The selective separation of precious metals from complex aqueous solutions is important in protecting the environment, aquatic ecosystems, water resources and recycling resources. In this study, cysteine-containing polymeric nanoparticles were synthesized using the molecular imprinting (MIP) technique with the mini-emulsion polymerization method. The basis of the polymer design is inspired by affinity of silver to cysteine in biological systems. The synthesized silver ion imprinted (Ag+-IIP) poly(hydroxyethylmethacrylate-N -methacryloyl-L-cysteine) poly(HEMA-MAC) nanoparticles were characterized by elemental analysis, zeta sizer, Fourier transform infrared (FTIR) spectroscopy, atomic force microscopy (AFM), and scanning electron microscopy (SEM). The effects of pH, ionic strength and interaction time on adsorption of Ag+ ions were investigated. In experimental studies, the highest adsorption amount (196.9 mg g1 nanoparticle) was reached in a short period of 40 min at pH 5.0 and 150 mg L-1 concentration. Selectivity studies of synthesized Ag+-IIP nanoparticles against silver (Ag+) ions were carried out in the presence of lithium (Li+), barium (Ba2+), mercury (Hg2+) and cadmium (Cd2+) ions. Experimental results indicate that nanoparticles adsorb Ag+ ions with high selectivity. Ag+-IIP nanoparticles have 3.7, 3.1, 2.4, and 2.6 times more selective or higher affinity for Ag+ ions compared to Li+, Ba2+, Hg2+ and Cd2+ ions, respectively, compared to Ag+-non-imprinted (NIP) nanoparticles. environment ecosystems study cysteinecontaining containing MIP (MIP miniemulsion mini emulsion method systems Ag+IIP AgIIP IIP Ag (Ag+-IIP polyhydroxyethylmethacrylateN poly hydroxyethylmethacrylate N methacryloylLcysteine methacryloyl L -methacryloyl-L-cysteine polyHEMAMAC HEMA MAC poly(HEMA-MAC analysis sizer FTIR (FTIR spectroscopy AFM, AFM , (AFM) SEM. SEM . (SEM) investigated 196.9 1969 196 9 (196. g nanoparticle 4 50 5 0 5. 15 L1 1 L- concentration (Ag+ Li Li+ (Li+) Ba2 Ba Ba2+ (Ba2+) Hg2 Hg (Hg2+ Cd2 Cd (Cd2+ selectivity 37 3 7 3.7 31 3.1 24 2 2.4 26 6 2. respectively Ag+nonimprinted Agnonimprinted non NIP (NIP (AFM (SEM 196. 19 (196 (Ag (Li+ (Ba2+ (Hg2 (Cd2 3. nonimprinted (19 (Li (Ba2 (Hg (Cd (1 (Ba (

Resumen Introducción. Las condiciones edafoclimáticas del Ecuador son ideales para el cultivo del arroz, los rendimientos son mayores al promedio mundial, pero su manejo agronómico conlleva a un aumento de cadmio en el suelo, que puede llegar al grano por translocación, lo cual afectan su inocuidad. Objetivo. Evaluar la absorción de cadmio mediante la técnica de omisión de macronutrientes en seis suelos del Ecuador y su efecto sobre el desarrollo vegetativo del cultivo de arroz. Materiales y métodos. El ensayo se realizó en la Estación Experimental Tropical Pichilingue del Instituto Nacional de Investigaciones Agropecuarias, Ecuador, durante el año 2018. Se estudiaron nueve tratamientos 1) Sin fertilización y sin Cd (testigo 1), 2) sin fertilización y con Cd (Testigo 2), 3) Fertilización completa y seis tratamientos de omisión de un nutriente a la vez, se usó un diseño de experimentos de bloques completamente al azar, parcelas divididas y tres repeticiones. Las variables evaluadas fueron las relacionadas a la producción de materia seca en raíz y parte aérea. Para la comparación entre medias, se utilizó la prueba de Tukey (p<0,05). Resultados. Las omisiones de los nutrientes (N y P) llevaron a la reducción de la absorción del Cd, que disminuyó la producción de materia seca, en particular en los suelos muy ácidos o alcalinos como en Sucumbíos (pH 4) y Guayas (pH 7,9), respectivamente. Conclusiones. La absorción de cadmio en plantas de arroz se redujo en mayor medida con la omisión de los macronutrientes N y P, principalmente en los suelos de Sucumbíos, Los Ríos, El Oro y Manabí, afectando también la omisión de nutrientes a la producción de materia seca y los rendimientos, observándose además que un pH por debajo de 5 o superior a 7,9 afecta la absorción de cadmio en los suelos estudiados

Abstract Introduction. The soil and climatic conditions of Ecuador are ideal for rice cultivation, yields are higher than the world average, but agronomic management leads to an increase of cadmium in the soil, which can reach the grain by translocation, which affects its safety. Objetive. To evaluate the absorption of cadmium through the omission of macronutrients technique in six soils of Ecuador and its effect on the vegetative development of rice crops. Materials and methods. The trial was carried out at the Pichilingue Tropical Experimental Station of the National Institute of Agricultural Research, Ecuador, during 2018. Nine treatments were studied: 1) Without fertilization and without Cd (control 1), 2) without fertilization and with Cd (Control 2), 3) Complete fertilization and six omission treatments of one nutrient at a time, a completely randomized block design of experiments, divided plots and three repetitions was used. The variables evaluated were those related to the production of dry matter in the root and aerial part. For the comparison between means, the Tukey test was used (p<0.05). Results. Nutrients omissions (N and P) led to reduced Cd absorption, which decreased dry matter production, particularly in very acidic or alkaline soils such as in Sucumbíos (pH 4) and Guayas (pH 7, 9), respectively. Conclusions. The absorption of cadmium in rice plants was reduced to a greater extent with the omission of the macronutrients N and P, mainly in the soils of Sucumbíos, Los Ríos, El Oro and Manabí, the nutrient omission technique also affecting the production of dry matter and yields, also observing that a pH below 5 or higher than 7.9 affects the absorption of cadmium in the soils studied.

Summary: The municipality of Medellín, Veracruz, México has a type A landfill, whose operation level has recently increased due to landfill closure in the city of Veracruz. The objective of this study is to analyze and evaluate the quality of groundwater surrounding the landfill of the municipality of Medellín., such as hydrogen potential (pH), electrical conductivity (EC), turbidity (T), chemical oxygen demand (COD), total phosphorus (TP), nitrates (NO3 -), total dissolved solids (TDS) and heavy metals Lead (Pb), cadmium (Cd) and copper (Cu) in seven groundwater wells near the landfill during the “north” and dry season. The physicochemical water results from the seven wells analyzed were within the maximum permissible limits of Mexican regulations: turbidity values exceeded international regulations and four wells were found contaminated according to COD levels. The concentrations of Pb and Cd in both seasons were higher than the maximum permissible limits for human consumption in accordance with national and international regulations. Therefore, the results indicated the negative influence of the landfill on groundwater quality.

Resumen: Los rellenos sanitarios se han vuelto una fuente de contaminación de aguas superficiales y subterráneas, debido a la generación de lixiviados que pueden llegar hasta los cuerpos de agua con efectos adversos al ambiente. El municipio de Medellín, Veracruz, México; cuenta con un relleno sanitario tipo A cuyo nivel de operación se ha incrementado recientemente debido a la clausura del relleno sanitario de la ciudad de Veracruz. El objetivo del presente estudio fue analizar la calidad del agua subterránea aledaña al relleno sanitario del municipio de Medellín. Se evaluaron potencial de hidrógeno (pH), conductividad eléctrica (CE), turbidez (T), Demanda Química de Oxigeno (DQO), Fósforo Total (PT), Nitratos, (NO3 -), Sólidos Disueltos Totales (SDT) y metales pesados Plomo (Pb), Cadmio (Cd) y Cobre (Cu) en 7 pozos de agua subterránea próximos al relleno sanitario durante la temporada de “nortes” y estiaje. Los resultados fisicoquímicos del agua de los 7 pozos analizados se encontraron dentro de los límites máximos permisibles de la normatividad mexicana; los valores de turbidez superaron la normatividad internacional y 4 pozos mostraron estar contaminados de acuerdo a los niveles de DQO. Las concentraciones de Pb y Cd en ambas temporadas se encontraron superiores a los límites máximos permisibles para consumo humano de acuerdo con la normatividad nacional e internacional. Los resultados indicaron la influencia negativa del relleno sanitario en la calidad del agua subterránea.

Resumen:La demanda creciente del sector vivienda en la ciudad de Machala-Ecuador convirtió a las invasiones en el modelo común de crecimiento desorganizado de esta ciudad, donde utilizan el estero “El Macho” para la eliminación de desechos y aguas negras. Estudios preliminares respecto al contenido de metales pesados en este estero concluyen que las concentraciones de metales como el cadmio son superiores a los límites establecidos en la normativa del Texto Unificado de Legislación Secundaria del Ministerio del Ambiente. En la presente investigación se evaluó la remoción de cadmio de muestras de aguas del estero “El Macho” utilizando espuma de poliuretano activada con nanopartículas de plata como adsorbente. Para la recolección de los datos de adsorción se diseñó de un reactor tubular vertical, utilizando 1,560 g de adsorbente de poliuretano modificado con nanopartículas de plata, pH 8 y tamaño de la espuma de poliuretano de forma cubica de 0,5 cm de lado. Se cuantificó las concentraciones de cadmio mediante espectroscopia de absorción atómica, en muestras de aguas del Estero antes y después de su paso por el reactor. Se concluye que la espuma de poliuretano activada con nanopartículas de plata, como adsorbente, alcanzó un porcentaje de remoción de 48,75% y, por lo tanto, es efectivo para el tratamiento de aguas contaminadas con cadmio.

Abstract:The growing demand of the housing sector in the city of Machala-Ecuador turned invasions into the common model of disorganized growth of this city, where they use the “El Macho” estuary for the disposal of waste and sewage. Preliminary studies regarding the content of heavy metals in this estuary conclude that the concentrations of metals such as cadmium are higher than the limits established in the regulations of the Unified Text of Secondary Legislation of the Ministry of the Environment. In the present investigation, the removal of cadmium from water samples of the “El Macho” estuary was evaluated using polyurethane foam activated with silver nanoparticles as an adsorbent. To collect adsorption data, a vertical tubular reactor was designed, using 1,560 g of polyurethane adsorbent modified with silver nanoparticles, pH 8 and cubic-shaped polyurethane foam size of 0.5 cm of side. Cadmium concentrations were quantified by atomic absorption spectroscopy in samples of Estero water before and after passing through the reactor. It is concluded that the polyurethane foam activated with silver nanoparticles, as an adsorbent, reached a removal percentage of 48.75% and therefore, it is effective for the treatment of water contaminated with cadmium.

Abstract Nonferrous metal smelting operations are a recognized source of metal accumulation in surrounding soils. In Mednogorsk, Russia, soil contamination results from atmospheric emissions from a local copper (Cu) smelter. This study aimed to assess health risks by analyzing the levels of Cu, arsenic (As), cadmium (Cd), lead (Pb), and zinc (Zn) in 20 Mednogorsk topsoil samples and three background area samples. The phytotoxicity of metals to Lolium perenne was also evaluated. The soil ingestion protocol of the US Environmental Protection Agency was used for health risk assessment. Phytotoxicity tests were performed on ryegrass using a standard protocol. The levels of Cu correlated with those of other elements, indicating that the smelter was the source. Of concern, the carcinogenic risk exceeded the 10−04 threshold in 85% and 15% of the samples for children under five years of age and adults, respectively. In addition, 60% of the samples exceeded the safe Pb threshold for children's health (80 mg kg−1). These risk levels are unacceptable and require specific intervention by the relevant authorities. However, only 20% of the samples showed high phytotoxicity, mostly in acidic soils (pH<4.0). This discussion focuses on the potential of soil phytostabilization to reduce human metal exposure, as the results provide valuable insights for managing metal pollution in regions affected by nonferrous smelter emissions worldwide.

Resumen Las fundiciones de metales no ferrosos son una fuente reconocida de acumulación de metales en los suelos circundantes. En Mednogorsk, Rusia, la contaminación del suelo se debe a las emisiones atmosféricas de una local fundición de cobre. Este estudio tiene como objetivo evaluar los riesgos para la salud humana mediante el análisis de los contenidos de cobre, arsénico, cadmio, plomo y zinc en 20 muestras de suelos de Mednogorsk y tres muestras de suelos del área no contaminada. Complementariamente, se evaluó la fitotoxicidad de los metales para una especie indicadora, Lolium perenne, utilizando un protocolo estándar. Para la evaluación de riesgos para la salud humana, se utilizó el protocolo de la Agencia de Protección Ambiental de los EEUU. Los contenidos de cobre se correlacionaron con los de otros elementos, lo que indica que la fundición de cobre es la fuente de emisión. Lo preocupante es que el riesgo cancerígeno superó el umbral de 10−4 en el 85% de las muestras para niños de edad <5 años y en el 15% de las muestras para los adultos. Además, el umbral de plomo considerado seguro para la salud infantil (80 mg kg−1) se superó en el 60% de las muestras. Estos niveles de riesgo son inaceptables y requieren una intervención específica por parte de las autoridades pertinentes. Sin embargo, sólo el 20% de las muestras mostraron alta fitotoxicidad en L. perenne, principalmente en suelos ácidos (con pH <4,0). Considerando estos resultados, se evalúe la factibilidad de un proceso de fitoestabilización del suelo para reducir la exposición humana a los metales. Los resultados proporcionan información valiosa para gestionar la contaminación por metales en regiones afectadas por emisiones de fundiciones no ferrosas en todo el mundo.

ABSTRACT Introduction: According to Barros (2017), Bentonite is a mixture of clays, generally impure, very fine grained, formed mainly by 60 to 80% of montmorillonite and also Kaolinite, Calcite and Pyrite. At the operational base of Petromoc Maputo Company, there is a set of tanks for fuel storage, that from a complex of tanks with coupled pipelines for the entry and withdrawal of fuels and effluent disposal. Objective: To evaluate the use of bentonite in the removal of toxic cations from the effluents generated at Petromoc Company. Materials and Methods: Bentonite samples were collected at the Industrial Minerals company. The effluent and influent samples were collected in the separator box of the operational base. The physicochemical experiments were carried out at the Analytical Chemistry Laboratory of the Eduardo Mondlane University. For the physical characterization of the bentonite, the pycnometric density, porosity (P) and specific surface area were determined. The mineralogical characterization was performed by X-ray diffraction analysis. The chemical characterization of the effluent and influent was performed by Inductively Coupled Plasma Atomic Emission Spectroscopy. Results and Discussion: Mineralogical characterization showed the presence of bentonite minerals. The pH of the effluent before interacting with the bentonite was 3.22, after interaction the pH is between 5.8 and 9. High concentrations of Cadmium (Cd), Chromium (Cr), Copper (Cu), Titanium (Ti) and Zinc (Zn) were determined in the effluent before the interaction with the bentonite. After the interaction, a removal of toxic elements is verified. Conclusions: The bentonite showed high efficiency in the removal of toxic cations.

RESUMEN Introducción: Según Barros (2017), la Bentonita es una mezcla de arcillas, generalmente impuras, de grano muy fino, formada principalmente por 60 a 80% de montmorillonita y también Caolinita, Calcita y Pirita. En la base operacional de la Empresa Petromoc Maputo, existe un conjunto de tanques para el almacenamiento de combustibles que forman un complejo de depósitos con tuberías acopladas para la entrada y retirada de combustibles y eliminación de efluentes. Objetivo: Evaluar el uso de la bentonita en la remoción de cationes tóxicos de los vertidos generados en la empresa Petromoc. Materiales y Métodos: La recogida de muestras de bentonita se realizó en la empresa de Minerales Industriales. Las muestras efluente y afluente se colectaron en la caja separadora de la base Operacional. Los experimentos fisicoquímicos se ejecutaron en el Laboratorio de Química Analítica de la Universidad Eduardo Mondlane. Para la caracterización física de la bentonita, se determinaron la densidad picnométrica, porosidad (P) y superficie específica. La caracterización mineralógica se realizó por análisis de difracción de rayos X. La caracterización química del efluente y afluente se realizó mediante la Espectroscopía de Emisión Atómica por Plasma Inductivamente acoplado. Resultados y Discusión: La caracterización mineralógica demostró la presencia de minerales de bentonita. El pH del efluente antes de interactuar con la bentonita era de 3,22, tras la interacción el pH está entre 5,8 a 9. Se determinaron altas concentraciones de Cadmio (Cd), Cromo (Cr), Cobre (Cu), Titanio (Ti) y Zinc (Zn), en el efluente antes de la interacción con la bentonita. Después de la interacción, se verifica remoción de elementos tóxicos. Conclusiones: La bentonita demostró alta eficiencia en la remoción de cationes tóxicos.

Abstract As a result of intensive anthropogenic impact in the biosphere there is a rapid process of accumulation of heavy metal salts. They have led to the aggravation of problems associated with the pollution of ecosystems and basic food products of plant and animal origin. Environmental pollution by these compounds is caused by their persistence in environmental objects, migration ability, accumulation by plants. This contributes to their accumulation in the human environment. A number of studies have shown that heavy metals have mutagenic, toxic effects and affect the intensity of biochemical processes. Therefore, the presence of heavy metals in the environment is extremely undesirable. Moreover, the ecological state of the environment is directly related to changes in the human internal environment. Deficiency or excess of certain bioelements in soils and drinking water or non-compliance with its stable chemical composition causes the development of dysmicroelementosis. The ecological situation of the Carpathian region is closely related to the state of soils and water resources. In this regard, it is advisable to study and control the level of cadmium compounds in the environment of the region. The study of the effect of cadmium intoxication on the macro- and microelement composition of the brain and myocardium of experimental animals is also worthwhile. Materials and methods. Soils and drinking water of the plain, foothill and mountainous zones of the region, as well as organs and tissues of experimental animals served as the object of research. Cadmium levels in drinking water and myocardial tissues and brain of experimental animals have been measured by atomic absorption spectroscopy. Results and discussion. The study of soils in the Prykarpattia region has revealed an increase in the toxic element cadmium. Its content is 1.1-1.5 times higher than background levels. The analysis of drinking water allowed to establish that a significant number of people living in the plain and foothill zone of the region consume water with a high content of cadmium. The main stages of cadmium intake and accumulation in plants have been analyzed. Significant disorders in the body of experimental animals under conditions of excessive intake of cadmium compounds have been revealed. It was accompanied by the accumulation of cadmium in the myocardium and brain, on the background of redistribution of vital macronutrients calcium and magnesium along with micronutrients copper and zinc. Thus, excessive intake of cadmium salts causes the development of dysmicroelementosis, which is accompanied by a violation of the homeostasis of a living organism. It is suggested to conduct continuous monitoring of the level of toxicants in the ecosystem as an integral component of environmental monitoring. origin objects ability mutagenic processes Therefore undesirable Moreover noncompliance non compliance dysmicroelementosis resources regard macro worthwhile methods research spectroscopy discussion 1.11.5 1115 1.1 1.5 1 5 1.1-1. analyzed zinc Thus organism 11 1.11. 111 1. 15 1.1-1 1.11 1.1-

Resumo Como consequência do intenso impacto antrópico na biosfera, um rápido processo de acúmulo de sais de metais pesados ocorre. Esse processo tem é um agravante para os problemas associados à poluição dos ecossistemas e dos produtos alimentares básicos de origem vegetal e animal. A poluição ambiental por esses compostos é causada por sua persistência em objetos ambientais, capacidade de migração, acúmulo pelas plantas. Isso contribui para o seu acúmulo no ambiente humano. Vários estudos mostraram que os metais pesados têm efeitos mutagênicos, tóxicos e afetam a intensidade dos processos bioquímicos. Portanto, a presença de metais pesados no meio ambiente é extremamente indesejável. Além disso, o estado ecológico do meio ambiente está diretamente relacionado às mudanças no ambiente interno humano. A deficiência ou excesso de certos bioelementos nos solos e na água potável ou o não cumprimento de sua composição química estável provoca o desenvolvimento da dismicroelementose. A situação ecológica da região dos Cárpatos está intimamente relacionada com o estado dos solos e dos recursos hídricos. Nesse sentido, é aconselhável estudar e controlar o nível de compostos de cádmio no ambiente da região. O estudo do efeito da intoxicação por cádmio na composição de macro e microelementos do cérebro e miocárdio de indivíduos experimentais também devem ser analisados. Solos e água potável das zonas plana, sopé e montanhosa da região, bem como órgãos e tecidos de indivíduos experimentais serviram de objeto de pesquisa. Os níveis de cádmio na água potável e nos tecidos do miocárdio e cérebro de indivíduos experimentais foram medidos por espectroscopia de absorção atômica. Nesse sentido, o estudo dos solos da região de Prykarpattia revelou um aumento do elemento tóxico cádmio. Seu conteúdo é 1,1-1,5 vezes maior que os níveis de fundo. A análise da água potável permitiu constatar que um número significativo de pessoas residentes na zona de planície e sopé da região consome água com elevado teor de cádmio. As principais etapas da ingestão e acúmulo de cádmio nas plantas foram analisadas. Distúrbios significativos no corpo de indivíduos experimentais sob condições de ingestão excessiva de compostos de cádmio foram revelados, acompanhados pelo acúmulo desse elemento no miocárdio e no cérebro, no contexto da redistribuição dos macronutrientes cálcio e magnésio, juntamente com os micronutrientes cobre e zinco. Assim, a ingestão excessiva de sais de cádmio causa o desenvolvimento de dismicroelementose acompanhada por uma violação da homeostase de um organismo vivo. Sugere-se a realização de monitoramento contínuo do nível de tóxicos no ecossistema como um componente integral do monitoramento ambiental. biosfera ocorre animal ambientais migração humano mutagênicos bioquímicos Portanto indesejável disso hídricos sentido analisados plana pesquisa atômica 1,11,5 1115 1,1 1,5 1 5 1,1-1, fundo analisadas revelados magnésio zinco Assim vivo Sugerese Sugere se 11 1,11, 111 1, 15 1,1-1 1,11 1,1-

Abstract Over the decades, riverine ecosystems is suffering from intense human intervention resulting in degradation and habitat loss as a consequence, many fish species become endangered, particularly in rivers where heavy demand is placed on freshwater. Wallago attu is fast growing catfish belongs to the family siluridae has good market demand having high protein content and nutritional value in it’s flesh. The data was obtained for metal concentration in wet and dry body weight in wild Wallago attu. All metal was found under permissible limit as recommended by different international organizations. Calcium was found highest, while cadmium in lowest concentration. Fe, Zn, Cu, Ni, Mn, K, Na, Ca and Mg showed highly significant (P<0.001) positive correlation with wet body weight except Co and Cd showed non-significant (P>0.05) correlation. Metals such as Fe, Cu, Zn, Cd, Pb, K, Ca, Mg and Co shown negative allometric pattern with increasing body weight concentration of Cu, Fe, Zn, Ni, Pb, Mn, Na, Ca and K showed positive relationship (P<0.001) with total length (cm), except for Co and Cd, which indicated non significant correlation (P>0.05). Present Study will helpful to assess toxicity due to presence of heavy metals for researchers and different organizations from River Chenab, Punjab, Pakistan. decades consequence endangered freshwater its it s flesh highest Fe Zn Cu Ni Mn Na P<0.001 P0001 P 0 001 (P<0.001 nonsignificant P>0.05 P005 05 (P>0.05 Pb cm, cm , (cm) P>0.05. . Chenab Punjab Pakistan P<0.00 P000 00 (P<0.00 P>0.0 P00 (P>0.0 (cm P<0.0 (P<0.0 P>0. P0 (P>0. P<0. (P<0. P>0 (P>0 P<0 (P<0 P> (P> P< (P< (P

Resumo Ao longo das décadas, os ecossistemas ribeirinhos sofreram intensa intervenção humana, resultando em degradação e perda de habitat. Como consequência, muitas espécies de peixes tornaram-se ameaçadas, principalmente em rios onde há grande demanda de água doce. Wallago attu é um bagre de crescimento rápido pertencente à família Siluridae tem boa demanda de mercado com alto teor de proteína e valor nutricional em sua carne. Os dados foram obtidos para concentração de metal no peso corporal úmido e seco em Wallago attu selvagem. Todo o metal foi encontrado no limite permitido, conforme recomendado por diferentes organizações internacionais. O cálcio foi encontrado em maior concentração, enquanto o cádmio em menor concentração. Fe, Zn, Cu, Ni, Mn, K, Na, Ca e Mg apresentaram correlação positiva altamente significativa (P < 0,001) com o peso corporal úmido, exceto Co e Cd que apresentaram correlação não significativa (P > 0,05). Metais como Fe, Cu, Zn, Cd, Pb, K, Ca, Mg e Co apresentaram padrão alométrico negativo com o aumento do peso corporal(P < 0,001) e do comprimento total (em centímetros), exceto para Co e Cd, que indica correlação não significativa (P > 0,05). O presente estudo será útil para avaliar a toxicidade devido à presença de metais pesados para pesquisadores e diferentes organizações de River Chenab, Punjab, Paquistão. décadas humana habitat consequência tornaramse tornaram se ameaçadas doce carne selvagem permitido internacionais Fe Zn Cu Ni Mn K Na P 0,001 0001 0 001 0,05. 005 0,05 . 05 0,05) Pb corporalP centímetros, centímetros , centímetros) Chenab Punjab Paquistão 0,00 000 00 0,0 0,

ABSTRACT: Cadmium (Cd) is a heavy metal that is extremely dangerous to human health and can be found naturally in soils, deposited through industrial waste or phosphate fertilization. In this study, we evaluated the morphological responses of in vitro grown plants of potato in the presence of Cd, and define a procedure for assessing Cd sensitivity of different clones. The potato clone SMIJ461-1 was cultured in the presence of Cd at concentrations of 0, 20, 40, 60, 80, 90, 110, 120, 140, and 160 µM. Survival, rooting, number and height of shoots, leaf and root counts were evaluated at 7, 14, 21, and 28 days of cultivation. Adverse effects of Cd on the growth of the potato plants, exerted in a concentration-dependent manner, were observed for shoot height, leaf and root counts. Results of this study indicated that Cd concentrations of 0, 45, 90, and 135 µM can be used for future in vitro evaluation of potato clone sensitivity to Cd exposure. ABSTRACT (Cd soils fertilization clones SMIJ4611 SMIJ SMIJ461 1 SMIJ461- 0 20 40 60 80 90 110 120 140 16 Survival rooting shoots 7 14 21 2 cultivation concentrationdependent concentration dependent manner 45 13 exposure SMIJ46 4 6 8 9 11 12 SMIJ4

RESUMO: O cádmio (Cd) é um metal pesado extremamente perigoso à saúde humana, podendo ser encontrado naturalmente nos solos, depositado através de resíduos industriais ou da adubação fosfatada. Este trabalho teve por objetivo avaliar as respostas morfológicas de plantas de batata cultivadas in vitro na presença de Cd e definir uma metodologia para inferir sobre a sensibilidade de diferentes clones. Foi estudado o clone SMIJ461-1 de batata, nas concentrações de 0, 20, 40, 60, 80, 90, 110, 120, 140, 160 µM de Cd adicionadas ao meio de cultura. A sobrevivência, o enraizamento, o número de brotações, a altura da parte aérea e o número de folhas e raízes foram avaliados aos 7, 14, 21 e 28 dias de cultivo. Foram observados efeitos adversos de concentrações de Cd sobre o crescimento in vitro das plantas de batata do clone SMIJ461-1 para a altura da parte aérea e o número de folhas e raízes, sendo estes efeitos dependentes das concentrações de Cd adicionadas ao meio de cultura. Os resultados deste estudo indicam que as concentrações de 0, 45, 90 e 135 µM de Cd podem ser utilizadas para a avaliação in vitro da sensibilidade de clones de batata a presença de Cd. RESUMO (Cd humana solos fosfatada SMIJ4611 SMIJ SMIJ461 1 SMIJ461- 0 20 40 60 80 110 120 140 16 cultura sobrevivência enraizamento brotações 7 14 2 cultivo 45 9 13 SMIJ46 4 6 8 11 12 SMIJ4

Abstract Accumulation of heavy metals in soil can lead to the deterioration of soil quality, reduce soil fertility and crop yields, and thus threaten human and animal health. The study aimed to assess the potential ecological risk of heavy metal contamination of agricultural soils in Kazakhstan. The study was carried out in 2021 on the soils of the Zhdanovskoye owner-operated farm in the Sokolovsko-Sarybai district of the Kostanay region. The quantitative content of heavy metals, such as lead (Pb), mercury (Hg), arsenic (As), and cadmium (Cd), was determined, and concentrations of trace elements, such as zinc (Zn), copper (Cu), iron (Fe), and manganese (Mn), were calculated for the considered contaminated lands. The potential ecological risk index (RI) proposed by L. Hakanson was used in the study concerning heavy metal contamination of soil. As a result, the presence of trace elements and heavy metals in the considered areas of the Kostanay region was shown. The RI values for all sites ranged from 137 to 447, corresponding to the level of ecological risk grading from low to high. The average RI for As, Cd, Hg, Pb, Zn, Ni, and Cu amounted to 328, which indicates a high ecological risk. Detected levels of As, Cd, Zn, and Pb in long-term abandoned mining areas were well above national thresholds, indicating the impending need to fully investigate and assess the suitability of the land for further agricultural use. The availability of such data will allow predicting cluster-based development of processing infrastructures in the vicinity of agricultural lands. quality yields health Kazakhstan 202 owneroperated owner operated SokolovskoSarybai Sokolovsko Sarybai , (Pb) Hg (Hg) (As) Cd (Cd) determined Zn (Zn) Cu, (Cu) Fe, Fe (Fe) Mn, Mn (Mn) lands (RI L result shown 13 447 Ni 328 longterm long term thresholds use clusterbased cluster based 20 (Pb (Hg (As (Cd (Zn (Cu (Fe (Mn 1 44 32 2 4 3

Resumo A acumulação de metais pesados no solo pode levar à deterioração da qualidade do solo, reduzir a fertilidade do solo e o rendimento das colheitas, ameaçando assim a saúde humana e animal. O conteúdo quantitativo de metais pesados, como chumbo (Pb), mercúrio (Hg), arsênio (As) e cádmio (Cd), foi determinado, e as concentrações de oligoelementos, como zinco (Zn), cobre (Cu), ferro (Fe) e manganês (Mn), foram calculadas para as terras consideradas contaminadas. O índice de risco ecológico potencial (IR) proposto por L. Hakanson foi utilizado no estudo de contaminação do solo por metais pesados. Como resultado, foi demonstrada a presença de oligoelementos e metais pesados nas áreas consideradas da região de Kostanay. Os valores de IR para todos os locais variaram de 137 a 447, correspondendo ao nível de classificação de risco ecológico de baixo a alto. O IR médio para As, Cd, Hg, Pb, Zn, Ni e Cu foi de 328, o que indica um alto risco ecológico. Os níveis detectados de As, Cd, Zn e Pb em áreas mineiras abandonadas há muito tempo estavam bem acima dos limites nacionais, indicando a necessidade iminente de investigar e avaliar exaustivamente a adequação da terra para posterior utilização agrícola. A disponibilidade de tais dados permitirá prever o desenvolvimento baseado em clusters de infraestruturas de processamento nas proximidades de terras agrícolas. colheitas animal , (Pb) Hg (Hg) As (As Cd (Cd) determinado (Zn) Cu, (Cu) Fe (Fe Mn, Mn (Mn) contaminadas (IR L resultado Kostanay 13 447 328 nacionais agrícola agrícolas (Pb (Hg (Cd (Zn (Cu (Mn 1 44 32 4 3

Fluorescence spectroscopy is an extremely sensitive analytical technique that has been widely used to elucidate problems that require low detection limits. Although fluorescence spectroscopy is widespread in industry and academia, there is a lack of teaching materials demonstrating its basic principles, as well as the influence of instrumental parameters involved in the technique, which limit its correct use and the full potential of it. For this reason, this work aims to explore the principles of fluorescence spectroscopy and correlate them in function of different instrumental variables to carry out a fluorescence experiment. The spectrofluorometer parameters such as the excitation wavelength, excitation and emission slits, step, integration time, detection geometry as well as concentration of the samples were varied to illustrate how the best resulting spectra can be registered free of artifacts. To do so, two organic dyes with structured vibronic bands (pyrene) and another with unstructured bands (rhodamine 6G) were used. Another study carried out involved the use of 3D spectra, excitation/emission spectra, of cadmium telluride (CdTe) quantum dots. In this case, it was possible to show the excitation spectrum of nanomaterials, collecting emissions at different wavelengths, as well as analyzing the particle size distribution. limits academia reason experiment wavelength slits step time artifacts so pyrene (pyrene rhodamine 6G G D excitationemission CdTe (CdTe dots case nanomaterials wavelengths distribution

In recent years, various methods for surface functionalization of magnetite nanoparticles with emerging modifications have been explored and reported. Green nano-chemistry aims to synthesize nanomaterials using bio-based resources, providing new materials for biological and environmental applications. Surface modification of magnetite nanoparticles using phytochemicals extracted from plants is a fundamental principle of green synthesis routes. Agricultural waste from different crops, such as plantain pseudostem, is of particular interest as a renewable resource due to its abundant availability, low toxicity, and economic feasibility. In this study, the juice extracted from plantain pseudostem was utilized for the phytofunctionalization of magnetite nanoparticles. Characterization techniques including transmission electron microscopy (TEM), scanning electron microscopy (SEM), thermogravimetric analysis (TGA), and fourier-transform infrared spectroscopy (FTIR) confirmed the nanometric dimensions of the composite (size range of 12.6 ± 3.17 nm) and established its organic-inorganic nature. The superparamagnetic properties of the composite were also demonstrated. Moreover, the potential application of this nanohybrid in bioremediation for the immobilization of cadmium(II) and lead(II) showed promising results, highlighting its efficacy in managing water pollutants. years reported nanochemistry nano chemistry biobased bio based resources applications routes crops availability toxicity feasibility study TEM, TEM , (TEM) SEM, SEM (SEM) TGA, TGA (TGA) fouriertransform fourier transform FTIR (FTIR size 126 12 6 12. 317 3 17 3.1 nm organicinorganic organic inorganic nature demonstrated Moreover cadmiumII cadmium II cadmium(II leadII lead lead(II results pollutants (TEM (SEM (TGA 1 31 3.

ABSTRACT Theobroma cacao, the source for chocolate fabrication, is a high-value crop that faces challenges such as the impact of climate change, pathogens, and cadmium accumulation. Soil associated with T. cacao has been extensively studied, looking for bio-controllers and microorganisms capable of Cd accumulation. However, there is no information about the microbial structure and interactions occurring in soil associated with cacao wild relatives, which represent a repository for biological diversity and its potential for biotechnological applications. We performed an extracellular DNA metabarcoding on soil samples associated with Theobroma spp. and Herrania sp. plants in two localities of the Biogeographic Chocó. We found microbial high diversity indexes and no correlation with plants or sampling locations. Potential cacao pathogens and bio-controllers and unexpected differences in the physicochemical soil properties from close locations were detected. Cadmium, an important economic factor for the commercialization of cacao products, showed significant differences between locations associated with a particular Theobroma species. We discuss some important relationships with soil physicochemical properties, the urgent need to complete the missing information on the diversity of bacterial, fungal and insect groups, and the potential of comprehensive analyses for decision-making regarding land-use and vocation. Also, we did not find the only T. hylaeum tree after three years, evincing the urgent need for conservation strategies in Colombia’s Chocó region. fabrication highvalue value change accumulation T studied biocontrollers bio controllers However relatives applications spp sp detected Cadmium products species bacterial groups decisionmaking decision making landuse land use vocation Also years Colombias Colombia s region

Cadmium silicates are materials of interest due to their stability and possible application as phosphors. There are three stable forms: cadmium metasilicate, CdSiO3, cadmium orthosilicate, Cd2SiO4 and cadmium oxyorthosilicate, Cd3SiO5. Of these, oxyorthosilicate is particularly challenging to obtain, leading to fewer studies. We have successfully prepared Cd3SiO5 using a sol-gel approach, employing cadmium acetate and tetraethylorthosilicate as precursors in a stoichiometric proportion of 2:1. Additionally, cetyltrimethylammonium bromide served as a template for creating a mesoporous structure. Adjusting the pH to 3 and subjecting the material to calcination at 800 °C for 6 h, we achieved the formation of cadmium oxyorthosilicate compound, identified by X-ray diffraction. Electron diffractometry and energy dispersive X-ray spectrometry confirm the phase purity. Characterization via nitrogen adsorption analysis and transmission microscopy shows aggregates of nanoparticles with a surface area of 6 m2 g 1 and a narrow pore diameter distribution centered at 5 nm. phosphors forms metasilicate CdSiO3 CdSiO orthosilicate Cd SiO Cd2SiO these obtain studies Cd3SiO solgel sol gel approach 21. 21 2 1. 2:1 Additionally structure 80 C h compound Xray X ray diffraction purity m nm 2: 8

Abstract Sorption and desorption tests were carried out for competitive and non-competitive systems with isotherms to verify the presence of Cd and Pb in soils. The soils investigated were: (i) with natural content of organic matter and (ii) with residual content of organic matter. Hydrated nitrate salts of Cd and Pb diluted in 0.01 M calcium nitrate solution in six concentrations were used for the Cd solutions and, for the solutions of Pb, five concentrations. For multi-element solutions, mixtures of the simple Cd and Pb solutions in a 1:1 ratio were used. The results of the first stage tests (i) showed good adjustments of the experimental data to the isotherms of Langmuir, Freundlich and Linear, which did not occur for the tests in stage (ii). According to the tests (i), the organic matter was the soil attribute of dominant influence in the sorting mechanisms. The parameters Qo and Kd were adequate to evaluate the adsorption of the studied metals, especially Cd. In step (ii), there was a significant increase in metal retention, especially for element Pb in the samples of Haplic Cambisol (AM) and Red-Yellow Latosol1 (RO), justified by the combined action of (1) increasing the surface area of the mineral fraction, previously covered by organic matter; and (2) increase in soil pH. The Cd element was more bioavailable in relation to the Pb. This was confirmed by the high desorption values observed for Cd. The samples of Haplic Cambisol and Red-Yellow Latosol demonstrated greater capacity to retain Cd and Pb. noncompetitive non i (i ii (ii 001 0 01 0.0 multielement multi 11 1 1: Langmuir Linear ii. . i, , mechanisms metals ii, retention AM (AM RedYellow Red Yellow RO, RO (RO) (1 fraction 2 (2 pH 00 0. (RO (