Guido Capotorti scite author profile

A strain of Aspergillus terreus was isolated from a polycyclic aromatic hydrocarbons (PAHs) polluted soil. The metabolism of pyrene and benzo(a)pyrene by this fungus was investigated in liquid submerged culture added of 50 and 25 ppm respectively of each compound. Depletion of pyrene and Benzo(a)pyrene was evident during the first stages of growth and was 60% and 27.5% respectively of the added amount after nine days of culture. Solvent extracts of the fermentation broth and mycelium were analysed for presence of metabolites by HPLC-MS technique. Under the present cultural conditions pyrene was mainly metabolised to pyrenylsulfate similarly to benzo(a)pyrene that led to benzo(a)pyrenylsulfate. The structure of 1-pyrenilsulfate was determined after purification of extracts and H-NMR analysis. The result show that the isolated A. terreus strain metabolises PAHs by reaction similar to those previously reported for non lignolinolytic fungi with a mechanism that suggests the hydroxylation by a cytochrome P-450 monooxygenase followed by conjugation with sulfate ion.

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FORMATION OF SULFATE CONJUGATES METABOLITES IN THE DEGRADATION OF PHENANTHRENE, ANTHRACENE, PYRENE AND BENZO[A]PYRENE BY THE ASCOMYCETEASPERGILLUS TERREUS

Capotorti¹,

Cesti²,

Lombardi³

et al. 2005

Polycyclic Aromatic Compounds

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The metabolism of four PAHs (phenanthrene, anthracene, pyrene and benzo(a)pyrene) by an Aspergillus terreus strain, isolated from a polluted soil, was investigated in liquid submerged culture. The main metabolites identified by the HPLC-MS technique, after solvent extraction of the fermentation broth and mycelium, were aryl-sulfates and hydroxyl-aryl-sulfates. A metabolic pathway was identified involving in sequence: the hydroxylation by a monooxygenase of the PAHs, the conjugation with a sulfate ion, followed by a further hydroxylation to hydroxyl-aryl-sulfates compounds. PAHs degradation by A. terreus yielded a different number of metabolite isomers depending on the type of the parent PAH. The environmental fate and ecotoxicity of the metabolite 9-phenanthrenesulfate was also investigated by a respirometric test of ready biodegradability and by a Vibrio fischeri acute toxicity test respectively. This compound was easily degradable by microbial consortia derived from polluted soil and capable of thriving on phenanthrene as its sole carbon source. 197 198 G. Capotorti et al.Moreover the sulfate conjugate resulted in 2 orders of magnitude less toxic than its precursors phenanthrene.

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Effects of urease and nitrification inhibitors application on urea fate in soil and nitrate accumulation in lettuce

Montemurro

Capotorti²,

Lacertosa³

et al. 1998

Journal of Plant Nutrition

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The effects of amendment of urea with the urease inhibitor N-(n-butyl)-thiophosphoric triamide (NBPT) and the nitrification inhibitor dicyandiamide (DCD) on urea trasformation in soil and nitrate accumulation in winter lettuce were studied in a cold greenhouse experiment. The DCD inhibited remarkably the nitrification process for more then two months, maintaining significantly higher levels of ammonium in soil solution compared to normal urea. The DCD did not decrease the ammonia volatilization but determined a significant reduction of plant nitrate concentration at final harvest. The treatment urea + NBPT showed a behavior slightly different from normal urea with a higher level of soil nitrate three weeks after nitrogen (N) fertilization. No effects on NO 3 plant accumulation were observed, but losses of NH 3 were significantly reduced.

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A Survey on the Metal(loid) Accumulation Ability of Spontaneous and Established Plants for the Phytomanagement of an Industrial Landfill in the Venice Lagoon

Pietrini

Iori

Pietrosanti

et al. 2018

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Salicaceae Establishment in a Heavy Metal-contaminated Site Revealed by Eco-physiological Characterization of the Culturable Soil Bacterial Fraction

Paolis

Pietrosanti

Capotorti

et al. 2010

Water Air Soil Pollut

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The polluted site object of our study was located on an island nourished using different materials, including industrial by-products, inside the area of Porto Marghera (Venice Lagoon, Italy). Until the 1970s, this area was one of the most important chemical districts in Italy and was largely subjected to heavy metals and metalloids pollution. In the year 2004, some Populus and Salix spp. had been planted in this polluted site in order to investigate both the hydrological control and the phytoremediation capability of these trees. In the present work, polluted soil was analyzed at different depths for both metals content and culturable microbial communities with the aim to evaluate the establishment of previously planted poplar and willow plants. Bacteria were characterized on the basis of the r/Kstrategists distribution since r-strategists (fast-growing bacteria) and K-strategists (slow-growing bacteria) are characteristic for unstable and stable environments, respectively. A better characterization of bacterial communities composition was obtained from colony development and eco-physiological indices. Results appeared to confirm a good establishment of poplar and willow plants in the heavy metal contaminated site.

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Guido Capotorti

Pyrene and benzo(a)pyrene Metabolism by an Aspergillus Terreus Strain Isolated from a Polycylic Aromatic Hydrocarbons Polluted Soil

FORMATION OF SULFATE CONJUGATES METABOLITES IN THE DEGRADATION OF PHENANTHRENE, ANTHRACENE, PYRENE AND BENZO[A]PYRENE BY THE ASCOMYCETEASPERGILLUS TERREUS

Effects of urease and nitrification inhibitors application on urea fate in soil and nitrate accumulation in lettuce

A Survey on the Metal(loid) Accumulation Ability of Spontaneous and Established Plants for the Phytomanagement of an Industrial Landfill in the Venice Lagoon

Salicaceae Establishment in a Heavy Metal-contaminated Site Revealed by Eco-physiological Characterization of the Culturable Soil Bacterial Fraction

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