Removal of trace element by isolates of Aspergillus brasiliensis EPAMIG 0084 and Penicillium citrinum EPAMIG 0086 in biofilters

Coffee beans processing generates a large volume of wastewater composed of trace elements which can be detrimental to human health. The present study aimed at evaluating the capacity of strains of Aspergillus brasiliensis and Penicillium citrinum in tolerating and removing trace elements namely: Cu, Mn and Zn from coffee wastewater. The use of fungi in the treatment of polluted wastewater has emerged as a viable alternative to conventional treatment. The fungi were isolated from polluted and unpolluted areas, which were tested on a laboratorial scale and on large scale (aerobic bioreactor) with immobilized biomass. As expected, the strains isolated from polluted areas (P. citrinum EPAMIG 0086 and A. brasiliensis EPAMIG 0084) were more tolerant to the elements studied than the strains isolated from unpolluted areas (A. brasiliensis IBT 26433 and P. citrinum INCQS 40011). As for the removal tests conducted on a laboratorial scale, it is worth mentioning that the fungal strains under study responded differently to the tested elements (regardless of their origin). In the tests conducted in bioreactors, the fungus P. citrinum EPAMIG 0086 presented a greater removal capacity of the elements in aerobic biofilters (44, 62 and 48% for Cu, Mn and Zn, respectively) than the A. brasiliensis EPAMIG 0084 (21.7, 51 and 41.6%, respectively), which indicates that this fungus is an efficient alternative to conventional treatments.Keywords: Coffee wastewater, bioreactors, fungi, immobilization, removal, trace elementsAfrican Journal of Biotechnology, Vol 13(37) 3759-377

Absorção de nutrientes e resposta à adubação em linhagens de tomateiro Nutrient uptake and response to fertilization of tomato inbred lines

Vinte e nove linhagens de tomateiro rasteiro foram avaliadas quanto à eficiência de absorção de nutrientes e resposta à adubação, em dois ensaios, no ano de 2006, na Embrapa Hortaliças. No primeiro ensaio aplicou-se 1/3 da dosagem de fertilizante utilizada no segundo. O delineamento experimental foi inteiramente casualizado, com três repetições. As linhagens foram classificadas quanto à eficiência na absorção de nutrientes e reposta à adubação baseando-se nos incrementos de índice DRIS e nos incrementos de produtividade. Os valores críticos para eficiência na absorção e resposta à adubação foram as médias de incremento de índice DRIS e produtividade, respectivamente. As linhagens diferenciaram-se quanto à eficiência na absorção dos nutrientes e quanto à resposta à adubação. Foram consideradas responsivas à adubação e eficientes na absorção de nutrientes as linhagens 03, 04, 05, 09 e 22, para o N; 03, 04, 09, 13, 15 e 29, para o P; 03, 05, 10, 21, 22, 25 e 27, para o K; 05, 10, 21, 22, 25, 27 e 29, para o Ca; 04, 13, 15, 27 e 29, para o S e B; e 03, 05, 09, 10 e 27, para o Cu. As linhagens com os melhores desempenhos foram a 27, na absorção dos nutrientes, e 03, 04, 05 e 29, na responsividade à adubação.<br>Twenty nine processing tomato inbred lines were evaluated for their efficiency in nutrient uptake and in their response to fertilization. Two field assays were carried out at Embrapa Hortaliças, Brazil, with distinct fertilization dosages in 2006. In the first assay 1/3 of the total fertilization was applied when compared with the second assay. The experiments were conducted using a completely randomized design with three replications. The criteria to rank the inbred lines in both assays were the DRIS (Diagnosis and Recommendation Integrated System) index value and fruit yield. The critical values in order to distinguish efficient versus non-efficient as well as responsive versus non-responsive inbred lines were the average increase in both DRIS index value and fruit yield. Differences were detected among inbred lines for the uptake efficiency for all nutrients and for response to fertilization. The inbred lines 03, 40, 09 and 22 were classified as responsive to fertilization and efficient in N uptake; the lines 03, 04, 09, 13, 15 and 29 were for P; 03, 05, 10, 21, 22, 25 and 27 for K, 05, 10, 21, 22, 25, 27 and 29 for Ca; 04, 13, 15, 27 and 29 for S and B; 03, 05, 09, 10 and 27 for Cu. The inbred lines with the best performance were 27 in relation to nutrient absorption, and the lines 03, 04, 05 and 29 in relation to fertilization response

Cd-tolerance markers of Pfaffia glomerata (Spreng.) Pedersen plants: anatomical and physiological features

Physiological and anatomical features of Cd-tolerance in Pfaffia glomerata were examined by exposing plantlets to nutrient solutions with increasing Cd concentrations (0, 15, 45, and 90 μmol Cd L-1), and possible Cd-tolerance markers were established. Cd contents were found to be higher in roots than in shoots. According to the bio-concentration factor data, this species is effectively a Cd-hyperaccumulator, as previously attested. Cd induced the appearance of xeromorphic characteristics in leaves (decreased water potential, increased numbers and decreased stomata size) and increased root endodermis thickness. The enzymatic antioxidant systems of roots and leaves were differently affected by Cd. The coordinated activities of antioxidant enzymes were effective in reducing Cd-induced reactive oxygen species in plants, mainly in leaves. Root endodermis thickness, stomatal size and numbers, root superoxide dismutase, and guaiacol peroxidase, as well as leaf guaiacol peroxidase and catalase activities can all be considered Cd-tolerance markers in Pfaffia glomerata. Due to its high root Cd accumulation, Pfaffia glomerata may be useful in Cd-phytoextraction programs, however the pharmacological use of plants grown in the presence of Cd must be avoided