Mining enterprises of Republic of B

Mining enterprises of Republic of Bashkortostan,
which are situated in its eastern part, are large sources of
contamination of the environment with heavy metals,
sulfates, and other substances. The intense human
induced effect influences soil and vegetation cover, sur
face and ground waters, and bottom sediments of water
bodies.
The loss of elements from the lithosphere causes
humaninduced leakage fluxes of them into the envi
ronment. During processing of polymetallic ores, Se,
As, Sb, Te, and Bi are included in them, which are
present in ores in insignificant concentrations. The
determination of these elements is necessary, because
they are toxicants of the first and second classes of dan
ger, and there are few data on their actual content in
nature.
The main source of introduction of toxic elements in
water bodies of mining districts are wastewaters of min
ingandprocessing integrated works. These waters rep
resent a system which is complex for analysis and char
acterized by high mineralization, a large content of
heavy metals, and the presence of specific organic com
pounds. The contents of matrix elements in these waters
are several orders of magnitude higher than the concen
tration of the elements determined.
Known procedures of the determination of sele
nium, arsenic, antimony, tellurium, and bismuth can
not be used for the analysis of these waters without their
substantial improvement and adaptation. For this rea
son, the studies on the choice of optimal conditions of
determination of Se, As, Sb, Te, and Bi were performed
by the method atomic absorption spectroscopy with
electrothermal atomization ( AASETA) in wastewa
ters of miningandprocessing integrated works on pro
cessing of copper sulfide ores. The methods of prelimi
nary sample preparation were studied, various methods
of correction of nonselective absorption were com
pared, the temperature–time mode was chosen, the
choice of chemical modifier was made, and the estima
tion of applicability of graphite furnaces of various
modifications was performed.
Natural waters with low contents of the elements
determined, which are the most complex for analysis,
and wastewaters with a matrix complex in composition
were chosen as the objects of study. The samples of nat
ural water were taken in small rivers which are receivers
of wastewaters of miningandprocessing integrated
works. The samples of wastewater represented mine and
underdump waters.
The reliability of the results was verified by the
method of additions of standard samples of known
composition, which were dosed directly in the cell of
the atomizer together with the sample analyzed. In
many modern atomic absorption spectrophotometers
(AA6800), the degree of extraction (R, %) is calculated
automatically with the use of the method of addition of
standard sample. The signal was recorded either by area
or by amplitude of absorption peak.