ABSTRACT
The objective of this study was to evaluate the physico-chemical characteristics of fruits of 58 sweet orange tops cultivars on four rootstocks, namely: ‘Sunki Tropical’ mandarin and ‘Trifoliata’ Citrandarin ‘San Diego’, ‘Riverside’ and ‘Indio’. For this purpose, a completely randomized experimental design was used, in a factorial scheme (58 x 4). The characteristics analyzed were: equatorial diameter, fruit mass, peel thickness, number of seeds, soluble solids, titratable acidity, Ratio and juice yield. All the characteristics analyzed were influenced by both the tops cultivar and the rootstock, demonstrating that both factors interfere in the physicochemical quality of the fruits. The tops ‘Pera D-3’, ‘Pera Olimpia’, ‘Pera Bianchi’, ‘Jaffa’ and ‘Westin’ on all rootstocks evaluated showed characteristics in their fruits with soluble solids greater than 10 ºBrix, Ratio above 9.5 and juice yield greater than 45%, characteristics that define fruits with quality standards. Also, the tops ‘Pera Olimpia’, ‘Sincorá’ and ‘Westin’ on the rootstock ‘Sunki Tropical’, ‘Pera D-3’, ‘Pera D-25’, ‘Sincorá’, ‘Aquiri’ and ‘Russas P.S.’ on the rootstock ‘San Diego’, ‘Pera C-32’, ‘Pera D-3’, ‘Pera D-6’, ‘Pera E-6’, ‘Pera Bianchi’, ‘Pera CE-03 ‘, ‘Salustiana’ and ‘Westin’ on ‘Riverside’ rootstock are suitable for the juice production industry with Ratio between 14 and 16 and juice yield greater than 50%. It is also worth noting that the tops ‘Crescent’, ‘Natal Folha Murcha’, ‘Valencia Midknight’ and ‘Valencia Delta’ produced fruits without seeds on all rootstocks.
Index terms
Citrus spp.; fruit quality; cultivars; Genetical diversity
RESUMO
Objetivou-se por este estudo avaliar as características físico-químicas de frutos de 58 cultivares de copa de laranjeiras-doce sobre quatro porta-enxertos, sendo eles: tangerineira ‘Sunki Tropical’ e os híbridos de ‘Trifoliata’ Citrandarin ‘San Diego’, ‘Riverside’ e ‘Indio’. Para tanto, utilizou-se o delineamento experimental inteiramente ao acaso, em esquema fatorial (58 x 4). As características analisadas foram: o diâmetro equatorial dos frutos; a massa dos frutos; a espessura da casca; o número total de sementes; o teor de sólidos solúveis; a acidez titulável; Ratio e o rendimento de suco. Todas as características analisadas sofreram influência tanto dacultivar copa quanto do porta-enxerto, demostrando que os dois fatores interferem naqualidade físico-química dos frutos. As copas ‘Pera D-3’, ‘Pera Olimpia’, ‘PeraBianchi’, ‘Jaffa’ e ‘Westin’,sobre todao os porta-enxertos avaliados, apresentaram características nos seusfrutos com sólidos solúveis maior que 10 ºBrix, Ratio acima de 9,5 e rendimento de suco superior a 45%, características essas que definem frutos com padrão de qualidade. Também,as copas‘Pera Olimpia’, ‘Sincorá’ e ‘Westin’ no porta-enxerto ‘Sunki Tropical’, ‘PeraD-3’, ‘Pera D-25’, ‘Sincorá’, ‘Aquiri’ e ‘Russas P.S’ no porta-enxerto ‘San Diego’, ‘PeraC-32’, ‘Pera D-3’, ‘Pera D-6’, ‘Pera E-6’, ‘Pera Bianchi’, ‘Pera CE-03’, ‘Salustiana’ e ‘Westin’, no porta-enxerto ‘Riverside’ mostram-se apropriadas para a indústria de produção de suco comRatio entre 14 e 16 e rendimento de suco superior a 50%. Vale destacar, ainda, as copas‘Crescent’,‘Natal Folha Murcha’, ‘Valencia Midknight’ e ‘Valencia Delta’ que produziramfrutos com ausência de sementes em todos os porta-enxertos.
Termos para indexação
Citrus spp.; qualidade de frutos; cultivares; diversidade genética
Introduction
The Brazil stands out internationally as the largest producer and main exporter of sweet orange juice [Citrus × sinensis (L.) Osbeck] (STUCHI et al., 2020), with its production distributed throughout all regions of the country due to its easy adaptation to the condition edaphoclimatic conditions (SIQUEIRA; SALOMÃO, 2017 SIQUEIRA, D.L.; SALOMÃO, L.C.C. Citros: do plantio à colheita.Viçosa, MG: EditoraUFV, 2017. 278 p. ). In 2019, the country produced around 17,073,593 tons, with emphasis on the State of São Paulo, which contributed with more than 77% of all national production (IBGE, 2021 IBGE - Instituto Brasileiro de Geografia e Estatística. Produção agrícola municipal: área destinada à colheita, área colhida, quantidade produzida, rendimento médio e valor da produção das lavouras permanentes. Rio de Janeiro, 2019. Disponível em: http:/www.sidra.ibge.gov.br. Acesso em: 06 set. de 2021.
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).
The formation of seedlings for citrus orchards is usually done through grafting. About rootstocks, cultivars with dwarfing characteristics have been sought, that is, those materials that have a reduced size, in which greater productive efficiency is possible due to increased density and easier cultural practices, reducing production costs.
In addition, the rootstock must have the tolerance to the main diseases, resistance to drought, frost, and compatibility with tops cultivars (BASTOS, et al., 201 BASTOS, D.C.; FERREIRA, E.A.; PASSOS, O.S.; SÁ, J.F.; ATAÍDE, E.M.; CALGARO, M. Cultivares copa e porta-enxertos para a citricultura brasileira. Informe Agropecuário, Belo Horizonte, v.35, n.281, p.36-45, 2014. 4). The materials used as rootstock also have a direct influence on the characteristics of the tops cultivars, interfering with vigor and productivity, in addition to affecting the fruits, maturation period, mass, shell color, sugar content, acidity, and juice quantity (POMPEU JUNIOR,2005 POMPEU JUNIOR, J. Porta-enxertos. In: MATTOS JR., D.; DE NEGRI, J.D.; PIO, R.M.; POMPEU JR., J. (ed.). Citros. Cordeirópolis: Centro APTA Citros Sylvio Moreira, 2005. v.1, p.63-104. ). In this sense, the hybrids of ‘Trifoliata’ Citrandarin ‘Indio’, ‘Riverside’, ‘San Diego’ and the mandarin tree ‘Sunki Tropical’ stand out as rootstocks (BASTOS, et al., 2014 BASTOS, D.C.; FERREIRA, E.A.; PASSOS, O.S.; SÁ, J.F.; ATAÍDE, E.M.; CALGARO, M. Cultivares copa e porta-enxertos para a citricultura brasileira. Informe Agropecuário, Belo Horizonte, v.35, n.281, p.36-45, 2014. ).
In Brazil, tops and rootstock cultivars have a narrow genetic base, limiting the expansion of the crop, therefore, there is a need to include new cultivars, in order to increase genetic diversity and minimize phytosanitary problems, in addition to meeting the demand of producers and consumers with more productive cultivars and better-quality fruits (MARTINS et al., 2014 MARTINS, C.R.; CARVALHO, H.W.L.; TEODORO, A.V.; SOARES FILHO, W.S.; PASSOS, O.S.; SOUZA, M.E.; BARRETO, C.F. Fenologia de novas variedades copas de citros nos Tabuleiros Costeiros do Sul de Sergipe. Aracaju: Embrapa Tabuleiros Costeiros, 2014. ; BASTOS et al., 2015 BASTOS, D.C.; PASSOS, O.S.; ATAÍDE, E.M.; SÁ, J.F. de; GIRARDI, E.A.; AZEVEDO, C.L.L. Cultivo de citros no semiárido brasileiro. Petrolina: Embrapa Semiárido, 2015. ).
Another problem related to the production of sweet orange trees is the low quality of the juice, often related to the Northeast Region, where the fruits of this region are stigmatized as not being able to meet the requirements of the consumer market.
Thus, it is necessary to carry out research that characterizes the various combinations of tops/rootstock cultivars of Citrus spp., which will serve as an alternative for consumers and farmers, enabling an increase in Brazilian production to serve the domestic and foreign markets. In this sense, the objective of this study was to evaluate the physicochemical characteristics of the fruits of 58 sweet orange tree tops cultivars, having ‘Sunki Tropical’ mandarin as rootstock and the hybrids of ‘Trifoliata’ Citrandarin ‘San Diego’, ‘Riverside’ and ‘Indio’.
Material and methods
The study was conducted in 2021, in a 6-yearold citrus orchard located at the Chão Bello Farm, belonging to the Bello Brazilian Exotic Fruit Company, located in the municipality of Ibirapuã, in the extreme south of the State of Bahia, Brazil. Under the following conditions: geographic coordinates: 18° 03’ 09.4” South latitude, 39° 52’ 26.2” East longitude. The climate in the region, according to the Köppen classification, is Tropical Am (ALVARES et al., 2014 ALVARES, C.A.; STAPE, J.L.; SENTELHAS, P.C.; GONÇALVES, J.L. de M.; SPAROVEK, G. Kö¨ppen’s climate classification map for Brazil. Meteorologische Zeitschrift, Berlin, v.22, n.6, p.711-28, 2014. https://DOI: 10.1127/0941-2948/2013/0507
https://DOI: 10.1127/0941-2948/2013/0507...
). The maximum, average, and minimum temperatures (°C) (Figure 1), in addition to the daily average humidity (%) (Figure 2) during the experimental period were obtained from the National Institute of Meteorology (INMET) database, whose monitoring was carried out by an automatic meteorological station located in the municipality of São Mateus, in the north of the state of Espírito Santo.
Maximum, average and minimum temperatures (ºC) during the experimental period obtained with an automatic meteorological station located in the municipality of São Mateus, North of the State of Espírito Santo.
Relative humidity (average) of the air (%) during the experimental period obtained with an automatic meteorological station located in the municipality of São Mateus, North of the State of Espírito Santo.
The chemical characteristics of the soil in the experimental area in the 0-20 cm layer are shown in Table 1. Fertilizing was carried out through fertigation, the amount of which during the years 2020 and 2021 can be seen in Table 2.
Soil chemical attributes in the experimental area of Fazenda Chão Bello, in the municipality of Ibirapuã, BA, at a soil depth of 0-20 cm.
Fertilizer, quantity (kg) and number of monthly applications in the years 2020 and 2021 in the experimental area of Fazenda Chão Bello, in the municipality of Ibirapuã, BA.
Planting was carried out on April 21, 2015, adopting a spacing of 6 meters between rows and 3 meters between plants. Irrigation was used with a localized microsprinkler type system, with a flow rate of 72 L/h, maintained by a KSB Meganorm 50-200 centrifugal pump with 40 hp and maximum operating pressure of 10 bar, divided into two fixed irrigation shifts of 6 mm/h. day. The monitoring of pests and diseases, as well as their control, in addition to all cultural treatments, were carried out according to the management established by the company Bello Brazilian Exotic Fruit, as described by Siqueira and Salomão (2017).
The experimental design used was completely randomized, in a factorial arrangement (58 x 4), where the first factor corresponds to 58 sweet orange tree tops cultivars: Pera (CNPMF selections 01, 02, A-15, B-12, L-21, L-32, L-3, L-6, L-9, L-12, L-25, L-3 ipeal and L-6, Olímpia, Bianchi, Ce-03, Vacinada, and Ibotirama) , Natal (CNPMF selections 01, 02 and 112, Ipeal and Folha Murcha), Valencia (CNPMF selections, 01, 02, 03, 21, 27, 36, F-11, Midknight, Criola, Delta, Late, L.Shaffey, Chapman, L.White, Montemorelos, Registro, Tuxpan), Berna, Jaffa, F-Menuda, Sincorá, Aquiri, Early Oblong, Russas P.S, Seleta de Itaboraí, Salustiana, Pineapple, Rubi CN-01, Westin, Diva, Hamlin CNPMF -20, Crescent, Melrosa and Flor de Brumadinho. The second factor was composed of four different rootstocks: the ‘Sunki’ mandarin tree, the ‘Sunki Tropical’ selection (Citrus sunki (Hayata) hort. ex Tanaka) and the ‘Trifoliata’ hybrids; Citrandarin ‘San Diego’, from the cross between the mandarin tree ‘Sunki’ C. sunki (Hayata) hort. ex Tanaka x Poncirus trifoliata (L.), ‘Riverside’, from the cross between the mandarin tree ‘Sunki’ C. sunki (Hayata) hort. ex Tanaka x P. trifoliata (L.) and ‘Indio’, from the cross between the mandarin tree ‘Sunki’ C. sunki (Hayata) hort. ex Tanaka x P. trifoliata (L.). Three experimental plots (plants) were evaluated, totaling 696 plants in the experimental field.
Samples containing 12 fruits were collected from the middle third of the canopy of the four cardinal points of 3 different plants (FERREIRA, 2022 FERREIRA, L.S. Maturação de frutos de variedades de laranjeiras-doce sobre diferentes porta-enxertos no extremo sul do estado da Bahia. 2022. Dissertação (Mestrado em Produção Vegetal) – Centro de Ciências Agrárias e Engenharias, Universidade Federal do Espírito Santo, Alegre, 2022. ), which were packed in polyethylene bags and analyzed in the laboratory. The following were determined: the average fruit mass (FM), in g, with a precision electronic scale; the equatorial diameter of the fruits, in mm, and the peel thickness, in mm, using a digital caliper; in addition to the total number of seeds, obtained by counting the total number of seeds in the fruits.
Subsequently, the juice of the fruits was extracted with the aid of an industrial processor Skymsen model EXB-N from which the juice yield (JY) was determined from the juice mass (JM) measured on a precision electronic scale and the MF through the formula: JY = (JM/FM) x 100, the results being expressed in %. The soluble solids content (SS, ºBrix) was also determined through the fruit pulp juice and with the aid of a digital refractometer; the titratable acidity (TA, % citric acid), defined by titration of an aliquot of 10 mL of juice and three drops of 1% phenolphthalein with NaOH solution (0.1 N), previously standardized and Ratio given by the product of division of SS by AT.
The data were submitted to analysis of variance by the F test at 5% probability and their means were compared by the ScottKnott cluster test (p < 0.05). All statistical analyzes were obtained with the help of the software (R CORE TEAM, 2021 R CORE TEAM. R: a language and environment for statistical computing. Vienna: R Foundation for Statistical Computing, 2021. Disponível em: https://www.R-project.org/
https://www.R-project.org/...
), through a command developed for the ExpDex.pt data package (FERREIRA, et al., 2018 FERREIRA, E.B.; CAVALCANTI, P.P.; NOGUEIRA, D.A. ExpDes.pt: experimental designs package (Portuguese). R package version 1.2.0. 2018. Disponível em: https://cran.r-project.org/web/packages/ExpDes.pt/ExpDes.pt.pdf.
https://cran.r-project.org/web/packages/...
).
Results and discussion
The temperature during the experiment ranged from 17.6 to 27.8ºC (Figure 1).
These values are within the 13 to 32ºC range suggested by Siqueira and Salomão (2017) for better development in citrus crop. Still, according to the authors, under temperatures below 13ºC or above 35ºC, there is a decrease of the photosynthetic rate in orange trees by about 50%, which can interrupt development and significantly alter the characteristics of the plant, such as the size, shape of the leaves and the durability of the fruits.
For the mean relative humidity of the air, there was a variation from 51 to 100% (Figure 2). Periods of high mean relative humidity of the air may favor the incidence of diseases such as brown spot (Alternaria alternata), scab (Elsinoe), and citrus flower rot (Colletotrichum) (SIQUEIRA; SALOMÃO, 2017 SIQUEIRA, D.L.; SALOMÃO, L.C.C. Citros: do plantio à colheita.Viçosa, MG: EditoraUFV, 2017. 278 p. ), however, the occurrence of these diseases were not observed of the present study. On the other hand, a period with a low mean relative humidity of air may imply changes in the acidity content and soluble solids in fruits, however, it is important to point out that the orchard under study is irrigated, and all moisture demand is met.
The summary of the analysis of variance representing the average square of the physical and chemical characteristics of the fruits of the 58 sweet orange tops cultivars on four rootstocks is shown in Table 3. It can be noted that there was a significant interaction between the factors for all the characteristics evaluated, demonstrating that both the tops cultivar and the rootstock interfered with the characteristics of the different combinations analyzed.
Summary of the analysis of variance with the source of variation, degree of freedom (DF), average square and coefficient of variation (CV) for the characteristics: equatorial diameter (ED), fruit mass (FM), peel thickness (PT), number of seeds (NS), soluble solids (SS), titratable acidity (TA), Ratio and juice yield (JY).
Regarding the equatorial diameter and fruit mass (Table 4), there was variation from 48.3 to 103.1 mm and from 0.352 to 0.105 g, respectively, in all combinations analyzed.
The equatorial diameter of orange tree fruits is used as a form of classification, being defined as large those with a diameter greater than 71 mm, medium between 65 and 71 mm, and small, smaller than 65 mm. In addition, through the diameter, it is possible to obtain the number of fruits that each package contains since this information is mandatory for marketing (CEAGESP, 2011 CEAGESP - Compania de Entrepostos e Armazéns Gerais de São Paulo. Normas de classificação de citros de mesa. São Paulo, 2011. 12 p. ).
Both the equatorial diameter and the mass of the fruits are directly related to the size of the fruits and, consequently, define their commercial destination. Fruits that are medium or large are preferably destined for the in natura market, and to meet the quality standards of this market, orange fruits must have an average diameter above 70 mm and an average mass of 152.5 g, on the other hand, small fruits are destined for the juice production industry (DOMINGUES et al., 2003 DOMINGUES, E.T.; TULMANN NETO, A.; POMPEU JUNIOR, J.; TEO´FILO SOBRINHO, J.; MATTOS JUNIOR, D.; FIGUEIREDO, J.O. Selec¸a~o de variedades de laranja quanto a` qualidade do fruto e peri´odo de maturac¸a~o. Laranja, Cordeirópolis, v.24, n.2, p.471-480, 2003. ; HUSSAIN et al., 2013 HUSSAIN, S.; CURK, F.; ANJUM, M.A.; PAILLY, O.; TISON, G. Performance evaluation of common clementine on various citrus rootstocks. Scientia Horticulturae, New York, v.150, p.278-82, 2013. https://DOI: 10.1016/j.scienta.2012.11.010
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).
For peel thickness, both the rootstock and the tops cultivars influenced in these characteristics, with a difference being observed in relation to the analyzed treatments (Table 5). According to Beber et al. (2018) BEBER, P.M.; ÁLVARES, V.S.; KUSDRA, J.F. Qualidade industrial e maturac¸a~o de frutos de laranjeiras-doce em Rio Branco, Acre. Citrus Research e Technology, Cordeirópolis, v.39, n.e1030, p.1-9, 2018. https://DOI:10.4322/crt.10317
https://DOI:10.4322/crt.10317...
, a smaller peel thickness is sought in orange fruits, since these fruits have a better use, as they have a better juice yield. In addition, fruits with thinner skin are more desirable to in natura consumption, since of peeling process is facilitated, and the edible contents of the fruit is higher (SAU et al., 2018 SAU, S.; GHOSH, S.N.; SARKAR, S.; GANTAIT, S. Effect of rootstocks on growth, yield, quality, and leaf mineral composition of Nagpur mandarin (Citrus reticulata Blanco.), grown in red lateritic soil of West Bengal, India. Scientia Horticulturae, New York, v.237, p.142-47, 2018. https://DOI: 10.1016/j.scienta.2018.04.015.
https://DOI: 10.1016/j.scienta.2018.04.0...
). In this way, the smallest thicknesses were verified in the cultivars Pera A-15, Pera B-12, Pera D-3, Pera D-6, Pera D-9, Pera D-25, Valencia Tuxpan in the rootstock ‘Sunki Tropical’ , Pera 02, Pera C-32, Pera D-3, Pera D-6, Pera D-9, Pera D-12, Pera Olimpia, Pera Bianchi, Pera Vacinada, Natal 01, Crescent, Natal 02, Valencia CNPMF in the rootstock ‘San Diego’, Pera A-15, Pera B-12, Pera C-21, Pera C-32, Pera D-6, Pera D-25, Pera E-6, Pera Olimpia, Pera Bianchi, Pera Vacinada , F-Menuda, Valencia Midknight on ‘Riverside’ rootstock and Pera 02, D-3 Pera, E-6 Pera, Bianchi Pera, Ce-03 Pera, Jaffa, Early Oblong on ‘Indio’ rootstock.
For the number of seeds (Table 5), there was a significant difference between the treatments with mean values ranging from about 43 seeds per fruit in the Sincorá cultivar to the complete absence of seeds in the Valencia Midknight cultivar, both on the ‘Indio’ rootstock. A high number of seeds in orange fruits is undesirable when the objective is combinations that produce fruits for in natura market, as there is less acceptance by the consumer (LATADO et al., 2001 LATADO, R.R.; TULMANN NETO, A.; ANDO, A.; IEMMA, A.F.; POMPEU JUNIOR, J.; FIGUEIREDO, J.O.; PIO, R.M.; MACHADO, M.A.; NAMEKATA, T.; CERAVOLO, L.; ROSSI, A.C. Mutantes de Laranja-Pe^ra com nu´mero reduzido de sementes obtidos atrave´s de mutac¸o~es induzidas. Revista Brasileira de Fruticultura, Jaboticabal, v.23, n.2, p.339- 44, 2001. https://DOI: 10.1590/S0100-29452001000200028
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).
This characteristic is used to classify orange fruits into subgroups, being defined as the group with the presence of seeds and the group without the presence of seeds. For the second group, the occurrence of up to three seeds per fruit is eventually accepted (CEAGESP, 2011 CEAGESP - Compania de Entrepostos e Armazéns Gerais de São Paulo. Normas de classificação de citros de mesa. São Paulo, 2011. 12 p. ). Thus, from the studied combinations, the tops ‘Crescent’, ‘Natal Folha Murcha’, ‘Valencia Midknight’ and ‘Valencia Delta’ presented mean values below or equal to three viable seeds per fruit in all rootstocks.
For the soluble solids content represented by ºBrix (Table 6), there was a significant difference between the combinations with higher mean values for the cultivars Rubi, CN-01, Valencia CNPMF and Valencia 27 on the rootstock ‘Sunki Tropical’, Pera Vacinada and Pera E-3 Ipeal on ‘San Diego’ rootstock, Natal 01 and Mel Rosa on ‘Riverside’ rootstock and Pera C-32 on ‘Indio’ rootstock.
The values obtained for the combinations that presented higher values of soluble solids, from 13.33 to 14.66 ºBrix, were higher than those observed by Buffon et al. (2021) BUFFON, S.B.; ZUCOLOTO, M.; PASSOS, O.S.; BARBOSA, D.H.S.G.; ALTOÉ, M.S.; MORAIS, A.L. Initial production and fruit quality of fifty-seven sweet orange varieties on four rootstocks in Southern state of Bahia. Revista Brasileira de Fruticultura, Jaboticabal, v.43, n.5, 2021. https://doi.org/10.1590/0100-29452021765
https://doi.org/10.1590/0100-29452021765...
, from 7.9 to 12.07 ºBrix, for these same combinations. This fact is probably associated with climatic differences and the harvest period, resulting in a greater accumulation of soluble solids. Soluble solids represent about 80% of the sugars present in orange juice. Thus, there is a strong correlation between these factors, thus, the higher the sugar content, the greater the concentration of soluble solids present in the sample. Therefore, it is recommended fruit of the orange trees should be harvested when they reach a minimum value of 10 ºBrix for meet the market quality standard (SIQUEIRA; SALOMÃO, 2017 SIQUEIRA, D.L.; SALOMÃO, L.C.C. Citros: do plantio à colheita.Viçosa, MG: EditoraUFV, 2017. 278 p. ).
In the present study, the combinations that did not reach the minimum value recommended for soluble solids were: ‘Pera 02’, ‘Pera A-15’, ‘Pera Vacinada’, ‘F-Menuda’, ‘Aquiri’, ‘Natal Folha Murcha ‘ and ‘Valencia 01’ on the rootstock ‘Sunki Tropical’, ‘Pera Ibotirama’, ‘Salustiana’, ‘Valencia 01’ and ‘Valencia 27’ on the rootstock ‘San Diego’, ‘Pera E-3 Ipeal’ , ‘F-Menuda’, ‘Sincorá’, ‘Russas P.S’, ‘Pera Ibotirama’, ‘Seleta Itaborai’, ‘Pineapple’, ‘Valencia 36’, ‘Valencia Chapman’, ‘Valencia Tuxpan’ and ‘Flor Brumadinho ‘ on the rootstock ‘Riverside’ and ‘Aquiri’, ‘Pineapple’, ‘Valencia Midknight’, ‘Valencia Delta’, ‘Valencia 21’ and ‘Flor Brumadinho’ on the rootstock ‘Indio’.
This fact may be associated with high water availability during the fruit formation period (RODRIGUES et al., 2019b RODRIGUES, M.J.S.; ARAÚJO NETO, S.E.; ANDRADE NETO, R.C.; SOARES FILHO, W.S.; GIRARDI, E.A.; LESSA, L.S.; ALMEIDA, U.O.; ARAUJO J.M. Agronomic performance of the ‘Pera’ orange grafted onto nine rootstocks under the conditions of Rio Branco, Acre, Brazil. Revista Brasileira de Ciências Agrárias, Recife, v.14, n.4, p.1-8, 2019b. https://DOI: 10.5039/agraria.v14i4a6642
https://DOI: 10.5039/agraria.v14i4a6642...
). Furthermore, according to Lado et al. (2018) LADO, J.; GAMBETTA, G.; ZACARIAS, L. Key determinants of citrus fruit quality: metabolites and main changes during maturation. Scientia Horticulturae, New York, v.233, p.238-48, 2018. https://DOI: 10.1016/j.scienta.2018.01.055
https://DOI: 10.1016/j.scienta.2018.01.0...
there is a possibility that lower values of soluble solids are related to increase in juice yield in the fruits.
Regarding the titratable acidity (Table 6), there was a statistical difference between the treatments where the mean values varied between the combinations of 2.6 to 0.5% of citric acid. These results show greater amamplitude than those obtained by Buffon et al.(2021) BUFFON, S.B.; ZUCOLOTO, M.; PASSOS, O.S.; BARBOSA, D.H.S.G.; ALTOÉ, M.S.; MORAIS, A.L. Initial production and fruit quality of fifty-seven sweet orange varieties on four rootstocks in Southern state of Bahia. Revista Brasileira de Fruticultura, Jaboticabal, v.43, n.5, 2021. https://doi.org/10.1590/0100-29452021765
https://doi.org/10.1590/0100-29452021765...
, who reported a variation from 0.36 to 1.47% of citric acid in 57 orange tree tops on four rootstocks. With the maturation of the orange fruits, there is a decrease in acidity, and this factor is related to the respiration process of the fruits since organic acids are used that are converted into sugars.
However, the fruits should not have an acid content lower than 0.5 and 0.75% for industry and for in natura consumption, respectively, since very low values are not desirable as they result in a tasteless fruit (BEBER et al., 2018 BEBER, P.M.; ÁLVARES, V.S.; KUSDRA, J.F. Qualidade industrial e maturac¸a~o de frutos de laranjeiras-doce em Rio Branco, Acre. Citrus Research e Technology, Cordeirópolis, v.39, n.e1030, p.1-9, 2018. https://DOI:10.4322/crt.10317
https://DOI:10.4322/crt.10317...
; RODRIGUES et al., 2019a RODRIGUES, M.J.S.; ANDRADE NETO, R.C.; ARAÚJO NETO, S.E.; SOARES FILHO, W.S.; GIRARDI, E.A.; LESSA, L.S.; ALMEIDA, U.O. Performance of 'Valência' sweet orange grafted onto rootstocks in the state of Acre, Brazil. Pesquisa Agropecuária Brasileira, Brasília, DF, v.54, n.e01349, p.1-9, 2019a. https://DOI: 10.1590/S1678-3921.pab2019.v54.01349.
https://DOI: 10.1590/S1678-3921.pab2019....
).
Thus, as it is a noticeable characteristic by the consumer market, acidity becomes one of the main parameters of fruit quality, with values ranging from 0.9 to 0.6% of citric acid being adequate (POZZAN; TRIBONI, 2005 POZZAN, M.; TRIBONI, H.R. Colheita e qualidade do fruto .In: MATTOS JUNIOR, D.; NEGRI, J.D.; PIO, R.M.; J.POMPEU JUNIOR, J. Citros. Campinas: Instituto Agrono^mico de Campinas, 2005. ).
In this way, the tops cultivars Pera D-3, Pera Olimpia, Sincorá and Early Oblong stand out, which presented average values within the quality standards in all the rootstocks analyzed.
However, it is worth mentioning that only the acidity evaluated individually did not should be used to define the best quality standard.
Regarding the Ratio (Table 7), the combinations that presented the highest mean values were the tops ‘Pera CE-03’, ‘Berna’, ‘Jaffa’ and ‘Westin’ on the rootstock ‘Sunki Tropical’, tops ‘Pera D-3’, ‘Early Oblong’, ‘Pera Ibotirama’, ‘Seleta Itaborai’ and ‘Salustiana’ on ‘San Diego’ rootstock, ‘Pera Olimpia’ and ‘Rubi CN-01’ on ‘Riverside’ rootstock ‘ and ‘Jaffa’ tops on ‘Indio’ rootstock. The relationship between soluble solids and acidity is an important parameter that defines the quality of orange fruits tree. As a minimum quality requirement for sweet orange fruits tree intended in natura consumption, Ratio values should not be less than 9.5 (CEAGESP, 2011 CEAGESP - Compania de Entrepostos e Armazéns Gerais de São Paulo. Normas de classificação de citros de mesa. São Paulo, 2011. 12 p. ).
In this way, we must highlight the cups ‘Pera D-3’, ‘Pera Olimpia’, ‘Pera Bianchi’, ‘Jaffa’, ‘Sincorá’, ‘Early Oblong’, ‘Pera Ibotirama’, ‘Seleta Itaborai’, ‘Rubi CN -01’, ‘Westin’ and ‘Flor Brumadinho’ which presented mean values for the Ratio superior to the minimum standard of quality in all the analyzed rootstocks. These results corroborate those obtained by Buffon et al. (2021) BUFFON, S.B.; ZUCOLOTO, M.; PASSOS, O.S.; BARBOSA, D.H.S.G.; ALTOÉ, M.S.; MORAIS, A.L. Initial production and fruit quality of fifty-seven sweet orange varieties on four rootstocks in Southern state of Bahia. Revista Brasileira de Fruticultura, Jaboticabal, v.43, n.5, 2021. https://doi.org/10.1590/0100-29452021765
https://doi.org/10.1590/0100-29452021765...
, who state that these combinations, except for the ‘Jaffa’ tops on the ‘Indio’ rootstock, presented minimum quality standards required by in natura market.
For fruits intended for the juice production industry, priority should be given to cultivars with a Ratio between 14 and 16 (SIQUEIRA; SALOMÃO, 2017 SIQUEIRA, D.L.; SALOMÃO, L.C.C. Citros: do plantio à colheita.Viçosa, MG: EditoraUFV, 2017. 278 p. ), what can be found in the tops cultivars Pera Olimpia, Sincorá and Westin on the rootstock ‘Sunki Tropical’, Pera D-3, Pera D-25, Sincorá, Aquiri and Russas P.S on the rootstock ‘San Diego’, Pera C-32, Pera D-3, Pera D-6, Pera E-6, Pera Bianchi, Pera CE-03, Salustiana and Westin on ‘Riverside’ rootstock.
As they are non-climacteric, oranges tree fruits stop ripening after being removed from the plants, so it is important that they be harvested when they reach an adequate relationship between content sugar and acidity (SIQUEIRA; SALOMÃO, 2017 SIQUEIRA, D.L.; SALOMÃO, L.C.C. Citros: do plantio à colheita.Viçosa, MG: EditoraUFV, 2017. 278 p. ). Thus, the Ratio is the most reliable characteristic to define the fruit maturation point and consequently the ideal harvest period (COELHO et al., 2019 COELHO, B.E.S.; DUARTE, V.M.; SILVA, L.F.M.; SOUSA, K.S.M.; FIGUEIREDO NETO, A. Atributos físico-químicos de frutos de laranja 'Pêra' produzidos sob sistemas de cultivo orgânico e convencional. Revista Brasileira de Meio Ambiente, Chapecó, v.5, n.1.p.128-37, 2019. ).
For juice yield (Table 7), the combinations that were statistically superior were ‘Pera D-32’, ‘Pera E-6’, ‘Pera Olimpia’, ‘F-Menuda’, ‘Valencia 01’ on the rootstock ‘Tropical Sunki’, ‘Pera A-15’, ‘Pera CE-03’, ‘Pera Vacinada’, ‘Russas P.S’, ‘Pineapple’, ‘Westin’, ‘Natal Ipea’, ‘Natal 112’, ‘ Valencia 02’, ‘Valencia 27’, ‘Valencia F-11’, ‘Valencia Shaffey’, ‘Valencia Chapman’, ‘Valencia Monemorelos’ on rootstock ‘San Diego’, ‘Pera D-9’ on rootstock ‘ Riverside’ and ‘Valencia Delta’ on ‘Indio’ rootstock.
The minimum percentage of juice required to define fruit quality may vary according to the variety of the oranges tree: 35% for ‘Hamlin’, ‘Bahia’, and ‘Lima’, 40% for ‘Rubi’, 44% for ‘Natal’ and ‘Valencia ‘ and 45% for ‘Pera’.
However, for orange fruits destined for the juice production industry, the recommended cultivars that have a juice yield greater than 50% (SIQUEIRA; SALOMÃO, 2017 SIQUEIRA, D.L.; SALOMÃO, L.C.C. Citros: do plantio à colheita.Viçosa, MG: EditoraUFV, 2017. 278 p. ), and small changes in this content can directly influence the final yield and, consequently, the profitability of the sector (SIQUEIRA; SALOMÃO, 2017 SIQUEIRA, D.L.; SALOMÃO, L.C.C. Citros: do plantio à colheita.Viçosa, MG: EditoraUFV, 2017. 278 p. ; BUFFON, 2020 BUFFON, S.B. Produção inicial e qualidade de frutos de cinquenta e sete copas de laranjeira doce sobre quatro porta-enxertos no extremo sul da Bahia. 2020. Dissertação (Mestrado em Agricultura Tropical) - Centro Universitário Norte do Espírito Santo, Universidade Federal do Espírito Santo, São Mateus, 2020. ). In this way, the higher the juice yield, the more desirable the cultivar will be for both the in natura market and the industry (COELHO et al., 2019 COELHO, B.E.S.; DUARTE, V.M.; SILVA, L.F.M.; SOUSA, K.S.M.; FIGUEIREDO NETO, A. Atributos físico-químicos de frutos de laranja 'Pêra' produzidos sob sistemas de cultivo orgânico e convencional. Revista Brasileira de Meio Ambiente, Chapecó, v.5, n.1.p.128-37, 2019. ).
Thus, as shown in the present study, the quality characteristics of fruits sweet orange tree of tops cultivars are directly influenced by the rootstock used (AMORIM et al., 2018 AMORIM, M.S.; GIRARDI, E.A., FRANÇA, N.O.; GESTEIRA, A.S.; SOARES FILHO, W.S.; PASSOS, O.S. Initial performance of alternative citrus scion and rootstock combinations on the northern coast of the state of Bahia, Brazil. Revista Brasileira de Fruticultura, Jaboticabal, v.40, n.4, p.1-11, 2018. https://DOI: 10.1590/0100-29452018480
https://DOI: 10.1590/0100-29452018480...
). Different rootstocks can influence the maturation period and fruit quality, productivity, resistance, or tolerance to pests and diseases and the different climate and soil conditions, in addition to interfering with metabolic processes such as photosynthesis (MATTOS JÚNIOR et al., 2005b MATTOS JÚNIOR, D.; NEGRI, J.D.; PIO, R.M.; POMPEU JUNIOR, J. Citros. Campinas: Instituto Agronômico e Fapesp, 2005b. 929p. ).
In general, plants with high productivity are sought in combinations of tops and rootstock, and orange fruits intended for industry with high juice yield, good ratio between soluble solids and acidity, attractive color, in addition to these characteristics. When the objective is In natura consumption, characteristics that allow greater acceptance by consumers, such as fruit size, roughness, peel thickness, absence of seeds, facilitated peeling, pulp and peel color, and flavor, must be taken into account (SIQUEIRA; SALOMÃO, 2017 SIQUEIRA, D.L.; SALOMÃO, L.C.C. Citros: do plantio à colheita.Viçosa, MG: EditoraUFV, 2017. 278 p. ).
For the juice industry we recommend the cultivars Pera Olimpia, Sincorá and Westin on ‘Sunki Tropical’ rootstock, Pera D-3, Pera D-25, Sincorá, Aquiri and Russas P.S on ‘San Diego’ rootstock, Pera C-32, Pera D-3, Pera D-6, Pera E-6, Pera Bianchi, Pera CE-03, Salustiana and Westin on ‘Riverside’ rootstock, all these combinations showed juice yield greater than 50%.
However, as 232 combinations were evaluated, other cultivars should be considered according to the intended market, such as those that produce fruits with lower skin thickness and a low number of seeds, for consumption In natura. Therefore, it is up to the producer and/or researcher to define which combination best meets the needs of the region and the consumer market.
Conclusions
The combinations ‘Pera D-3’, ‘Pera Olimpia’, ‘Pera Bianchi’, ‘Jaffa’, and ‘Westin’ provided fruits with soluble solids content, Ratio, and juice yield with commercial quality in all evaluated rootstocks.
The cultivars Pera Olimpia, Sincorá and Westin on ‘Sunki Tropical’ rootstock, Pera D-3, Pera D-25, Sincorá, Aquiri and Russas P.S on ‘San Diego’ rootstock, Pera C-32, Pera D- 3, Pera D-6, Pera E-6, Pera Bianchi, Pera CE-03, Salustiana and Westin on ‘Riverside’ rootstock are suitable for the juice production industry with Ratio between 14 and 16 and juice yield greater than 50%.
The tops ‘Crescent’, ‘Natal Folha Murcha’, ‘Valencia Midknight’, and ‘Valencia Delta’ produced fruit without seeds on all rootstocks.
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Publication Dates
-
Publication in this collection
21 Aug 2023 -
Date of issue
2023
History
-
Received
05 Oct 2022 -
Accepted
15 Feb 2023