Catalase activity and lipid peroxidation process of the Black Sea macroalgae dominants (epiphytes and lithophytes) under different environmental conditions
Year 2015,
Volume: 21 Issue: 1, 23 - 34, 20.09.2015
Оlga Shakhmatova
Еlena Chernyshova
Abstract
AbstractCatalase activity (CA) and the lipid peroxidation process (LPO) in Cystoseira phytocoenoses of the Black Sea under different environmental conditions were studied. Eleven dominants of the Black Sea macroalgae of different life forms (epiphytes and lithophytes) were investigated. It was shown that the LPO level of macroalgae changed in the conditionally clean water area over the range from 13.29±0.56 to 40.56±4.15 nM MDA/g, whereas CA level changed from 30.24 ± 5.1 to 108.67 ± 6.8 mсg Н2О2/g·x min. The intensification of the LPO process by 27% on average was found in epiphytes macrophytes, as compared with the lithophytes. The maximum intensification was recorded in Polysiphonia subulifera, and the minimum intensification was recorded – in Callithamnion corymbosum (47 and 8.5%, respectively). The CA values of epiphytes macrophytes CA increased by 42.7% on an average as compared with lithophytes. The maximum difference between the CA indices of the epiphytes and lithophytes was recorded in C. corymbosum (59%) and the minimum one was recorded in Ceramium virgatum (10%).
References
- Beryozov, Т.Т. (1976) The method for determining the catalase activity. In: Manual of Laboratory Studies in Biological Chemistry. М: Medicine. pp. 81-83 (in Russian).
- Chernyshova, Е.B. (2008) Lithophyte-epiphyte correlation in the structure of Cystoseira phytocoenoses of the Sevastopol coastal waters (Geraclea Peninsular, Black Sea). Ekologia Morya 76: 5-8 (in Russian).
- Gubanov, V.I., Stelmakh, L.V., Кlimenko, N.P. (2002) Comprehensive
- assessment of quality of the Sevastopol coastal waters (Black Sea). Ekologia Morya 62: 76-80 (in Russian).
- Kalugina-Gutnik, А.А. (1975) Phytobenthos of the Black Sea. Naukova Dumka, Kiev, 248 pp (in Russian).
- Kovardakov, S.А., Firsov, Yu.К. (2007) Developmental change of bottom vegetation in the water area of the Black Sea recreation complex. In: Systems of Environmental Control, Means and Monitoring (coll.scientific) (ed., V.N. Eremiuses) Sevastopol, MGI. pp. 347-351 (in Russian).
- Labas, Yu.А., Gordeyeva, А.V., Deryabin, Yu.I., Deryabin, А.N., Isakova, Е.P. (2010) Regulating role of active forms of oxygen: from bacteria to human being. Uspekhi covremennoj biologii 130(4): 323-336 (in Russian).
- Menchikova, Е.V., Zenkov, N.K., Bondar, I.A., Krugovikh, N.F., Trufakin, V.A. (2006) Oxidative Stress. Pro-Oxidants and Antioxidants. М.: Slovo. 556 pp (in Russian).
- Milchakova, N.А. (2003) Macrophytobenthos. In: Modern State of Biodiversity of the Crimean Coastal Waters (Black Sea Sector) (eds., V.N. Yeremeyev, А.V. Gayevskaya). Sevastopol: ECOSI, Hydrophysics, pp. 152-208 (in Russian).
- Milchakova, N.A, Shakhmatova, O.A. (2007) Catalase activity of mass species of Black Sea macrophyte algae gradient household pollution. Mor. Ecol. Zh. 6(2): 44-57.
- Mironov, О.G., Kiryukhina, L.N., Alemov, S.V. (2003) Hygiene and Biological Aspects of the Environmental Conditions of the Sevastopol Bays in ХХ c. Sevastopol: ECOSI Hydrophysics, 185 pp (in Russian).
- Rawlence, D.J. (1972) An ultrastructural study of the relationship between rhizoids of Polysiphonia lanosa (L.) Tandy (Rhodophyceae) and tissue of Ascophyllum nodosum (L) Le Jolis (Phaeophyceae). Phycologia. 11: 279-290.
- Salovarova, V.P., Pristavka A.A., Berseneva, O.A. (2007) Introduction to Biochemical Ecology. Irkutsk: University Press. 159 pp.
- Stalnaya, I.D., Garishvili, Т.G. (1977) Method of determining malondialdehyde with the help of thiobarbituric acid. In: Modern Methods in Biochemistry (ed., V.N. Orekhovich). М.: Medicine. pp. 66-68 (in Russian).
- Turnur, C.H.C., Evans, L.V. (1977) Physiological studies on the relationship between Ascophyllum nodosum and Polysiphonia lanosa. New phytol. 79: 363- 371.
- Vinogradova, К.L. (1989) Algae epiphytism: clarification of terminology. Botanicheskij Zurnal. 74 (9): 1291-1293.
- Zhigadlova, G.G. (2011) Epiphytes and endophytes of algae of genus Palmaria Stackhouse, Palmariaceae, Rhodophyta by the shores of east Kamchatka. Izvestiya TINRO. 164: 300-311.
Year 2015,
Volume: 21 Issue: 1, 23 - 34, 20.09.2015
Оlga Shakhmatova
Еlena Chernyshova
References
- Beryozov, Т.Т. (1976) The method for determining the catalase activity. In: Manual of Laboratory Studies in Biological Chemistry. М: Medicine. pp. 81-83 (in Russian).
- Chernyshova, Е.B. (2008) Lithophyte-epiphyte correlation in the structure of Cystoseira phytocoenoses of the Sevastopol coastal waters (Geraclea Peninsular, Black Sea). Ekologia Morya 76: 5-8 (in Russian).
- Gubanov, V.I., Stelmakh, L.V., Кlimenko, N.P. (2002) Comprehensive
- assessment of quality of the Sevastopol coastal waters (Black Sea). Ekologia Morya 62: 76-80 (in Russian).
- Kalugina-Gutnik, А.А. (1975) Phytobenthos of the Black Sea. Naukova Dumka, Kiev, 248 pp (in Russian).
- Kovardakov, S.А., Firsov, Yu.К. (2007) Developmental change of bottom vegetation in the water area of the Black Sea recreation complex. In: Systems of Environmental Control, Means and Monitoring (coll.scientific) (ed., V.N. Eremiuses) Sevastopol, MGI. pp. 347-351 (in Russian).
- Labas, Yu.А., Gordeyeva, А.V., Deryabin, Yu.I., Deryabin, А.N., Isakova, Е.P. (2010) Regulating role of active forms of oxygen: from bacteria to human being. Uspekhi covremennoj biologii 130(4): 323-336 (in Russian).
- Menchikova, Е.V., Zenkov, N.K., Bondar, I.A., Krugovikh, N.F., Trufakin, V.A. (2006) Oxidative Stress. Pro-Oxidants and Antioxidants. М.: Slovo. 556 pp (in Russian).
- Milchakova, N.А. (2003) Macrophytobenthos. In: Modern State of Biodiversity of the Crimean Coastal Waters (Black Sea Sector) (eds., V.N. Yeremeyev, А.V. Gayevskaya). Sevastopol: ECOSI, Hydrophysics, pp. 152-208 (in Russian).
- Milchakova, N.A, Shakhmatova, O.A. (2007) Catalase activity of mass species of Black Sea macrophyte algae gradient household pollution. Mor. Ecol. Zh. 6(2): 44-57.
- Mironov, О.G., Kiryukhina, L.N., Alemov, S.V. (2003) Hygiene and Biological Aspects of the Environmental Conditions of the Sevastopol Bays in ХХ c. Sevastopol: ECOSI Hydrophysics, 185 pp (in Russian).
- Rawlence, D.J. (1972) An ultrastructural study of the relationship between rhizoids of Polysiphonia lanosa (L.) Tandy (Rhodophyceae) and tissue of Ascophyllum nodosum (L) Le Jolis (Phaeophyceae). Phycologia. 11: 279-290.
- Salovarova, V.P., Pristavka A.A., Berseneva, O.A. (2007) Introduction to Biochemical Ecology. Irkutsk: University Press. 159 pp.
- Stalnaya, I.D., Garishvili, Т.G. (1977) Method of determining malondialdehyde with the help of thiobarbituric acid. In: Modern Methods in Biochemistry (ed., V.N. Orekhovich). М.: Medicine. pp. 66-68 (in Russian).
- Turnur, C.H.C., Evans, L.V. (1977) Physiological studies on the relationship between Ascophyllum nodosum and Polysiphonia lanosa. New phytol. 79: 363- 371.
- Vinogradova, К.L. (1989) Algae epiphytism: clarification of terminology. Botanicheskij Zurnal. 74 (9): 1291-1293.
- Zhigadlova, G.G. (2011) Epiphytes and endophytes of algae of genus Palmaria Stackhouse, Palmariaceae, Rhodophyta by the shores of east Kamchatka. Izvestiya TINRO. 164: 300-311.