Gisele Pereira Domiciano scite author profile

Blast, caused by Pyricularia grisea, is one of the most important diseases of wheat. The effects of silicon (Si) on this wheat disease were studied. Plants of wheat cultivars Aliança and BH-1146 were grown in plastic pots containing Si-deficient soil amended with either calcium silicate (+Si) or calcium carbonate (−Si). The content of Si in leaf tissue was significantly increased by 14.8% for the +Si treatment. There were no significant differences between Si treatments for calcium content, so variations in Si only accounted for the observed differences in the level of blast resistance. The incubation period was significantly increased, on average, by 28.2% for the +Si treatment. The area under blast progress curve and the number of lesions per cm 2 of leaf area significantly decreased by 31 and 45%, respectively, for the +Si treatment. There was no significant effect of Si on final disease severity. The concentration of total soluble phenolics observed in both cultivars supplied with Si did not apparently play any role in the increased blast resistance. The highest content of lignin-thioglycolic acid derivatives was found in plants from both cultivars with Si during the time period evaluated. Chitinase activity was high at the intermediate stages of fungal infection in both cultivars supplied with Si. Peroxidase activity was found to be high at the late stage of fungal infection for both cultivars supplied with Si and seemed to play a role in enhancing wheat blast resistance. Polyphenoloxidase activity also apparently had no effect on resistance for any of the treatments. These overall results revealed the potential of Si to decrease wheat susceptibility to blast.

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Parâmetros genéticos e diversidade em progênies de Macaúba com base em características morfológicas e fisiológicas

Domiciano

Alves

Laviola

et al. 2015

Cienc. Rural

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Alterations in Gas Exchange and Oxidative Metabolism in Rice Leaves Infected by Pyricularia oryzae are Attenuated by Silicon

Domiciano

Cacique

Freitas³

et al. 2015

Phytopathology®

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Rice blast, caused by Pyricularia oryzae, is the most important disease in rice worldwide. This study investigated the effects of silicon (Si) on the photosynthetic gas exchange parameters (net CO2 assimilation rate [A], stomatal conductance to water vapor [gs], internal-to-ambient CO2 concentration ratio [Ci/Ca], and transpiration rate [E]); chlorophyll fluorescence a (Chla) parameters (maximum photochemical efficiency of photosystem II [Fv/Fm], photochemical [qP] and nonphotochemical [NPQ] quenching coefficients, and electron transport rate [ETR]); concentrations of pigments, malondialdehyde (MDA), and hydrogen peroxide (H2O2); and activities of superoxide dismutase (SOD), catalase (CAT), ascorbate peroxidase (APX), glutathione reductase (GR), and lypoxigenase (LOX) in rice leaves. Rice plants were grown in a nutrient solution containing 0 or 2 mM Si (-Si or +Si, respectively) with and without P. oryzae inoculation. Blast severity decreased with higher foliar Si concentration. The values of A, gs and E were generally higher for the +Si plants in comparison with the -Si plants upon P. oryzae infection. The Fv/Fm, qp, NPQ, and ETR were greater for the +Si plants relative to the -Si plants at 108 and 132 h after inoculation (hai). The values for qp and ETR were significantly higher for the -Si plants in comparison with the +Si plants at 36 hai, and the NPQ was significantly higher for the -Si plants in comparison with the +Si plants at 0 and 36 hai. The concentrations of Chla, Chlb, Chla+b, and carotenoids were significantly greater in the +Si plants relative to the -Si plants. For the -Si plants, the MDA and H2O2 concentrations were significantly higher than those in the +Si plants. The LOX activity was significantly higher in the +Si plants than in the -Si plants. The SOD and GR activities were significantly higher for the -Si plants than in the +Si plants. The CAT and APX activities were significantly higher in the +Si plants than in the -Si plants. The supply of Si contributed to a decrease in blast severity, improved the gas exchange performance, and caused less dysfunction at the photochemical level.

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Wheat Resistance to Spot Blotch Potentiated by Silicon

Domiciano¹,

Rodrigues²,

Vale³

et al. 2010

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G Gisele isele P Pereira ereira D Domiciano omiciano, , F Fabrıcio abrício A Avila vila R Rodrigues odrigues, , F Francisco rancisco X Xavier avier R Ribeiro ibeiro V Vale ale, , M Maria aria S Santina antina X Xavier avier F Filha ilha, , W Wiler iler R Ribas ibas M Moreira oreira, , C Camila amila C Cristina ristina L Lage age A Abstract Spot blotch, caused by the fungus Bipolaris sorokiniana, is one of the most important diseases on wheat. The effects of silicon (Si) on this wheat disease were studied. Plants of wheat cultivars BR-18 and BRS-208 were grown in plastic pots containing Si-deficient soil amended with either calcium silicate (+Si) or calcium carbonate ()Si). The content of Si in leaf tissue was significantly increased by 90.5% for the +Si treatment. There was no significant difference between Si treatments for calcium content, so variations in Si accounted for differences in the level of resistance to spot blotch. The incubation period was significantly increased by 40% for the +Si treatment. The area under spot blotch progress curve, number of lesions per cm 2 of leaf area, and real disease severity significantly decreased by 62, 36 and 43.5% in +Si treatment. There was no significant effect of Si on lesion size. The role played by total soluble phenolics in the increased resistance to spot blotch of plants from both cultivars supplied with Si was not clear. Plants from cultivar BR-18 supplied with Si showed the highest values for concentration of lignin-thioglycolic acid derivatives during the most advanced stages of fungus infection. Chitinase activity was high at the most advanced stages of fungus infection on leaves from both cultivars supplied with Si and may have had an effect on fungus growth based on the reduction of the components of resistance evaluated. Peroxidase activity was found to be high only at 96 h after inoculation of both cultivars supplied with Si. Polyphenoloxidase activity had no apparent effect on resistance regardless of Si treatments. Results revealed that supplying Si to wheat plants can increase resistance against spot blotch.

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