ABSTRACT
Despite fungal diseases affecting the aerial parts of cassava (Manihot esculenta Crantz) and causing significant yield losses, there is a lack of comprehensive studies assessing resistance in the species' germplasm. This study aimed to evaluate the phenotypic diversity for resistance to anthracnose disease (CAD), blight leaf spot (BliLS), brown leaf spot (BLS), and white leaf spot (WLS) in cassava germplasm and to identify genotypes suitable for breeding purposes. A total of 837 genotypes were evaluated under field conditions across two production cycles (2021 and 2022). Artificial inoculations were carried out in the field, and data on yield and disease severity were collected using a standardized rating scale. The top 25 cassava genotypes were selected based on a selection index for disease resistance and agronomic traits. High environmental variability resulted in low heritabilities (h2) for CAD, WLS, and BLS (h2 = 0.42, 0.34, 0.29, respectively) and moderate heritability for BliLS (h2 = 0.51). While the range of data for disease resistance was narrow, it was considerably wider for yield traits. Cluster analysis revealed that increased yield traits and disease severity were associated with higher scores of the first and second discriminant functions, respectively. Thus, most clusters comprised genotypes with hybrid characteristics for both traits. Overall, there was a strong correlation among aerial diseases, particularly between BLS and BliLS (r = 0.96), while the correlation between CAD and other diseases ranged from r = 0.53 to 0.58. Yield traits showed no significant correlations with disease resistance. Although the mean selection differential for disease resistance was modest (between -2.31% and -3.61%), selection based on yield traits showed promising results, particularly for fresh root yield (82%), dry root yield (39%), shoot yield (49%), and plant vigor (26%). This study contributes to enhancing genetic gains for resistance to major aerial part diseases and improving yield traits in cassava breeding programs.
ABSTRACT
Detached plant organs are alternative materials to in vitro tests for selecting biocontrol agents. On the other hand, the use of scales to quantify injured areas can generate inconsistent results. Rhizospheric and endophytic bacteria were selected as growth inhibitors of Fusarium oxysporum f. sp. cubense (Foc), the causal agent of Panama disease of banana. For this, rhizome discs were treated with 200 µL of antagonist suspension (109 CFU mL−¹) and inoculated with the pathogen. The material was placed in plastic gerbox boxes and incubated in BOD at 25 °C for 12 days. Afterward, the area of rhizome discs (mm²) colonized by Foc was quantified by digital images. The assay was set up in a completely randomized design, with four replications and three discs per replication. The control consisted of untreated and inoculated discs. The results showed the efficiency of this method in selecting the biological control agent, as the 26 isolates were group into five different clusters, with isolates belonging to four of these groups (from '1' to '4') being able to reduce Foc colonization. Isolates 520EB, 993EB, and 531EB had the highest potential for inhibition, with areas of 343.3, 344.1, 364.8 mm², respectively, promoting inhibition ranging from 53 to 56 % of the colonized area compared to the control (782.6 mm²).(AU)
O emprego de órgãos vegetais destacados é uma alternativa aos testes in vitro para seleção de agentes de biocontrole. Por outro lado, o uso de escalas para quantificação de área lesionada pode gerar resultados inconsistentes. Bactérias rizosféricas e endofíticas foram selecionadas como inibidoras do crescimento de Fusarium oxysporum f. sp. cubense (Foc), agente causal do mal-do-Panamá da bananeira. Para tanto, discos de rizoma foram tratados com 200 µL de suspensão dos antagonistas (109 UFC mL-¹) e inoculados com patógeno. O material foi disposto em caixas plásticas tipo gerbox e incubado em BOD a 25 ºC, por doze dias. Após, a área dos discos de rizoma (mm²) colonizada por Foc dos discos foi quantificada por meio de imagens digitais. O ensaio foi montado em delineamento inteiramente casualizado, com quatro repetições e três discos por repetição. Discos não tratados e inoculados compuseram o controle. Com base nos resultados obtidos, foi possível verificar a eficiência do método na seleção de agente de controle biológico, uma vez que foi possível o agrupamento dos 26 isolados utilizados em cinco clústeres distintos, sendo que isolados pertencentes a quatro destes grupos (do '1' a '4') foram capazes de proporcionar a redução da colonização por Foc. Os isolados com maior potencial de inibição foram520EB, 993EB e 531EB com 343,3, 344,1, 364,8 mm2, respectivamente, promovendo inibição variando de 53 a 56 % da área colonizada quando comparados com ao controle (782,6 mm²).(AU)
Subject(s)
Musa/microbiology , Fungi/pathogenicity , Pest Control, Biological/methods , In Vitro TechniquesABSTRACT
Detached plant organs are alternative materials to in vitro tests for selecting biocontrol agents. On the other hand, the use of scales to quantify injured areas can generate inconsistent results. Rhizospheric and endophytic bacteria were selected as growth inhibitors of Fusarium oxysporum f. sp. cubense (Foc), the causal agent of Panama disease of banana. For this, rhizome discs were treated with 200 µL of antagonist suspension (109 CFU mL−¹) and inoculated with the pathogen. The material was placed in plastic gerbox boxes and incubated in BOD at 25 °C for 12 days. Afterward, the area of rhizome discs (mm²) colonized by Foc was quantified by digital images. The assay was set up in a completely randomized design, with four replications and three discs per replication. The control consisted of untreated and inoculated discs. The results showed the efficiency of this method in selecting the biological control agent, as the 26 isolates were group into five different clusters, with isolates belonging to four of these groups (from '1' to '4') being able to reduce Foc colonization. Isolates 520EB, 993EB, and 531EB had the highest potential for inhibition, with areas of 343.3, 344.1, 364.8 mm², respectively, promoting inhibition ranging from 53 to 56 % of the colonized area compared to the control (782.6 mm²).
O emprego de órgãos vegetais destacados é uma alternativa aos testes in vitro para seleção de agentes de biocontrole. Por outro lado, o uso de escalas para quantificação de área lesionada pode gerar resultados inconsistentes. Bactérias rizosféricas e endofíticas foram selecionadas como inibidoras do crescimento de Fusarium oxysporum f. sp. cubense (Foc), agente causal do mal-do-Panamá da bananeira. Para tanto, discos de rizoma foram tratados com 200 µL de suspensão dos antagonistas (109 UFC mL-¹) e inoculados com patógeno. O material foi disposto em caixas plásticas tipo gerbox e incubado em BOD a 25 ºC, por doze dias. Após, a área dos discos de rizoma (mm²) colonizada por Foc dos discos foi quantificada por meio de imagens digitais. O ensaio foi montado em delineamento inteiramente casualizado, com quatro repetições e três discos por repetição. Discos não tratados e inoculados compuseram o controle. Com base nos resultados obtidos, foi possível verificar a eficiência do método na seleção de agente de controle biológico, uma vez que foi possível o agrupamento dos 26 isolados utilizados em cinco clústeres distintos, sendo que isolados pertencentes a quatro destes grupos (do '1' a '4') foram capazes de proporcionar a redução da colonização por Foc. Os isolados com maior potencial de inibição foram520EB, 993EB e 531EB com 343,3, 344,1, 364,8 mm2, respectivamente, promovendo inibição variando de 53 a 56 % da área colonizada quando comparados com ao controle (782,6 mm²).
Subject(s)
Pest Control, Biological/methods , Fungi/pathogenicity , Musa/microbiology , In Vitro TechniquesABSTRACT
Although root rot is one of the major diseases affecting Brazilian cassava (Manihot esculenta Crantz.), little is known about the diversity of root rot pathogens. In this study, diseased plants exhibiting root rot symptoms were collected from cassava-producing regions in five Brazilian states: Bahia, Sergipe, Paraíba, Maranhão, Tocantins, and Paraná. Seventy isolates were obtained and assigned to species complexes based on rDNA's ITS (internal transcribed spacer of the ribosomal DNA) region (ITS1, ITS2 and 5.8S). A total of seven species complexes was found belonging to the genus Fusarium (56/74), followed by Lasiodiplodia (8/74), Neoscytalidium (6/74), and Diaporthe/Phomopsis complex (2/74), Phytophthora, and Corallomycetella (1/74 each). These species were distributed differently according to sample locations and states, but overall, the F. solani species complex (FSSC) was the most prevalent. A number of phylogenetic lineages had not been previously reported as being associated with cassava-root rot disease, such as: F. graminearum (FGSC), F. incarnatum-equiseti (FIESC) and F. chlamydosporum (FCSC) complexes, and a phylogenetic lineage most closely related to P. phaseolorum. Results suggest the need to improve knowledge of the species associated with cassava, including multilocus phylogeny for a more specific characterization, and differences in the resistance background associated with these species, as a strategy to incorporate resistance to multiple pathogens in cassava breeding programs.(AU)
Subject(s)
Manihot , Plant Diseases , Plant Roots , Agricultural Pests , Mycoses/diagnosis , Mycoses/parasitology , Data Collection , 24444 , Noxae , Host-Pathogen InteractionsABSTRACT
Although root rot is one of the major diseases affecting Brazilian cassava (Manihot esculenta Crantz.), little is known about the diversity of root rot pathogens. In this study, diseased plants exhibiting root rot symptoms were collected from cassava-producing regions in five Brazilian states: Bahia, Sergipe, Paraíba, Maranhão, Tocantins, and Paraná. Seventy isolates were obtained and assigned to species complexes based on rDNA's ITS (internal transcribed spacer of the ribosomal DNA) region (ITS1, ITS2 and 5.8S). A total of seven species complexes was found belonging to the genus Fusarium (56/74), followed by Lasiodiplodia (8/74), Neoscytalidium (6/74), and Diaporthe/Phomopsis complex (2/74), Phytophthora, and Corallomycetella (1/74 each). These species were distributed differently according to sample locations and states, but overall, the F. solani species complex (FSSC) was the most prevalent. A number of phylogenetic lineages had not been previously reported as being associated with cassava-root rot disease, such as: F. graminearum (FGSC), F. incarnatum-equiseti (FIESC) and F. chlamydosporum (FCSC) complexes, and a phylogenetic lineage most closely related to P. phaseolorum. Results suggest the need to improve knowledge of the species associated with cassava, including multilocus phylogeny for a more specific characterization, and differences in the resistance background associated with these species, as a strategy to incorporate resistance to multiple pathogens in cassava breeding programs.