Characteristics of variability of morpho-physiological parameters of lesser duckweed (Lemna minor) under heavy metals cultivation

Authors

  • Alena P. Zhyvitskaya International Sakharov Environmental Institute, Belarusian State University
  • Aliaksei G. Sysa International Sakharov Environmental Institute, Belarusian State University
  • Igor E. Butchenkov International Sakharov Environmental Institute, Belarusian State University
  • Evgenii K. Vlasenko Scientific and practical center LOTIOS

Keywords:

hydrobionts, bioindication, toxicity, environmental monitoring, specific growth rate
Supporting Agencies
This work was supported by Ministry of Education of the Republic of Belarus (project 10.3.05.09 SPSR «Natural resources and environment» subprogram 3 «Radiation and biological systems» for 2021-2025 (No. SR 20211863)

Abstract

It was shown scientifically substantiated the use of the lesser duckweed (Lemna minor L.) as a test object for environmental monitoring purposes when contaminated with copper (II), iron (II), lead and zinc cations. The influence of metal cations in the concentration range from 0.1 to 10.0 mg/l on the specific growth rate and dynamics of changes in the total area of leaf blades (fronds) of freshwater duckweed plants has been studied. It was shown that in the concentration range of Cu2+ and Fe2+ cations of 0.1-0.25 mg/ml, the growth rate of duckweed did not differ from control plants, while zinc and lead cations had a 17.3 % and 30 % inhibitory effect, respectively. Analysis of the curves of changes in the specific rate of algae growth in the concentration range of 0.5-2.5 mg/l showed that the effectiveness of the inhibitory effect on the growth of duckweed decreased in the series Zn2+ > Pb2+ > Fe2+ > Cu2+, which was also confirmed by data on the dynamics of the decrease in the average frond areas before and 7 days after cultivation. The results of the work show that the small duckweed (Lemna minor) can be used in bioindication measures regarding the content of elements of the group of heavy metals (copper (II), iron (II), lead and zinc) in water bodies.

Author Biographies

  • Alena P. Zhyvitskaya, International Sakharov Environmental Institute, Belarusian State University

    senior lecturer at the department of environmental medicine and radiobiology

  • Aliaksei G. Sysa, International Sakharov Environmental Institute, Belarusian State University

    PhD (chemistry), docent; dean of the environmental medicine faculty

  • Igor E. Butchenkov, International Sakharov Environmental Institute, Belarusian State University

    PhD (agriculture), docent; associate professor at the department of general biology and genetics, environmental medicine faculty

  • Evgenii K. Vlasenko, Scientific and practical center LOTIOS

    PhD (toxicology); head of the department of experimental medicine and pharmacy

References

  1. Баринова СС, Медведева ЛА, Анисимова ОВ. Биоразнообразие водорослей - индикаторов окружающей среды. Тель-Авив: [б. н.]; 2006. 498 с.
  2. Зверькова ЮС. Экологическая оценка реки Днепр (в пределах Смоленской области) по комплексу гидрохимических и гидробиологических показателей [автореферат диссертации]. Смоленск: СГУ; 2011. 26 с.
  3. Бухарин ОВ, Розенберг ГС, редакторы. Биоиндикация экологического состояния равнинных рек. Москва: Наука; 2007. 403 с.
  4. Головатюк ЛВ. Макрозообентос равнинных рек бассейна Нижней Волги как показатель их экологического состояния (на примере р. Сок и ее притоков) [автореферат диссертации]. Тольятти: [б. н.]; 2005.
  5. Петракова ЕА. Поглотительная способность макрофитов в отношении групп тяжелых металлов. В: Донецкие чтения 2016. Образование, наука и вызовы современности: Материалы I Международной научной конференции (16-18 мая 2016 г.). Том 1. Физико-математические, технические науки и экология. Ростов-на-Дону: Издательство Южного федерального университета; 2016. с. 282-285.
  6. Раимбеков КТ. Использование макрофитов для доочистки городских сточных вод. Инновации в науке. 2017;4(65):8-10.
  7. Губанов ИА, и др. Lemna minor L. - Ряска маленькая. В: Иллюстрированный определитель растений Средней России. В 3 томах. Москва: КМК; 2002. Том 1. Папоротники, хвощи, плауны, голосеменные, покрытосеменные (однодольные). с. 409.
  8. Жмур НС. Экотоксикологический контроль. Приемы исследования и лабораторная практика. Москва: Издательство «АК-ВАРОС»; 2018. 472 с.
  9. OECD Guidelines for the testing chemicals. Lemna sp. Growth Inhibition Test. Organisation for Economic Co-operation and Development. Paris: [publisher unknown]; 2006.

Published

2022-10-11

Issue

Section

The Study and Rehabilitation of Ecosystems

How to Cite

[1]
Zhyvitskaya, A.P. et al. 2022. Characteristics of variability of morpho-physiological parameters of lesser duckweed (Lemna minor) under heavy metals cultivation. Journal of the Belarusian State University. Ecology. 3 (Oct. 2022), 26–32.