Study of Elodea canadensis elimination of Sodium Dodecyl Sulphate and NH4Cl

The absorption of an anionic surfactant - sodium dodecyl sulfate (SDS) by a Elodea canadensis was studied. Macrophyte (20 g/L wet weight) reduced the concentration of this surfactant from 2 mg/L by 90% within 2 days. A negative effect of SDS on the elimination of ammonium nitrogen by E. canadensis was shown with its content from 1·10-4 M. Thus, in the presence of 1·10-4 M SDS, E. canadensis reduced the concentration of ammonium nitrogen by 51% of the initial value in 2 days (in the control - without surfactants - 92% of the pollutant was absorbed).

[1]  S. Dey,et al.  Transcription factor based whole-cell biosensor for specific and sensitive detection of sodium dodecyl sulfate. , 2020, Biosensors & bioelectronics.

[2]  S. Popa,et al.  Adsorption, Bioaccumulation and Kinetics Parameters of the Phytoremediation of Cobalt from Wastewater Using Elodea canadensis , 2018, Bulletin of Environmental Contamination and Toxicology.

[3]  P. Glibert,et al.  Eutrophication, harmful algae and biodiversity - Challenging paradigms in a world of complex nutrient changes. , 2017, Marine pollution bulletin.

[4]  L. Abramova,et al.  Naturalization of invasive Elodea canadensis Michx. in waters of the Republic of Bashkortostan , 2016, Russian Journal of Biological Invasions.

[5]  Agnieszka Kolada,et al.  Elodea canadensis (Michx.) in Polish lakes: a non-aggressive addition to native flora , 2016, Biological Invasions.

[6]  O. Belykh,et al.  Naturalization of Elodea canadensis Mich. in Lake Baikal , 2010, Russian Journal of Biological Invasions.

[7]  H. Toivonen,et al.  Predicting distribution patterns and recent northward range shift of an invasive aquatic plant: Elodea canadensis in Europe , 2009 .

[8]  E. Donk,et al.  Growth and nutrient uptake by two species of Elodea in experimental conditions and their role in nutrient accumulation in a macrophyte-dominated lake , 1993, Hydrobiologia.

[9]  L. Izhboldina,et al.  Spread of Elodea canadensis in Lake Baikal , 1992, Hydrobiologia.

[10]  O. Gagarinova,et al.  Around Baikal: on the causes of ecological problems , 2020, E3S Web of Conferences.

[11]  Emerging Issues in the Water Environment during Anthropocene , 2020, Springer Transactions in Civil and Environmental Engineering.

[12]  K. U. Ahamad,et al.  Lake Eutrophication: Causes, Concerns and Remedial Measures , 2019, Emerging Issues in the Water Environment during Anthropocene.

[13]  K. U. Ahamad,et al.  A review on lake eutrophication dynamics and recent developments in lake modeling , 2019, Ecohydrology & Hydrobiology.

[14]  O. Timoshkin,et al.  Mass Development of Green Filamentous Algae of the Genera Spirogyra and Stigeoclonium (Chlorophyta) in the Littoral Zone of the Southern Part of Lake Baikal , 2015 .

[15]  O. Kozhova,et al.  Spread of Elodea canadensis in Lake Baikal , 2004, Hydrobiologia.

[16]  P. Bishop,et al.  Aquatic wastewater treatment using Elodea nuttallii , 1989 .