RESUMO
Arsenic (As) toxicity is a serious hazard to agricultural land due to growing industrialization, which has a negative effect on wheat crop yields. To address this issue, using seaweed extract and Azospirillum brasilense has emerged as an effective strategy for improving yield under stress conditions. However, the combined application of A. brasilense and seaweed extract in wheat crops under As toxicity has not been fully explored. The effectiveness of combining A. brasilense and seaweed extract in reducing As toxicity in wheat production was examined in this study through a 2-year pot experiment with nine treatments. These treatments included a control with no additives and two As concentrations (50 and 70 µM). At 50 and 70 µM, As was tested alone, with seaweed extract, with A. brasilense, and both. Significant results were achieved in reducing As toxicity in wheat crops. Arsenic at 70 µM proved more harmful than at 50 µM. The application of A. brasilense and seaweed extract was more effective in improving crop growth rates, chlorophyll levels, and stomatal conductance. The combined application notably decreased As concentration in wheat plants. It was concluded that applying A. brasilense and seaweed extract not only improves wheat growth but can also improve soil parameters under As toxicity conditions by increasing organic matter contents, boosting nutrient availability, and increasing the production of antioxidant enzymes.
RESUMO
Nutrient deficiency is a limiting factor in saline-sodic soils resulting in low crop production. The study investigated wheat response to P and K added to soils. The K was applied at 0 (K0), 75 (K1), 150 (K2) kg K2O ha-1 as K2S04 and at (0 (P0), 60 (P1), 120 (P2) kg P2O5 ha-1 as (NH4)2HPO4 in three replications under two-factorial randomized complete block (RCB) design. Both treatments significantly enhanced wheat grain (118%) and dry matter yield (60%) at P2K2 compared to control. The P treatments significantly affected leaf P, Mg, SO4, Ca:P, SO4:P ratios and soil P, Ca:P, Cl:P and SO4:P ratios, while K on leaf K, Na, Ca, SO4 concentration, K:Na, K:Ca, SO4:P,Ca:P ratios and soil pH, Na, K, Ca, SO4 concentrations, SAR, Na:K, Ca:K and Na:Ca ratios. Leaf Na was decreased to 85.3 mmol (+) kg-1 at K2 compared to 105.3 mmol (+) kg-1at P2K0. Negative correlation (R2=0.906) of leaf K:Na was found with leaf Na concentration. The correlation of dry matter was higher (R2=0.851) with leaf K:Na ratio than grain yield (R2=0.392). It is concluded that the addition of K and P addition shows beneficial effects in improving crop nutrition and wheat yield in the saline-sodic soil environment.
A deficiência de nutrientes é um fator limitante em solos salino-sódicos, resultando em baixa produção agrícola. O estudo investigou a resposta do trigo ao P e K adicionados ao solo. O K foi aplicado em 0 (K0), 75 (K1), 150 (K2) kg K2O ha-1 como K2S04 e em (0 (P0), 60 (P1), 120 (P2) kg P2O5 ha-1 como (NH4)2HPO4 em três repetições sob delineamento de blocos completos casualizados (RCB) de dois fatores. Ambos os tratamentos aumentaram significativamente o rendimento de grãos de trigo (118%) e de matéria seca (60%) em P2K2 em comparação com o controle. Os tratamentos com P afetaram significativamente o P foliar, Mg, SO4, as razões Ca:P, SO4:P e o P do solo, e as razões Ca:P, Cl:P e SO4:P, enquanto K no K foliar, Na, Ca, concentração de SO4, razões K:Na, K:Ca, SO4:P, Ca:P e pH do solo, Na, K, Ca, concentrações de SO4, SAR, razões Na:K, Ca:K e Na:Ca. O Na da folha foi reduzido para 85,3 mmol (+) kg-1 em K2 em comparação com 105,3 mmol (+) kg-1 em P2K0. Correlação negativa (R2 = 0,906) do K:Na na folha foi encontrada com a concentração de Na na folha. A correlação da matéria seca foi maior (R2 = 0,851) com a relação K:Na da folha do que rendimento de grãos (R2 = 0,392). Conclui-se que a adição de K e P apresenta efeitos benéficos na melhoria da nutrição da cultura e na produtividade do trigo em solo salino-sódico