Vanessa Maronezi scite author profile

Vanessa Maronezi

3Publications

2Citation Statements Received

44Citation Statements Given

How they've been cited

How they cite others

139

Affiliations

Federal University of Triângulo Mineiro, Instituto de Ciências Farmacêuticas, Universidade Federal de São Paulo

Publications

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Mecanismos de remoção de Cromo(VI) do solo pela interação entre matéria orgânica e Ferro(III)

et al. 2019

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A contaminação do solo e águas por cromo (Cr) tem ocorrido frequentemente em áreas industriais e em suas proximidades, muitas vezes devido a acidentes e, também, ao mal gerenciamento de seus resíduos. O cromo na forma hexavalente (Cr(VI)) é extremamente tóxico e cancerígeno, enquanto que na forma trivalente (Cr(III)) e em níveis traço é considerado benéfico aos seres humanos e animais. O presente estudo apresenta uma revisão sobre os principais mecanismos relacionados à interação do Cr(VI) com alguns componentes do solo, quando associado a um evento de contaminação do meio. Observa-se que os principais agentes responsáveis pela remoção do Cr(VI) do meio são aqueles capazes de reduzi-lo à forma trivalente (Cr(III)), como a fração orgânica do solo e o Fe(II). No entanto, minerais e compostos ricos em Fe(III) também podem auxiliar na redução do Cr(VI). Nesse caso, o Fe(III) pode ser reduzido pelo carbono orgânico à forma divalente que, por sua vez, reduz o cromo à forma trivalente, imobilizando-o no solo. Para que isso ocorra, além da presença de matéria orgânica, o pH ácido do meio também auxilia nesse processo – cujas condições são comumente encontradas em solos tropicais, como o Latossolo Vermelho. Portanto, entender como o Cr(VI) reage com os principais componentes do solo é muito importante para auxiliar nos processos de remediação de áreas contaminadas.

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Understanding the abiotic mechanisms for the removal of Cr(VI) through interactions with the components of an Oxisol and peat as part of a nature-based solution

Maronezi¹,

Shinzato²

2023

Water Air Soil Pollut

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Amendment of organic compost proprieties through composting-vermicomposting integration

Maronezi

Assunção

Melo

et al. 2021

Acta

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The aim of the current study is to evaluate the effects of integrating composting-vermicomposting to improve the organic compost as from the physicochemical analyses and by their application on Brachiaria decumbens growth. Experiments carried out in composting unit used 30:1 ratio of nitrogen-rich organic waste (raw vegetables, fruits and cooked food) and carbon (dry grass) in 2 pile configurations (with, or without passive aeration). After 60 days, product was subjected to vermicomposting for 45 days. Composts were analyzed to check their quality (temperature, pH, moisture, organic carbon, nitrogen and phosphorus levels), as well as compared to each other as biofertilizers (10% (w/v)) for B. decumbens growth. Data have suggested that the vermicomposting process improved the compost pile by increasing its nitrogen (1.26% to 1.95%), phosphorus (0.64% to 1.2%) and organic carbon contents (17.1% to 18.9%). B. decumbens growth showed no significant differences between those treatments, which indicates that organic fraction should be increased (>10%) to release their nutrients to plant.

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