Cabernet sauvignon, Rootstock., Vitis vinifera, Minerals, soil types, vineyards.,
Acesso em linha:http://www.alice.cnptia.embrapa.br/alice/handle/doc/1074156
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spelling dig-alice-doc-10741562017-08-22T04:02:19Z Rootstock-scion interaction: 2.effect on the composition of cabernet sauvignon grape must. MIELE, A. RIZZON, L. A. ALBERTO MIELE, CNPUV; Luiz Antenor Rizzon, Engo.-Agro., Dr., Embrapa Uva e Vinho. Aposentado. E-mail: luiz.rizzon@terra.com.br. Grapevine Grafting Composition Grape Scion Grapevine physiology Serra Gaúcha Cabernet sauvignon Rootstock. Vitis vinifera Minerals soil types vineyards. The interaction between rootstock, scion and the environment may induce different responses to the grapevine physiology and, consequently, to the grape composition. The vineyards of Serra Gaúcha, Brazil, are established in different soil types, each with different morphological and physicochemical attributes. Moreover, the grapevines are grafted onto a diversity of rootstocks. Therefore, this study aimed to determine the effect of 15 rootstocks in the composition of the Cabernet Sauvignon (CS) grape must. The following rootstocks were used: Rupestris du Lot, 101-14 Mgt., 3309 C, 420A Mgt., 5BB K, 161-49 C, SO4, Solferino, 1103 P, 99 R, 110 R, Gravesac, Fercal, Dogridge and Isabel, featuring some genetic diversity altogether. The experimental design was in randomized blocks with 15 treatments, three replicates, 10 vines per plot. The grapes were harvested at maturity for four years, and then crushed for winemaking. Next, the grape musts were centrifuged to separate the solid phase from the liquid phase, which was used for analyses related to sugar, acidity and minerals. The data were submitted to correlation analysis and Principal Component Analysis. The main results from the average of four years show that, in general, the grape musts of the CS/101-14 Mgt., CS/161-49 C, CS/3309 C, CS/Rupestris du Lot and CS/Gravesac combinations had high values of density, total soluble solids, pH and °Brix/titratable acidity ratio, and low titratable acidity, which was high with CS/99 R, CS/110 R, CS/Dogridge and CS/1103 P. Potassium had higher concentrations in the grape musts of CS/SO4 and CS/5BB K. Titratable acidity did not correlate with density and total soluble solids, but positively correlated with yield. Density, total soluble solids, and the concentration of potassium were positively correlated with pH. Index terms: Vitis vinifera, grapevine, grafting, composition, minerals. 2017-08-20T10:41:29Z 2017-08-20T10:41:29Z 2017-08-17 2017 2019-05-06T11:11:11Z Artigo de periódico Revista Brasileira de Fruticultura, v. 39, n.3: (e-434), 2017. http://www.alice.cnptia.embrapa.br/alice/handle/doc/1074156 10.1590/0100-29452017 en eng openAccess
institution EMBRAPA
collection DSpace
country Brasil
countrycode BR
component Bibliográfico
access En linea
databasecode dig-alice
tag biblioteca
region America del Sur
libraryname Sistema de bibliotecas de EMBRAPA
language English
eng
topic Grapevine
Grafting
Composition
Grape
Scion
Grapevine physiology
Serra Gaúcha
Cabernet sauvignon
Rootstock.
Vitis vinifera
Minerals
soil types
vineyards.
Grapevine
Grafting
Composition
Grape
Scion
Grapevine physiology
Serra Gaúcha
Cabernet sauvignon
Rootstock.
Vitis vinifera
Minerals
soil types
vineyards.
spellingShingle Grapevine
Grafting
Composition
Grape
Scion
Grapevine physiology
Serra Gaúcha
Cabernet sauvignon
Rootstock.
Vitis vinifera
Minerals
soil types
vineyards.
Grapevine
Grafting
Composition
Grape
Scion
Grapevine physiology
Serra Gaúcha
Cabernet sauvignon
Rootstock.
Vitis vinifera
Minerals
soil types
vineyards.
MIELE, A.
RIZZON, L. A.
Rootstock-scion interaction: 2.effect on the composition of cabernet sauvignon grape must.
description The interaction between rootstock, scion and the environment may induce different responses to the grapevine physiology and, consequently, to the grape composition. The vineyards of Serra Gaúcha, Brazil, are established in different soil types, each with different morphological and physicochemical attributes. Moreover, the grapevines are grafted onto a diversity of rootstocks. Therefore, this study aimed to determine the effect of 15 rootstocks in the composition of the Cabernet Sauvignon (CS) grape must. The following rootstocks were used: Rupestris du Lot, 101-14 Mgt., 3309 C, 420A Mgt., 5BB K, 161-49 C, SO4, Solferino, 1103 P, 99 R, 110 R, Gravesac, Fercal, Dogridge and Isabel, featuring some genetic diversity altogether. The experimental design was in randomized blocks with 15 treatments, three replicates, 10 vines per plot. The grapes were harvested at maturity for four years, and then crushed for winemaking. Next, the grape musts were centrifuged to separate the solid phase from the liquid phase, which was used for analyses related to sugar, acidity and minerals. The data were submitted to correlation analysis and Principal Component Analysis. The main results from the average of four years show that, in general, the grape musts of the CS/101-14 Mgt., CS/161-49 C, CS/3309 C, CS/Rupestris du Lot and CS/Gravesac combinations had high values of density, total soluble solids, pH and °Brix/titratable acidity ratio, and low titratable acidity, which was high with CS/99 R, CS/110 R, CS/Dogridge and CS/1103 P. Potassium had higher concentrations in the grape musts of CS/SO4 and CS/5BB K. Titratable acidity did not correlate with density and total soluble solids, but positively correlated with yield. Density, total soluble solids, and the concentration of potassium were positively correlated with pH. Index terms: Vitis vinifera, grapevine, grafting, composition, minerals.
author2 ALBERTO MIELE, CNPUV; Luiz Antenor Rizzon, Engo.-Agro., Dr., Embrapa Uva e Vinho. Aposentado. E-mail: luiz.rizzon@terra.com.br.
author_facet ALBERTO MIELE, CNPUV; Luiz Antenor Rizzon, Engo.-Agro., Dr., Embrapa Uva e Vinho. Aposentado. E-mail: luiz.rizzon@terra.com.br.
MIELE, A.
RIZZON, L. A.
format Artigo de periódico
topic_facet Grapevine
Grafting
Composition
Grape
Scion
Grapevine physiology
Serra Gaúcha
Cabernet sauvignon
Rootstock.
Vitis vinifera
Minerals
soil types
vineyards.
author MIELE, A.
RIZZON, L. A.
author_sort MIELE, A.
title Rootstock-scion interaction: 2.effect on the composition of cabernet sauvignon grape must.
title_short Rootstock-scion interaction: 2.effect on the composition of cabernet sauvignon grape must.
title_full Rootstock-scion interaction: 2.effect on the composition of cabernet sauvignon grape must.
title_fullStr Rootstock-scion interaction: 2.effect on the composition of cabernet sauvignon grape must.
title_full_unstemmed Rootstock-scion interaction: 2.effect on the composition of cabernet sauvignon grape must.
title_sort rootstock-scion interaction: 2.effect on the composition of cabernet sauvignon grape must.
publishDate 2017-08-17
url http://www.alice.cnptia.embrapa.br/alice/handle/doc/1074156
work_keys_str_mv AT mielea rootstockscioninteraction2effectonthecompositionofcabernetsauvignongrapemust
AT rizzonla rootstockscioninteraction2effectonthecompositionofcabernetsauvignongrapemust
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