ABSTRACT
It has been speculated that selenium (Se) supply can affect cadmium (Cd) 'availability' and increase the Cd tolerance of plants used for phytoextraction, in a pH-dependent process. Thus, we evaluated the interaction Cd-Se and the effects of soil pH in this interaction on plant availability of Cd and phytoextraction efficiency of Urochloa decumbens cv. Basilisk grown in Oxisol. Two soil concentrations of Cd (0.93 and 3.6 mg kg-1) and Se (<0.2 and 1 mg kg-1) and two soil pH (0.01 mol L-1 CaCl2) conditions (4.1 and 5.7) were considered. At both pH, Se supply increased the exchangeable fraction of Cd and decreased the residual Cd fraction. At pH 4.1, the growth of U. decumbens was impaired by Se addition, regardless of Cd exposure. The lower root growth and tillering of U. decumbens exposed to Cd disappeared at pH 5.7 due to uptake of low Se concentrations. Thus, the toxic or beneficial effects of Se on growth of U. decumbens used for Cd phytoextraction depend on the amount of Se assimilated. The Cd phytoextraction efficiency of U. decumbens was not improved by Se supply, regardless of soil pH. Therefore, we cannot recommend the application of Se to increase Cd phytoextraction by this grass.
Subject(s)
Selenium , Soil Pollutants , Soil , Cadmium/analysis , Poaceae , Hydrogen-Ion Concentration , Soil Pollutants/analysis , Biodegradation, EnvironmentalABSTRACT
BACKGROUND AND AIMS: Signal grass (Urochloa decumbens) is a widely used pasture grass in tropical and sub-tropical areas due to its high aluminiun (Al) resistance. However, the underlying mechanisms conferring this resistance are not clearly understood. METHODS: The Al concentrations of bulk root tissues and the intracellular compartment were examined, including the impact of a metabolic inhibitor, carbonyl cyanide m-chlorophenyl hydrazone (CCCP). Next, we examined changes in the properties of signal grass root tissues following exposure to toxic levels of Al, including the cell wall cation exchange capacity (CEC), degree of methylation and concentrations of cell wall fractions. KEY RESULTS: Although signal grass was highly resistant to Al, there was a delay of 24-48 h before the expression of this resistance. We found that this delay in the expression of Al resistance was not related to the total Al concentration in the bulk apical root tissues, nor was it related to changes in the Al bound to the cell wall. We also examined changes in other properties of the cell wall, including the CEC, degree of methylation and changes in the concentration of pectin, hemicellulose and cellulose. We noted that concentrations of intracellular Al decreased by approx. 50 % at the same time that the root elongation rate improved after 24-48 h. Using CCCP as a metabolic inhibitor, we found that the intracellular Al concentration increased approx. 14-fold and that the CCCP prevented the subsequent decrease in intracellular Al. CONCLUSIONS: Our results indicate that the delayed expression of Al resistance was not associated with the Al concentration in the bulk apical root tissues or bound to the cell wall, nor was it associated with changes in other properties of the cell wall. Rather, signal grass has an energy-dependent Al exclusion mechanism, and this mechanism requires 24-48 h to exclude Al from the intracellular compartment.
Subject(s)
Plant Roots , Poaceae , Aluminum , Cell Wall , PectinsABSTRACT
AbstractUrochloa decumbens (Stapf) R. D. Webster (Poaceae) is an exotic species with has spread rapidly through the Cerrado area of Pantanal, Mato Grosso do Sul, Brazil. It has covered the soil aggressively turning it into cultivated pastures. Thus, it has become a challenge to protect native areas due its capacity of exclusion of native species. It has been observed that Microlobius foetidus (Jacq.) M.Sousa & G.Andrade species (Fabaceae) shows a dominant pattern over the development of U. decumbens. This work shows that M. foetidusinterfere on the natural growth of U. decumbens within 10 m ratio. Between 15 and 20 m, it was observed an increase of Importance Value index (IVI) and Relative cover (RC) values. It was also observed a variation on the antioxidant defense system of U. decumbens within 10m ratio from M. foetidus. The enzymes superoxide dismutase, catalase and peroxidase present higher levels of activity then those found for glutathione reductase. This data indicates that M. foetidus may have an effect on U. decumbens, increase the activity of antioxidant enzymes. This effect probably happens as means to neutralize the toxic effects of the oxygen generated due to the presence of allelochemicals, which increases oxidative stress.
ResumoUrochloa decumbens (Stapf) R. D. Webster (Poaceae) é uma espécie exótica que se expandiu rapidamente no Cerrado do Pantanal de Mato Grosso do sul, e cobre o solo de maneira agressiva convertendo a vegetação natural em pastagens cultivadas e se tornando um desafio para o controle em áreas protegidas devido a sua capacidade de excluir espécies nativas. Observações demonstraram que a espécie Microlobius foetidus(Jacq.) M.Sousa & G.Andrade (Fabaceae) apresenta padrões de dominância, interferindo no desenvolvimento de U. decumbens e alterações na fitofisionomia e sistema de defesa antioxidante desta espécie foram investigados. Nossos estudos demonstraram que M. foetidus interfere no crescimento de U. decumbens nos primeiros 10 metros de distância, sendo que aos 15 e 20 metros, é verificado um aumento nos valores de IVI e CR. Alterações no sistema de defesa antioxidante de U. decumbens também foram verificados nos indivíduos amostrados até 10 metros de distância. Superóxido dismutase, catalase e peroxidase foram provavelmente as enzimas cruciais envolvidas na neutralização de espécies reativas de oxigênio, uma vez que apresentaram maiores níveis de atividade em comparação com outras enzimas, tais como glutationa redutase. Os dados indicam que a proximidade de U. decumbens as áreas onde se encontram populações de M. foetidus, aumentam a atividade das enzimas antioxidantes. Este efeito provavelmente ocorre como meio para neutralizar os efeitos tóxicos do oxigênio gerado, devido à presença de aleloquímicos, o que aumenta o estresse oxidativo.
