Electron Spin Resonance (ESR) in detection of aquatic pollution through host-parasite relationship

Lucas Aparecido Rosa Leite,Angela Kinoshita,Rodney Kozlowiski De Azevedo,Vanessa Doro Abdallah,Oswaldo Baffa

doi:10.4136/ambi-agua.2085

Lucas Aparecido Rosa Leite, Angela Kinoshita + Show 3 more

Open Access

https://doi.org/10.4136/ambi-agua.2085

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Abstract

Aquatic environmental pollution due to negative human activities remains a major problem. Bioindicators that primarily describe the total concentration of the respective pollutant are very useful tools to aid in the chemical analysis of water in order to obtain knowledge about the levels of pollutants in the environment. This study therefore used Electron Spin Resonance Spectroscopy (ESR) to detect the presence of transition metals (copper, iron and manganese) and possible radicals present in samples of Neoechinorhynchus curemai and its host tissues Prochilodus lineatus, as well in water and sediment of the Batalha River, at the same sample site where fish were collected. Spectral analysis of samples showed the presence of three metals (Cu2+, Fe3+ and Mn2+), in addition to nitric oxide (NO) and humic acid (HA). Quantification of the elements in the samples was possible only for Cu detected in the spectrum of parasites, which was equivalent to 2 ppm. ESR proved to be efficient in the detection of transition-metal ions (Cu2+, Fe3+ and Mn2+), in addition to NO and HA. However, the low concentration values of these compounds in P. lineatus tissues (liver, muscle and intestine) and in the water and sediment samples collected did not allow their quantification, as they were below the limit of detection. It can be concluded that N. curemai had the capacity to accumulate these ions, especially copper.

Highlights

Pollution of aquatic ecosystems as a result of anthropogenic activities remains a major problem in these environments, causing disastrous effects on the health of living organisms and becoming subject of many discussions (Khan and Thulin, 1991; Sures, 2008)
It was possible to observe the agreement between the simulated Cu2+ signal and the radical present in the parasites
The Cu2+ mass of the total mass of the parasite was obtained from the atomic mass of the ion (63.6g), resulting in a concentration of 2 ppm of Cu2+ in the parasites (Figure 1C)

Summary

Introduction

Pollution of aquatic ecosystems as a result of anthropogenic activities remains a major problem in these environments, causing disastrous effects on the health of living organisms and becoming subject of many discussions (Khan and Thulin, 1991; Sures, 2008). In freshwater ecosystems, both organic and inorganic pollution (especially metals) are global issues and deserve attention since they directly and indirectly affect organisms, causing them irreparable damage (Wen et al, 2017; Schmeller et al, 2018; Väänänen et al, 2018). The high potential of parasites for metal accumulation (especially heavy metals) and their high effectiveness in assessing aquatic pollution compared to free-living organisms (such as mussels, for example) has been clearly demonstrated (Sures et al, 1997; 1999;)

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