Microplastics assessment in Arabian Sea fishes: accumulation, characterization, and method development / Avaliação de microplásticos em peixes do mar arábico: acumulação, caracterização e desenvolvimento de métodos

Around the globe, plastic has been entering the aquatic system and is ingested by organisms. Identification, optimal digestion method, and characterization of the polymers to trace sources are of growing importance. Hence, the present work investigated microplastics accumulation, digestion protocol efficiency, and characterization of polymers with FTIR analysis in the guts of five fishes (Lethrinus nebulosus, Rastrelliger kanagurta, Acanthopagrus arabicus, Otolithes ruber, and Euryglossa orientalis) from the Karachi coastal area, Arabian Sea. A total of 1154 microplastics (MPs) were ingested by 29 out of 33 fish species (87%). The highest average MP/fish was recorded in Otolithes ruber (54) and the lowest in Rastrelliger kanagurta (19.42). Microfibers were the most abundant shape with the highest numbers (35.52%) as compared to the rest of the MPs identified. Transparent microfibers were recorded as the highest in numbers followed by red, black, blue, and green. In this study, KOH with different concentrations and exposure times along with oxidizing agent hydrogen peroxide was tested (Protocols 3 and 4). Results showed these bases were highly efficient in obtaining optimal digestion of the samples. FTIR analysis confirmed that the majority of the polymers found in the fish guts were polyethylene and polypropylene. This study validated for the first time the presence of these polymers of plastic in marine fish from Pakistan.

Em todo o mundo, o plástico tem entrado no sistema aquático e tem sido ingerido por organismos. A identificação, o método de digestão ideal e a caracterização dos polímeros para rastrear fontes são de crescente importância. Portanto, o presente trabalho investigou o acúmulo de microplásticos, a eficiência do protocolo de digestão e a caracterização de polímeros com análise de FTIR nos tratos digestivos de cinco peixes (Lethrinus nebulosus, Rastrelliger kanagurta, Acanthopagrus arabicus, Otolithes ruber e Euryglossa orientalis) do litoral de Karachi, no mar Arábico. Um total de 1154 microplásticos (MP) foram ingeridos por 29 das 33 espécies de peixes (87%) estudadas. A maior média MP/peixe foi registrada no Otolithes ruber (54), e a menor no Rastrelliger kanagurta (19,42). As microfibras foram a forma mais abundante e com os maiores números (35,52%), em comparação ao restante das MPs identificadas. As microfibras transparentes foram detectadas em maior número, seguidas por vermelho, preto, azul e verde. Neste estudo, o KOH foi testado em diferentes concentrações e tempos de exposição, juntamente com o agente oxidante peróxido de hidrogênio (Protocolos 3 e 4). Os resultados mostraram que essas bases foram altamente eficientes para a obtenção de digestão ideal das amostras. A análise de FTIR confirmou que a maioria dos polímeros encontrados nos tratos digestivos dos peixes eram polietileno e polipropileno. Este estudo validou pela primeira vez a presença desses polímeros de plástico em peixes marinhos do Paquistão.

Hybrid materials based on chitosan functionalized with green synthesized copper nanoparticles: Physico-chemical and antimicrobial analysis.

Recently, the development of materials with antimicrobial properties has become a challenge under scrutiny. The incorporation of copper nanoparticles (NpCu) into a chitosan matrix appears to represent a viable strategy to contain the particles and prevent their oxidation. Regarding the physical properties, the nanocomposite films (CHCu) showed a decrease in the elongation at break (5 %) and an increase in the tensile strength of 10 % concerning chitosan films (control). They also showed solubility values lower than 5 % while the swelling diminished by 50 %, on average. The dynamical mechanical analysis (DMA) of nanocomposites revealed two thermal events located at 113° and 178 °C, which matched the glass transitions of the CH-enriched phase and nanoparticles-enriched phase, respectively. In addition, the thermogravimetric analysis (TGA) detected a greater stability of the nanocomposites. Chitosan films and the NpCu-loaded nanocomposites demonstrated excellent antibacterial capacity against Gram-negative and Gram-positive bacteria, proved through diffusion disc, zeta potential, and ATR-FTIR techniques. Additionally, the penetration of individual NpCu particles into bacterial cells and the leakage of cell content were verified by TEM. The mechanism of the antibacterial activity of the nanocomposites involved the interaction of chitosan with the bacterial outer membrane or cell wall and the diffusion of the NpCu through the cells. These materials could be applied in diverse fields of biology, medicine, or food packaging.

Improvement in the Carbonation Resistance of Construction Mortar with Cane Bagasse Fiber Added.

In this work, sugarcane bagasse fiber, a waste product of agroindustry, was added to mortar mixes at different proportions looking to seal porosities so as to improve the resistance of concrete to carbonation and to improve its mechanical properties. To evaluate the behavior of bagasse fibers in the alkaline media typical of mortars, bagasse fibers were subjected to solutions with alkaline pH values, and their chemical structure and morphological behavior was evaluated using FTIR (Fourier transform infrared spectroscopy) and SEM (Scanning Electron Microscopy). Using mortar cylinders in an accelerated carbonation chamber to obtain results in short lapses, the compressive strength and the carbonation were evaluated. The FTIR analysis results indicate that pH values of 11 and 12 causes a delignification, while at pH 9 and 10, a swelling of the molecule occurs because of the addition of hydroxyl ions, behavior that is confirmed with SEM images. A clear effect of the fiber addition on the performance of concrete was observed as the carbonation front of 35 mm for the sample without fibers was reduced to 2 mm for the sample with 2% fiber addition, resulting in an increase of 5 MPa in compressive strength. These results indicate that in the range of mortar pH, chemical changes occured over the sugarcane surface that could cause the growth of fibers and could partially seal the porosity in the mortars, thus enhancing its performance.

Plastic litter pollution along sandy beaches in the Caribbean and Pacific coast of Colombia.

Plastic pollution is a global problem that poses a threat to coastal and marine ecosystems and human livelihoods and requires effective solutions adaptable to local conditions. In Colombia, the knowledge about marine plastic pollution is still limited and the development of effective strategies for managing marine and coastal environments is crucial. Therefore, plastic pollution was assessed on 43 Colombian sandy beaches on the Caribbean and Pacific coasts. Amounts of macroplastic ranged from 35 ± 15 to 81 ± 23 items 100 m-1, being product's packaging the most common. Microplastic densities ranged from 3 to 1387 items m-2. The highest microplastic concentrations were found on the beaches from Caribbean cities and in rural areas of Pacific municipalities. Fragments and polyethylene were the most commonly observed shape and polymer categories, respectively. Tourism and poor waste management practices are the primary plastic sources on the studied beaches. Plastic litter on Colombian beaches are a problem that requires prevention, mitigation, and control actions to help conserve this ecosystem.

The impact of tourism on marine litter pollution on Santa Marta beaches, Colombian Caribbean.

Tourism is an important socioeconomic activity in coastal communities, which deteriorates marine-coastal ecosystem quality when poorly managed, increasing litter pollution on beaches during the main tourist seasons. This study aims to assess the tourism impact on litter pollution on eleven Santa Marta beaches, Colombian Caribbean. During high and low tourist seasons, people on the beaches were counted, macrolitter and microplastics were sampled, and perception surveys about litter on beaches were conducted. During the high tourist season, the number of people and macrolitter pollution increased, compared to the low tourist season. Plastics accounted for 30%-77% of macrolitter and microplastics ranged from 1 to 355 items/m2. Respondents identified tourism as a main litter source and plastics as the most common litter type. All assessed beaches are impacted by tourism causing litter pollution, therefore, stronger controls, educational, and awareness strategies are needed to reduce litter pollution and prevent ecological and socioeconomic impacts.

Evaluation of cytotoxic activity of protein extracts from the leaves of Morinda pubescens on human cancer cell lines

ABSTRACT Biologically active proteins isolated from plant species can be used in traditional medicine as prolific resources for new drugs Morinda pubescens Sm., Rubiaceae, is a promising medicinal plant which is widely used in folk medicine to treat fever due to primary complex, ulcer and glandular swellings. In this study, proteins were extracted from the leaves of M. pubescens, and precipitated with ammonium sulphate at various saturation concentrations ranging from 20 to 80%. The precipitated protein sample obtained with 80% saturation was further purified using ultrafiltration membrane (<10 kDa). SDS-PAGE analysis identified the presence of crude and ultrafiltered protein bands. FTIR spectrum of the ultrafiltered protein fractions depicted the presence of hydroxyl and carbonyl groups of proteins. The ultrafiltered proteins exhibited increased cytotoxic activity on A549 cells at the concentrations ranging from 15 to 100 µg/ml. About 98% cell viability was also observed in Vero cells treated with the maximum concentration of 100 µg/ml of ultrafiltered protein extract. DNA fragmentation was observed in A549 cells treated with 10 µg/ml of ultrafiltered proteins, indicating the onset of apoptosis.