Jean Paulo Silva Natal scite author profile

O mosquito Aedes aegypti (conhecido como mosquito da dengue ou pernilongo rajado), vem se espalhando em quase todo o planeta, principalmente nas regiões tropicais e subtropicais. O Aedes aegypti é o principal vetor de múltiplas doenças, como dengue, zika e chikungunya. Uma das estratégias em muitos municípios brasileiros na tentativa de combater esse mosquito é a utilização do ‘Fumacê’, um defensivo líquido que tem na sua principal composição Malathion em Emulsão Aquosa (EA) 44%. O presente estudo teve como objetivos identificar quais os efeitos negativos para seres vivos e meio ambiente devido ao uso inadequado do Malathion no combate ao mosquito da dengue. Foi realizado um levantamento nas bases de dados (PUBMED, Science Direct e Google Scholar), nos últimos cinco anos (2014-2018), usando as restrições ou combinações de termos: ‘Malathion’, ‘Malation’, ‘Malatião’, ‘Aedes aegypti’, ‘A. aegypti’, ‘Mosquito da Dengue’, ‘Inseticida’, ‘Organofosforado’, ‘Animais Nocaute’, ‘Intoxicação’. A pesquisa procurou identificar dados sobre riscos do uso inadequado do Malathion para a saúde humana, a toxicidade do defensivo, o impacto sobre o meio-ambiente, as alternativas de biorremediação e algumas opções biotecnológicas. Desta forma, o defensivo Malathion através de estudos in vivo em animais como: Cyprinus carpio (carpas); Rattus norvegicus (ratos Wistar) e testes in vitro com células de linhagens humanas mostrou efeitos tóxicos em baixas concentrações. Estes dados revelam a necessidade de mais estudos sobre este defensivo para melhor entendimento de seus efeitos sobre os seres vivos e o meio ambiente.

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Okara and okara modified and functionalized with iron oxide nanoparticles for the removal of Microcystis aeruginosa and cyanotoxin

Magalhães‐Ghiotto

Natal

Nishi

et al. 2022

Environmental Technology

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Removal of methylene blue and safranin orange pollutants from liquid effluents by soy residue

et al. 2023

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Methylene blue and safranin orange dyes, which are used in the textile and pharmaceutical industries, can severely damage the environment and human health. This study investigated the use of okara residue as an alternative biosorbent for the removal of methylene blue and safranin orange dyes. Substantial amounts of okara residue are generated daily during the processing of soy milk in the agro‐industrial sector. Dye adsorption was not affected by pH. An adsorption study identified the optimal experimental conditions as: 298 K, 0.03 g of adsorbent in 30 mL of dye solution at a concentration of 50 mg L−1, and a contact time of 300 min for methylene blue dye, and 298 K, 0.02 g of adsorbent in 30 mL of dye solution at a concentration of 50 mg L−1, and a contact time of 200 min for safranin orange dye; the maximum adsorption capacities were 93.201 ± 0.01 and 184 592 ± 0.02 mg g−1, respectively. Okara has considerable advantages over other natural materials as an alternative for the treatment of industrial effluents. Because it is easily obtained and does not require any physicochemical treatment, adsorption does not require any specific operation temperature. In addition, okara exhibited a high adsorption capacity compared to other natural materials that require chemical and physical processing for adsorbent preparation.

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