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References
Abd-el-kareem F, Elshahawy IE, Aabd-elgawad MMM (2019) Effectiveness of silicon and silicate salts for controlling black root rot and induced pathogenesis-related protein of strawberry plants. Bull Natl Res Cent 68(43):91
Araújo L, Bispo WMS, Cacique IS, Cruz MFA, Rodrigues FA (2014) Histopathological aspects of mango resistance to the infection process of Ceratocystis fimbriata. Plant Pathol 63:1282–1295
Aurore G, Parfait B, Fahrasmane L (2009) Bananas, raw materials for making processed food products. Trends Food Sci Technol 20:78–91
Beckman CH (1987) The Nature of Wilt Disease of Plants. APS Press, St. Paul, MN., USA, p 175
Beckman CH (1990) Host responses to the pathogen. In: Ploetz RC (ed) Fusarium Wilt of Banana. APS Press, American Phytopathological Society, St. Paul, MN, USA, pp 93–105
Bélanger RR, Benhamou N, Menzies JG (2003) Cytological evidence of an active role of silicon in wheat resistance to powdery/mildew (Blumeria graminis f. sp. tritici). Phytopathology 93:402–412
Brunings AM, Datnoff LE, Ma JF, Mitani N, Nagamura Y, Rathinasabapathi B, Kirst M (2009) Differential gene expression of rice in response to silicon and rice blast fungus Magnaporthe oryzae. Ann Appl Biol 155:161–170
Butler D (2013) Fungus threatens top banana. Nature 54:195–196
Cruz MFA, Silva LF, Rios JA, Debona D, Rodrigues FA (2015) Microscopic aspects of the colonization of Pyricularia oryzae on the rachis of wheat plants supplied with silicon. Bragantia 74:207–214
Dallagnol LJ, Rodrigues FA, Mielli MVB, Ma JF, Datnoff LE (2009) Defective active silicon uptake affects some componentes of rice resistance to brown spot. Phytopathology 99:116–121
Debona D, Rodrigues FA, Datnoff LE (2017) Silicon’s role in abiotic and biotic plant stresses. Annu Rev Phytopathol 55:85–107
Dita MA, Waalwijk C, Buddenhagen IW, Souza MT Jr, Kema GHJ (2010) A molecular diagnostic for tropical race 4 of the banana fusarium wilt pathogen. Plant Pathol 59:348–357
Fortunato AA, Da Silva WL, Rodrigues FA (2014) Phenylpropanoid pathway is potentiated by silicon in the roots of banana plants during the infection process of Fusarium oxysporum f. sp. cubense. Phytopathology 104:597–603
Fortunato AA, Rodrigues FA, NAscimento KJ, (2012) Physiological and Biochemical Aspects of the Resistance of Banana Plants to Fusarium Wilt Potentiated by Silicon. Phytopathology 102:657–666
Fu L, Penton CR, Ruan Y, Shen Z, Xue C, Li R, Shen Q (2017) Inducing the rhizosphere microbiome by biofertilizer application to suppress banana Fusarium wilt disease. Soil Biol Biochem 104:19–48
Gerlarch D (1969) Botanische Mikrotechnik: Eine Einführung. Georg Thieme, Stuttgart, p 311p
Huang CH, Roberts P, Datnoff L (2011) Silicon Suppresses Fusarium Crown and Root Rot of Tomato. J Phytopathol 159:546–554
Indrayanti R, Yanti F, Adisyahputra A, Dinarti D, Sudarsono S (2018) Multiplication and acclimatization of banana variant cv. Ampyang (Musa acuminata) putative resistance to Fusarium wilt. Bioma 14:18–29
Johansen DA (1940) Plant microtechnique. McGraw-Hill, New York, p 523p
Kim SG (2002) Silicon-induced cell wall fortification of rice leaves: a possible cellular mechanism of enhanced host resistance to blast. Phytopathology 92:1095–1103
Maryani NL, Lombard YS, Poerba S, Subandiyah PW, Ubandiyah PW, Crous GHJ, Kema, (2019) Phylogeny and genetic diversity of the banana Fusarium wilt pathogen Fusarium oxysporum f. sp. cubense in the Indonesian centre of origin. Stud Mycol 92:155–194
Mohamed AA, Mak C, Liew KW, Ho YW (2000) Early evaluation of banana plants at nursery stage for Fusarium wilt tolerance. In: Molina AB, Masdek NK, Liew KW (eds) Banana Fusarium Wilt Management: towards Sustainable Cultivation. Proc. Int. Workshop on the Banana Fusarium Wilt Disease, Genting Highlands Resort, Malaysia, pp 174–185
Pegg KG, Coates LM, O’neill WT, Turner DW, (2019) The Epidemiology of Fusarium Wilt of Banana. Front Plant Sci 10:1395
Pereira AC, Cruz MFA, Paula Júnior TJ, Rodrigues FA, Carneiro JES, Vieira RF, Carneiro PCS, (2013) Infection process of Fusarium oxysporum f. sp. phaseoli on resistant, intermediate and susceptible bean cultivars. Trop Plant Pathol 38:323–328
Ploetz RC (2015) Management of Fusarium wilt of banana: A review with special reference to tropical race 4. Crop Protection 73:7–15
Ploetz RC (2006) Fusarium wilt of banana is caused by several pathogens referred to as Fusarium oxysporum fsp. cubense. Phytopathology 96:653–656
Polanco LR, Rodrigues FA, Nascimento KJT, Shulman P, Silva LC, Neves FW, Vale FXR (2012) Biochemical aspects of bean resistance to anthracnose mediated by silicon. Ann Appl Biol 161:140–150
Rasoolizadeh A, Santhanam P, Labbé C, Shivaraj SM, Germain H, Bélanger RR (2020) Silicon influences the localization and expression of Phytophthora sojae effectors in interaction with soybean. J Exp Bot 36:1–12
Ribeiro LR (2009) Discrimination of banana Genotypes for Fusarium Wilt Resistance in Greenhouse. In: Ishs/Promusa Banana symposium. Guangzhou, China: Global perspectives on Asian challenges in agriculture. Guangzhou: ISHS: Promusa. p.46.
Rodrigues FA (2004) Silicon enhances the accumulation of diterpenoid phytoalexins in Rice: a potencial mechanism for blast resistance. Phytopathology 94:177–1983
Rodrigues FA, Benhamou N, Datnoff LE, Jones JB, Bélanger, (2003) Ultrastructural and cytochemical aspects of silicon-mediated rice blast resistance. Phytopathology 93:535–546
Smirnoff N, Arnaud, (2019) Hydrogen peroxide metabolism and functions in plants. New Phytol 221:1197–1214
Sousa RS, Rodrigues FA, Schurt DA, Souza NFA, Cruz MFA (2013) Cytological aspects of the infection process of Pyricularia oryzae on leaves of wheat plants supplied with silicon. Trop Plant Pathol 38:72–477
Tatagiba SD, Rodrigues FA, Filippi MCC, Silva GB, Silva LC (2014) Physiological responses of rice plants supplied with silicon to Monographella albescens infection. J Phytophatology 162:596–606
Whetten R, Sederoff R (1995) Lignin Biosynthesis. Plant Cell 7:1001–1013
Xavier MS, Rodrigues FA, Domiciano GP, Oliveira HV, Silveira PR, Moreira WR (2011) Wheat resistance to leaf blast mediated by silicon. Australas Plant Pathol 40:28–38
Yuan J, Li B, Zhang N, Waseem R, Shen Q, Huang Q (2012) Production of Bacillomycin- and Macrolactin-type antibiotics by Bacillus amyloliquefaciens NJN-6 for suppressing soilborne plant pathogens. J Agric Food Chem 60:2976–2981
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da Conceição, E.G.J., Martins, F.M., de Aguiar Accioly, A. et al. Histological changes in banana rhizomes promoted by a silicon-Fusarium oxysporum interaction. J Plant Pathol 103, 531–537 (2021). https://doi.org/10.1007/s42161-021-00778-5
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DOI: https://doi.org/10.1007/s42161-021-00778-5