Your search keyword '"Cercospora zeae-maydis"' showing total 42 results

1. Pathogenicity Variation in Two Genomes of Cercospora Species Causing Gray Leaf Spot in Maize

Author

Zixiang Cheng, Xiangling Lv, Canxing Duan, Hanyong Zhu, Jianjun Wang, Zhennan Xu, Huifei Yin, Xiaohang Zhou, Mingshun Li, Zhuafang Hao, Fenghai Li, Xinhai Li, and Jianfeng Weng

Subjects

Cercospora zeae-maydis, Cercospora zeina, gray leaf spot, Nanopore sequencing, pathogenicity, Microbiology, QR1-502, Botany, QK1-989

Abstract

The gray leaf spots caused by Cercospora spp. severely affect the yield and quality of maize. However, the evolutionary relation and pathogenicity variation between species of the Cercospora genus is largely unknown. In this study, we constructed high-quality reference genomes by nanopore sequencing two Cercospora species, namely, C. zeae-maydis and C. zeina, with differing pathogenicity, collected from northeast (Liaoning [LN]) and southeast (Yunnan [YN]) China, respectively. The genome size of C. zeae-maydis-LN is 45.08 Mb, containing 10,839 annotated genes, whereas that of Cercospora zeina-YN is 42.18 Mb, containing 10,867 annotated genes, of which approximately 86.58% are common in the two species. The difference in their genome size is largely attributed to increased long terminal repeat retrotransposons of 3.8 Mb in total length in C. zeae-maydis-LN. There are 41 and 30 carbohydrate-binding gene subfamilies identified in C. zeae-maydis-LN and C. zeina-YN, respectively. A higher number of carbohydrate-binding families found in C. zeae-maydis-LN, and its unique CBM4, CBM37, and CBM66, in particular, may contribute to variation in pathogenicity between the two species, as the carbohydrate-binding genes are known to encode cell wall–degrading enzymes. Moreover, there are 114 and 107 effectors predicted, with 47 and 46 having unique potential pathogenicity in C. zeae-maydis-LN and C. zeina-YN, respectively. Of eight effectors randomly selected for pathogenic testing, five were found to inhibit cell apoptosis induced by Bcl-2-associated X. Taken together, our results provide genomic insights into variation in pathogenicity between C. zeae-maydis and C. zeina. [Graphic: see text] Copyright © 2023 The Author(s). This is an open access article distributed under the CC BY-NC-ND 4.0 International license.

Published

2023

2. Severity of leaf diseases in maize inbred lines with different kernel hardness in two sowing seasons

Author

Cecília Aparecida Spada, Marcos Ventura Faria, Marcelo Cruz Mendes, Welton Luiz Zaluski, Emanuel Gava, Carlos Augusto da Silva, Diego Fernando de Marck, and Cacilda Márcia Duarte Rios Faria

Subjects

Cercospora zeae-maydis, Exserohilumturcicum, Pantoea ananatis, Phaeosphaeria maydis, Zea mays., Agriculture (General), S1-972

Abstract

Resistance of maize inbred lines to major leaf diseases should be characterized for the development of new hybrids in breeding programs. Thus, this study aimed to assess the severity of leaf diseases in maize inbredlines with different kernel hardnessand two sowingseasons. We assessed four inbred lines and one check hybrid with dent kernels and four inbred lines and a check hybrid with flint kernels. Treatments were conducted in two sowing seasons, one in October, and another in December 2013. The symptoms of gray leaf spot (Cercospora zeae-maydis), northern leaf blight (Exserohilum turcicum), and white leaf spot (a complex of Phaeosphaeria maydis and Pantoea ananatis) were assessed every 10 days from flowering. The area under the disease progress curve was also calculated. Severity level of the diseases was higher in inbred lines when compared to the check hybrds (AG8041 PRO and P30R50YH), regardless of kernel hardness. Dent-kernel inbred lines showed a higher severity of northern leaf blight symptoms when compared to flint-kernelones. It is worth mentioning that disease severity increased as sowing was delayed.

Published

2018

3. FUNGICIDES IN SECOND HARVEST CORN: CERCOSPORIOSE CONTROL AND BLOTCH, PRODUCTIVITY, ECONOMIC RETURN AND GRAIN QUALITY

Author

P. Rezende, C. R. Silva, S. Ruffato, and S. M. Bonaldo

Subjects

Chemical control, severity, Exserohilumturcicum, Cercospora zeae-maydis, economic viability, General Works

Abstract

Os objetivos desse trabalho foram avaliar a eficiência de The aim of this study was evaluate efficacy fungicides to control cercospora leaf spot (Cercospora zeae-maydis) and helminthosporium leaf blight (Exserohilumturcicum), productivity, economic returns and quality of grain of corn culture of second crop in Farm Bandeirantes at Feliz Natal/MT. The treatments evaluated were: pyraclostrobina+epoxiconazol (0,7 L ha-1), trifloxistrobina+protioconazol (0,3L ha-1), azoxistrobina+cyproconazol(0,3 L ha-1), azoxystrobina (0,25 L ha-1), trifloxistrobina+ciproconazol (0,2 L ha-1) and control. Theapplicationof products occurred when corn was with 55 days, with a high propelled sprayer. The experimental design was a randomized block, with 6 treatments and 3 replications. The severity of each disease was visually determined through periodic analyses and ten plants were marked in each repetition, which were evaluated during the entire crop cycle. The data of severity obtained were used to calculate the area under disease progress curve (AUDPC). It was also obtained the production per ha, the economic return (R$ ha-1) and physiological quality of grain was evaluated by germination tests and accelerated aging of the grains. All treatments had significant difference compared to the control sample in controlling cercospora leaf spot about the control of helminthosporiumleat blight, the fungicides trifloxystrobin+prothioconazol and trifloxystrobin+cyproconazol were not efficient, and the fungicides pyraclostrobina+epoxiconazol, azoxystrobina, azoxistrobina+cyproconazol were efficient. The treatments that had major production are from the group of triazoles+strobilurine and the fungicide pyraclostrobin+epoxyconazol showed greater economic viability. Not were differences among fungicides, and neither of the treatments compared to control, in germination and accelerated aging tests, showing that the grains have good quality characteristics

Published

2017

4. Severidade de doenças foliares em linhagens de milho com diferentes texturas de grãos em duas épocas de semeadura

Author

Cecília Aparecida Spada, Marcos Ventura Faria, Marcelo Cruz Mendes, Welton Luiz Zaluski, Emanuel Gava, Carlos Augusto da Silva, Diego Fernando de Marck, and Cacilda Márcia Duarte Rios Faria

Subjects

Cercospora zeae-maydis, Exserohilumturcicum, Pantoea ananatis, Phaeosphaeria maydis, Zea mays., Agriculture (General), S1-972

Abstract

A caracterização de linhagens de milho quanto à resistência às principais doenças é fundamental para o desenvolvimento de novos híbridos em programas de melhoramento. Assim, o objetivo deste trabalho foi avaliar a severidade de doenças foliares em linhagens de milho com diferentes texturas de grãos em duas épocas de semeadura. Foram avaliadas quatro linhagens e um híbrido testemunha com grãos dentados e quatro linhagens e um híbrido testemunha com grãos duros. Os tratamentos foram conduzidos em duas épocas de semeadura, em outubro e em dezembro de 2013. A partir do florescimento, a cada 10 dias, foram avaliadas as doenças foliares cercosporiose (Cercospora zeae-maydis), helmintosporiose (Exserohilum turcicum) e mancha branca (complexo Phaeosphaeria maydis/Pantoea ananatis). Foi calculada a área abaixo da curva do progresso das doenças (AACPD). A severidade das doenças foi maior nas linhagens, comparativamente aos híbridos testemunhas AG8041 PRO e P30R50YH, independentemente da textura dos grãos. As linhagens de textura dentada apresentaram maior severidade de sintomas da helmintosporiose, quando comparada às linhagens de grãos duros. Houve aumento da severidade das doenças avaliadas com o atraso da semeadura.

Published

2018

5. Diallel analyze of yield and progress of the severity of leaf diseases in maize hybrids in two population density

Author

Marcos Ventura Faria, Marcelo Cruz Mendes, Evandrei Santos Rossi, Omar Possatto Junior, Diego Ary Rizzardi, Eliza Gralak, Carlos Augusto Silva, and Cacilda Márcia Duarte Rios Faria

Subjects

Combining ability, Cercospora zeae-maydis, Puccinia sorghi, Zea mays, Agriculture (General), S1-972

Abstract

Seven commercial maize hybrids (AS1575, 2B688, Penta, GNZ2004, AG8021, Sprint e P30F53) were intercrossed in a complete diallel, excluded reciprocal, obtaining 21 crosses. The 28 treatments were evaluated in two environments characterized by different densities (62,500 and 90,000 plants ha-1), with the aim of selecting the most promising parents for generating base population to obtain lines. Two experiments were carried out in Guarapuava-PR, at randomized block design with three replications. We estimated the general (GCA) and specific (SCA) combining abilities for yield and disease severity assessed by the area under the common rust (Puccinia sorghi) progress curve (AURPC) and the area under the leaf spot (Cercospora zeae-maydis) progress curve (AULPC). The effects of GCA and SCA were significant for grain yield and diseases severity in both densities, revealing the importance of both additive and non-additive effects. There GCA x densities interaction was significant only for grain yield. Crossings P30F53 x AG8021 and P30F53 x Penta had negative estimates of SCA for AURPC and AULPC on the environments average. Hybrids GNZ 2004 and P30F53 stood out showing positive GCA for grain yield and negative for AURPC and AULPC in both densities and therefore are recommended for generating base populations for obtaining lines adapted for both densities, conventional and denser plantings, given the current trends in management of maize.

Published

2015

6. Genetic characterization and linkage disequilibrium mapping of resistance to gray leaf spot in maize (Zea mays L.)

Author

Liyu Shi, Xiangling Lv, Jianfeng Weng, Hanyong Zhu, Changlin Liu, Zhuanfang Hao, Yu Zhou, Degui Zhang, Mingshun Li, Xiaoke Ci, Xinhai Li, and Shihuang Zhang

Subjects

Cercospora zeae-maydis, Maize, SNP, Genome-wide association study, Candidate genes, Agriculture, Agriculture (General), S1-972

Abstract

Gray leaf spot (GLS), caused by Cercospora zeae-maydis, is an important foliar disease of maize (Zea mays L.) worldwide, resistance to which is controlled by multiple quantitative trait loci (QTL). To gain insights into the genetic architecture underlying the resistance to this disease, an association mapping population consisting of 161 inbred lines was evaluated for resistance to GLS in a plant pathology nursery at Shenyang in 2010 and 2011. Subsequently, a genome-wide association study, using 41,101 single-nucleotide polymorphisms (SNPs), identified 51 SNPs significantly (P < 0.001) associated with GLS resistance, which could be converted into 31 QTL. In addition, three candidate genes related to plant defense were identified, including nucleotide-binding-site/leucine-rich repeat, receptor-like kinase genes similar to those involved in basal defense. Two genic SNPs, PZE-103142893 and PZE-109119001, associated with GLS resistance in chromosome bins 3.07 and 9.07, can be used for marker-assisted selection (MAS) of GLS resistance. These results provide an important resource for developing molecular markers closely linked with the target trait, enhancing breeding efficiency.

Published

2014

7. Progresso temporal de doenças da cultura do milho

Author

Renata Moreschi Mesquini, Amanda do Prado Mattos, Bruna Broti Rissato, and Kátia Regina Freitas Schwan-Estrada

Subjects

0106 biological sciences, Exserohilum turcicum, Botany, Plant culture, 04 agricultural and veterinary sciences, Plant Science, Puccinia polysora, Biology, 01 natural sciences, SB1-1110, Horticulture, Pantoea ananatis, QK1-989, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, epidemiology, epidemiologia, Cercospora zeae-maydis, 010606 plant biology & botany

Abstract

RESUMO O objetivo do presente trabalho foi avaliar o progresso temporal das doenças ferrugem polisora (Puccinia polysora), cercospora (Cercospora zeae-maydis), mancha branca (Pantoea ananatis) e helmintosporiose (Exserohilum turcicum) no milho, bem como sua correlação com as variáveis climáticas. O delineamento experimental foi o de blocos completos com tratamentos ao acaso. O modelo monomolecular foi o que melhor se ajustou às epidemias. Com os dados de severidade de cada doença, foram elaboradas correlações com as variáveis climáticas (DFtemp-dias favoráveis com temperatura entre 18-28ºC; DFumid-dias favoráveis com umidade relativa>60%; PrecAcc-precipitação acumulada; PrecDia- precipitação/dia e Prec10-precipitação>10mm) observadas durante o período de avaliação. Após as análises pôde-se inferir que a variável precipitação acumulada foi determinante para a ocorrência de epidemias das doenças estudadas. ABSTRACT The aim of the present study was to evaluate the temporal progress of the diseases southern rust (Puccinia hpspolysorahps), Cercospora leaf spot (Cercospora hpszeaehpsatn-atnmaydis), white spot (Pantoea hpsananatishps) and spot blotch (Exserohilum hpsturcicumhps) in corn, as well as their correlation with climate variables. Experimental design was in complete blocks with random treatments. The monomolecular model best fit to the epidemics. Using the severity data from each disease, correlations were established with the climate variables (DFtemp-favorable days with temperatures between 18-28 ºC; DFumid-favorable days with relative humidity>60%; PrecAcc-cumulative rainfall; PrecDia-precipitation/day, and Prec10- precipitation>10 mm) observed during the evaluation period. After analyses, it was possible to infer that the variable cumulative precipitation was determinant for the occurrence of epidemics of the studied diseases.

Published

2020

8. Assessing Late Vegetative and Tasseling Fungicide Application Timings on Foliar Disease and Yield in Indiana Corn

Author

Kiersten A. Wise, Jeffrey D. Ravellette, and Darcy E. P. Telenko

Subjects

0106 biological sciences, 0301 basic medicine, biology, Plant Science, Horticulture, biology.organism_classification, 01 natural sciences, Zea mays, Fungicide, 03 medical and health sciences, 030104 developmental biology, Agronomy, Cercospora, Yield (wine), Leaf spot, Cercospora zeae-maydis, 010606 plant biology & botany

Abstract

Gray leaf spot (Cercospora zeae-maydis) is a foliar disease of corn (Zea mays) that consistently reduces yields across the United States and is an annual concern in Indiana corn production. Field trials were conducted in West Lafayette, IN, over 3 years (2016 to 2018) to evaluate the effectiveness of 12-leaf collar stage (V12) foliar fungicide applications compared with tasseling (VT) applications for gray leaf spot management and yield. Results indicated that during years in which foliar disease severity was less than 4%, there was no effect of application timing on gray leaf spot severity. In 2018, when gray leaf spot levels exceeded 5%, significantly less disease was observed in treatments receiving VT applications compared with V12 applications. Application timing did not affect yield in any year of the experiment. In 2016, benzovindiflupyr + azoxystrobin + propiconazole resulted in greater yields compared with the nontreated control, and in 2018, pyraclostrobin + metconazole and benzovindiflupyr + azoxystrobin + propiconazole resulted in greater yields compared with the nontreated control. This research indicates that in high disease pressure environments and years, Indiana farmers may want to continue to apply fungicides at VT rather than apply prior to tassel.

Published

2020

9. Effect of crop density of two genotypes of maize in the severity of gray leaf spot and yield in the second season cropInfluência da densidade de cultivo de dois genótipos de milho na severidade da mancha de cercospora e no rendimento de grãos na safrinha

Author

Luis Gustavo Amorim Pessoa, Cláudia Barrios de Libório, Gustavo de Faria Theodoro, and Rafael Rodrigues da Silva

Subjects

Zea mays, Doença, Controle Integrado, Produtividade, Cercospora zeae-maydis, Cercospora zeina, Cercospora sorghi var. maydis., Agriculture (General), S1-972

Abstract

Among the diseases that affect the corn crop and can reduce the yield, there is cercospora gray leaf, caused by Cercospora spp. This disease is very important in the second season crop or ‘safrinha’. The objective of this study was to evaluate the severity of cercospora leaf spot in transgenic corn hybrids Agroceres Yieldgard AG 9010 YG and Advance NK Agrisure TL (Bt11), using two plant densities: 78,000 and 100,000 plants per hectare. The results showed that the higher density of plants increased the severity of the disease and provided a lower yield. There was no significant interaction between hybrids and severity of the disease. Entre as doenças que incidem na cultura do milho e podem reduzir seu rendimento, há a mancha de cercospora, causada por Cercospora spp., especialmente importante em milho de segunda época, ou ‘safrinha’. O objetivo deste trabalho foi avaliar a severidade da cercosporiose em nos híbridos transgênicos de milho Agroceres Yieldgard AG 9010 YG e Advance NK Agrisure TL (Bt11), em duas densidades de cultivo: 78.000 e 100.000 plantas por hectare. Os resultados permitiram constatar que a menor densidade de plantas favoreceu o incremento da severidade da doença e proporcionou menor rendimento de grãos. Não houve interação significativa entre os híbridos e a severidade da doença.

Published

2012

10. NOTE - Genetic control of resistance to gray leaf spot of maize in tropical germplasm

Author

André Humberto de Brito, Livia Maria Chamma Davide, Renzo Garcia Von Pinho, Rafael Pelloso de Carvalho, and Matheus Costa dos Reis

Subjects

Cercospora zeae-maydis, genetic resistance, Zea mays., Plant culture, SB1-1110, Biotechnology, TP248.13-248.65

Abstract

The main goal of this study was to assess the nature and magnitude of gene effects for resistance to Cercospora leaf spot. A randomized block design with three replications was used. The data were obtained at the plant level by assessing the disease severity. The data were analyzed per experiment, using the average data per plot. A dominant-additive genetic model without epistasis was considered, with estimation of the components of means and variance. The genetic control of resistance to gray leaf spot is polygenic with predominance of the additive effects. Dominance was observed in a few small-effect loci and high heritability values.

Published

2012

11. EFFECT OF GRAY LEAF SPOT ON SECOND-SEASON MAIZE GRAIN YIELD IN SÃO PAULO STATE

Author

GISÈLE MARIA FANTIN, AILDSON PEREIRA DUARTE, CHRISTINA DUDIENAS, PAULO BOLLER GALLO, EDISON ULISSES RAMOS JÚNIOR, FABIANA ALVES CRUZ, VALDIR JOSUÉ RAMOS, ROGÉRIO SOARES DE FREITAS, SYLMAR DENUCCI, and MARCELO TICELLI

Subjects

Cercospora zeae-maydis, Zea mays L., gray leaf spot, disease, loss, Plant culture, SB1-1110, Agriculture (General), S1-972

Abstract

Gray leaf spot is an important maize disease in São Paulo State. Due to its relevance, the effect of this disease on maize grain yield was studied during the 2004 to 2008 autumn-winter seasons. Experiments were carried out to evaluate corn cultivars, comprising 44 to 60 simple and triple hybrids, being 19 trials in 2004, 15 in 2005, 16 in 2006, 16 in 2007 and 15 in 2008. The evaluations of disease severity were done at the kernel dough stage, ascribing notes 1 to 9 (for 0%; 1%; 2.5%; 5%; 10%; 25%; 50%; 75% and more than 75% affected leaf area, respectively). Significant negative correlation between gray leaf spot severity and grain yield was detected in 16 of the 35 trials where the disease occurred. In order to quantify the effect of gray leaf spot on yield of these 16 trials, attempting to minimize the dispersion caused by differences of yield potential, cultivars tolerance to the disease and other factors, cultivars were grouped into categories of disease intensity based on the Scott-Knott test at 5%, and means for severity and yield were calculated for each category. The adjustment of linear equations to these data allowed to estimate the yield reduction as a function of disease severity, for the intervals studied in each trial, that was on average 238 kg ha-1 (4%) with note 2, 634 kg ha-1 (11%) with note 3, 1006 kg ha-1 (17%) with note 4 and 1574 kg ha-1 with note 5, in relation to the groups with greatest gray leaf spot resistance which showed mean note 1.4 and mean grain yield 5655 kg ha-1. These results indicate that even with low disease severity a significant maize yield loss can be observed, demonstrating the importance of the use of genetic resistance in the control of gray leaf spot and to reduce losses in maize grain yield.

Published

2008

12. Molecular variability in the maize grey leaf spot pathogens in Brazil

Author

Kátia R. Brunelli, Larry D. Dunkle, Cândido A. Sobrinho, Ana C. Fazza, and Luis E. A. Camargo

Subjects

Cercospora zeae-maydis, Cercospora zeina, epidemiology, Genetics, QH426-470

Abstract

Isolates of Cercospora species from leaves displaying symptoms of grey leaf spot were collected in maize-producing areas of south-central Brazil in 2001 and 2002. Restriction digests of the internal transcribed spacer region of rDNA detected the presence of the same two Cercospora species described on maize in the United States, namely C. zeae-maydis and the recently described species, C. zeina . Genetic variability among isolates was assessed by analysing 104 amplified fragment length polymorphism loci. Cluster analysis confirmed the genetic separation of isolates into two species with a mean similarity of 35%. Similarity levels within species were high, averaging 93% and 92% among isolates of C. zeae-maydis and C. zeina , respectively. The mean genetic similarity between C. zeae-maydis and C. zeina and two isolates of C. sorghi f. sp. maydis was 45% and 35%, respectively. Results of this study showed that populations of the grey leaf spot pathogens in Brazil are similar to those in the United States regarding species composition and that C. zeina is also present in Brazil.

Published

2008

13. Participatory evaluation of maize varieties for the management of maize gray leaf spot disease (Cercospora zeae maydis) at Gondar Zuria district, northwest Ethiopia

Author

Yohannes Moges and Yigrem Mengist

Subjects

Agronomy, Field experiment, Incidence (epidemiology), Randomized block design, Leaf spot, Grain yield, Disease progress, Biology, biology.organism_classification, Cercospora zeae-maydis

Abstract

Gray leaf spot is one of the major constraints of maize production in Ethiopia where warm humid environmental condition is prevailing. A field experiment was conducted in Gondar zuria district of western Ethiopia during 2016/17 and 2017/18 cropping season with the aim to evaluate effective maize varieties for the management of maize gray leaf spot disease. The experiment was laid out in Randomized Complete Block Design (RCBD) in three replications. Nine improved varieties, that is, SBRH, Gibie 2, Gibie 3, Argene, Jibat, BH-546, SPRH, Wonji, AMR-852 with one local maize were tested for GLS resistance. The genotype significantly varied and there were significant differences (P

Published

2019

14. Adaptabilidade e estabilidade em milho: rendimento de grãos x severidade de cercosporiose

Author

Márcio José Engelsing, Jefferson Luís Meirelles Coimbra, Naime Martins do Vale, Leire Daiane Barili, Jussara Cristina Stinghen, Altamir Frederico Guidolin, and Juliano Garcia Bertoldo

Subjects

Zea mays L., Interação genótipo x ambiente, Cercospora zeae-maydis, Produtividade., Agriculture, Agriculture (General), S1-972, Veterinary medicine, SF600-1100

Abstract

A adaptabilidade e a estabilidade da produção de grãos de milho e às variações ambientais são características importantes no processo de recomendação de genótipos para a semeadura em determinado ambiente. Três ensaios em diferentes locais (Água Doce, SC, Iraí de Minas, MG e Chapadão do Céu, GO) foram instalados objetivando estimar os parâmetros adaptabilidade e estabilidade fenotípica em genótipos de milho. Para tanto, foram estimados os parâmetros supracitados para os caracteres rendimento de grãos e severidade de cercosporiose a partir de 20 híbridos de milho obtidos pelo cruzamento de cinco genitores (S7) denominados A, B, C, D e E da empresa Agroeste Sementes S.A. O delineamento experimental utilizado em todos os ensaios foi o de blocos completamente ao acaso, com três repetições por tratamento. Para a característica rendimento de grãos foi realizada a colheita das espigas da área útil de cada parcela. Já para doença foi utilizada a escala diagramática de severidade. A avaliação foi realizada no estádio fenológico R5. Os parâmetros adaptabilidade e estabilidade fenotípica foram estimados pelo método de regressão linear proposto por Eberhart e Russel (1966). Os resultados revelaram diferenças significativas entre os fatores de tratamento (ambientes, híbridos e interação de híbridos e ambientes). A maioria dos híbridos testados revelou adaptabilidade ampla e alta estabilidade fenotípica para os caracteres rendimento de grãos e severidade de cercosporiose. A utilização dos genótipos 5, 6 e 10 (BxA, BxC e CxB, respectivamente) dentro do programa de melhoramento da empresa deve ser continuada, em função da necessidade de novos ensaios em ambientes com índices favoráveis.

Published

2014

15. Pathogenicity Variation in Two Genomes of Cercospora Species Causing Gray Leaf Spot in Maize.

Author

Cheng Z, Lv X, Duan C, Zhu H, Wang J, Xu Z, Yin H, Zhou X, Li M, Hao Z, Li F, Li X, and Weng J

Subjects

Zea mays genetics, Virulence, China, Carbohydrates, Cercospora, Ascomycota genetics

Abstract

The gray leaf spots caused by Cercospora spp. severely affect the yield and quality of maize. However, the evolutionary relation and pathogenicity variation between species of the Cercospora genus is largely unknown. In this study, we constructed high-quality reference genomes by nanopore sequencing two Cercospora species, namely, C. zeae-maydis and C. zeina , with differing pathogenicity, collected from northeast (Liaoning [LN]) and southeast (Yunnan [YN]) China, respectively. The genome size of C. zeae-maydis -LN is 45.08 Mb, containing 10,839 annotated genes, whereas that of Cercospora zeina -YN is 42.18 Mb, containing 10,867 annotated genes, of which approximately 86.58% are common in the two species. The difference in their genome size is largely attributed to increased long terminal repeat retrotransposons of 3.8 Mb in total length in C. zeae-maydis -LN. There are 41 and 30 carbohydrate-binding gene subfamilies identified in C. zeae-maydis -LN and C. zeina -YN, respectively. A higher number of carbohydrate-binding families found in C. zeae-maydis -LN, and its unique CBM4, CBM37, and CBM66, in particular, may contribute to variation in pathogenicity between the two species, as the carbohydrate-binding genes are known to encode cell wall-degrading enzymes. Moreover, there are 114 and 107 effectors predicted, with 47 and 46 having unique potential pathogenicity in C. zeae-maydis -LN and C. zeina -YN, respectively. Of eight effectors randomly selected for pathogenic testing, five were found to inhibit cell apoptosis induced by Bcl-2-associated X. Taken together, our results provide genomic insights into variation in pathogenicity between C. zeae-maydis and C. zeina . [Formula: see text] Copyright © 2023 The Author(s). This is an open access article distributed under the CC BY-NC-ND 4.0 International license.

Published

2023

16. DYNAMICS OF Cercospora zeina POPULATIONS IN MAIZE-BASED AGRO-ECOLOGIES OF UGANDA.

Author

OKORI, P., RUBAIHAYO, P. R., ADIPALA, E., FAHIESON, J., and DIXELIUS, C.

Subjects

*CERCOSPORA, *PATHOGENIC microorganisms, *PLANT diseases, *CORN diseases

Abstract

Stability of pathogen populations characterised by slow temporal variation is important for durability of disease management systems in any agroecology. Temporal variation in population structure is attributed to factors related to ecology, biology and life history, and varies among organisms and ecosystems. The objective of this study was to investigate genetic variability of Cercospora zeina (previously called Cercospora zeae-maydis Type II) populations in maize (Zea mays) producing areas under Uganda conditions. Populations of the fungus were analysed for genetic variability using a fluorescent amplified fragment length polymorphism (AFLP) technique. Little or no genetic differentiation (ϕFST 0.05) was detected for populations sampled within the same year, within an agroecology. However, a weak to moderate population structure was detected between populations from different locations, within the same (ϕFST = 0.08) or different agroecologies (ϕFST = 0.09). Pair-wise comparisons using ϕFST gene diversity and genetic distance, showed a reduction in genetic diversity in younger populations, suggestive of minor effects of selection and genetic drift. Overall, the data suggest that during the 3 years of study the impact of selection and genetic drift on C. zeina populations in the two Ugandan agroecologies is slow, but progressive leading to homogenetity with agroecologies and differences between agroecologies. [ABSTRACT FROM AUTHOR]

Published

2015

17. AVALIAÇÃO DA RESISTÊNCIA À CERCOSPORA EM POPULAÇÕES LOCAIS DE MILHO CULTIVADAS POR AGRICULTORES FAMILIARES

Author

Gabriela Bárbara da Silva Milani, Monalisa Cristina de Cól, Tainá Caroline Kuhn, and Volmir Kist

Subjects

Cercospora zeina, Horticulture, General Medicine, Biology, Cercospora zeae-maydis, Zea mays

Abstract

Objetivou-se nesse trabalho investigar o potencial genético de populações locais de milho quanto a resistência à cercosporiose. Foram conduzidos três ensaios no oeste de Santa Catarina, sendo avaliados 12 tratamentos (10 variedades locais e 2 testemunhas) em delineamento de blocos completos casualizados, com três repetições. Foram efetuadas seis avaliações da severidade da doença. Os dados foram submetidos a análise de variância conjunta. Diferenças significativas (p

Published

2021

18. Selection of maize genotypes resistant to grey leaf spot (Cercospora zeaemaydis)

Author

Basistha Acharya, Homan Regmi, Ram B Khadka, and TR Rijal

Subjects

Veterinary medicine, Cercospora, Genotype, Sowing, Leaf spot, Disease assessment, Biology, Plant disease resistance, biology.organism_classification, Cercospora zeae-maydis

Abstract

Gray leaf spot (GLS), caused by Cercospora zeae-maydis is an important and destructive foliar disease of maize (Zeae mays) mostly in the mid hills of Nepal. Considering its potential threat to maize production, a total of fourty two and thirty different maize genotypes were evaluated in the year 2012 and 2013 respectively with two replications in observation nursery at Kapurkot, Salyan (1480 masl) for resistance to GLS. Disease assessment was made using 1-5 scale at 15 days interval for three times starting from tasseling stage (65 days after sowing). The results showed that no immune and highly resistant genotypes were found in both the year. Response of 27 out of 42 genotypes of maize were identified as moderately resistant (2-2.5 score) and 15 genotypes showed moderately susceptible (3 score) to GLS during 2012. During 2013 out of 30 genotypes of maize 27 were identified as moderately resistant (1.75-2.5 score) and 3 moderately susceptible (2.75-3 score) to GLS. Among the tested genotypes, BGBYPOP, Rampur SO3FO4, Celaya OOHGYA*HGYB, O7SADVI, Manakamana-3, SO1SIYQ and local were found most promising and moderately resistant to GLS disease during 2012 and SYN312-SR and CML-395/CML-444 during 2013.

Published

2018

19. Infection Process in Resistant and Susceptible Maize (Zea mays L.) Genotypes to Cercospora zeae-maydis (Type II).

Author

LYIMO, Herman John F., PRATT, Richard C., and MNYUKU, Reuben S. O. W.

Subjects

*CORN, *CERCOSPORA zeae-maydis, *DISEASE resistance of plants, *DISEASE susceptibility, *CORN inoculation, *GERMINATION, *NATURAL immunity

Abstract

The infection process of Cercospora zeae-maydis type II (syn. Cercospora zeina Meisel and Korsman) in resistant, moderately resistant and susceptible maize genotypes was studied in the greenhouse under artificial inoculation. The percent spore germination, germ tube growth and formation of mature appressorium on leaves at 24, 36, 48, and 72 h after inoculation did not differ between resistant, moderately resistant, and susceptible maize genotypes (P ⩽ 0.05). More germlings were established after penetration on susceptible than resistant and moderately resistant maize genotypes at 72, 96, 120, and 144 h after inoculation. The hyphal wefts in cells of resistant and moderately resistant genotypes were shorter than in susceptible genotypes (P ⩽ 0.05). The slow pathogen growth was associated with a reduced number of conidiophores per stroma, spores per unit area and smaller lesions. The reduced pathogen growth after penetration suggests possible involvement of pathogen growth inhibitory substances in maize resistance to C. zeae-maydis type II. [ABSTRACT FROM AUTHOR]

Published

2013

20. Genetic control of resistance to gray leaf spot of maize in tropical germplasm.

Author

de Brito, André Humberto, Davide, Livia Maria Chamma, Von Pinho, Renzo Garcia, de Carvalho, Rafael Pelloso, and dos Reis, Matheus Costa

Subjects

*LEAF diseases & pests, *GERMPLASM, *DATA analysis, *GENETIC models, *LOCUS (Genetics)

Abstract

The main goal of this study was to assess the nature and magnitude of gene effects for resistance to Cercospora leaf spot. A randomized block design with three replications was used. The data were obtained at the plant level by assessing the disease severity. The data were analyzed per experiment, using the average data per plot. A dominant-additive genetic model without epistasis was considered, with estimation of the components of means and variance. The genetic control of resistance to gray leaf spot is polygenic with predominance of the additive effects. Dominance was observed in a few small-effect loci and high heritability values. [ABSTRACT FROM AUTHOR]

Published

2012

21. Genetic mapping for resistance to gray leaf spot in maize.

Author

Juliatti, Fernando Cesar, Pedrosa, Michelle Gonçalves, Silva, Heyder Diniz, and da Silva, Junia Vianna Correâ

Subjects

*LOCUS (Genetics), *GENE mapping, *GENETIC techniques, *LINKAGE (Genetics), *LEAF spots, *REGRESSION analysis

Abstract

The molecular marker technology has been used on mapping of quantitative trait loci (QTLs) associated with plant resistance. The objectives of this research were to estimate genetic parameters and to map genomic regions involved in the resistance to gray leaf spot in maize. Ninety F3 families from the BS03 (susceptible) and BS04 (resistant) cross were used. Field trials were performed using a 10 × 10 square lattice design with three replications. Data from 62 SSR markers were used for linkage analysis. The locations of the QTLs on the linkage groups were determined by composite interval mapping method and the phenotypic variance explained by each marker was determined by regression analysis. Several QTLs associated to disease resistance were identified in the population BS03 × BS04. Some QTLs showed significant effects over the different environments studied. The existence of significant QTLs in common among different environments indicates these genomic regions as possible new tools for marker-assisted selection in maize breeding programs. [ABSTRACT FROM AUTHOR]

Published

2009

22. Influence of Temperature and Relative Humidity on Sporulation of Cercospora zeae-maydis and Expansion of Gray Leaf Spot Lesions on Maize Leaves

Author

Pierce A. Paul and Gary P. Munkvold

Subjects

biology, fungi, food and beverages, Environment controlled, Plant Science, Fungi imperfecti, biology.organism_classification, Spore, Agronomy, Air temperature, Leaf spot, Poaceae, Relative humidity, Agronomy and Crop Science, Cercospora zeae-maydis

Abstract

Controlled environment studies were conducted to determine the effects of temperature on the expansion of lesions of gray leaf spot, and the effects of temperature and relative humidity on the sporulation of Cercospora zeae-maydis on maize (Zea mays). For the lesion expansion experiment, potted maize plants were spray inoculated at growth stage V6, bagged, and incubated at 25 to 28°C and 100% relative humidity for 36 to 40 h. Symptomatic plants were transferred to growth chambers and exposed to constant temperatures of 25, 30, and 35°C. Lesion area (length by width) was measured at 4-day intervals for 17 days. For sporulation studies, lesions were excised from naturally infected maize leaves, measured, and incubated at constant temperature (20, 25, 30, or 35°C) and relative humidity (70, 80, 90, or 100%) for 72 h. Sporulation was estimated as the number of conidia per square centimeter of diseased leaf tissue. A quadratic function was used to model the relationship between log-transformed conidia per square centimeter at 100% relative humidity and temperature. Temperature had a significant effect on lesion expansion (P ≤ 0.05). At 25 and 30°C, the rate of lesion expansion was significantly higher than at 35°C (P ≤ 0.05). The largest lesions and the highest mean rate of lesion expansion were observed at 30°C; however, the mean lesion expansion rate at this temperature was not significantly different from that at 25°C. The interaction effect of temperature and relative humidity on the log of conidia per square centimeter of diseased tissue was significant (P ≤ 0.05). At 100% relative humidity, the effect of temperature on sporulation was significant (P ≤ 0.05), with maximum spore production occurring at 25 and 30°C. The quadratic model explained between 49 and 80% of the variation in the log of conidia per square centimeter at 100% with variation in temperature. These results suggest that the rapid increase in gray leaf spot severity generally observed during mid- and late summer may be due to favorable conditions for lesion expansion during this period. When relative humidity is >95%, expanding lesions may serve as a source of inoculum for secondary infections.

Published

2019

23. Evaluation of Maize Genotypes for Resistance against Gray Leaf Spot In Hills of Nepal

Author

Bashistha Acharya, Narayan Bahadur Dhami, Pratik Hamal, Jiban Shrestha, Ajay Karki, Tirtha Raj Rijal, and Ambika Aryal

Subjects

Summer season, Veterinary medicine, biology, Genotype, Botany, Grain yield, Leaf spot, biology.organism_classification, High yielding, Cercospora zeae-maydis

Abstract

Maize crop is affected by several diseases, but Gray leaf spot (GLS), is the major disease that threat maize production in every year in mid-hills and high-hills of Nepal. To identify the source of resistant on gray leaf spot disease maize genotypes were screened/evaluated under hot spots during 2013 and 2014 summer seasons across the hill environment of Nepal. In the screening nursery both exotic(CIMMYT China) and NMRP developed genotypes were included and screened at Pakhribas, Dhungkharka, Supping and Salyan during 2013 & 2014 summer seasons under replicated conditions. The genotypes identified resistant and high yielding at Dhungkharka in 2013 were YML58/(CML226/CATETO//CML226/CATETO)F2-B-1-2-B,YML32/(P147-F2-108-S7/P45-C8-76-S5)-F2-B-30-1-3, YML32/Cel FSRYS9956-B-3-2-4-B and YML58/(G34/36/G33TSR)-F2-B-4-1-B. In case of Salyan none of the genotypes showed resistant reaction against GLS but eight genotypes namely; YML23/P502-C2-58-1-1-2-5-B, YML23/P502-C2-185-3-4-1-3-B-1-B, YML23/P502-C3-F2-10-8-1-1-B, YML23/GLSI01P502-B-25-2-B, YML23/MBR-C5W-F108-2-3-1-B, YS12Q-189, YS12Q-33 and YS12Q-189 reacted MR reaction. At Pakhribas two genotypes reacted resistant (R) reaction namely; YML23/GLS101HGA-B-4-1-B and YS12Q-189 and other ten genotypes responded MR reaction. None of the tested entries at Suping responded resistant reaction but four genotypes ZM-401, 07SADVI, ZM-627 and BGBYPOP responded MR reaction against GLS. During 2014 summer season a total of 20 genotypes both exotic (CIMMYT India) and NMRP developed were screened against GLS across the hill regions of Pakhribas, Dhungkharka and Salyan. From the result of Pakhribas the genotype P501SRCO/P502SRCO was recorded for resistant (1.3) reaction and three genotypes 05SADVI, Entry # 36 and Entry # 27 were responded for MR reaction. In case of Dhungkharka nine genotypes namely; ZM-401, ZM-627, 05SADVI, 07SADVI, TLBRSO7F16, ENTRY#33, ENTRY#24, ENTRY#32 and ENTRY#21 were recorded for MR reaction. The tested genotypes at Salyan revealed that six genotypes namely; 05SADVI, 07SADVI, ACROSS-9942/ACROSS-9944, BGBYPOP, ENTRY # 24 and ENTRY# 32 were reacted resistant reaction and the genotype 07SADVI produced significantly highest grain yield (8638 kg/ha).Int J Appl Sci Biotechnol, Vol 3(3): 504-512

Published

2015

24. Genetic characterization and linkage disequilibrium mapping of resistance to gray leaf spot in maize (Zea mays L.)

Author

Changlin Liu, Hanyong Zhu, Mingshun Li, Xiaoke Ci, Liyu Shi, Yu Zhou, Shihuang Zhang, Degui Zhang, Jianfeng Weng, Xiangling Lv, Zhuan-fang Hao, and Xinhai Li

Subjects

Genome-wide association study, Candidate gene, Population, SNP, Plant Science, Quantitative trait locus, Candidate genes, lcsh:Agriculture, Cercospora, Leaf spot, lcsh:Agriculture (General), education, Association mapping, Genetics, education.field_of_study, biology, Linkage Disequilibrium Mapping, fungi, lcsh:S, food and beverages, biology.organism_classification, lcsh:S1-972, Genetic architecture, Maize, Cercospora zeae-maydis, Agronomy and Crop Science

Abstract

Gray leaf spot (GLS), caused by Cercospora zeae-maydis, is an important foliar disease of maize (Zea mays L.) worldwide, resistance to which is controlled by multiple quantitative trait loci (QTL). To gain insights into the genetic architecture underlying the resistance to this disease, an association mapping population consisting of 161 inbred lines was evaluated for resistance to GLS in a plant pathology nursery at Shenyang in 2010 and 2011. Subsequently, a genome-wide association study, using 41,101 single-nucleotide polymorphisms (SNPs), identified 51 SNPs significantly (P

Published

2014

25. Response of maize genotypes to gray leaf spot disease (Cercospora zeae-maydis) in the hills of Nepal

Author

S Baidya, TP Tiwari, L Narro, Asr Bajracharya, GO Ferrara, BR Khadge, and G Manandhar

Subjects

Open pollination, Psychiatry and Mental health, Horticulture, Neuropsychology and Physiological Psychology, Geography, biology, Genotype, Leaf spot, biology.organism_classification, Cercospora zeae-maydis

Abstract

Gray leaf spot (GLS) is an important and destructive disease of maize in the hills of Nepal. The occurrence of this disease is recorded for the first time in the country in 2006. Several genotypes of maize supposed to be resistant to gray leaf spot in SARMP Zimbabwe and CIAT Colombia were evaluated together with other varieties in observation nursery conducted at farmer’s fields as well as at Khumaltar (NARC research station in the Kathmandu Valley) during 2008 and 2009. Ten out of 28 genotypes of maize were identified as resistant to moderately resistant to GLS. The disease incidence was higher on the open pollinated varieties of maize. The severity of GLS on genotypes of maize observed as 3.0 and 2.2, respectively at Baluwapati and Dhungkharka in Kavrepalanchwok and 2.0 at Khumaltar in Lalitpur during 2008. The severity of GLS was observed as high as 2.4 at Pakhribas in Dhankuta and 1.7 at Khumaltar in 2009. DOI: http://dx.doi.org/10.3126/ajn.v2i0.7524 Agronomy Journal of Nepal (Agron JN) Vol. 2: 2011 pp.93-101

Published

2013

26. Distribution and Importance of Maize Grey Leaf Spot Cercospora zeaemaydis (Tehon and Daniels) in South and Southwest Ethiopia

Author

Gezahegn Berecha, Fikre Lemessa, and Alemu Nega

Subjects

0106 biological sciences, biology, business.industry, Distribution (economics), biology.organism_classification, 01 natural sciences, Zea mays, Cercospora, Agronomy, Yield (wine), Leaf spot, business, Cropping, Cercospora zeae-maydis, 010606 plant biology & botany

Abstract

Maize (Zea mays L.) is one of the most important cereal crops used in the human diet in large parts of the world as well as in Ethiopia and its production are limited by diseases such as grey leaf spot caused by a fungus Cercospora zeae-maydis. Currently grey leaf spot has become the most important threat to maize production in maize belt areas of Ethiopia causing significant yield loss. The objective of this study was therefore, to assess the distribution and importance of maize grey leaf spot in south and southwest Ethiopia. The field assessments were conducted during the year of 2014 cropping seasons by sampling 110 farmer fields in 11 districts selected from two zones of Oromia region and two zones of Southern Nation, Nationalities and People region (SNNPR). The result revealed that the disease occurs in the entire assessed districts having different agro-ecological zones. Maize grey leaf spot was prevalent in all surveyed farms of south and southwest Ethiopia, 74% of maize fields were infected by grey leaf spot. However, the mean incidence and severity of grey leaf spot on maize was significantly varied from district to district. The highest grey leaf spot incidence (71.2%) and severity (46.2%) was recorded in Boricha district, while Damote Gale had the lowest mean incidence (51.8) and severity (33.5%). Among the surveyed four zones in two regions, the highest incidence was found in Sidama (65.6%) and Illubabore (63.1%) followed by Jimma (62.5%) and Wolaita (57.6%). The highest mean severity of maize grey leaf spot was observed in Sidama (44.5%) followed by Illubabore (43.7%) and Jimma (42.63%) while the lowest severity was recorded in Wolaita (36.4%) zone. The disease was more severe in intermediate/humid areas with intermediate annual rainfall. The current study revealed maize grey leaf spot pressure in maize farms of south and southwest Ethiopia and the need to design an efficient, inexpensive and sustainable management approaches against the pests.

Published

2016

27. Effect of crop density of two genotypes of maize in the severity of gray leaf spot and yield in the second season crop Influência da densidade de cultivo de dois genótipos de milho na severidade da mancha de cercospora e no rendimento de grãos na safrinha

Author

Luis Gustavo Amorim Pessoa, Cláudia Barrios de Libório, Gustavo de Faria Theodoro, and Rafael Rodrigues da Silva

Subjects

Controle Integrado, Cercospora zeina, Doença, Cercospora sorghi var. maydis, lcsh:Agriculture (General), Cercospora zeae-maydis, Zea mays, lcsh:S1-972, Produtividade

Abstract

Among the diseases that affect the corn crop and can reduce the yield, there is cercospora gray leaf, caused by Cercospora spp. This disease is very important in the second season crop or ‘safrinha’. The objective of this study was to evaluate the severity of cercospora leaf spot in transgenic corn hybrids Agroceres Yieldgard AG 9010 YG and Advance NK Agrisure TL (Bt11), using two plant densities: 78,000 and 100,000 plants per hectare. The results showed that the higher density of plants increased the severity of the disease and provided a lower yield. There was no significant interaction between hybrids and severity of the disease. Entre as doenças que incidem na cultura do milho e podem reduzir seu rendimento, há a mancha de cercospora, causada por Cercospora spp., especialmente importante em milho de segunda época, ou ‘safrinha’. O objetivo deste trabalho foi avaliar a severidade da cercosporiose em nos híbridos transgênicos de milho Agroceres Yieldgard AG 9010 YG e Advance NK Agrisure TL (Bt11), em duas densidades de cultivo: 78.000 e 100.000 plantas por hectare. Os resultados permitiram constatar que a menor densidade de plantas favoreceu o incremento da severidade da doença e proporcionou menor rendimento de grãos. Não houve interação significativa entre os híbridos e a severidade da doença.

Published

2012

28. Regulation of Pathogenesis by Light in Cercospora zeae-maydis: An Updated Perspective

Author

Larry D. Dunkle, Hun Kim, Burton H. Bluhm, and John B. Ridenour

Subjects

Genetics, Host resistance, Ecology, fungi, food and beverages, Disease, Biology, biology.organism_classification, Pathogenesis, Molecular level, Cercospora, Leaf spot, Agronomy and Crop Science, Cercospora zeae-maydis

Abstract

The fungal genus Cercospora is one of the most ubiquitous groups of plant pathogenic fungi, and gray leaf spot caused by C. zeae-maydis is one of the most widespread and damaging foliar diseases of maize in the world. While light has been implicated as a critical environmental regulator of pathogenesis in C. zeae-maydis, the relationship between light and the development of disease is not fully understood. Recent discoveries have provided new insights into how light influences pathogenesis and morphogenesis in C. zeae-maydis, particularly at the molecular level. This review is focused on integrating old and new information to provide an updated perspective of how light influences pathogenesis, and provides a working model to explain some of the underlying molecular mechanisms. Ultimately, a thorough molecular-level understanding of how light regulates pathogenesis will augment efforts to manage gray leaf spot by improving host resistance and disease management strategies.

Published

2011

29. Severity of leaf diseases in maize inbred lines with different kernel hardness in two sowing seasons

Author

Marcelo Cruz Mendes, Cacilda Márcia Duarte Rios Faria, Emanuel Gava, Cecília Aparecida Spada, Marcos Ventura Faria, Diego Fernando de Marck, Welton Luiz Zaluski, and Carlos Augusto da Silva

Subjects

Exserohilumturcicum, food.ingredient, biology, fungi, food and beverages, Sowing, Plant disease resistance, biology.organism_classification, lcsh:S1-972, Exserohilum, Horticulture, Pantoea ananatis, food, Zea mays, Cercospora, Inbred strain, Leaf spot, Blight, Phaeosphaeria maydis, lcsh:Agriculture (General), Cercospora zeae-maydis, General Agricultural and Biological Sciences, Hybrid

Abstract

Resistance of maize inbred lines to major leaf diseases should be characterized for the development of new hybrids in breeding programs. Thus, this study aimed to assess the severity of leaf diseases in maize inbredlines with different kernel hardnessand two sowingseasons. We assessed four inbred lines and one check hybrid with dent kernels and four inbred lines and a check hybrid with flint kernels. Treatments were conducted in two sowing seasons, one in October, and another in December 2013. The symptoms of gray leaf spot (Cercospora zeae-maydis), northern leaf blight (Exserohilum turcicum), and white leaf spot (a complex of Phaeosphaeria maydis and Pantoea ananatis) were assessed every 10 days from flowering. The area under the disease progress curve was also calculated. Severity level of the diseases was higher in inbred lines when compared to the check hybrds (AG8041 PRO and P30R50YH), regardless of kernel hardness. Dent-kernel inbred lines showed a higher severity of northern leaf blight symptoms when compared to flint-kernelones. It is worth mentioning that disease severity increased as sowing was delayed.

Published

2018

30. Molecular variability in the maize grey leaf spot pathogens in Brazil

Author

Cândido Athayde Sobrinho, Kátia Regiane Brunelli, Luis Eduardo Aranha Camargo, Ana Carolina Fazza, and Larry D. Dunkle

Subjects

Veterinary medicine, Cercospora zeina, lcsh:QH426-470, Biology, biology.organism_classification, lcsh:Genetics, Similarity (network science), Genetic similarity, Cercospora, Botany, Genetics, Leaf spot, Amplified fragment length polymorphism, epidemiology, Genetic variability, Internal transcribed spacer, Cercospora zeae-maydis, Molecular Biology

Abstract

Isolates of Cercospora species from leaves displaying symptoms of grey leaf spot were collected in maize-producing areas of south-central Brazil in 2001 and 2002. Restriction digests of the internal transcribed spacer region of rDNA detected the presence of the same two Cercospora species described on maize in the United States, namely C. zeae-maydis and the recently described species, C. zeina . Genetic variability among isolates was assessed by analysing 104 amplified fragment length polymorphism loci. Cluster analysis confirmed the genetic separation of isolates into two species with a mean similarity of 35%. Similarity levels within species were high, averaging 93% and 92% among isolates of C. zeae-maydis and C. zeina , respectively. The mean genetic similarity between C. zeae-maydis and C. zeina and two isolates of C. sorghi f. sp. maydis was 45% and 35%, respectively. Results of this study showed that populations of the grey leaf spot pathogens in Brazil are similar to those in the United States regarding species composition and that C. zeina is also present in Brazil.

Published

2008

31. Gray leaf Spot: A Disease of Global Importance in Maize Production

Author

Julian M. J. Ward, David C. Nowell, Erik L. Stromberg, and Forrest W. Nutter

Subjects

Agronomy, Leaf spot, Poaceae, Plant Science, Biology, biology.organism_classification, Agronomy and Crop Science, Gray (horse), Cercospora zeae-maydis, Zea mays

Published

1999

32. Susceptibility of maize hybrids to grey leaf spot under two tillage systems in South Africa

Author

D. C. Nowell, J. M. J. Ward, M. I. Whitwell, and Mark Laing

Subjects

Conventional tillage, Ecology, biology, Soil Science, Plant Science, biology.organism_classification, Tillage, Agronomy, Relative yield, Cercospora, Disease severity, Leaf spot, Cercospora zeae-maydis, Hybrid

Abstract

Grey leaf spot (Cercospora zeae-maydis Tehon and E.Y. Daniels) has seriously decreased the yields of maize in KwaZulu-Natal, South Africa, and has been identified in neighbouring provinces and countries. Since no commercially grown hybrids have been identified to be resistant to the disease, a study was initiated to assess the susceptibility of hybrids to the pathogen. The objective of the study was to identify high-yielding hybrids that were least susceptible to grey leaf spot, and to identify hybrids best suited to stubble and conventionally ploughed tillage systems. Linear regression of relative yield against relative disease severity identified high-yielding maize hybrids, including PAN 6480, that were least susceptible, SNK 2888, was tolerant, whilst PAN 6528 was most susceptible to disease. The susceptibility of hybrids to grey leaf spot was affected similarly by stubble and conventional tillage practices over the seasons of the study. In the 1993/94 season with adequate rainfall and favourable for ...

Published

1997

33. Genetic control of resistance to gray leaf spot of maize in tropical germplasm

Author

Brito, André Humberto de, Davide, Livia Maria Chamma, Pinho, Renzo Garcia Von, Carvalho, Rafael Pelloso de, and Reis, Matheus Costa dos

Subjects

genetic resistance, resistência genética, Cercospora zeae-maydis, Zea mays

Abstract

The main goal of this study was to assess the nature and magnitude of gene effects for resistance to Cercospora leaf spot. A randomized block design with three replications was used. The data were obtained at the plant level by assessing the disease severity. The data were analyzed per experiment, using the average data per plot. A dominant-additive genetic model without epistasis was considered, with estimation of the components of means and variance. The genetic control of resistance to gray leaf spot is polygenic with predominance of the additive effects. Dominance was observed in a few small-effect loci and high heritability values. O objetivo deste trabalho foi estudar a natureza e a magnitude dos efeitos gênicos da resistência à Cercosporiose. Foi utilizado o delineamento experimental de blocos ao acaso, com três repetições. A avaliação da resistência foi realizada utilizando escala diagramática com notas. Os dados obtidos foram analisados por experimento, utilizando-se médias de parcela. Foi considerado um modelo aditivo-dominante sem epistasia, com a estimação dos componentes de média e de variância. O controle genético da resistência à Cercosporiose é poligênico, com predominância dos efeitos aditivos, com dominância em poucos locos de pequeno efeito e alta herdabilidade, condição essa favorável à seleção.

Published

2012

34. Bayesian inference to study genetic control of resistance to gray leaf spot in maize

Author

André Hunberto de Brito, Marcio Balestre, and R. G. von Pinho

Subjects

Shrinkage estimator, Randomized block design, Bayes Theorem, General Medicine, Biology, biology.organism_classification, Bayesian inference, Zea mays, Plant Leaves, Bayes' theorem, Ascomycota, Mycoses, Botany, Statistics, Genetics, Epistasis, Leaf spot, Molecular Biology, Gray (horse), Cercospora zeae-maydis, Disease Resistance, Plant Diseases

Abstract

Gray leaf spot (GLS) is a major maize disease in Brazil that significantly affects grain production. We used Bayesian inference to investigate the nature and magnitude of gene effects related to GLS resistance by evaluation of contrasting lines and segregating populations. The experiment was arranged in a randomized block design with three replications and the mean values were analyzed using a Bayesian shrinkage approach. Additive-dominant and epistatic effects and their variances were adjusted in an over-parametrized model. Bayesian shrinkage analysis showed to be an excellent approach to handle complex models in the study of genetic control in GLS, since this approach allows to handle overparametrized models (main and epistatic effects) without using model-selection methods. Genetic control of GLS resistance was predominantly additive, with insignificant influence of dominance and epistasis effects.

Published

2012

35. Capacidade de combinação em milho para resistência a Cercospora zeae-maydis

Author

Marcio José Engelsing, Diane Simon Rozzetto, Claitson Gustavo Zanin, Jefferson Luís Meirelles Coimbra, and Altamir Frederico Guidolin

Subjects

Horticulture, Análise dialélica, Rendimento, Botany, Cercosporiose, Soil Science, Biology, Zea mays L, Agronomy and Crop Science, Cercospora zeae-maydis

Abstract

Resumo - A resistencia obtida pelo componente genetico e um dos metodos mais eficientes de controle das doencas foliares da cultura do milho. Para avaliar a capacidade geral de combinacao (CGC), capacidade especifica de combinacao (CEC), reciprocos, efeito materno e nao-materno para resistencia a Cercospora zeae-maydis, cinco linhagens (A, B, C, D e E) foram cruzadas e os vinte hibridos obtidos foram utilizados em experimentos conduzidos em tres ambientes. Foram avaliados a severidade da cercosporiose (CP) no estadio fenologico R5 e o rendimento de graos (RG) na colheita. A analise dialelica demonstrou que ocorreu interacao significativa (P < 0,05) hibridos versus locais para as variaveis CP e RG. D e E foram os melhores genitores para a para a variavel cercosporiose de acordo com a CGC. Na media dos locais as melhores combinacoes hibridas, conforme a CEC foram AxD, BxE, AxE e BxC, com estimativa de aumento nos rendimentos de graos, devendo ser recomendado a continuacao destes hibridos no programa de melhoramento da empresa. Palavras-chave - Zea mays L. Analise dialelica. Cercosporiose. Rendimento.

Published

2011

36. Efeito do nitrogênio e silício na produtividade e severidade da mancha de cercospora na cultura do milho

Author

Komatsu, Roberto Akitoshi, Maria Anita Gonçalves da Silva, and Antonio Saraiva Muniz - UEM

Subjects

Brasil, Nutrição mineral, Mineral nutrition, Agronomia, Silício, Efeito, Ciências Agrárias, Produtividade, Milho (Zea mays L.), Zea mays L, Severidade, Nitrogênio, Cercospora, Cercospora zeae-maydis, Brazil, Productivity

Abstract

With the aim to analyze the influence of rates of nitrogen and silicon on corn yield (Zea mays L.) in the presence of gray leaf spot (Cercospora zeae-maydis) at Campo Mourão city, were studied experiment randomized blocks with four replicates, design in a factorial scheme with four nitrogen rates in coverage (0, 60, 120 and 180 kg ha-1), four silicon rates sprayed (0; 1,25; 2,50 and 3,75 kg ha-1) and two genotypes corn with different response the gray leaf spot, which were: AG-9010 (low resistance) and DKB-330 (resistance), in a total of 64 plots per genotype. Was observed for both genotypes that the greatest absorption of nitrogen, phosphorus and potassium were related to the decrease of the GLS. The application of silicon rates showed lower onset of disease in the AG 9010 genotype. Nitrogen and silicate fertilization linearly reduced the disease in DKB- 330 genotype. Nitrogen fertilization provides the highest average productivity grain in the 116,1 kg ha-1 (AG-9010) and 120,1 kg ha-1 (DKB-330) rates. Silicon fertilization presented the highest average grain productivity on the 2,31 kg ha-1 rate. Com o objetivo de analisar a influência de doses de nitrogênio e silício sobre a produção de milho (Zea mays L.) em presença de mancha de cercospora (Cercospora zeae-maydis) no município de Campo Mourão - PR foram realizados experimentos em delineamento de blocos casualizados com quatro repetições em esquema fatorial 4x4. Os tratamentos tiveram quatro doses de nitrogênio em cobertura (0, 60, 120 e 180 kg ha-1), quatro doses de silício via foliar (0; 1,25; 2,50 e 3,75 kg ha-1) e dois genótipos de milho com diferentes níveis de resistências à mancha de cercospora, sendo eles: AG-9010 (Baixa resistência) e DKB-330 (Resistente), totalizando 64 parcelas por genótipo. Foi verificado para os dois genótipos que as maiores absorções de nitrogênio, fósforo e potássio estavam relacionados com a diminuição da severidade da mancha de Cercospora. A aplicação de doses de silício demonstrou menor intensidade da doença no genótipo AG-9010 com menor tolerância. A adubação nitrogenada e silicatada reduziram linearmente o aparecimento da doença no genótipo DKB-330. A adubação nitrogenada proporcionou a maior produtividade média na dose de 116,1 kg ha-1 (AG-9010) e 120,1 kg ha-1 (DKB- 330). A adubação silicatada apresentou produtividade média máxima de 2,31 kg ha-1. ix, 77 f

Published

2009

37. Gray Leaf Spot Disease of Corn

Author

Stromberg, Erik L.

Subjects

Grains, digestive, oral, and skin physiology, fungi, food and beverages, Cercospora zeae-maydis, Zea mays, Plant Diseases

Abstract

Describes Gray Leaf Spot Disease (Cercospora zeae-maydis) in corn plants, noting that it is one of the most serious diseases to corn worldwide. Describes the life cycle and the symptoms. Discusses methods of control emphasizing integration of several practices, including tilling, crop rotation, silage production, and the planting of hybrid varieties that are less susceptible to this disease.

Published

2009

38. Inheritance of resistance to gray leaf spot in crosses involving selected resistant inbred lines of corn

Author

D. G. White and S. T. Coates

Subjects

education.field_of_study, Population, Plant Science, Biology, Heritability, biology.organism_classification, Zea mays, Horticulture, Inbred strain, Cercospora, Botany, Leaf spot, Poaceae, education, Agronomy and Crop Science, Cercospora zeae-maydis

Abstract

Three populations derived from crosses of selected resistant inbreds (061, B37HtN, and DS:74:1071) with susceptible inbred FR1141 and a population derived from a cross of B37 × B37HtN were evaluated for gray leaf spot severity in 1992 and 1993 at Urbana, IL, and Andrews, NC. Populations included the susceptible parent (P1), the resistant parent (P2), F1 and F2 generations, backcrosses BCP1 and BCP2, and, when space and seed were available, one or more of the F3, BCP1S1, and BCP2S1 generations. Plants at Urbana were inoculated, and naturally occurring disease was relied upon at Andrews. Individual plants were rated by visually estimating the percent leaf area blighted (necrotic). Generation mean analysis of data combined over years or locations indicated that a simple additive-dominance model was able to explain the inheritance of resistance for all populations. Dominance effects were detected in all population evaluated. For the FR1141 × 061 and FR1141 × B37HtN populations, dominance was significant at early ratings, but not at late ratings. Results from generation mean analysis for individual years, locations, and rating were variable.

Published

2008

39. Heritability and Components of Resistance to Cercospora zeae-maydis Derived from Maize Inbred VO613Y

Author

Richard C. Pratt, P. E. Lipps, and Stuart G. Gordon

Subjects

Veterinary medicine, biology, Cercospora, Inbred strain, Botany, Leaf spot, Plant Science, Heritability, biology.organism_classification, Agronomy and Crop Science, Cercospora zeae-maydis, Incubation period

Abstract

Gray leaf spot (GLS), caused by the fungus Cercospora zeae-maydis, is one of the most important foliar diseases of maize. This study was undertaken to estimate heritability of C. zeae-maydis resistance and examine the relationship between previously identified resistance loci and certain components of resistance including incubation period, lesion number, and maximum lesion length. Partially inbred progenies arising from hybridization between maize inbred lines VO613Y (high level of partial resistance) and Pa405 (susceptible) were examined in Ohio and South Africa. Heritability estimates of resistance were calculated based on severity and incubation period values. The range of heritability estimates based on severity was broad, with values ranging from approximately 0.46 to 0.81 (mean = 0.59). Estimates of mean heritability for incubation period were lowest (0.18), indicating that this component would likely be unsuitable for selection of germ plasm intended for deployment in diverse regions. Length of GLS lesions was significantly affected by host genotype, with resistant genotypes having shorter lesions from one site in Ohio during two seasons. Genotype also had a significant effect on incubation period and lesion number; the lower values for these components also were associated with resistant genotypes. The combined action of these resistance components resulted in lower overall disease severity.

Published

2008

40. Curvas de progresso de doenças foliares do milho, sob diferentes tratamentos fungicidas

Author

Costa, Frank Magno da [UNESP], Universidade Estadual Paulista (Unesp), and Barreto, Modesto [UNESP]

Subjects

Fungicidas, Physopella zeae, Phaeosphaeria maydis, Epidemiologia, Controle químico, Cercospora zeae-maydis, Milho - Doenças e pragas

Abstract

Made available in DSpace on 2014-06-11T19:28:30Z (GMT). No. of bitstreams: 0 Previous issue date: 2007-03-05Bitstream added on 2014-06-13T20:37:27Z : No. of bitstreams: 1 costa_fm_me_jabo.pdf: 412278 bytes, checksum: b137b47f1e7a98ef2356e7beda9b1bee (MD5) Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq) Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) Representando cerca de 35,6% da safra de grãos do país, a cultura do milho tem sua produtividade ameaçada por um grande número de enfermidades. Diante do exposto o presente trabalho teve por objetivo analisar o progresso da Physopella zeae, Cercospora zeae-maydis e Phaeosphaeria maydis, sob diferentes tratamentos fungicidas na cultura do milho. Conduzido no delineamento de blocos casualizados com 6 tratamentos e 4 repetições em área do Departamento de Fitossanidade da FCAV-UNESP, utilizou-se os seguintes tratamentos de 1-6 (mL de p.c./ha), respectivamente: 1-testemunha; 2-epoxiconazole + pyraclostrobin 500; 3- epoxiconazole + pyraclostrobin 750; 4-azoxystrobin + cyproconazole 300 + óleo mineral parafínico 0,5%; 5-azoxystrobin + cyproconazole 300 + óleo mineral parafínico 0,5% e 6- azoxystrobin + cyproconazole 450 + óleo mineral parafínico 0,5%, todos aplicados com a planta no estádio V8, sendo que o Tratamento 5 foi repetido com a planta no início do pendoamento. Realizou-se 7 avaliações de severidade da doença com intervalos semanais. As curvas de progresso da doença foram analisadas através de 3 transformações (monomolecular, logístico e de Gompertz). Calculou-se a Área Abaixo da Curva de Progresso da Doença (AACPD) para cada doença, estas foram submetidas à análise de variância e as médias comparadas pelo teste de Tukey ao nível de 5% de probabilidade. Observou-se que o modelo monomolecular foi o que melhor se ajustou aos dados para a P. zeae e para a C. zeae-maydis. Em se tratando de P. maydis o modelo logístico proporcionou melhor ajuste... The corn represents about 35,6% grain crop in Brazil and its productivity is threatened by a great number of pests and diseases. The objective of this study was to analyze the progress of the Physopella zeae, Cercospora zeae-maydis and Phaeosphaeria maydis, under different fungicides treatments in the corn crop. This work was carried out in experimental area of the Departamento de Fitossanidade of UNESP, Campus of Jaboticabal, São Paulo State, Brasil, in the period of January to May of 2006. Was evaluated in field plots arranged in complete randomized blocks, with 6 treatments and 4 replications. The used treatments were (mL of p.c. /ha): 1-check; 2-epoxiconazole + pyraclostrobin 500; 3-epoxiconazole + pyraclostrobin 750; 4-azoxystrobin + cyproconazole 300 + mineral oil 0,5%; 5-azoxystrobin + cyproconazole 300 + mineral oil 0,5% and 6 - azoxystrobin + cyproconazole 450 + mineral oil 0,5%. All the treatments fungicide spray was applied to maize at the stage V8, and the treatment 5 was replicated in the beginning of the tasseling. It was carried out 10 evaluations of the disease severity with a week interval among them. It was analyzed the curves of progress of the diseases through 3 transformations (monomolecular, logistic and Gompertz). There was calculated Area Under Progress Curve Disease (AUDPC), whose the variance analysis and the averages were compared by the Tukey test at 5% probability. It was observed that the monomolecular model had the best adjustment to the data for the P. zeae and C. zeae-maydis. For the P. maydis the logistic model had the best adjustment...(Complete abstract, click electronic address below)

Published

2007

41. Population studies of fungal plant pathogens: Perspectives for control with specific reference to grey leafspot

Author

Patrick Rubaihayo, C. Dixelius, P. Okori, E. Adipala, and J Fahleson

Subjects

education.field_of_study, Host resistance, Cercospora zeae-maydis, disease management, genetic tools, molecular markers, Population, Forestry, General Medicine, Biology, education, Disease control, Cercospora zeae-maydis, Control methods

Abstract

Plant diseases hinder food production globally. Of the known crop plant pathogens, fungi are perhaps the most widely adapted organisms. For disease control, host resistance has been the main method used through major gene deployment. Equally important, has been the use of fungicides. Over the last two decades these two control strategies have been fraught with rapid resistance erosion commonly referred to as the “boom and burst cycle,”. This raises urgent concerns with regard to development of effective alternative strategies such as use of fungicides. The use of fungicides is an effective strategy but they are potential sources of pollution into the environment, pose serious health risks to humans and are uneconomical for low-resource farmers. In this article the potential of how improved disease management strategies embodied in integrated disease management (IDM) can be developed based on a clear understanding of the pathosystem is discussed. We demonstrate that population and molecular genetics can be used to define pathosystems, estimate the evolutionary responsiveness of pathogens and from the data, design appropriate durable control methods. Various population and molecular genetic methodologies are described and how they can be incorporated into standard pathogen characterisation studies. Using grey leaf spot of maize ( Cercospora zeae-maydis ) as a case study, we show how these techniques can be used to generate information on genetic variability, providing for logical development of a durable IDM programme. Key words : Cercospora zeae-maydis, disease management, genetic tools, molecular markers RESUME Les maladies de plante entravent globalement la production de nourriture. Des pathogenes de plante connus, les champignons sont peut etre les plus rependus organismes adaptes. Pour le controle de maladie, la resistance hote a ete la methode principale utilisee a travers le deploiement de gene majeur. Egalement important, a ete l'usage des fongicides. Pour plus de deux decennies ces deux strategies de controle ont ete angoissees avec une rapide erosion de resistance communement connu a nous comme “boom and burst cycle” (cycle de boom et d'explosion). Ceci souleve les inquietudes urgentes avec respect au developpement des strategies alternatives effectives comme l'usage des fongicides. L'usage des fongicides est une strategie effective mais ces fongicides sont des sources potentielles de pollution dans l'environnement, pose des risques serieux de sante aux humains et ne sont pas economiques pour les fermiers de faibles ressources. Dans cet article le potentiel de comment les strategies ameliorees de gestion des maladies incarnees dans une gestion integree des maladies (IDM) peut etre developpe base sur une comprehension claire du pathosysteme est discutee. Nous demontrons que la population et les genetiques moleculaires peuvent etre utilises pour definir les pathosystemes, estimer les non reponses evolutionnaires des pathogenes et a partir des donnees, concevoir des methodes de controle durables. Diverses populations et methodologies genetiques moleculaires sont decrites et comment elles peuvent etre incorporees dans les etudes de caracterisation de pathogene standard. Utilisant la tache grise de feuille de mais ( Cercospora zeae-maydis ) comme cas d'etude, nous montrons comment ces techniques peuvent etre utilisees pour generer l'information sur la variabilite genetique, pourvoyant le developpement logique d'un programme d'IDM durable. Mots cles : Cercospora zeae-maydis, gestion de maladie, outils genetiques, indicateur moleculaire African Crop Science Journal Vol.12(4) 2004: 327-342

Published

2005

42. A ascensão de uma doença

Author

FERNANDES, F. T., OLIVEIRA, E. de, and ELIZABETH DE OLIVEIRA SABATO, CNPMS.

Subjects

Controle, Cercospora Sorghi, Fungo, Disease, Control, Milho, Sintomas, Cercospora zeae-maydis, Mancha cercospora, Doença

Abstract

Encarte especial.

Published

2000