Heavy Metal Levels on Largemouth Bass (Micropterus salmoides Lacépède, 1802) from Tagus River Basin- Juniper Publishers
Juniper Publishers- Journal of Oceanography
Introduction
The Tagus River is the longest waterway in the Iberian Peninsula (1,007km) with source in Albarracin mountain- Spain and mouth in a wide estuary near Lisbon - Portugal. Throughout 32% of its waterway Tagus River influences the Portuguese territory with several irrigation dams and hydroelectric power plants. For decades, this river has received environmental pollutants from increased activities in industrial, domestic and agricultural systems, and also from a Spanish nuclear power plant that is 37 years old. This nuclear power plant is about to 100km far from the Portuguese border. For all those reasons it is very important to know the level of contamination of aquatic animals living in Tagus River. In many cases the toxicity caused by heavy metals is sublethal. Therefore, the animals can survive long enough to accumulate those metals and transfer them along the food chain.
Historically, fish consumption per capita in Portugal has been very high. In 2013 Portugal had the highest per capita fish consumption (53.8kg/capita/year) among the 28 European Countries. After Iceland and Japan, Portugal is the country with highest fish consumption per capita in the World [1]. Although the consumption of freshwater fish are lower than the consumption of marine fish, freshwater fish are very important in some interior areas of Portugal. It represents 6% of the total fish consumption [2]. In some Portuguese areas crossed by Tagus River largemouth bass (Micropterus salmoides Lacépède, 1802) (LB) is the most popular freshwater sport's fish. This fish with high gastronomic interest was introduced from USA in 1952 [3]. It is very important in regional cuisine and it is much appreciated due to their exquisite flavor. An apex predator like LB has high potential to bioaccumulate high levels of contaminants due to its trophic position [4]. LB could be used as a bioindicator. It is particularly good integrator of environmental stress because it is at the top of the aquatic food chain.
Heavy Metals
Heavy metals are one ofthe most important forms of pollution in the aquatic environment. The first outbreak of poisoning in humans caused by consumption of fish contaminated with heavy metals was observed in Japan in 1953, during which more than 43 Minamata Bay residents died and more than 700 suffered permanent disabilities after the consumption of fish contaminated by industrial sewage of a factory [5]. The common heavy metals found in fish muscle tissue are cadmium (Cd), chromium (Cr), copper (Cu), iron (Fe), mercury (Hg), manganese (Mn), lead (Pb) and zinc (Zn). Cu, Fe, Mn and Zn might be essential metals as they play important roles in fish biological systems, while Cd, Cr, Hg and Pb are toxic metals. However essential metals can have toxic and adverse effects at high concentrations [6]. Fishes may accumulate large amounts of metals from the water and sediments, mainly fish species on the top of trophic chain. If they are highly consumed by humans it is important to determine the level of heavy metals on the edible part of this fishes in order to evaluate the possible risk for human health.
Some studies have been done to determine heavy metals concentration on LB collected from Tagus River basin near the Portuguese border [7,8]. The authors have studied the heavy metal concentration on LB muscle tissue from Tagus River (TR) and from Tagus River basin irrigation reservoirs (IR, IR1 and IR2) (Table 1). It is very important to know if those fishes are safe for human consumption.
With an Atomic Spectrophotometer Belo et al. [6] found an average of Cd 0.03 mg.kg-1 ww and Pb 0.63 mg.kg-1 ww (IR1 and IR2), and Rodrigues et al. [7] found a concentration of Cd, Cr, and Pb lower than the Inductively Coupled Plasma-Optical Emission Spectrometry (ICP-OES) limit of quantification (0.05, 0.03 and 0.2mg.kg-1ww) respectively in TR and IR largemouth bass (Table 1). In both studies Cu, Fe, Hg, Mn, Pb and Zn were higher on largemouth bass from irrigation reservoirs than on largemouth bass from Tagus River. Small irrigation reservoirs are closed systems with no hydrodynamic capacity to recycle the diffuse sources of contamination. Excluding Mn and Pb from LB IR1 and IR2 all metal concentration were below the maximum limits for a safe human consumption. The LB IR heavy metals concentration obtained by Rodrigues et al. [7] was lower than LB IR heavy metals concentration referred by Belo et al. [8]. This seems to indicate that the contamination of irrigation reservoirs has been declining in the last 10 years. Rodrigues et al. [7]. found a high positive correlation between Hg muscle concentration and IR LB length (R =0.887; p≤0.01), weight (R2=0.865; p≤0.01) and age (R2=0.762; p≤0.01). This indicate that apex predators like LB are accumulating greater amount of Hg the largest and older they became.
(TR) (n=9) and in Tagus River basin Irrigation Reservoirs (IR, n=11) (IR1, n=9) (IR2, n=9).
Note: ww - wet weight; LOQ - limit of quantification; max - maximum value found; max tol - maximum tolerable value; (a) Rodrigues et al. (2018); (b) Belo et al. (2007).
Conclusion
Although IR LB had higher heavy metal levels than LB TR, heavy metal concentrations in largemouth bass muscle tissues collected in Tagus River basin near the border Portugal - Spain were below the maximum permissible for a safe human consumption. Nevertheless, a good program of heavy metals control over this fish species should be applied with a certain frequency by authorities to prevent eventual contamination of those ecosystems with negative consequences to human health.
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