Antioxidant defenses and trace metal bioaccumulation capacity of Cymbul a nigra (gastropoda: patellidae

G. A. RIVERA-INGRAHAM ; G. MALANGA; S. PUNTARULO; A. F. PÉREZ; A. RUIZ-TABARES ; M. MAESTRE ; R. GONZÁLEZ-ARANDA; F. ESPINOSA; J. C. GARCÍA-GÓMEZ

WATER AIR AND SOIL POLLUTION

SPRINGER

Lugar: Berlin; Año: 2013 vol. 224 p. 1458 - 1471

0049-6979

The present study deals with the effect of trace metals on the endangered limpet Cymbula nigra. The Bay of Algeciras (Strait of Gibraltar) was used as the study site. Important industrial activity takes place in the area, including frequent oil spills. However, it is home to important populations of C. nigra. The objective of this work was to determine if these animals were being affected at a subcellular level by the pollutants present in their environment and to analyze the trace metal concentrations in the animal?s soft tissues. To determine the effects of water quality on the antioxidant activity and concentrations through field experimentation, a total of six sites were selected in Algeciras Bay, three located in the inner areas (environmentally degraded sites with higher levels of pollutants) and three in the outermost areas of the Bay. Stress associated to reactive oxygen species formation was assessed on digestive glands and gills as the enzymatic antioxidant activity of catalase (CAT), superoxide dismutase (SOD), and glutathione Stransferase (GST) and as the concentrations of lipidsoluble (α-tocopherol and β-carotene) and the watersoluble antioxidants (reduced and oxidized glutathione (GSH and GSSG)). Gills and digestive glands of those animals located in the inner areas of Algeciras Bay showed higher CAT activity values than those located in the outer areas. As a general pattern, we observed higher antioxidant activities and concentrations in digestive glands that in gills, suggesting the possibility that pollutants are mainly being incorporated by limpets through the food. As a general rule, larger animals showed greater concentrations of these compounds. Iron, zinc, and manganese, in this order, were present in the tissues at the highest concentrations. Chromium and manganese were found in significantly higher concentrations in those animals collected from the inner areas of the Bay. Through the present study, we provide the first data regarding the antioxidant defense levels and metal accumulation capacity of this species, and we reinforce the idea that this endangered species may be, in fact, relatively tolerant to degraded environments.