Estresse oxidativo em aegla longirostri (decapoda, anomura): efeito da temperatura e qualidade da água

Abstract

The pollution from anthropic activities has produced a pronounced alteration in both terrestrial and aquatic ecosystems. However, because of the position that they occupy in the landscape, limnic environments are susceptible to receive large amounts of pollutants, such as pesticides. This factors combined with the low capability of dilution enhance the harmful effects of toxic substances to the organisms within this habitat. Moreover, the increasing temperature, consequence of global climatic changes, also has a direct and indirect influence on ecological studies, once it affects especially ectothermic organisms which live within continental water bodies. The decrease of water’s oxygen, generally associated with a higher temperature, for example, is responsible for the lower quality of some aquatics habitats, threatening more sensitive organisms. The pollution and variations of temperature have restricted the habitat of many species of crustaceans of the genus Aegla to water springs since they prefer clean and well-oxygenated waters. These variables have influenced the metabolism and behavior of Aegla and might modify its oxidative state and consequently the survival of this species in case of environment alteration. In this way, the aim of this study was to assess the effects of temperature variation, water quality and the oxygen concentration under behavioral and oxidative stress parameters (using biomarkers) on gills, hepatopancreas and muscles of Aegla longirostri. Thus, animals were exposed to 18ºC, 21°C, 24°C and 26ºC for 48 hours under laboratory conditions; analysis of behavior’s feedback, lethality and antioxidant defense system were made. Beyond, we verified the alterations in the antioxidant system induced by moderated (2.5 ppm OD) and severe (1.5 ppm OD) hypoxia and different qualities of water (Anthropized and natural) and also the behavioral responses and lethality. The increase of temperature has affected significantly not just the behavioral response, but also the levels of almost all the antioxidants tested in different tissues. We have demonstrated that the variation of temperature, even in a short-term experiment, can induce an alteration of behavior both on activity and reaction’s time of the crustaceans. The antioxidant activity in animals exposed to moderate and severe hypoxia have increased in relation to those who had constant oxygenation. These results demonstrate that the animals need well-oxygenated waters to survive, and a lower oxygenation affected their antioxidant system and consequently the survival, which could have an impact on populations of A. longirostri. Worst quality waters have the potential of changing the behavior, by decreasing activity at night, which could compromise foraging behavior, for example. It is evident, by the increase in activity and level of most biomarkers evaluated, that these animals are sensitive to the presence of pesticides even in very small quantities.