Published March 15, 2017 | Version v1
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Change of some physiological indicators the duckweed small (Lemna minor L.) at effect of salts of nickel and zinc

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  • 1. Nizhnevartovsk State University

Description

Heavy metals influence all systems of a live organism. Anthropogenous influence decides on the help of the analysis of a condition of separate individuals. The work purpose — identification of reaction of a system of pigments and accumulation of Lemna minor proline in the presence of heavy metals Zn2+ and Ni2+ in the water environment.

Zn2+ and Ni2+ salts exert the negative impact on the maintenance of a chlorophyll a and b, cause the increase in the concentration of carotenoids. High concentration of metals (over 1.0 mg/l) cause oppression of pigmentary system. The concentration of Zn2+ and Ni2+ is higher, it is more than the content of free proline in the leaf of Lemna minor L. In tests with nickel solutions concentration of proline is less, than in tests with zinc solutions. The expressed tendency of increase in the concentration of proline at the increase in the concentration of the pollutant is the reaction of a plant to action a stress factor.

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References

  • Ovechkin, F., & Ovechkina, E. (2016). Nature of Phenolic Pollution of the Vakh River. 2 ya Mezhdunarodnaya nauchno–prakticheskaya konferentsiya "Aktualnye voprosy nauki i praktiki XXI v." (2nd International Scientific and Practical Conference "Actual problems of science and practice of the XXI century") (Nizhnevartovsk, 27 February — 4 March 2016): materials. Nizhnevartovsk: Izdatelskiy tsentr "Nauka i praktika", 77–85. Available at: http://www.bulletennauki.com/phenolicpollution, accessed 15.02.2017. (In Russian). DOI: 10.5281/zenodo.292969
  • Gavrilenko, V. F., & Zhigalova, T. V. (2003). Bolshoi praktikum po fotosintezu: ucheb. posobie dlya stud. vuzov. Ed. I. P. Ermakova. Moscow, Akademiya, 256. (In Russian).
  • Storchak, T. V., Ryabukha, A. V., & Ryabukha, E. A. (2015). Poverkhnostnyi stok s selitebnykh territorii Krasnoselkupskogo raiona kak faktor zagryazneniya reki Taz. Vestnik Nizhnevartovskogo gosudarstvennogo universiteta, (1), 63–67. (In Russian).
  • Storchak, T. V., & Pylaeva, N. V. (2016). Izmenenie soderzhaniya pigmentov i nekotorykh morfologicheskikh priznakov v rastenii Lemna minor pri deistvii solei tyazhelogo metalla kadmiya. Vosemnadtsataya vserossiiskaya studencheskaya nauchno–prakticheskaya konferentsiya Nizhnevartovskogo gosudarstvennogo universiteta: stati dokladov. Ed. A. V. Korichko. Nizhnevartovsk, Nizhnevartovskii gosudarstvennyi universitet, 1068–1071. (In Russian).
  • Melekhova, O., Egorova, E., Evseeva, T., & al. (2010). Biologicheskii kontrol okruzhayushchei sredy: bioindikatsiya i biotestirovanie: ucheb. posobie dlya stud. vyssh. ucheb. zavedenii. Ed. O. P. Melekhova, E. I. Sarapultseva. Moscow, Akademiya, 288. (In Russian).
  • Zolotukhina, E. Yu., & Gavrilenko, E. E. (1989). Tyazhelye metally v vodnykh rasteniyakh. Akkumulyatsiya i toksichnost. Biologich. nauki, (9), 93–106. (In Russian).
  • Patent RF №2308183, MPK A01G7/00. Sreda dlya kultivirovaniya ryaski maloi, Lemna minor L. Tsatsenko, L. V., Temirov, Yu. V., Gaidukova, N. G.; Federalnoe gosudarstvennoe obrazovatelnoe uchrezhdenie vysshego professionalnogo obrazovaniya "Kubanskii gosudarstvennyi agrarnyi universitet"; Zayav. 31.01.2006; Opubl. 20.10.2007.
  • Kapitonova, O. A. (2004). Osobennosti akkumulyatsii tyazhelykh metallov ryaskoi maloi. Mezhdunarodnaya konferentsiya "Pishchevye resursy dikoi prirody i ekologicheskaya bezopasnost naseleniya" (16–18 noyabrya 2004): materialy. Kirov, VNIIOZ. (In Russian).
  • Lomagin, A. G., & Ulyanova, L. V. (1993). Novyi test na zagryaznennost vody s ispolzovaniem ryaski Lemna minor L. Fiziologiya rastenii, (2), 327–328. (In Russian).
  • Storchak, T. V., & Grishechkina, A. A. (2013). Osobennosti pigmentnoi sistemy Lemna minor L. pri vozdeistvii ionov medi. Vestnik Nizhnevartovskogo gosudarstvennogo universiteta, (3), 85–88. (In Russian).
  • Storchak, T. V., & Kryukova, V. A. (2015). Biotestirovanie poverkhnostnykh vod pri pomoshchi ryaski maloi na zagryaznenie Zn i Ni. Semnadtsataya regionalnaya studencheskaya nauchnaya konferentsiya Nizhnevartovskogo gosudarstvennogo universiteta: stati dokladov. Ed. A. V. Korichko. Nizhnevartovsk, Nizhnevartovskii gosudarstvennyi universitet, 586–590. (In Russian).
  • Nikolishin, I. Ya. (1978). Vozmozhnosti ispolzovaniya rastenii v kachestve indikatorov nakopleniya i deistviya tyazhelykh metallov v ekologicheskom monitoring. Problemy ekologicheskogo monitoringa i modelirovaniya ekosistem. Leningrad, 42–56. (In Russian).
  • Lichtenthaler, H. K., & Wellburn, A. R. (1983). Determinations of total carotenoids and chlorophylls a and b of leaf extracts in different solvents. Biochem. Soc. Trans, 11, (5), 591–592.
  • Malyuga, N. G., Tsatsenko, L. V., & Avetyants, L. Kh. (1996). Bioindikatsiya zagryazneniya vody tyazhelymi metallami s pomoshchyu predstavitelei semeistva ryaskovykh — Lemnaceae. Ekologicheskie problemy Kubani. Krasnodar, KGAU, 153–155. (In Russian).
  • Bates, L. E., Waldren, R. P., & Teare, I. D. (1973). Rapid Determination of Free Proline for Water Stress Studies. Plant Soil, 39, 205–207
  • Zhungietu, G. I., & Zhungietu, I. I. (1991). Khimicheskaya ekologiya vysshikh rastenii. Kishinev, Shtiintsa, 1991, 200. (In Russian).