Bioconcentración de metales pesados (Zn, Hg, Pb) en tejidos de Ariopsis felis y Diplodus annularis en el río Ranchería, norte de Colombia / Bioconcentration of heavy metals (Zn, Hg, Pb) in tissues of Ariopsis felis and Diplodus annularis in the Ranchería river, Northern Colombia

RESUMEN La contaminación por metales pesados en los ecosistemas acuáticos en el planeta es una de las más severas problemáticas que comprometen la seguridad alimentaria a nivel local, regional y global. En este estudio, se aborda el problema específico de la bioconcentración de mercurio (Hg), plomo (Pb) y Zinc (Zn) en los tejidos orgánicos de 2 de las especies de peces (Ariopsis felis y Diplodus annularis) de mayor importancia alimenticia para los pobladores rivereños del río Ranchería, al norte de Colombia. Las muestras de tejido orgánico se sometieron a una digestión ácida (HNO3 y HClO 4 en relación 3:1) y la cuantificación de los metales se realizó por espectrofotometría de absorción atómica. Adicionalmente, se midieron los niveles de los metales en el sedimento, con el objeto de determinar índices de calidad medioambientales, lo que permitió determinar que los metales pesados no presentan riesgo para los organismos acuáticos que habitan en esta zona. Se encontraron diferentes valores de concentración de metales pesados: en orden decreciente, Zn > Hg > Pb, en sedimento, y Hg > Zn > Pb, en el tejido biológico. Los resultados muestran que las concentraciones de los metales pesados presentes en el tejido de los peces y en el sedimento guardan una correlación positiva y una regresión lineal estadísticamente significativa (p = 0,001, p < 0,05). La presencia de metales pesados en el sedimento del río y de bioconcentrados en los peces podría derivarse de fuentes puntuales y difusas relacionadas con actividades agrícolas, pecuarias, mineras y aguas residuales.

ABSTRACT Heavy metal pollution in aquatic ecosystems in the area is one of the most severe problems that compromise food security at the local, regional and global levels. In this study, the specific problem of the bioconcentration of mercury (Hg), lead (Pb), and Zinc (Zn) in 2 of the higher nutritional importance fish species (Ariopsis felis and Diplodus annularis) for the riverside inhabitants of the Ranchería river, in northern Colombia, is addressed. The organic tissue samples were subjected to acid digestion (HNO3 and HClO4 in a 3:1 ratio), and the quantification of metals was carried out by atomic absorption spectrophotometry. Additionally, the levels of metals in the sediment were measured, in order to determine environmental quality indices. This allow to determine that heavy metals do not present a risk to the aquatic organisms that inhabit this area. Different heavy metal concentration values were found: in decreasing order, Zn> Hg> Pb in sediment, and Hg> Zn> Pb in biological tissue. The results reveal that the concentrations of heavy metals present in fish tissue and sediment show a positive correlation, and a statistically significant linear regression (p = 0,001, p < 0,05). The presence of heavy metals in river sediment and bioconcentrates in fish could derive from point and diffuse sources related to agricultural, livestock, mining and wastewater activities.

Metalloproteomic approach of mercury-binding proteins in liver and kidney tissues of Plagioscion squamosissimus (corvina) and Colossoma macropomum (tambaqui) from Amazon region: Possible identification of mercury contamination biomarkers.

Fish is an important source of protein, vitamins, and minerals. However, this food is also a major source of human exposure to toxic contaminants such as mercury. Thus, this paper aimed to evaluate mercury-binding proteins for possible application as biomarkers of mercury contamination in hepatic and renal tissues of Plagioscion squamosissimus (carnivorous fish) and Colossoma macropomum (omnivorous fish) from the Amazon region using metalloproteomic approach. The proteome of hepatic and renal tissues of fish species was separated by two-dimensional polyacrylamide gel electrophoresis (2D-PAGE), and the mercury concentrations in protein spots were determined by graphite furnace atomic absorption spectrometry (GFAAS). Finally, the protein spots associated to mercury were characterized by electrospray ionization mass spectrometry (ESI-MS/MS). The activity of antioxidant enzymes (SOD, CAT, GPx, and GST) and lipid peroxidation (LPO) were also determined. The results showed that the highest concentrations of mercury were found in the carnivorous species (P. squamosissimus) and that the accumulation pattern of this metal was higher in hepatic tissues than in renal tissues for both species. A tendency was observed for greater enzymatic activity in the hepatic and renal tissues of P. squamosissimus, the species with the highest concentration of mercury. Only GPx activity in the kidney and GST in the liver were lower for the P. squamosissimus species, and this finding can be explained by the interaction of mercury with these enzymes. The data obtained by ESI-MS/MS allowed for the characterization of the protein spots associated to mercury, revealing proteins involved in energy metabolism, biomolecules transport, protein synthesis and degradation, cell differentiation, gene regulation, and the antioxidant system. The results obtained in the present study can contribute to understanding the physiological processes underlying mercury toxicity and have provided new perspectives on possible candidates for mercury contamination biomarkers in fish.

Occurrence of organochlorine compounds in fish from freshwater environments of the central Andes, Argentina.

The Central Andes region is considered an area of high environmental relevance in South America and it is rich in glaciers, which are the main fresh water sources and reservoirs of the region. The presence of organochlorine compounds (OCs) is an environmental threat due to their persistence and adverse effects on wildlife and humans. The levels of OCs, such as chlordane compounds (CHLs), dichlorodiphenyltrichloroethane and metabolites (DDTs), hexachlorobenzene (HCB), hexachlorocyclohexanes (HCHs), and polychlorinated biphenyls (PCBs), were determined in muscle and liver tissues of fish and in sediments collected from different sites of the central Andes: the Mendoza River and the Yaucha River (rainbow trout: Oncorhynchus mykiss) and Carrizal Dam (silverside: Odontesthes bonariensis). Regardless of studied site and fish tissue, the general OC trend was: DDTs > PCBs > HCHs > CHLs > HCB. The results showed clear geographic distribution patterns for DDTs. Among the sampling sites, silverside fish showed the highest average load of DDTs (614 and 867 ng g-1 lw in muscle and liver tissues, respectively). Based on the biota-sediment bioaccumulation factor (BSAF), both rainbow trout and silverside fish showed comparable capability to accumulate p,p'-DDT in their tissues. Intraspecific correlational analysis showed that CB-138 in muscle and p,p'-DDT in liver were clearly correlated with the lipid content in silverside specimens, which highlights the relevance of taking into account the fat content and the type of target tissues.

Interspecific differences in the bioaccumulation of arsenic of three Patagonian top predator fish: Organ distribution and arsenic speciation.

Interspecific differences in arsenic bioaccumulation and organ distribution (muscle, liver, kidney and gills) in three predator fish (creole perch, rainbow trout and brown trout) from a Patagonian lake impacted by volcanic eruptions were studied. Arsenic in fish organs were compared analyzing: 1) temporal (before and after volcanic eruption) and spatial (near and far from the volcano) influence of Puyehue-Cordón Caulle volcanic complex activity on arsenic concentrations; 2) the influence of growth (as total length), organ type and their interactions over arsenic accumulation; and 3) arsenic speciation and total arsenic relationship with carbon to nitrogen ratios (C:N), as a proxy of lipid presence, in fish muscle. In general, total arsenic concentrations in creole perch organs were 2-7 times higher than those recorded in the corresponding organs of salmonids. Arsenic was preferentially accumulated in liver and kidney in the three fish species. The influence of the volcanic activity over arsenic concentrations was more evident in creole perch: organs from creole perch captured closest to the volcano exhibited higher arsenic concentrations. Temporal variations were not so consistent. No clear relationship between arsenic and fish length was observed. Positive and linear relationship between arsenic in all pair of organs was found in creole perch, while rainbow trout showed a quadratic relationship between muscle and the remaining organs, indicating different arsenic assimilation-elimination relationships between organs and fish. The arsenic liver:muscle ratio in the three fish species was greater than 1, suggesting some level of arsenic stress. Arsenobetaine (AB) and dimethylarsinic acid (DMA) were the dominant arsenic species in muscle of these fish, having creole perch 3-4 times higher AB than rainbow trout. A positive relationship between C:N ratio and total arsenic concentrations was found, with higher C:N in creole perchs near the volcano. In terms of food safety, no inorganic arsenic compound were detected, therefore arsenic levels in fish from Lake Nahuel Huapi does not represent any health risk to consumers.

Total Mercury Determination in Muscle and Liver Tissue Samples from Brazilian Amazon Fish Using Slurry Sampling.

This paper presents a slurry sampling method for total mercury determination by graphite furnace atomic absorption spectrometry (GFAAS) in tissue of fish from the Amazon. The tissue samples were lyophilized and macerated, and then the slurry samples were prepared by putting 20 mg of tissue, added to a solution containing Triton X-100, Suprapur HNO3, and zirconium nitrate directly in sampling vials of a spectrometer. Mercury standard solutions were prepared under the same conditions as the slurry samples. The slurry samples and the mercury standard solutions were sonicated for 20 s. Twenty microliters of slurry samples were injected into the graphite tube, which contained an internal wall lined with tungsten carbide. Under these conditions, it was possible to thermally stabilize the mercury up to an atomization temperature of 1700 °C. The method was validated by mercury determination in reference materials DORM-4 and DOLT-4. The LOD and LOQ were 0.014 and 0.045 mg kg-1, respectively, and recovery percentages in relation to the concentration values were certified in the order of 98%.