Dataset of iodine concentration in soils and grassland vegetation and radioactive contamination of pastures of the regions of the Russian Federation affected by the Chernobyl NPP accident.

Iodine is a trace element with an important role in human health. Iodine deficiency is a global health problem that can provoke iodine-deficiency-related thyroid disorders, such as endemic goitre, hypothyroidism, thyroid cancer, etc. Study of iodine in the soils and vegetation was conducted from 2008 to 2022 in the Bryansk and Oryol regions of Russia. These regions are known to exhibit natural iodine deficiency and have been affected by radioactive contamination following the Chernobyl accident in 1986. Soil and grassland vegetation samples were collected from local pastures near rural settlements. The soil core was divided into layers at the following depths: 0-5 cm, 5-10 cm, 10-20 cm. The iodine content in all selected samples was determined in the GEOKHI RAS using the kinetic rhodanide-nitrite method. The information in the dataset could be used to assess the iodine deficiency in the environment of other regions situated on similar soils.

Chemical composition of groundwater used for drinking in conditions of natural deficiency of iodine and selenium and evaluation of its health effect: the case of Bryansk region (Russia).

Chemical composition of drinking water was examined in rural settlements of Bryansk region to reveal its influence on distribution of endemic thyroid diseases among population after the Chernobyl accident (1986) with due regard to different sources of water, the age and composition of water-bearing rocks. Groundwater samples (n = 515 in total) were collected in 156 rural settlements over the region in the period from 2007 to 2017 and analyzed for major cationogenic elements (Ca, Mg, Sr, K, Na, Mn, Zn, Fe, Al, Si) and anions (HCO32-, Cl-, F-, SO42-, NO32-, PO42-) as well as for I- and Se using ICP-AES, potentiometry, photometry and spectrofluorimetry. The results confirmed a low supply of water samples with iodine (Median (Me) = 5.96 µg/L, variation range 0.06-41.2 µg/L) and selenium (Me = 0.18 µg/L, variation 0.001-6.21 µg/L). The concentration levels of iron (64% of examined districts), manganese (36% of examined districts) and strontium (8% of examined districts) appeared to be inconsistent with hygienic standards. The data on chemical composition of drinking water were analyzed for correlation with the medical data on the prevalence of endemic thyroid diseases among the population living in the corresponding rural settlements. Tendencies of relationship between water iodine concentration and the incidence of thyroid diseases caused by iodine deficiency among teenagers aged 8 to 12 have been found. The same trend was found when comparing geochemical data with iodine content in renal excretion in this age group. The influence of some other components of natural waters on the manifestation of thyroid insufficiency has been cartographically assessed.