Resistance of potato genotypes to late blight

Oxley, Helena N.; Gomes, Cesar B.; Pereira, Arione da S.; Azevedo, Fernanda Q.

doi:10.1590/1983-21252023v36n311rc

ABSTRACT

Late blight (Phytophthora infestans) is a serious problem in potato crops in southern Brazil due to favorable climatic conditions for the development of the pathogen and the lack of resistant cultivars available in the market. Thus, this study aimed to evaluate the reaction of eight cultivars (Asterix, Catucha, BRS Clara, BRS F63 - Camila, Cristal, BRS F183 - Potira, Markies, and BRS Pérola) and five advanced clones (F05-11-03, F21-07-09, Odone 80-02, F50-08-01, and F63-10-07) to late bight under field conditions. The Agata and the clone CIP392.617-54 were used as susceptible and resistant controls, respectively. The experiments were conducted in the municipality of Pelotas, RS, in the autumn season of 2018 and 2019. Sixty days after planting, the plants were inoculated with the pathogen; and, after one week, the genotypes were evaluated for disease severity and the area under the disease progress curve. ‘Catucha’ was classified as resistant to moderately resistant to P. infestans; ‘Cristal,’ F50-08-01 and ‘BRS Perola’, moderately susceptible to resistant; and ‘BRS F63’ - Camila, F63-10-07, F05-11-03, Asterix, F21-07-09, BRS F183 - Potira, and Odone 80-02, moderately susceptible to susceptible. BRS Clara and Markies showed the greatest variations in both experiments, showing to be susceptible in the autumn of 2018 experiment and moderately resistant in the autumn of 2019 experiment.

Keywords
Solanum tuberosum; Phytophthora infestans; Reaction

RESUMO

A requeima (Phytophthora infestans) constitui-se em um sério problema à cultura da batata na região sul do Brasil em função das condições climáticas favoráveis ao desenvolvimento do patógeno e pela carência de cultivares resistentes disponíveis no mercado. Dessa forma, foi objetivo deste estudo, avaliar a reação de oito cultivares (Asterix, Catucha, BRS Clara, BRS F63 - Camila, Cristal, BRS F183 - Potira, Markies e BRS Pérola) e cinco clones avançados (F05-11-03, F21-07-09, Odone 80-02, F50-08-01 e F63-10-07) de batata à requeima em condições de campo. A cultivar Agata e o clone CIP392.617-54 foram utilizados como testemunhas, suscetível e resistente, respectivamente. Os experimentos foram conduzidos no município de Pelotas, RS, nos cultivos de outono de 2018 e 2019. Sessenta dias após o plantio, as plantas foram inoculadas com o patógeno e, decorrido uma semana, os genótipos foram avaliados quanto à severidade da doença e a área abaixo da curva do progresso da doença. ‘Catucha’ comportou-se como resistente a moderadamente resistente; ‘Cristal’, F50-08-01 e ‘BRS Pérola’, moderadamente suscetível a resistente; e ‘BRS F63’ - Camila, ‘F63-10-07’, ‘F05-11-03’, ‘Asterix’, ‘F21-07-09’, ‘BRS F183’ - Potira Odone 80-02, moderadamente suscetível a suscetível. As cultivares BRS Clara e Markies apresentaram as maiores variações em ambos experimentos, comportando-se como suscetível no outono de 2018 e moderadamente resistente no outono de 2019.

Palavras-chave
Solanum tuberosum; Phytophthora infestans; Reação

INTRODUCTION

Potato (Solanum tuberosum L.) is historically one of the most important crops for human consumption, ranking fourth among the world’s most-produced foods (FAO, 2022FAO - Organização das Nações Unidas para a Alimentação e a Agricultura. FAOSTAT-rankings. Disponível em: ˂https://www.fao.org/brasil/pt/˃. Acesso em: 18 abr. 2022.
https://www.fao.org/brasil/pt/... ). In 2020, Brazil produced 3,767,769 potato tons with an average yield of around 32 t ha^-1, with the southern region responsible for 32% of national production (IBGE, 2022IBGE - Instituto Brasileiro de Geografia e Estatística. Produção Agropecuária. Disponível em: ˂https://www.ibge.gov.br/explica/producao-agropecuaria/batata/br˃;. Acesso em: 18 abr. 2022.
https://www.ibge.gov.br/explica/producao... ). However, one of the main challenges of the production system is phytosanitary management. Among the diseases, late blight, caused by the oomycete Phytophthora infestans (Mont.) de Bary, remains the most important in potato crop worldwide (SAVILLE; RISTAINO, 2021SAVILLE, A. C.; RISTAINO, J. B. Global historic pandemics caused by the FAM-1 genotype of Phytophthora infestans on six continents. Scientific Reports, 11: 1-11, 2021.). Under favorable environmental conditions, the pathogen can complete its life cycle within five days in susceptible cultivars, decimating entire crops (FRY; GOODWIN, 1997FRY, W. E.; GOODWIN, S. B. Resurgence of the Irish potato famine fungus. BioScience, 47: 363-371, 1997.). The symptoms can be observed mainly on the leaves and they are characterized by spots of variable size, light or dark green in color and moist appearance which evolve into dark brown to black, necrotic and irregular spots. A circle of sporulation can be observed on the underside of the leaves, with a velvety appearance and grayish-white color, around the lesions. As the lesions coalesce, the leaf tissue exhibits a generalized burning appearance. In the shoots, late blight causes the death of the apical buds. On the petioles and stems the lesions are dark, and elongated, and on tubercles, the lesions are deep, reddishbrown, and poorly defined (TÖFOLI; DOMINGUES, 2021TÖFOLI, J. G.; DOMINGUES, R. J. Doenças fúngicas da batata. In: MERENDA, A. M. C. M. P. (Ed.). Batata: desafios fitossanitários e manejo sustentável. Jaboticabal, SP: Angélica Maria de Campos Machado Pitelli Merenda, 2021. v. 1, cap. 4, p. 123-132.).

In the southern region of the country, late blight is the main disease that affects potato cultivation, which often requires intensive fungicide applications (BOSCO et al., 2010BOSCO, L. C. et al. Sistemas de previsão de requeima em cultivos de batata em Santa Maria, RS. Bragantia, 69: 649-660, 2010.). The use of cultivars with durable resistance (horizontal) is one of the most desired strategies due to lower costs with fungicides, and reduced risks of contamination of the environment and to human health (PEREIRA et al., 2012PEREIRA, A. S. et al. Melhoramento para resistência a oomicetos. In: FRITSCHE-NETO, R; BORÉM, A. (Eds.). Melhoramento de plantas para condições de estresses bióticos. Visconde do Rio Branco, MG: Suprema, 2012. v. 1, cap. 2, p. 25-59.). However, few cultivars have this characteristic for use in regions where late blight is a serious limiting factor for the crop. In this sense, the stability of resistance to P. infestans has been one of the targets of Embrapa's potato breeding program. Therefore, the objective of this work was to evaluate the reaction of commercial cultivars and advanced potato clones to P. infestans under field conditions.

MATERIAL AND METHODS

Eight cultivars (Asterix, Catucha, BRS Clara, Cristal, BRS F183 - Potira, Markies, BRS F63- Camila, and BRS Pérola) and five advanced clones (F05-11-03, F21-07-09, Odone 80-02, F50-08-01 and F63-10-07) from Embrapa’s potato breeding program were evaluated for the reaction to P. infestans (Table 1), under field conditions. The Agata cultivar and the CIP392.617-54 clone were used as controls, susceptible and resistant, respectively.

Thumbnail

Table 1
Potato genotypes evaluated for reaction to Phytophthora infestans under field conditions in autumn seasons of 2018 and 2019.

The experiments were carried out in the autumn seasons of 2018 and 2019, between March and June, in the municipality of Pelotas-RS (31º 32' S, 52º 24' W, 54m a.s.l.). A randomized complete block design with three replications was used. Each plot consisted of a row of eight plants spaced 30 cm within row and 0.80 m between row.

The Agata cultivar and the CIP392.617-54 clone were used as susceptible and resistant controls, respectively (GOMES et al., 2009GOMES, C. B. et al. Reação de genótipos de batata a requeima (Phytophthora infestans). 1. ed. Pelotas, RS: EMBRAPA, 2009. 17 p. (Boletim de Pesquisa e Desenvolvimento, 83).). An isolate of P. infestans belonging to compatibility group A2 from the collection of phytopathogenic microorganisms of agronomic interest (COFIA) of Embrapa Clima Temperado was used as inoculum.

Sixty days after emergence, the plants were sprayed with a 10⁵ sporangia/mL suspension of P. infestans using a manual costal sprayer. Seven days after inoculation, five assessments of disease severity (%) were carried out at intervals of two to three days, based on the Reifschneider scale (1987)REIFSCHNEIDER, F. S. B. Produção de batata. Brasília, DF: Linha Gráfica e Editora. 1987. 239 p. adapted (0 to 100%), in which the last assessment was conducted when the susceptible control Agata reached 100% severity.

From the severity data, the area under the disease progress curve (AUDPC) was calculated for each genotype, using the GW Basic program (MAFFIA, 1986MAFFIA, A. L. Programa para cálculo de área abaixo da curva do progresso da doença (AACPD) GW-BASIC 3.20. Viçosa, MG: Universidade Federal de Viçosa, 1986.). Subsequently, the AUDPC values and the last severity assessment [transformed into arc sine root √(x/100)] of each experiment were submitted to ANOVA in a factorial scheme (15 x 2). If there was a significant interaction between the factors, the means of both variables for the genotype factor were submitted to the Scott and Knott cluster test (P <0.05); and for the year factor by the t-test (P <0.05). According to the results of the AUDPC and severity analyses, the genotypes were classified as resistant, moderately resistant, moderately susceptible, and susceptible (GOMES et al., 2009GOMES, C. B. et al. Reação de genótipos de batata a requeima (Phytophthora infestans). 1. ed. Pelotas, RS: EMBRAPA, 2009. 17 p. (Boletim de Pesquisa e Desenvolvimento, 83).).

RESULTS AND DISCUSSION

The statistical analyses showed significant interaction between the genotype and year factors (P <0.05), showing higher values of AUDPC and severity of P. infestans in 2018. Considering the results of the analyzes of both experiments, the genotypes were separated into four groups (Table 2).

Thumbnail

Table 2
Area under the disease progress curve (AUDPC), severity percentage (SEV%), and the reaction of 15 potato genotypes to Phytophthora infestans in the autumn seasons of 2018 and 2019.

CIP392.617-54 clone and Agata cultivar maintained the resistance (0.0 ˂AUDPC <9.17) and susceptibility (355.94 ˂AUDPC <357.55) patterns, respectively, in both experiments.

The genotypes Catucha, Cristal, and F50-08-01 were classified as resistant to P. infestans (15.92<AUDPC<26.00), although their reaction varied from moderately resistant to moderately susceptible in one of the experiments. The reactions of BRS Clara, BRS Pérola, and Markies, even having shown some level of resistance, varied between moderately resistant and susceptible considering the AUDPC values (173.36 to 439.17). Although 'Asterix', 'Potira', F21-07-09, 'Camila', F63-10-07, F05-11-03, and ‘Odone 80-02’ behaved as the most susceptible genotypes to late blight, the last four showed a lower degree of susceptibility (moderately susceptible) in the 2019 experiment (201.08< AUDPC<359.78).

By analyzing the final severity values (Table 2), the resistant genotype 'Cristal', 'Catucha' and F05-11-03 showed low severity values in at least one of the experiments (3.67 < sev <6.63) compared to the resistant control CIP392.617-54. However, for moderately resistant and moderately susceptible genotypes, sev values were higher, ranging on average from 41.34 to 70.34% in 2019, and from 46.00 to 96.34% in 2018. In susceptible genotypes (F21-07-09, 'Asterix' and 'Potira'), in both experiments, sev values ranged from 66.00 to 99% in 2019, and from 87.71 to 100% in 2018, compared to 'Agata' control (87.71-99%).

The genetic resistance of 'Cristal', 'Catucha', ‘F50-08-01’, and the resistant control CIP392.617-54 have been verified in other field experiment studies in southern Rio Grande do Sul (GOMES et al., 2009GOMES, C. B. et al. Reação de genótipos de batata a requeima (Phytophthora infestans). 1. ed. Pelotas, RS: EMBRAPA, 2009. 17 p. (Boletim de Pesquisa e Desenvolvimento, 83).; CASA-COILA et al., 2019CASA-COILA, V. H. et al. Reaction of potato cultivars and clones to Phytophthora infestans. Revista Caatinga, 32: 390-398, 2019.; PEREIRA et al., 2022PEREIRA, A. S. et al. ‘BRS F183’ (Potira): A dual purpose potato cultivar, with high yield potential and excellent French fry quality. Horticultura Brasileira, 40: 119-124, 2022.). The stability of resistance to late blight is a highly desirable genetic trait in a potato breeding program, given the great variability of P. infestans isolates that normally occurs in the production environment in different regions of the planet (SAVILLE; MARTIN; RISTAINO, 2016SAVILLE, A. C.; MARTIN, M. D.; RISTAINO, J. B. Historic Late Blight Outbreaks Caused by a Widespread Dominant Lineage of Phytophthora infestans (Mont.) de Bary. PLoS ON, 11: e0168381, 2016.) and our conditions (SANTANA et al., 2013SANTANA, F. M. et al. Characterization of Phytophthora infestans populations of southern Brazil in 2004 and 2005. Phytoparasitica, 41: 557-568, 2013.; CASA-COILA et al., 2019CASA-COILA, V. H. et al. Reaction of potato cultivars and clones to Phytophthora infestans. Revista Caatinga, 32: 390-398, 2019.). Due to this important characteristic, 'Cristal' and 'Catucha' have been widely used in ecological cropping systems in southern Brazil (TÖFOLI et al., 2013TÖFOLI, J. G. et al. Requeima e pinta preta na cultura da batata: importância, características e manejo sustentável. Biológico, 75: 33-40, 2013.; PASSOS et al., 2017PASSOS, S. et al. Produtividade de cultivares de batata orgânica em região subtropical do Brasil. Horticultura Brasileira, 35: 628-633, 2017.; EICHOLZ et al., 2021EICHOLZ, E. D. et al. Cultivares de Batata para Sistemas Orgânicos. In: WOLF, L. F; EICHOLZ, E. D. (Eds.). Alternativas para a Diversificação na Agricultura Familiar de Base Ecológica. Pelotas, RS: Embrapa Clima Temperado, 2021. 46 p. (Documentos, 512)). In addition, 'Catucha', 'Cristal', as well as ‘F50.08.01’ show good resistance to early blight, Alternaria grandis Simmons (Rodrigues, 2009) (LOURENÇO JUNIOR et al., 2020LOURENÇO JUNIOR, V. et al. Reação de clones de batata à pinta preta. Brasilia, DF: Embrapa Hortaliças, 2020. 17 p. (Boletim de Pesquisa e Desenvolvimento, 209).). The first two genotypes are also moderately susceptible to Potato leafroll virus (PLRV) (Quanjer et al, 1916) (DANIELS; PEREIRA, 2004DANIELS, J.; PEREIRA, A. S. Resistência de genótipos de batata ao vírus do enrolamento da folha da batata (PLRV) e ao vírus Y (PVY). Horticultura Brasileira, 22: 521-524, 2004.), and the first is resistant to P. brachyurus (Godfrey, 1929) and M. graminicola (Golden & Birchfield, 1965) (LIMA-MEDINA; GOMES; GONZAGA, 2014LIMA-MEDINA, I.; GOMES, C. B.; GONZAGA, V. Caracterização de espécies de nematoides de lesões radiculares em batata no sul do Brasil e reação de genótipos a Pratylenchus brachyurus. Nematropica, 44: 101-106, 2014.; LIMA-MEDINA et al., 2016LIMA-MEDINA, I. et al. Reação de cultivares de batata aos nematoides-das-galhas. Nematropica, 46: 188-196, 2016.). Furthermore, the CIP 392.617-54 clone is considered a good progenitor for crosses of S. tuberosum, aiming at resistance to P. infestans, due to its high level of stable resistance to late blight.

Among the cultivars that showed moderate resistance, the reaction of 'BRS Clara' has varied a lot since its release (PEREIRA et al., 2013PEREIRA, A. S. et al. BRS Clara: cultivar de batata para mercado fresco, com resistência à requeima. Horticultura Brasileira, 31: 664-668, 2013.), when it was shown to be resistant to P. infestans. Although 'BRS Clara' has 'Catucha' as one of the parents in its genealogy, its resistance pattern has oscillated between moderately resistant and susceptible. This same oscillation performance has also been noticed for 'BRS Pérola' and Odone 80-02 (WOLTER et al., 2016WOLTER, D. D. et al. Resistência de genotipos de batata (Solanum tuberosum L.) A Phytophthora infestans (Mont.) de Bary. In: CONGRESSO DE INICIAÇÃO CIENTÍFICA, 25.; ENCONTRO DE PÓS-GRADUAÇÃO UFPEL, 18.; SEMANA INTEGRADA DE ENSINO, PESQUISA E EXTENSÃO, 2., 2016, Pelotas. Anais... Pelotas: UFPel, 2016. Disponível em: <https://www.embrapa.br/busca-depublicacoes/-/publicacao/1060339/resistencia-de-genotipos-de-batata-solanum-tuberosum-l-a-phytophthora-infestans-montde-bary>. Acesso em: 25 abr. 2022.
https://www.embrapa.br/busca-depublicaco... ), and for 'Camila', whose field reaction ranged from highly susceptible to resistant (CASA-COILA et al., 2019CASA-COILA, V. H. et al. Reaction of potato cultivars and clones to Phytophthora infestans. Revista Caatinga, 32: 390-398, 2019.), being correlated with the race of P. infestans. According to studies conducted by Rocha (2015)ROCHA, R. C. D. S. Quitosana na indução de resistência ao tombamento de plântulas de espécies olerícolas e no controle de fitopatógenos in vitro. 2015. 66 f. Tese (Doutorado em Agronomia: Área de concentração em Produção Vegetal) - Universidade Tecnológica Federal do Paraná, Pato Branco, 2015. specifically with 'BRS Clara', a high level of quantitative resistance to P. infestans associated with qualitative resistance was observed, showing that the R genes present in this cultivar did not provide full protection to the isolate under study. According to the same author, depending on the race composition of the pathogen present in a given location, the same genotype may still present an immunity reaction to P. infestans. Despite showing variation in reaction to late blight over the years, ‘BRS Clara’ has agronomic characteristics (elongated oval shape, yellow and smooth skin, with moderate resistance to greening, shallow buds, cream flesh, medium-short dormancy, and moderate resistance to early blight) which allow its maintenance in the national market as one of the most important cultivars in the organic crop system for our conditions. The late blight susceptibility of 'Agata' and 'Asterix' reported in this study has already been recorded in several studies conducted under different conditions and potato production systems (TÖFOLI; DOMINGUES; ZANOTTA, 2017TÖFOLI, J. G.; DOMINGUES, R. J.; ZANOTTA, S. Doenças fúngicas da batata. In: SALAS, F. J. S.; TÖFOLI, J. G. (Eds.). Cultura da batata: pragas e doenças. São Paulo, SP: Instituto Biológico, 2017. v. 1, cap. 7, p. 152-206.; WOLTER, 2018WOLTER, D. D. Avaliação de genótipos de batata (Solanum tuberosum L.) quanto à resistência a Phytophthora infestans (Mont.) de Bary. 2018. 60 f. Dissertação (Mestrado em Ciências: Área de concentração em Fitomelhoramento) - Universidade Federal de Pelotas, Pelotas, 2018.; BUSNELLO et al., 2019BUSNELLO, F. J. et al. Potato genotypes reaction to early blight and late blight in organic cultivation. Ciência Rural, 49: 1-8, 2019.). For the 'Potira' cultivar, similar results were described by Pereira et al. (2022)PEREIRA, A. S. et al. ‘BRS F183’ (Potira): A dual purpose potato cultivar, with high yield potential and excellent French fry quality. Horticultura Brasileira, 40: 119-124, 2022., who reported high susceptibility under field conditions. Although 'Agata' and 'Asterix' occupy a large space in the market due to their culinary qualities or ease of seed potato production (PEREIRA, 2011PEREIRA, A. S. A evolução da batata no Brasil. In: CONGRESSO DE OLERICULTURA, 51., Viçosa., Anais... Viçosa: Horticultura Brasileira, 2011. p. 5701-5710.), both, as well as 'Camila', require a greater number of sprays with chemical fungicides (BRASIL, 2022BRASIL - Ministério da Agricultura e Abastecimento. AGROFITSistema de Agrotóxicos Fitossanitários. Disponível em: ˂http://agrofit.agricultura.gov.br/agrofit_cons/principal_agrofit_cons˃. Acesso em: 8 ago. 2022.
http://agrofit.agricultura.gov.br/agrofi... ) or efficient alternative products for P. infestans management due to their high values of severity and AUDPC under favorable conditions.

CONCLUSION

Our results show that the reaction to late blight of the Catucha cultivar is moderately resistant, while 'Cristal', F50-08-01 and BRS Pérola vary from resistant to moderately susceptible; 'BRS F63' - Camila, F63-10-07, F05-11-03, 'Asterix', F21-07-09, 'BRS F183' - 'Potira' and Odone 80-02 range from moderately susceptible to susceptible; and 'BRS Clara' and 'Markies' range from moderately resistant to susceptible.

REFERENCES

BRASIL - Ministério da Agricultura e Abastecimento. AGROFITSistema de Agrotóxicos Fitossanitários Disponível em: ˂http://agrofit.agricultura.gov.br/agrofit_cons/principal_agrofit_cons˃. Acesso em: 8 ago. 2022.
» http://agrofit.agricultura.gov.br/agrofit_cons/principal_agrofit_cons
BOSCO, L. C. et al. Sistemas de previsão de requeima em cultivos de batata em Santa Maria, RS. Bragantia, 69: 649-660, 2010.
BUSNELLO, F. J. et al. Potato genotypes reaction to early blight and late blight in organic cultivation. Ciência Rural, 49: 1-8, 2019.
CASA-COILA, V. H. et al. Reaction of potato cultivars and clones to Phytophthora infestans Revista Caatinga, 32: 390-398, 2019.
DANIELS, J.; PEREIRA, A. S. Resistência de genótipos de batata ao vírus do enrolamento da folha da batata (PLRV) e ao vírus Y (PVY). Horticultura Brasileira, 22: 521-524, 2004.
EICHOLZ, E. D. et al. Cultivares de Batata para Sistemas Orgânicos. In: WOLF, L. F; EICHOLZ, E. D. (Eds.). Alternativas para a Diversificação na Agricultura Familiar de Base Ecológica Pelotas, RS: Embrapa Clima Temperado, 2021. 46 p. (Documentos, 512)
FAO - Organização das Nações Unidas para a Alimentação e a Agricultura. FAOSTAT-rankings. Disponível em: ˂https://www.fao.org/brasil/pt/˃. Acesso em: 18 abr. 2022.
» https://www.fao.org/brasil/pt/
FRY, W. E.; GOODWIN, S. B. Resurgence of the Irish potato famine fungus. BioScience, 47: 363-371, 1997.
GOMES, C. B. et al. Reação de genótipos de batata a requeima (Phytophthora infestans) 1. ed. Pelotas, RS: EMBRAPA, 2009. 17 p. (Boletim de Pesquisa e Desenvolvimento, 83).
IBGE - Instituto Brasileiro de Geografia e Estatística. Produção Agropecuária Disponível em: ˂https://www.ibge.gov.br/explica/producao-agropecuaria/batata/br˃;. Acesso em: 18 abr. 2022.
» https://www.ibge.gov.br/explica/producao-agropecuaria/batata/br˃
LIMA-MEDINA, I.; GOMES, C. B.; GONZAGA, V. Caracterização de espécies de nematoides de lesões radiculares em batata no sul do Brasil e reação de genótipos a Pratylenchus brachyurus Nematropica, 44: 101-106, 2014.
LIMA-MEDINA, I. et al. Reação de cultivares de batata aos nematoides-das-galhas. Nematropica, 46: 188-196, 2016.
LOURENÇO JUNIOR, V. et al. Reação de clones de batata à pinta preta Brasilia, DF: Embrapa Hortaliças, 2020. 17 p. (Boletim de Pesquisa e Desenvolvimento, 209).
MAFFIA, A. L. Programa para cálculo de área abaixo da curva do progresso da doença (AACPD) GW-BASIC 3.20 Viçosa, MG: Universidade Federal de Viçosa, 1986.
PASSOS, S. et al. Produtividade de cultivares de batata orgânica em região subtropical do Brasil. Horticultura Brasileira, 35: 628-633, 2017.
PEREIRA, A. S. A evolução da batata no Brasil. In: CONGRESSO DE OLERICULTURA, 51., Viçosa., Anais... Viçosa: Horticultura Brasileira, 2011. p. 5701-5710.
PEREIRA, A. S. et al. Melhoramento para resistência a oomicetos. In: FRITSCHE-NETO, R; BORÉM, A. (Eds.). Melhoramento de plantas para condições de estresses bióticos Visconde do Rio Branco, MG: Suprema, 2012. v. 1, cap. 2, p. 25-59.
PEREIRA, A. S. et al. BRS Clara: cultivar de batata para mercado fresco, com resistência à requeima. Horticultura Brasileira, 31: 664-668, 2013.
PEREIRA, A. S. et al. ‘BRS F183’ (Potira): A dual purpose potato cultivar, with high yield potential and excellent French fry quality. Horticultura Brasileira, 40: 119-124, 2022.
REIFSCHNEIDER, F. S. B. Produção de batata Brasília, DF: Linha Gráfica e Editora. 1987. 239 p.
ROCHA, R. C. D. S. Quitosana na indução de resistência ao tombamento de plântulas de espécies olerícolas e no controle de fitopatógenos in vitro 2015. 66 f. Tese (Doutorado em Agronomia: Área de concentração em Produção Vegetal) - Universidade Tecnológica Federal do Paraná, Pato Branco, 2015.
SANTANA, F. M. et al. Characterization of Phytophthora infestans populations of southern Brazil in 2004 and 2005. Phytoparasitica, 41: 557-568, 2013.
SAVILLE, A. C.; MARTIN, M. D.; RISTAINO, J. B. Historic Late Blight Outbreaks Caused by a Widespread Dominant Lineage of Phytophthora infestans (Mont.) de Bary. PLoS ON, 11: e0168381, 2016.
SAVILLE, A. C.; RISTAINO, J. B. Global historic pandemics caused by the FAM-1 genotype of Phytophthora infestans on six continents. Scientific Reports, 11: 1-11, 2021.
TÖFOLI, J. G. et al. Requeima e pinta preta na cultura da batata: importância, características e manejo sustentável. Biológico, 75: 33-40, 2013.
TÖFOLI, J. G.; DOMINGUES, R. J.; ZANOTTA, S. Doenças fúngicas da batata. In: SALAS, F. J. S.; TÖFOLI, J. G. (Eds.). Cultura da batata: pragas e doenças São Paulo, SP: Instituto Biológico, 2017. v. 1, cap. 7, p. 152-206.
TÖFOLI, J. G.; DOMINGUES, R. J. Doenças fúngicas da batata. In: MERENDA, A. M. C. M. P. (Ed.). Batata: desafios fitossanitários e manejo sustentável Jaboticabal, SP: Angélica Maria de Campos Machado Pitelli Merenda, 2021. v. 1, cap. 4, p. 123-132.
WOLTER, D. D. et al. Resistência de genotipos de batata (Solanum tuberosum L.) A Phytophthora infestans (Mont.) de Bary. In: CONGRESSO DE INICIAÇÃO CIENTÍFICA, 25.; ENCONTRO DE PÓS-GRADUAÇÃO UFPEL, 18.; SEMANA INTEGRADA DE ENSINO, PESQUISA E EXTENSÃO, 2., 2016, Pelotas. Anais... Pelotas: UFPel, 2016. Disponível em: <https://www.embrapa.br/busca-depublicacoes/-/publicacao/1060339/resistencia-de-genotipos-de-batata-solanum-tuberosum-l-a-phytophthora-infestans-montde-bary>. Acesso em: 25 abr. 2022.
» https://www.embrapa.br/busca-depublicacoes/-/publicacao/1060339/resistencia-de-genotipos-de-batata-solanum-tuberosum-l-a-phytophthora-infestans-montde-bary
WOLTER, D. D. Avaliação de genótipos de batata (Solanum tuberosum L.) quanto à resistência a Phytophthora infestans (Mont.) de Bary 2018. 60 f. Dissertação (Mestrado em Ciências: Área de concentração em Fitomelhoramento) - Universidade Federal de Pelotas, Pelotas, 2018.

Publication Dates

Publication in this collection
25 Aug 2023
Date of issue
Jul-Sep 2023

History

Received
13 Sept 2022
Accepted
17 May 2023

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

[1] BRASIL - Ministério da Agricultura e Abastecimento. AGROFITSistema de Agrotóxicos Fitossanitários Disponível em: ˂http://agrofit.agricultura.gov.br/agrofit_cons/principal_agrofit_cons˃. Acesso em: 8 ago. 2022.
» http://agrofit.agricultura.gov.br/agrofit_cons/principal_agrofit_cons

[2] BOSCO, L. C. et al. Sistemas de previsão de requeima em cultivos de batata em Santa Maria, RS. Bragantia, 69: 649-660, 2010.

[3] BUSNELLO, F. J. et al. Potato genotypes reaction to early blight and late blight in organic cultivation. Ciência Rural, 49: 1-8, 2019.

[4] CASA-COILA, V. H. et al. Reaction of potato cultivars and clones to Phytophthora infestans Revista Caatinga, 32: 390-398, 2019.

[5] DANIELS, J.; PEREIRA, A. S. Resistência de genótipos de batata ao vírus do enrolamento da folha da batata (PLRV) e ao vírus Y (PVY). Horticultura Brasileira, 22: 521-524, 2004.

[6] EICHOLZ, E. D. et al. Cultivares de Batata para Sistemas Orgânicos. In: WOLF, L. F; EICHOLZ, E. D. (Eds.). Alternativas para a Diversificação na Agricultura Familiar de Base Ecológica Pelotas, RS: Embrapa Clima Temperado, 2021. 46 p. (Documentos, 512)

[7] FAO - Organização das Nações Unidas para a Alimentação e a Agricultura. FAOSTAT-rankings. Disponível em: ˂https://www.fao.org/brasil/pt/˃. Acesso em: 18 abr. 2022.
» https://www.fao.org/brasil/pt/

[8] FRY, W. E.; GOODWIN, S. B. Resurgence of the Irish potato famine fungus. BioScience, 47: 363-371, 1997.

[9] GOMES, C. B. et al. Reação de genótipos de batata a requeima (Phytophthora infestans) 1. ed. Pelotas, RS: EMBRAPA, 2009. 17 p. (Boletim de Pesquisa e Desenvolvimento, 83).

[10] IBGE - Instituto Brasileiro de Geografia e Estatística. Produção Agropecuária Disponível em: ˂https://www.ibge.gov.br/explica/producao-agropecuaria/batata/br˃;. Acesso em: 18 abr. 2022.
» https://www.ibge.gov.br/explica/producao-agropecuaria/batata/br˃

[11] LIMA-MEDINA, I.; GOMES, C. B.; GONZAGA, V. Caracterização de espécies de nematoides de lesões radiculares em batata no sul do Brasil e reação de genótipos a Pratylenchus brachyurus Nematropica, 44: 101-106, 2014.

[12] LIMA-MEDINA, I. et al. Reação de cultivares de batata aos nematoides-das-galhas. Nematropica, 46: 188-196, 2016.

[13] LOURENÇO JUNIOR, V. et al. Reação de clones de batata à pinta preta Brasilia, DF: Embrapa Hortaliças, 2020. 17 p. (Boletim de Pesquisa e Desenvolvimento, 209).

[14] MAFFIA, A. L. Programa para cálculo de área abaixo da curva do progresso da doença (AACPD) GW-BASIC 3.20 Viçosa, MG: Universidade Federal de Viçosa, 1986.

[15] PASSOS, S. et al. Produtividade de cultivares de batata orgânica em região subtropical do Brasil. Horticultura Brasileira, 35: 628-633, 2017.

[16] PEREIRA, A. S. A evolução da batata no Brasil. In: CONGRESSO DE OLERICULTURA, 51., Viçosa., Anais... Viçosa: Horticultura Brasileira, 2011. p. 5701-5710.

[17] PEREIRA, A. S. et al. Melhoramento para resistência a oomicetos. In: FRITSCHE-NETO, R; BORÉM, A. (Eds.). Melhoramento de plantas para condições de estresses bióticos Visconde do Rio Branco, MG: Suprema, 2012. v. 1, cap. 2, p. 25-59.

[18] PEREIRA, A. S. et al. BRS Clara: cultivar de batata para mercado fresco, com resistência à requeima. Horticultura Brasileira, 31: 664-668, 2013.

[19] PEREIRA, A. S. et al. ‘BRS F183’ (Potira): A dual purpose potato cultivar, with high yield potential and excellent French fry quality. Horticultura Brasileira, 40: 119-124, 2022.

[20] REIFSCHNEIDER, F. S. B. Produção de batata Brasília, DF: Linha Gráfica e Editora. 1987. 239 p.

[21] ROCHA, R. C. D. S. Quitosana na indução de resistência ao tombamento de plântulas de espécies olerícolas e no controle de fitopatógenos in vitro 2015. 66 f. Tese (Doutorado em Agronomia: Área de concentração em Produção Vegetal) - Universidade Tecnológica Federal do Paraná, Pato Branco, 2015.

[22] SANTANA, F. M. et al. Characterization of Phytophthora infestans populations of southern Brazil in 2004 and 2005. Phytoparasitica, 41: 557-568, 2013.

[23] SAVILLE, A. C.; MARTIN, M. D.; RISTAINO, J. B. Historic Late Blight Outbreaks Caused by a Widespread Dominant Lineage of Phytophthora infestans (Mont.) de Bary. PLoS ON, 11: e0168381, 2016.

[24] SAVILLE, A. C.; RISTAINO, J. B. Global historic pandemics caused by the FAM-1 genotype of Phytophthora infestans on six continents. Scientific Reports, 11: 1-11, 2021.

[25] TÖFOLI, J. G. et al. Requeima e pinta preta na cultura da batata: importância, características e manejo sustentável. Biológico, 75: 33-40, 2013.

[26] TÖFOLI, J. G.; DOMINGUES, R. J.; ZANOTTA, S. Doenças fúngicas da batata. In: SALAS, F. J. S.; TÖFOLI, J. G. (Eds.). Cultura da batata: pragas e doenças São Paulo, SP: Instituto Biológico, 2017. v. 1, cap. 7, p. 152-206.

[27] TÖFOLI, J. G.; DOMINGUES, R. J. Doenças fúngicas da batata. In: MERENDA, A. M. C. M. P. (Ed.). Batata: desafios fitossanitários e manejo sustentável Jaboticabal, SP: Angélica Maria de Campos Machado Pitelli Merenda, 2021. v. 1, cap. 4, p. 123-132.

[28] WOLTER, D. D. et al. Resistência de genotipos de batata (Solanum tuberosum L.) A Phytophthora infestans (Mont.) de Bary. In: CONGRESSO DE INICIAÇÃO CIENTÍFICA, 25.; ENCONTRO DE PÓS-GRADUAÇÃO UFPEL, 18.; SEMANA INTEGRADA DE ENSINO, PESQUISA E EXTENSÃO, 2., 2016, Pelotas. Anais... Pelotas: UFPel, 2016. Disponível em: <https://www.embrapa.br/busca-depublicacoes/-/publicacao/1060339/resistencia-de-genotipos-de-batata-solanum-tuberosum-l-a-phytophthora-infestans-montde-bary>. Acesso em: 25 abr. 2022.
» https://www.embrapa.br/busca-depublicacoes/-/publicacao/1060339/resistencia-de-genotipos-de-batata-solanum-tuberosum-l-a-phytophthora-infestans-montde-bary

[29] WOLTER, D. D. Avaliação de genótipos de batata (Solanum tuberosum L.) quanto à resistência a Phytophthora infestans (Mont.) de Bary 2018. 60 f. Dissertação (Mestrado em Ciências: Área de concentração em Fitomelhoramento) - Universidade Federal de Pelotas, Pelotas, 2018.

Genotype	Origin	Genealogy
Agata	Netherlands	Böhn 52/72 X Sirco
Asterix	Netherlands	Cardinal X SVPVe 709
Catucha	Brazil-Epagri	2CRI1149-1-78 X C999-263-70
BRS Clara	Brail-Embrapa	White Lady x Catucha
Cristal	Brazil-Embrapa	CRI420-12-60 X CRI368-8-60
CIP392.617-54	Peru- CIP	387002.11 X 387170.9
F05-11-03	Brazil-Embrapa	White Lady X C1740-11-95
F21-07-09	Brazil-Embrapa	White Lady X C1750-15-95
F50-08-01	Brazil-Embrapa	Rioja X C1316-8-82
F63-10-07	Brazil-Embrapa	Rioja X C1786-9-96
BRS F183 - Potira	Brazil-Embrapa	BRS Ana X C2372-02-02
Markies	Netherlands	Fianna X Agria
Odone 80-02	Brazil-Embrapa	Rioja X C1786-9-96
BRS Pérola	Brazil-Embrapa	2CRI1149-1-78 X Granola
BRS F63 - Camila	Brazil-Embrapa	C1750-15-95 X C1883-22-97

Genotypes		2018			2019
Genotypes	AACPD	Reaction	Severity	AACPD	Reaction	Severity
F21-07-09	488.84a^{^* * Means followed by equal letters, in the column, belong to the same group by the Scott & Knott test (P <0.05); and, on the line, by the t-test}	S	100.00a^{1^ (P <0,05); CV: coefficient of variation; 1- original values transformed into arcsine √(x/100); R= resistant, MR= moderately resistant, MS= moderately susceptible, S= susceptible.}	359.78a	S	66.00b
BRS Clara	439.17a^{^ (P <0,05); CV: coefficient of variation; 1- original values transformed into arcsine √(x/100); R= resistant, MR= moderately resistant, MS= moderately susceptible, S= susceptible.}	S	97.67a^{^ (P <0,05); CV: coefficient of variation; 1- original values transformed into arcsine √(x/100); R= resistant, MR= moderately resistant, MS= moderately susceptible, S= susceptible.}	173.36c	MR	42.00b
Asterix	406.84a	S	92.67a	367.25a	S	73.00b
BRS F63 - Camila	406.5a^{^ (P <0,05); CV: coefficient of variation; 1- original values transformed into arcsine √(x/100); R= resistant, MR= moderately resistant, MS= moderately susceptible, S= susceptible.}	S	96.00a	201.08b	MS	70.34b
F63-10-07	403.84a^{^ (P <0,05); CV: coefficient of variation; 1- original values transformed into arcsine √(x/100); R= resistant, MR= moderately resistant, MS= moderately susceptible, S= susceptible.}	S	96.34a^{^ (P <0,05); CV: coefficient of variation; 1- original values transformed into arcsine √(x/100); R= resistant, MR= moderately resistant, MS= moderately susceptible, S= susceptible.}	220.17b	MS	55.00b
F05-11-03	388.17a^{^ (P <0,05); CV: coefficient of variation; 1- original values transformed into arcsine √(x/100); R= resistant, MR= moderately resistant, MS= moderately susceptible, S= susceptible.}	S	92.67a	267.94b	MS	69.34b
BRS F183 -Potira	378.17a	S	92.67a	382.67a	S	95.67b
Odone 80-02	375.67a	S	90.00a	222.00a	MS	69.00b
Markies	366.67a^{^ (P <0,05); CV: coefficient of variation; 1- original values transformed into arcsine √(x/100); R= resistant, MR= moderately resistant, MS= moderately susceptible, S= susceptible.}	S	97.00a^{^ (P <0,05); CV: coefficient of variation; 1- original values transformed into arcsine √(x/100); R= resistant, MR= moderately resistant, MS= moderately susceptible, S= susceptible.}	173.75c	MR	46.67b
Agata	357.55a	S	87.71a	355.94a	S	100.00a
Cristal	313.34b^{^ (P <0,05); CV: coefficient of variation; 1- original values transformed into arcsine √(x/100); R= resistant, MR= moderately resistant, MS= moderately susceptible, S= susceptible.}	MS	78.33b^{^ (P <0,05); CV: coefficient of variation; 1- original values transformed into arcsine √(x/100); R= resistant, MR= moderately resistant, MS= moderately susceptible, S= susceptible.}	26.00d	R	5.67c
F50-08-01	292.84b^{^ (P <0,05); CV: coefficient of variation; 1- original values transformed into arcsine √(x/100); R= resistant, MR= moderately resistant, MS= moderately susceptible, S= susceptible.}	MS	62.67b^{^ (P <0,05); CV: coefficient of variation; 1- original values transformed into arcsine √(x/100); R= resistant, MR= moderately resistant, MS= moderately susceptible, S= susceptible.}	15.92d	R	6.43c
BRS Pérola	282.00b^{^ (P <0,05); CV: coefficient of variation; 1- original values transformed into arcsine √(x/100); R= resistant, MR= moderately resistant, MS= moderately susceptible, S= susceptible.}	MS	74.00b^{^ (P <0,05); CV: coefficient of variation; 1- original values transformed into arcsine √(x/100); R= resistant, MR= moderately resistant, MS= moderately susceptible, S= susceptible.}	173.57c	MR	41.34b
Catucha Epagri	177.84c^{^ (P <0,05); CV: coefficient of variation; 1- original values transformed into arcsine √(x/100); R= resistant, MR= moderately resistant, MS= moderately susceptible, S= susceptible.}	MR	48.00c^{^ (P <0,05); CV: coefficient of variation; 1- original values transformed into arcsine √(x/100); R= resistant, MR= moderately resistant, MS= moderately susceptible, S= susceptible.}	17.17d	R	3.67c
CIP392.617-54	9.17d	R	5.33d	0.00d	R	0.00c
CV (%)	16.58		12.14	31.55		29.35

Brasil