Navegando por Autor "Almeida, Irene Maria Gatti de"
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Item Bacterial halo blight of coffee crop: aggressiveness and genetic diversity of strains(Instituto Agronômico (IAC), 2018-01) Maciel, Karen Wolf; Destefano, Suzete Aparecida Lanza; Beriam, Luis Otavio Saggion; Almeida, Irene Maria Gatti de; Patricio, Flavia Rodrigues Alves; Rodrigues, Lucas Mateus Rivero; Guerreiro Filho, OliveiroBacterial halo blight, caused by Pseudomonas syringae pv. garcae, is an important disease of coffee crop occurring in Brazil and other countries. In recent years, outbreaks of this disease have damaged several coffee crops in Brazil. Aggressiveness and genetic diversity of 25 strains of P. s. pv. garcae, obtained between the years 1958 and 2011, in 23 cities of São Paulo and Minas Gerais states, as well as three strains from Kenya were evaluated in this study. The strains were inoculated on coffee seedlings cultivar Mundo Novo, and their genetic diversity was evaluated by ERIC-PCR, REP-PCR, and their combination. All the strains were pathogenic to the coffee seedlings; the results of pathogenicity tests, in both experiments, could be divided in four aggressiviness classes (highly aggressive; aggressive; moderately aggressive and less aggressive). The Kenyan strains grouped separately from the Brazilian strains with ERIC-PCR and the combination of ERIC- and REP-PCR. The Brazilian strains could be grouped in two sub-clusters, the first including the older strains, obtained from 1958 to 1978, and the other comprising the remaining strains. With a few exceptions, strains isolated from 1997 to 2011, grouped mainly by their region of origin, were predominantly isolated from higher altitude regions, above 800 m. This probably occurred because the climatic conditions that prevail in these regions, characterized by milder temperatures and regular rainfall, are favorable for the coffee crop and for the production of high quality coffee beverage, but can be also favorable to bacterial halo blight.Item Diferenciação de bactérias do gênero Pseudomonas patogênicas ao cafeeiro por técnicas serológicas(Instituto Biológico, 2017) Beriam, Luis Otavio Saggion; Patrício, Flavia Rodrigues Alves; Maciel, Karen Wolf; Rodrigues, Lucas Mateus Rivero; Almeida, Irene Maria Gatti deHá várias bactérias que causam problemas para o cafeeiro, incluindo Pseudomonas cichorii, P. syringae pv. garcae, P. syringae pv. tabaci, Burkholderia andropogonis e Xylella fastidiosa, todas elas já descritas no Brasil. Tentativas de diferenciar essas bactérias por testes serológicos de dupla difusão em ágar (dda), com antissoros produzidos contra células íntegras de P. s. pv. garcae, mostraram reações cruzadas, principalmente entre P. s. pv. garcae e P. s. pv. tabaci. Dessa forma, foram produzidos antissoros contra P. s. pv. garcae (linhagem patotipo IBSBF-248 — Coleção de Culturas de Fitobactérias do Instituto Biológico — IBSBF), obtidos por meio de imunizações de coelhos com antígenos de proteínas do complexo proteico da membrana (CPM). Esses antissoros foram testados por dupla difu são em agarose (dda) contra diversas formas de antígenos extraídos de P. cichorii, P. s. pv. garcae e P. s. pv. tabaci [células autoclavadas, células tratadas com formol, exopolissacarídeos (EPS), glicoproteí nas (GP) da cápsula bacteriana, proteínas de membrana e suspen são bacteriana (SB) em NaCl 0,85%]. Os resultados mostraram que, dependendo do antígeno e do meio suporte da dupla difusão (com ou sem MgCl2 e/ou azul de tripano), os antissoros reagem somente com P. s. pv. garcae. Desse modo, esses antígenos podem ser usados para a rápida diagnose da mancha aureolada do cafeeiro nos testes de dda.Item First report of mixed infection by Pseudomonas syringae pathovars garcae and tabaci on coffee plantations(Instituto Agronômico (IAC), 2017-10) Rodrigues, Lucas Mateus Rivero; Sera, Gustavo Hiroshi; Guerreiro Filho, Oliveiro; Beriam, Luis Otavio Saggion; Almeida, Irene Maria Gatti deThe bacterial-halo-blight (Pseudomonas syringae pv. garcae) is disseminated by the main coffee areas in the producing states of Brazil. On the other hand, the disease bacterial-leaf-spot (Pseudomonas syringae pv. tabaci) was reported only once in coffee seedlings in a sample collected in the State of São Paulo. In mid-2015, samples of coffee leaves with symptoms of foliar lesions surrounded by yellow halo, were collected in coffee plantations in the State of Paraná and fluorescent bacteria producing or not brown pigment in culture medium were isolated and determined as belonging to the Group I of P. syringae. Through biochemical, serological and pathogenicity tests, the pathogens were identified as P. syringae pv. garcae and P. syringae pv. tabaci, with prevalence of isolates belonging to pathovar tabaci and, as well as in certain samples, it was identified simultaneous infection by both etiological agents. Then, this is the first report of associated occurrence of garcae and tabaci pathovars of P. syringae and of the incidence of “bacterial-leaf-spot” under field conditions and in the State of Paraná.Item MANAGEMENT OF BACTERIAL HALO BLIGHT AND OTHER COFFEE CROP DISEASES(Sociedade Brasileira de Fitopatologia (SBF), 2021) Patricio, Flávia Rodrigues Alves; Beriam, Luis Otávio Saggion; Santos, José Maria Fernandes dos; Moraes, Arivaldo de; Rossi, Agnaldo; Reis, Joao Carlos Seixas; Almeida, Irene Maria Gatti deBacterial halo blight (BHB), caused by Pseudomonas syringae pv. garcae, has reemerged as an important disease in Brazil, especially in coffee cultivated at high altitude in the states of Minas Gerais and São Paulo. In this study we evaluated copper-based antimicrobial compounds (CBACs), the antibiotic kasugamycin and the resistant inducers acibenzolar-S-methyl (ASM) and phosphite for BHB management in four experiments carried out in coffee crops in the municipalities of Caconde and Altinópolis, São Paulo State, Brazil. Fungicides to control brown leaf spot (BLS), a disease caused by Boeremia exigua pv. coffea, were also included in two experiments, because both diseases frequently occur simultaneously. Copper oxychloride, copper hydroxide, antibiotic, and ASM mixture with copper hydroxide, and phosphite reduced BHB incidence and had no phytotoxic effects on flowers or pin-head berries. Mixtures of boscalid or pyraclostrobin with copper hydroxide were compatible and effective for the simultaneous control of BHB and BLS. In this study, we showed that August-September is the most important period to control BHB in Brazil and lasts until December, when disease incidence increases, and flowers and pin-head berries are being formed. The chemical management of BHB in this period can improve the coffee crop yield.Item Multiple resistance to bacterial halo blight and bacterial leaf spot in Coffea spp.(Instituto Biológico, 2019) Rodrigues, Lucas Mateus Rivero; Destéfano, Suzete Aparecida Lanza; Almeida, Irene Maria Gatti de; Beriam, Luís Otávio Saggion; Braghini, Masako Toma; Guerreiro Filho, OliveiroBreeding for genetic resistance is an important method of crop disease management, due to the numerous benefits and low cost of establishment. In this study, progenies of 11 Coffea species and 16 wild C. arabica accessions were tested for their response to Pseudomonas syringae pv. garcae, the causal agent of bacterial halo blight, a widespread disease in the main coffee-producing regions of Brazil and considered a limiting factor for cultivation in pathogen-favorable areas; and also to P. syringae pv. tabaci, causal agent of bacterial leaf spot, a highly aggressive disease recently detected in Brazil. Separate experiments for each disease were carried out in a greenhouse, with artificial pathogen inoculations and ideal moisture conditions for disease development. The results showed that C. canephora, C. congensis, C. eugenioides, C. stenophylla, and C. salvatrix progenies, the wild C. arabica accessions Dilla & Alghe and Palido Viridis, and cultivar IPR 102 contain satisfactory levels of simultaneous resistance against bacterial halo blight and bacterial leaf spot. These results are useful in breeding programs for durable resistance to multiple biotic agents, providing new combinations of resistance alleles by hybridization, as well as for phytopathological studies, to identify infraspecific variability of the pathogens.