Are antioxidant capacity and oxidative damage related to biological and autecological characteristics in aquatic insects?

Are antioxidant capacity and oxidative damage related to biological and autecological characteristics in aquatic insects?

<p>In this work, we study the oxidative state of nine taxa of aquatic insects [<em>Serratella ignita </em>(Poda, 1761), <em>Ephemera danica</em> Müller, 1764<em>, Crocothemis erythraea </em>(Brullé, 1832), <em>Dinocras cephalotes </em>(Curtis, 18...

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Bibliographic Details
Main Authors: Ana Sanz, Manuel J. López-Rodríguez, Sergio García-Mesa, Cristina Trenzado, Rosa M. Ferrer, J. Manuel Tierno de Figueroa
Format: Article
Language:English
Published: PAGEPress Publications 2016-11-01
Series:Journal of Limnology
Subjects:
Antioxidant enzymes
Feeding habits
Freshwater insects
Habitat
Life cycle
Oxidative state
Online Access:http://www.jlimnol.it/index.php/jlimnol/article/view/1581
Description
Summary:<p>In this work, we study the oxidative state of nine taxa of aquatic insects [<em>Serratella ignita </em>(Poda, 1761), <em>Ephemera danica</em> Müller, 1764<em>, Crocothemis erythraea </em>(Brullé, 1832), <em>Dinocras cephalotes </em>(Curtis, 1827)<em>, Perla bipunctata </em>Pictet<em>, </em>1833,<em> Isoperla morenica </em>Tierno de Figueroa &amp; Luzón-Ortega, 2011, <em>Notonecta maculata </em>Fabricius, 1794, <em>Gerris </em>sp.<em>, </em>and <em>Hydropsyche </em>sp.] in order to determine the relationships between this state and the biological and environmental characteristics of the species studied. The studied taxa are all in the same life cycle stage (nymph/larva), and many of them have different maximum life span potentials. We assess the antioxidant capacity through the determination of the trolox-equivalent antioxidant capacity, the ferric-reducing/antioxidant power and the activity of the antioxidant enzymes catalase, DT-diaphorase, glutathione peroxidase, glutathione reductase, glutathione transferase, superoxide dismutase and glucose-6-phosphate dehydrogenase. Furthermore, to determine the oxidative damage, we examine thiobarbituric acid reactive substances, free malondialdehyde, protein-bound malondialdehyde, total hydroperoxides, and protein hydroperoxides. In summary, we can consider that having predatory feeding habits, having a long-life cycle and living in permanent streams with cold, well-oxygenated waters are related to a proper oxidative state in the insects that we studied. On the other hand, non-exclusive predator species living in temporary streams with warm and poorly oxygenated waters with a short life cycle have a worse oxidative state. Thus, the oxidative state of each species could be defined by an interaction of biological and autecological factors, for which the relative importance is difficult to assess.</p>
ISSN:1129-5767
1723-8633

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