RESEARCH OF THE CONTENT OF HEAVY METALS IN THE COMPOSITION OF WORMWOOD (ARTEMISIA ABSINTHIUM L.) GROWING IN BOBODJON GAFUROV DISTRICT

ФайлНомСабт карда шуд
Download this file (9. Умаров Насимджон Негматович..pdf)Umarov Nasimjon Negmatovich RESEARCH OF THE CONTENT OF HEAVY METALS IN THE COMPOSITION OF WORMWOOD (ARTEMISIA ABSINTHIUM L.) GROWING IN BOBODJON GAFUROV DISTRICT36

Authors: Umarov Nasimjon Negmatovich - Candidate of Physical and Mathematical Sciences, Associate Professor of the Department of Theoretical Physics and the MTPh of the PEI “KSU named after academic Bobojon Gafurov”, Abdullaev Sabur Fuzailovich - Doctor of Physics Mathematics, Professor, Head  of Atmospheric Physics Laboratory S.U. Umarov Physical Technical Institute National Academy of Sciences of the Republic of Tajikistan, Khalifaeva Shokhina Khurshedjonovna - PhD Candidate of Atmospheric Physics Laboratory S.U. Umarov Physical Technical Institute National Academy of Sciences of the Republic of Tajikistan

 

JOURNAL NUMBER: 2(57). YEAR OF ISSUE2021. LANGUAGE OF THE ARTICLE: Russian

 

ANNOTATION

The article presents the results of the study of bitter wormwood (BW) selected in the soil of the Bobojoh gafurov district of Sughd region. It was found that the content of Zn, MnO and Ni is higher in BW, and content of Pb, Cu, As, Cu, Sr, V and Co is higher in soil, that is, soil is more enriched with these elements. The contents of Fe2O3, Cr and TiO2 are the same in the composition of the samples. The increased contents of Pb, Cu, As, Cu, Sr, V and Co in the  local soil indicates to possible anthropogenic impact. The content of copper, cobalt, lead, titanium and strontium is higher than their Clarke in the soil, and as  for the rest of HMs, they was found. The biological absorption coefficient for BW for Zn (19.81), Ni (8.83), MnO (1.81), Cr (1.44) and Sr (1.12) is greater than unit (K> 1) which means their intensive transfer from soil to plants; as for other elements the latters demonstrated their deficiency are poorly captured. This fact indicates that BW can be used for rehabilitation of soils with high contents of Zn, Ni and Cr, since these elements are classified as dangerous ones according to hazard classification.

 

 

KEY WORDS

heavy metals, soil, wormwood, maximum concentration limit, Clarke, biological absorption coefficient, HYSPLIT.