Characterization of Fusarium spp. causal agent of wilt in pecan

Autores

  • Jessica Mengue Rolim UFPel
  • Jessica Emília Rabuske UFSM
  • Lucas Graciolli Savian UFSM
  • Janaina Silva Sarzi UFSM
  • Clair Walker UEL
  • Marlove Fatima Brião Muniz UFSM

Palavras-chave:

Carya illinoinesis, elongation factor 1-alpha, fungi morphophysiology, genetic variability

Resumo

One of the limiting factors for pecan production is the incidence of disease caused by Fusarium spp. which are a threat to orchards in the south of the country. Therefore, the study aimed to confirm the pathogenicity and evaluate the morpho-physiological and molecular characteristics of Fusarium spp. associated with pecan in Rio Grande do Sul and Paraná. For this, samples of symptomatic plant material were collected, and potentially pathogenic isolates were evaluated for pathogenicity, by immersing the roots of the plants in a spore suspension of Fusarium spp. In addition, the severity of the disease was assessed using a rating scale according to the symptoms expressed by the plants. The isolates were also analyzed for morphophysiological variability, through evaluations of mycelial growth, colony and aerial mycelium pigmentation, and characteristics of reproductive structures. Molecular characterization was performed which amplify the region of the 1-alpha elongation factor and sequencing. Nineteen isolates were obtained, which were considered pathogenic, however, there was variability in their aggressiveness and morphophysiological characteristics. In addition, the sequencing was used to identify different species. Therefore, species of Fusarium are responsible for the occurrence of wilt in pecan in southern Brazil.

Referências

Alfenas AC, Ferreira FA, Mafia RG & Gonçalves RC (2007) Isolamento de fungos fitopatogênicos. In: Acelino Couto Alfenas & Reginaldo Gonçalves Mafia (Eds.) Métodos em fitopatologia. Viçosa, UFV. p.53-91.

Barreto GG (2018) Caracterização morfológica de Fusarium spp. do feijão fava e controle biológico via sementes-plântulas. Monografia. Universidade Federal da Paraíba, Paraíba. 55p.

Belan LL, Belan LL, Rafael AM, Lorenzoni RM, Souza-Sobreira FB, Soares TCB, Oliveira FL & Moraes WB (2018) First report of Fusarium species associated with Fusarium wilt in Coffeacanephora plants in Brazil. Plant Disease, 102:1859-1859.

Borges RCF, Cabral CS, Rossato M & Macedo MA (2018) Vascular wilt of teak (Tectonagrandis) caused by Fusarium oxysporum in Brazil. Phytopathologia Mediterranea, 57:115-121.

Carmo ALM do (2017) Fusarium em sementes de Pinus no Brasil: distribuição, patogenicidade, identificação de espécies e controle biológico. Doctoral Thesis. Universidade Federal do Paraná, Curitiba. 81p.

Castro NR & Coelho RSB (2000) Physiological characterization of Cercospora cruenta isolates in different culture media. Summa Phyto-pathologica, 26:466-471.

Chen SC, Zhao HJ, Wang MM, Ren JJ, Wang ZH, Li JD, Liu AR & Ahammed GJ (2017) First Report of Root Rot Caused by Fusarium incarnatum on Morus alba in China. Plant Disease, 101:1320-1320.

Cruz CD (2008) Programa Genes: Diversidade Genética. Viçosa, UFV. 278p.

Elliott ML (2018) Standardizing Pathogenicity Assays for Fusarium Wilt Pathogens of Ornamental Palms. Plant Disease, 102:1541-1548.

Fernandez MR (1993) Manual para laboratório de fitopatologia. Passo Fundo, Embrapa/CNPT. 128p.

Geiser D, Jiménez-Gasco M del M, Kang S, Makalowska I, Veeraraghavan N, Ward TJ, Zhang N, Kuldau GA, O’Donnell K (2004) FUSARIUM-ID v.1.0: A DNA sequence database for identifying Fusarium. European Journal of Plant Pathology, 110:473-479.

Gomes RP (1976) Fruticultura Brasileira. São Paulo, Nobel. 446p.

Goswami RS & Kistler HC (2004) Heading for disaster: Fusarium graminearum on cereal crops. Molecular plant pathology, 5:515-525.

Hall TA (1999) BioEdit: a user-friendly biological sequence alignment editor and analysis program for Windows 95/98/NT. Nucleic Acids Symposium, 41:95-98.

Jarek TM, Santos AF dos, Tessman DJ & Vieira ESN (2018) Inoculation methods and aggressiveness of five Fusarium species against peach palm. Ciência Rural, 48:01-08.

Leslie JF & Summerell BA (2006) The Fusarium laboratory manual. Iowa, Blackwell Pub. 388p.

Maciel CG, Walker C, Santos RF dos, Muniz MFB & Brum DL (2017) Fusarium oxysporum and F. verticillioides associated with damping- off in Pinus spp. Revista Ciência Agronômica, 48:134-141.

Munsell Color Chips (2009) Munsell Soil Color Charts. Baltimore, Munsell. 34p.

Nelson PE, Toussoun TA & Cook RJ (1981) Fusarium: Diseases, Biology, and Taxonomy. Pennsylvania, Pennsylvania State University Press. 560p.

Nelson PE, Toussoun TA & Marasas WFO (1983) Fusarium species, an illustrated manual for identification. Pennsylvania, Pennsylvania State University Press. 206p.

O’Donnell K, Kistler HC, Cigelnik E & Ploetz RC (1998) Multiple evolutionary origins of the fungus causing Panama disease of banana: Concordant evidence from nuclear and mitochondrial gene genealogies. Proceedings of the National Academy Science, 95:2044-204.

Pastrana AM, Kirkpatrick SC, Kong M, Broome JC & Gordon TR (2017) Fusarium oxysporum f. sp. mori, a new forma specialis causing Fusarium wilt of blackberry. Plant Disease, 101:2066-2072.

Pilo P, Tiley AMM, Lawless C, Karki S, Burke J & Feechan A (2022) Rapid fungal DNA extraction method suitable for PCR screening fungal mutants, infected plant tissue and spore trap samples. Physiological and Molecular Plant Pathology, 117:101758.

Rolim JM, Savian LG, Walker C, Blume E, Muniz MFB, Poletto T, Silva M de M, Silva EL da, Rabuske JE & Sarzi JS (2020) First Report of Fusarium Wilt Caused by Fusarium oxysporum on Pecan in Brazil. Plant Disease, 104:1870-1870.

SEAPDR- Secretaria da Agricultura, Pecuária e Desenvolvimento Rural (2020) Nota Técnica 2020 - Noz Pecã no RS 2020. Available at: https://www.agricultura.rs.gov.br/upload/arquivos/202003/09152147-no-ta-tecnica-noz-peca-2020.pdf. Accessed on: November 30th, 2020.

Silva TWR, Santos AF dos, Auer CG & Tessman DJ (2017) Detection methods, transmission and pathogenicity of Fusarium spp. in Pinus taeda seeds. Ciência Florestal, 27:73-84.

Tamura K, Dudley J, Masatoshi N & Kumar S (2007) MEGA4: Molecular Evolutionary Genetics Analysis (MEGA) software version 4.0. Molecular Biology and Evolution, 24:1596-1599.

Vartivarian SE, Anaissie EJ & Bodey GP (1993) Emerging fungal pathogens in immunocompromised patients: classification, diagnosis, and management. Clinical infectious diseases, 17:S487-S491.

Wells L (2013) Southeastern pecan grower’s handbook. Georgia, University of Georgia. 236p.

Yang LY, Chen P, Guo LJ, Zhou Y, Wang GF, Du QJ & Huang JS (2017) First Report of Vine Wilt Disease Caused by Fusarium solani on Sacha Inchi (Plukenetia volubilis) in China. Plant Disease, 101:1675-1675.

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Publicado

2025-06-03

Como Citar

Mengue Rolim, J., Emília Rabuske, J., Graciolli Savian, L., Silva Sarzi, J., Walker, C., & Brião Muniz, M. F. (2025). Characterization of Fusarium spp. causal agent of wilt in pecan. Revista Ceres, 69(6), 720–730. Recuperado de https://ojs.ceres.ufv.br/ceres/article/view/8069

Edição

v. 69 n. 6 (2022)

Seção

PLANT HEALTH

Licença

Creative Commons License
Este trabalho está licenciado sob uma licença Creative Commons Attribution 4.0 International License.

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