ABSTRACT

‘Pêra’ sweet orange is the most important citrus cultivar in Brazil, but it is highly susceptible to Citrus tristeza virus (CTV), the causal agent of citrus tristeza disease. In this study, we evaluated the severity of citrus tristeza disease and its relation with the agronomic performance of seven cultivars and six selections of ‘Pêra’ sweet orange under field conditions in the North and Northwest regions of the State of Paraná, Brazil. The citrus tristeza disease severity was determined based on symptoms of stem pitting. The vegetative growth assessed in trees of all four locations for the 2012 season, and in two field plots for the 2011, 2012 and 2013 harvests, respectively. The cultivar ‘IPR 153’ (Bianchi) had the best performance concerning stem pitting severity, while Selection 27 was among the ones with the highest rate of vegetative growth. Further, Selections 27 and 12, and the cultivar ‘Vimusa’ had the largest fruit yields. Based on correlation analysis, stem pitting symptoms severity was negatively correlated with vegetative growth and fruit yield. Furthermore, environmental conditions may have played an important role in the severity of citrus tristeza disease and consequently on the agronomic performance of the cultivars and selections of ‘Pêra’ sweet orange in the North and Northwest regions of the State of Paraná.

Index terms
Citrus sinensis; stem pitting; yield; vegetative growth; Citrus tristeza virus

RESUMO

A laranjeira Pêra, principal cultivar de citros no Brasil, apresenta alta suscetibilidade ao Citrus tristeza virus (CTV), agente causal da tristeza dos citros. No presente estudo foi avaliada a severidade de tristeza dos citros e a sua relação com o desempenho agronômico de sete cultivares e seis seleções de laranjeira Pêra, em experimentos implantados em áreas localizadas nas regiões Norte e Noroeste do estado do Paraná. A avaliação da tristeza dos citros foi realizada com base na severidade dos sintomas de caneluras. O desenvolvimento vegetativo das plantas cítricas foi avaliado nas quatro localidades em 2012, enquanto que a produção foi avaliada em experimentos em duas localidades, para as safras de 2011, 2012 e 2013. A cultivar IPR 153 (Bianchi) apresentou o melhor comportamento em relação à severidade de caneluras nas quatro localidades. A Seleção 27 está entre aqueles com os melhores índices de vigor vegetativo, e também apresentou as maiores produções, acompanhada da cultivar Vimusa e Seleção 12. Além disso, a severidade dos sintomas de caneluras apresentou correlação significativamente negativa com o desenvolvimento vegetativo e a produtividade das plantas. Cabe salientar que as condições ambientais provavelmente tiveram implicações significativas na expressão dos sintomas de tristeza e consequentemente no desempenho agronômico das cultivares e seleções de laranjeira Pêra nas regiões Norte e Noroeste do estado do Paraná.

Termos para indexação
Citrus sinensis; caneluras; produção; desenvolvimento vegetativo; Citrus tristeza virus

INTRODUCTION

‘Pêra’ sweet orange [Citrus sinensis (L.) Osbeck] is the most important citrus cultivar in Brazil. Fruits of this sweet orange have an excellent quality for internal and external fresh fruit markets, as well as for industrial processing (SALIBE et al., 2002 SALIBE, A.A.; TEÓFILO SOBRINHO, J.; MÜLLER, G.W. Sinopse de conhecimentos e pesquisas sobre a laranja ‘Pêra’. Laranja, Cordeirópolis, v. 23, n. 1, p. 231-245, 2002. ; PIO et al., 2005 PIO, R. M.; FIGUEIREDO, J. O.; STUCHI, E. S.; CARDOSO, S. A. B. Variedades copas. In: MATTOS JUNIOR, D.; PIO, R.M.; DE NEGRI, J. D.; POMPEU JUNIOR, J. (Ed.). Citros. Campinas: Instituto Agronômico. FUNDAG, 2005. Capítulo 3, p.37-60. ), thus ‘Pêra’ is the main choice for citrus growers, fresh fruit consumers and industry (DONADIO, 1999 DONADIO, L.C. Laranja pêra. Jaboticabal: FUNEP, 1999. 51p. (Boletim Citrícola, 11). ). This cultivar represents approximately 45% of the sweet orange trees planted in the State of Paraná, Brazil, where the citrus industry has been growing considerably in the last few years (AULER et al., 2014 AULER, P.A.M.; LEITE JÚNIOR, R.P.L.; TAZIMA, Z.H.; ANDRADE, P.F.S. A citricultura no Paraná. Citricultura Atual, Cordeirópolis, n. 99, p.17-20, 2014. ).

A main restriction for planting ‘Pêra’ sweet orange in Brazil is the susceptibility to Citrus tristeza virus (CTV), the causal agent of citrus tristeza disease (MÜLLER et al., 1999 MÜLLER, G.W.; TARGON, M.L.N. E MACHADO, M.A. Trinta anos de uso do clone pré- imunizado “Pêra” IAC na citricultura paulista. Laranja, Cordeirópolis, v.20, n. 2, p. 399-408, 1999. , SALIBE et al., 2002 SALIBE, A.A.; TEÓFILO SOBRINHO, J.; MÜLLER, G.W. Sinopse de conhecimentos e pesquisas sobre a laranja ‘Pêra’. Laranja, Cordeirópolis, v. 23, n. 1, p. 231-245, 2002. ).

Citrus tristeza is one of the most important diseases for citrus production in several regions around the world, because of the endemic nature of the virus and their vectors, as well as the susceptibility of certain agronomic important citrus rootstock and scion cultivars (ROSSETTI, 2001 ROSSETTI, V.V. Manual ilustrado de doenças dos citros. Piracicaba: Fealq/Fundecitrus, 2001. 207 p. ).Under the Brazilian conditions, all sweet orange trees are infected with CTV, as the brown citrus aphid (Toxoptera citricida Kirk.), the main vector of the virus, is widespread in all citrus growing areas (BORDIGNON et al., 2003b BORDIGNON, R.; MEDINA FILHO, H.P.; SIQUEIRA, W.J.; PIO, R.M. Efeito da tristeza em caracteres vegetativos, produtivos e industriais da laranjeira 'Valência' enxertada em híbridos segregando para tolerância. Bragantia, Campinas, v.62, n.2, p.207-215, 2003b. ).

Symptoms of citrus tristeza can vary according to the aggressiveness of the viral complex, its multiplication in plant tissue and environmental conditions, particularly temperature (BENNETT; COSTA, 1949 BENNETT, C.W.; COSTA, A.S. Tristeza disease of citrus. Journal of Agricultural Research, Washington, v.78, n.8, p.207-237, 1949. ; BORDIGNON et al., 2003a BORDIGNON, R.; MEDINA FILHO, H.P.; MULLER, G.W.; SIQUEIRA, W.J. A tristeza dos citros e suas implicações no melhoramento genético de porta-enxertos. Bragantia, Campinas, v.62, n.3, p.345-355, 2003a. ).

The citrus scion and rootstock cultivars and their interactions can also determine the severity of the disease symptoms exhibited by the citrus tree (BENNETT; COSTA, 1949 BENNETT, C.W.; COSTA, A.S. Tristeza disease of citrus. Journal of Agricultural Research, Washington, v.78, n.8, p.207-237, 1949. ; BORDIGNON et al., 2003a BORDIGNON, R.; MEDINA FILHO, H.P.; MULLER, G.W.; SIQUEIRA, W.J. A tristeza dos citros e suas implicações no melhoramento genético de porta-enxertos. Bragantia, Campinas, v.62, n.3, p.345-355, 2003a. ). In Brazil, the damage caused by the disease is usually associated with stem pitting, which results from the development of a mass in the phloem parenchyma cells that penetrates into the xylem, causing vessel malformation and even destruction of the xylem vessels and parenchyma (TANAKA et al., 2009 TANAKA, F.A.O.; KITAJIMA, E.W.; MACHADO, M.A.; MACHADO, S.R. Ontogênese de caneluras em pedúnculo de flores de laranjeira doce infectados pelo vírus da tristeza dos citros estirpe “Capão Bonito”. Summa Phytopathologica, Botucatu, v.35, n.4, p.316-321, 2009. ). In more severe cases, the citrus tree may show atrophy, small chlorotic leaves, and small and malformed fruits (SOUZA; MÜLLER, 2006 SOUZA, A.A.; MÜLLER, G.W. A premunização no controle da tristeza dos citros. Laranja, Cordeirópolis, v.27, n.1, p. 57-70, 2006. ). Although it does not usually kill the tree, the disease reduces tree vigor and production, resulting in significant economic losses (DAWSON et al., 2013 DAWSON, W.O.; GARNSEY, S.M.; TATINENI, S.; FOLIMONOVA, S.Y.; HARPER, S.J.; GOWDA, S. Citrus tristeza virus- host interactions. Frontiers in Microbiology, Lausanne, v.4, Article 88, p.1-10, 2013. doi:10.3389/fmicb.2013.00088 ).

Planting of ‘Pêra’ sweet orange was discouraged in the late 1950s due to the susceptibility to CTV. Nevertheless, this sweet orange became the leading citrus cultivar in Brazil due to the fruit quality for fresh market and industrial processing. The cross protection technique with mild complexes of the virus allowed growing ‘Pêra’ sweet orange grafted on CTV tolerant rootstock under an endemic presence of the virus (TEÓFILO SOBRINHO et al., 2001 TEÓFILO SOBRINHO, J.; MÜLLER, G.W.; FIGUEIREDO, J.O. de; LARANJEIRA, F.F.; SALIBE, A. A. Laranja- 'Pêra IAC 2000'. Laranja, Cordeirópolis, v.22, n.2, p.495-501, 2001. ).

Nowadays, more than 90 million cross protected ‘Pêra’ trees were planted in Brazil (MORENO et al.,2008 MORENO, P.; AMBRÓS, S.; ALBIACH-MARTÍ, M.R.; GUERRI, J.; PEÑA, L. Citrus tristeza virus: a pathogen that changed the course of the citrus industry. Molecular Plant Pathology, Oxford, v.9, n.2, p.251-268, 2008. ). However, CTV continues to be a threat due to the possibility of the development of new severe CTV complexes (FOLIMONOVA, 2013 FOLIMONOVA, S.Y. Developing an understanding of cross-protection by Citrus tristeza virus. Frontiers in Microbiology, Lausanne, v.4, Article 76, p.1-9, 2013. doi: 10.3389/fmicb.2013.00076. ). Reduction of protection against CTV in cross protected ‘Pêra’ trees has been reported (MÜLLER et al., 1999 MÜLLER, G.W.; TARGON, M.L.N. E MACHADO, M.A. Trinta anos de uso do clone pré- imunizado “Pêra” IAC na citricultura paulista. Laranja, Cordeirópolis, v.20, n. 2, p. 399-408, 1999. ; CORAZZA-NUNES et al., 2001 CORAZZA-NUNES, M.J.; MACHADO, M.A.; MÜLLER, G.W.; STACH-MACHADO, D.R.; SOUZA, A.A.; NUNES, W.M.C. Evaluation of Citrus tristeza virus (CTV) complexes in pre-immunized Marsh seedless grapefruits. Summa Phytopathologica, Jaboticabal, v.27, p.11-16, 2001. ; SOUZA et al., 2002 SOUZA, A.A.; MÜLLER, G.W.; TARGON, M.L.P.N.; COLETA-FILHO, H.D.; MACHADO, M. Avaliação de haplótipos do gene do capsídeo do Citrus tristeza virus em plantas pré-imunizadas de laranja ‘Pêra’. Summa Phytopathologica, Botucatu, v.28, n.2, p.154-159, 2002. ).

Changes in the CTV protective complex and the presence of severe strains of the virus have been reported in the State of Paraná, Brazil (CARRARO et al., 2003 CARRARO, B.P.; NUNES, W.M.C.; CORAZZA-NUNES, M.J.; MACHADO, M.A.; STACH-MACHADO, D.R. Avaliação de complexos do Citrus tristeza virus da região Norte do Paraná por meio de testes imunológicos e SSCP do gene da capa protéica. Acta Scientiarum, Maringá, v.25, n.2, p.269-273, 2003. ; COSTA et al., 2010 COSTA, A.T.; NUNES, W.M.C; ZANUTTO, C.A; MÜLLER, G.W. Stability of Citrus tristeza virus protective isolates in field conditions. Pesquisa Agropecuária Brasileira, Brasília, v.45, n.7, p.693-700, 2010. ; CORAZZA et al., 2012 CORAZZA, M.J.; ZANUTTO, C.A.; ZANINELI-RÉ, M.L.; MÜLLER, G.W.; NUNES, W.M. de C. Comparison of Citrus tristeza virus (CTV) isolates by RFLP analysis of the coat protein nucleotide sequences and by the severity of the symptoms. Tropical Plant Pathology, Brasília, v.37,n.3, p.179-184, 2012. ; ZANUTTO et al., 2013 ZANUTTO, C.A; CORAZZA, M.J; NUNES, W.M.C; MÜLLER, G.W. Evaluation of the protective capacity of new mild Citrus tristeza virus (CTV) isolates selected for a preimmunization program. Scientia Agricola, Piracicaba, v.70, n.2, p.116-124, 2013. ). Consequently, the use of a single mild strain in a cross protection program for ‘Pêra’ sweet orange may represent a high risk (MÜLLER et al., 1999 MÜLLER, G.W.; TARGON, M.L.N. E MACHADO, M.A. Trinta anos de uso do clone pré- imunizado “Pêra” IAC na citricultura paulista. Laranja, Cordeirópolis, v.20, n. 2, p. 399-408, 1999. ). Furthermore, the use of mild strains of the virus from cross protection programs from other Brazilian States may not provide adequately protection against CTV complexes present in Paraná (CORAZZA et al., 2012 CORAZZA, M.J.; ZANUTTO, C.A.; ZANINELI-RÉ, M.L.; MÜLLER, G.W.; NUNES, W.M. de C. Comparison of Citrus tristeza virus (CTV) isolates by RFLP analysis of the coat protein nucleotide sequences and by the severity of the symptoms. Tropical Plant Pathology, Brasília, v.37,n.3, p.179-184, 2012. ; ZANUTTO et al., 2013 ZANUTTO, C.A; CORAZZA, M.J; NUNES, W.M.C; MÜLLER, G.W. Evaluation of the protective capacity of new mild Citrus tristeza virus (CTV) isolates selected for a preimmunization program. Scientia Agricola, Piracicaba, v.70, n.2, p.116-124, 2013. ). Therefore, the evaluation of the agronomic performance of different cultivars of ‘Pêra’ sweet orange and their reaction to citrus tristeza under different environmental conditions is certainly an important strategy to select the best ones to be planted in the different regions of the State of Paraná. This study was carried out to evaluate the reaction of ‘Pêra’ sweet orange cultivars and selections to citrus tristeza based on stem pitting severity and to establish a correlation with agronomic performance under the environmental conditions of the North and Northwest regions of the State of Paraná, Brazil.

MATERIALS AND METHODS

Plant material and CTV complexes.Seven cultivars and six selections of ‘Pêra’ sweet orange (Citrus sinensis (L.) Osbeck), grafted on Rangpur lime (Citrus limonia Osbeck) rootstock, were included in this study. The field plots were established in the municipalities of Arapongas (latitude of 23° 27’ 39.23” S, longitude of 51° 24’ 51.45” W and altitude of 759 m), Cambé (latitude of 23° 04’ 50.43” S, longitude of 51° 18’ 4.18” W and altitude of 456 m) and Londrina (latitude of 23° 21’ 50.41” S, longitude of 51° 10’ 24.58” W and altitude of 535 m), located in the North region, and Paranavaí (latitude of 23° 05’ 41.49” S, longitude of 52° 26’ 32.55” W and altitude of 469 m), located in the Northwest region. According to the Brazilian Soil Classification System (SANTOS et al., 2006 SANTOS, H. G. D.; JACOMINE, P. K. T.; ANJOS, L. H. C. D.; OLIVEIRA, V. Á. D.; OLIVEIRA, J. B. D.; COELHO, M. R.; LUMBRERAS, J. F.; CUNHA, T. J. F. Sistema brasileiro de classificação de solo. 2. ed. Rio de Janeiro: EMBRAPA - Centro Nacional de Pesquisa de Solos, 2006. 306p. ), the experiments were conducted on a Typical Eutroferric Red Nitosol with a moderate A horizon and clayey texture, Typical Eutroferric Red Latosol with a moderate A horizon and very clayey texture, Eutroferric Latosolic Red Nitosol with a moderate A horizon and very clayey texture, and Typical Dystrophic Red Latosol with a moderate A horizon and medium texture for the municipalities of Arapongas, Cambé, Londrina and Paranavaí, respectively. The average annual temperatures are 20.6 ºC, 21.4 ºC, 21.1 ºC and 22.2 ºC, for these municipalities, respectively, and the climate of both regions is classified as Cfa type (CAVIGLIONE et al., 2000 CAVIGLIONE, J. H.; KIIHL, L. R. B.; CARAMORI, P. H.; OLIVEIRA, D. Cartas climáticas do Paraná. Londrina: IAPAR, 2000. CD-ROM. ).

The nursery trees were planted on the second half of 2000 in a spacing of 7.0 x 4.0 m, without irrigation. The experimental design was completely randomized, with 13 treatments and five replicates for each treatment. The citrus trees were grown according to the cultural and phytosanitary practices recommended for the North and Northwest regions of the State of Paraná, Brazil (IAPAR, 1992 IAPAR. A citricultura do Paraná. Londrina: IAPAR, 1992. 288p. (Circular, 72) ).

Assessment of the severity of citrus tristeza symptoms in ‘Pêra’ sweet orange cultivars and selections‘Pêra’ sweet orange cultivars and selections were evaluated in regard to the severity of tristeza stem pitting symptoms caused by the CTV complex on the second half of 2011. Circular and lignified branches with approximately 0.5 to 1.0 cm in diameter and 15 cm long were collected from the middle part of each quadrant, comprising a total of eight branches per tree. The branches were autoclaved at 120 ºC for five minutes to facilitate bark removal. Stem pitting was evaluated based on the intensity and severity, using a scale from 0 to 5, adapted from Meissner Filho et al. (2002) MEISSNER FILHO, P.E.; SOARES FILHO, W. dos S.; VELAME, K.V.C.; DIAMANTINO, E.P.; DIAMANTINO, M.S.A.S. Reação de porta-enxertos híbridos ao Citrus tristeza virus. Fitopatologia Brasileira, Brasília, v.27, n.3, p.312-315, 2002. , where 0 = no stem pitting; 1 = few surface stem pitting; 2 = sparse moderate stem pitting; 3 = intermediate surface stem pitting, rarely deep; 4 = large amount of surface and deep stem pitting; and 5 = branch completely covered by stem pitting.

Evaluation of vegetative growth Vegetative growth of the ‘Pêra’ sweet orange cultivars and selections was evaluated on April 2012. Canopy height and diameter (m) were measured by using a graduated scale, and the trunk circumference was determined 10 cm below and 10 cm above the grafting line. The vegetative tree vigor index was determined by using the following equation (BORDIGNON et al., 2003b BORDIGNON, R.; MEDINA FILHO, H.P.; SIQUEIRA, W.J.; PIO, R.M. Efeito da tristeza em caracteres vegetativos, produtivos e industriais da laranjeira 'Valência' enxertada em híbridos segregando para tolerância. Bragantia, Campinas, v.62, n.2, p.207-215, 2003b. ): [height (m) + mean canopy diameter (m) + (trunk diameter below grafting line (cm)/100 x 10)]. The canopy volume was determined by using the equation V = ? p R2 H (MENDEL, 1956), where V, R and H represents the canopy volume (m3), canopy radius (m) and tree height (m), respectively.

Evaluation of fruit yield Fruit yield was determined in the experiments of Cambé and Londrina, for the 2010/2011, 2011/2012, and 2012/2013 harvests. Fruit size was evaluated by using wood boards with openings of 54, 64, and 73 mm in diameter. The fruits were classified as very small (<54 mm), small (54-64 mm), medium (64-73 mm), and large (>73 mm). The number and mass of the fruits were also determined for each class.

The total yield of each tree was determined based on the number and mass of the fruits comprising all four different fruit classes. The yield efficiency index (kg m3-1) was determined based on the ratio between the mean annual yield (kg) and canopy volume (m3).

Data analysis Data on citrus tristeza severity, yield and vegetative tree growth rates were analyzed individually by ANOVA test, followed by an analysis combining all the disease severity data of the four locations and all the thirteen ‘Pêra’ sweet orange cultivars and selections. The Scott-Knott test at 5% significance level was applied to group means by using the Sisvar software (FERREIRA, 2010 FERREIRA, D. F. Sisvar: Sistema de análise de variância para dados balanceados, versão 5.3 Build 75. Lavras: DEX/ UFLA, 2010. Software. ). The percentage of fruits per size class was transformed using the arcsine square root of x/100 equation. The Pearson linear correlation between disease severity and agronomic variables was calculated using the t-test.

RESULTS AND DISCUSSION

Citrus tristeza severity differed significantly among the cultivars and selections of ‘Pêra’ sweet orange included in this study (Table 1). The cultivar ‘Gullo’, ‘IPR 153’ (Bianchi), ‘IPR 158’ (Vac. 3), ‘IPR 159’ (Vac. 4), ‘Morretes’, and Selection 27 had the best performance regarding citrus tristeza stem pitting severity, with an average score below 2.30, considering the data of all four locations (Table 1).

In contrast, the other ‘Pêra’ cultivars and selections had stem pitting severity above 2.40 (Table 1). Based on each location individually, the lowest stem pitting severity was observed for the trees in the plot of Cambé, with 1.86 disease severity score, while the highest level was for the trees in Arapongas, with an average of 2.70 on stem pitting severity (Table 1). The expression of citrus tristeza stem pitting symptoms is usually highly dependent on environmental conditions (DODDS et al., 1987 DODDS, J.A.; JORDAN, R.L.; ROISTACHER, C.N. & JARUPATI, T. Effects of strain, host, time of harvest and virus concentration on double-stranded RNA analysis of Citrus tristeza virus. Phytopathology, St. Paul, v.77, p.442-447, 1987. ( ; SALIBE et al., 2002 SALIBE, A.A.; TEÓFILO SOBRINHO, J.; MÜLLER, G.W. Sinopse de conhecimentos e pesquisas sobre a laranja ‘Pêra’. Laranja, Cordeirópolis, v. 23, n. 1, p. 231-245, 2002. ). Further, multiplication of CTV is also dependent of environmental conditions, especially during colder seasons, when the concentration of the virus attains higher titers in the plant tissue and consequently increases the expression of disease symptoms (DODDS et al., 1987 DODDS, J.A.; JORDAN, R.L.; ROISTACHER, C.N. & JARUPATI, T. Effects of strain, host, time of harvest and virus concentration on double-stranded RNA analysis of Citrus tristeza virus. Phytopathology, St. Paul, v.77, p.442-447, 1987. ( ).Therefore, stem pitting was more severe in trees of the locations with lower temperatures, such as Arapongas and Londrina (Table 1). These results are in agreement with those obtained in other studies, as the highest severity levels of citrus tristeza disease stem pitting in ‘Pera’ sweet orange were observed for trees in regions with milder climates (SALIBE et al., 2002 SALIBE, A.A.; TEÓFILO SOBRINHO, J.; MÜLLER, G.W. Sinopse de conhecimentos e pesquisas sobre a laranja ‘Pêra’. Laranja, Cordeirópolis, v. 23, n. 1, p. 231-245, 2002. ).

The cultivar ‘IPR 153’ (Bianchi) had the best performance in regard to stem pitting severity in all four locations. Some cultivars of ‘Pêra’, as ‘Gullo’, ‘Morretes’, ‘D-6’, ‘IPR 159’ (Vac. 4), ‘IPR 158’ (Vac. 3), and Selections 11, 12, 15 and 27 performed very well in regard to citrus tristeza in more than one location (Table 1). Further, the cultivar ‘Morretes’ was the only one that did not show any significant difference between citrus tristeza disease severity and field plot location (Table 1).Selections 11 and 12 were the most influenced by the environmental conditions. Trees of these two selections had the highest disease severity score in Arapongas where disease severity attains the highest levels (Table 1).

In addition to environmental conditions, severity of citrus tristeza disease may vary according to the aggressiveness of the viral complex present in the citrus tree. The citrus tristeza disease severity data obtained in this study are strongly consistent with those of Costa et al. (2010) COSTA, A.T.; NUNES, W.M.C; ZANUTTO, C.A; MÜLLER, G.W. Stability of Citrus tristeza virus protective isolates in field conditions. Pesquisa Agropecuária Brasileira, Brasília, v.45, n.7, p.693-700, 2010. that evaluated the clones ‘Pêra Bianchi 89 C’, ‘Pêra D-6 111 A’, ‘Pêra Vacinada 59 B’, and ‘Pêra Vimusa 66 B’, and Selection 37, also in the North region of the State of Paraná. Although ‘Pêra Bianchi 89 C’ had shown the highest citrus tristeza disease severity index among all ‘Pêra’ cultivars ‘Gullo’ (Costa et al., 2010 COSTA, A.T.; NUNES, W.M.C; ZANUTTO, C.A; MÜLLER, G.W. Stability of Citrus tristeza virus protective isolates in field conditions. Pesquisa Agropecuária Brasileira, Brasília, v.45, n.7, p.693-700, 2010. ), in our studies ‘IPR 153’ (Bianchi), the same cultivar as ‘Pêra Bianci 89 C’, had a disease severe index of only 2.07, based on data from four different locations (Table 1). In another study with accessions of Pêra sweet oranges from the Citrus Germplasm Collection of the Instituto Agronômico do Paraná- IAPAR, in Londrina, I-58 Vacinada 3, I-59 Vacinada 4, and I-89 Bianchi, here designated IPR 158, IPR 159 and IPR 153, respectively, showed severe stem pitting symptoms (BABA et al., 2014 BABA, V.Y.; GIAMPANI, J.S.; TAZIMA, Z.H., YADA, I.F.U., PACCOLA-MEIRELLES, L.D.; LEITE JÚNIOR, R.P. Agronomic performance of Pera and related sweet orange accessions naturally infected with Citrus tristeza virus in northern Paraná State State, Brazil. Tropical Plant Pathology, Brasília, v.39, n.6, p. 442-448, 2014. ). These differences in citrus tristeza disease severity may be due to the presence of different CTV haplotypes, in combination with differences in sensibility of the plant tissues to the virus, besides the effect of environmental conditions (BABA et al., 2014 BABA, V.Y.; GIAMPANI, J.S.; TAZIMA, Z.H., YADA, I.F.U., PACCOLA-MEIRELLES, L.D.; LEITE JÚNIOR, R.P. Agronomic performance of Pera and related sweet orange accessions naturally infected with Citrus tristeza virus in northern Paraná State State, Brazil. Tropical Plant Pathology, Brasília, v.39, n.6, p. 442-448, 2014. ), as discussed previously in this study.

The cultivars and selections of ‘Pêra’ showed differences in regard to vegetative tree growth related to the location of the field plot, except for Paranavaí (Table 2 and Table 3). In the field plots of Arapongas and Londrina, Selection 27 had the largest vegetative tree growth with vigor index of 10.23 and 11.40, respectively (Tables 2 and 3). In contrast, the vegetative tree growth of this Selection did not differ from the ones of the cultivars ‘IPR 153’ (Bianchi) and ‘Morretes’, and Selections 11, 12, 14, 15, and 37 in the field plot of Cambé (Table 2).In this location, these ‘Pera’ cultivars and selections had the highest values for this parameter (Table 2).

In Arapongas and Londrina field plots, the vegetative growth of the ‘Pêra’ sweet orange trees may have been determined by the combination of the aggressiveness of the CTV complex present in the clone or selection with environmental conditions of these locations. The development of the citrus trees, including canopy diameter and volume, vegetative vigor index and tree height, was negatively correlated with the severity of the disease symptoms in these two locations (Table 2 and Table 3). These data confirm the results obtained in previous studies, where a negative correlation between these citrus trees development variables and stem pitting severity were already established for ‘Pêra’ sweet orange cultivars of the Citrus Germplasm Collection of IAPAR (BABA et al., 2014 BABA, V.Y.; GIAMPANI, J.S.; TAZIMA, Z.H., YADA, I.F.U., PACCOLA-MEIRELLES, L.D.; LEITE JÚNIOR, R.P. Agronomic performance of Pera and related sweet orange accessions naturally infected with Citrus tristeza virus in northern Paraná State State, Brazil. Tropical Plant Pathology, Brasília, v.39, n.6, p. 442-448, 2014. ).

The yield of ‘Pêra’ sweet orange cultivars and selections were evaluated for three seasons in Cambé and Londrina field plots (Table 4 and Table 5).In Cambé, the cultivars and selections did not differ significantly in regard to fruit yield, which ranged from 141.33 kg for ‘D-6’ up to 221.36 kg per tree for ‘IPR 153’ (Bianchi) (Table 4). The highest yield efficiency indexes were obtained for trees of the cultivars ‘IPR 159’ (Vac. 4), ‘Vimusa’, ‘D-6’, ‘Gullo’, and ‘IPR 158’ (Vac. 3) with more than 3.8 kg m3-1 (Table 4). However, the number of fruits and yield were negatively correlated with citrus tristeza disease severity (Tables 4 and 5). In Londrina, the highest yield was obtained for ‘Vimusa’ and Selections 12 and 27, with more than 110 kg/tree (Table 5). These ‘Pêra’ cultivar and selections also had the highest numbers of fruits, ranging from 864 up to and 1054 fruits per tree (Table 5). The number of fruits, yield and fruit mass were also negatively correlated with stem pitting severity (Table 5).

Furthermore, fruit size was significantly correlated with stem pitting severity, whereas fruit class <54 was positively correlated and fruit class 64-73 was negatively correlated with disease severity (Table 5).

These data indicates a strong relationship between high citrus tristeza disease severity and reduced fruit size for ‘Pêra’ sweet orange cultivars and selections.

Based on the results obtained in our studies, citrus tristeza disease severity in ‘Pêra’ sweet orange cultivars and selections was highly related to environmental conditions. Further, the disease severity was negatively correlated with most of the agronomic characteristics of the citrus trees in regard to both, vegetative growth and yield. In other studies with ‘Valência’ sweet orange, the most affected agronomic characteristics of the citrus trees by citrus tristeza disease were fruit mass and tree yield, followed by vegetative traits, as tree vigor and height, and trunk diameter (BORDIGNON et al., 2003b BORDIGNON, R.; MEDINA FILHO, H.P.; MULLER, G.W.; SIQUEIRA, W.J. A tristeza dos citros e suas implicações no melhoramento genético de porta-enxertos. Bragantia, Campinas, v.62, n.3, p.345-355, 2003a. ). On the other hand, industrial characteristics of the fruits were barely affected (BORDIGNON et al., 2003b BORDIGNON, R.; MEDINA FILHO, H.P.; SIQUEIRA, W.J.; PIO, R.M. Efeito da tristeza em caracteres vegetativos, produtivos e industriais da laranjeira 'Valência' enxertada em híbridos segregando para tolerância. Bragantia, Campinas, v.62, n.2, p.207-215, 2003b. ).

Baba et al. (2014) BABA, V.Y.; GIAMPANI, J.S.; TAZIMA, Z.H., YADA, I.F.U., PACCOLA-MEIRELLES, L.D.; LEITE JÚNIOR, R.P. Agronomic performance of Pera and related sweet orange accessions naturally infected with Citrus tristeza virus in northern Paraná State State, Brazil. Tropical Plant Pathology, Brasília, v.39, n.6, p. 442-448, 2014. also evaluated the effect of the citrus tristeza disease severity on the agronomic performance of 24 accessions of ‘Pêra’ and related sweet orange. They observed the highest correlations between disease severity and yield, number of fruits, and vegetative vigor index. In the present study, the vegetative vigor index did not correlate with the citrus tristeza disease severity for the citrus trees in the Cambé and Paranavaí field plots (Table 2 and Table 3), unlike the results obtained for the Arapongas and Londrina field plots (Table 2 and Table 3).Therefore, environmental conditions may have played a major role on the development of citrus tristeza disease and vegetative and yield characteristics of ‘Pêra’ sweet orange cultivars and selections. Further, strong negative correlations between disease severity and tree growth and fruit characteristics were observed basically in areas with mild climate conditions, where citrus tristeza disease symptoms were more severe.

CONCLUSIONS

Cultivars ‘IPR 153’ (Bianchi), Gullo, Morretes, ‘IPR 158’ (Vac. 3), and ‘IPR 159’ (Vac. 4), and Selection 27 of ‘Pêra’ sweet orange have the lowest levels of citrus tristeza disease severity.

Expression of citrus tristeza disease symptoms is more severe in Arapongas and Londrina, where mild climate are prevalent. Under this condition, Selection 27 has high vegetative growth and yield, besides low citrus tristeza disease symptoms.

Severity of citrus tristeza disease symptoms is negatively correlated with vegetative growth and yield for areas with mild environmental conditions, such as Arapongas and Londrina.

ACKNOWLEDGEMENTS

To Araucária Foundation for the Scientific and Technological Development of Paraná (Fundação Araucária de Apoio ao Desenvolvimento Científico e Tecnológico do Paraná) for financial support; to Paraná Agronomic Institute (Instituto Agronômico do Paraná – IAPAR) for infrastructure and field support, and to João Henrique Caviglione for providing climate data analysis and soil classification.

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