Radioactive Contamination of Wild Mushrooms from Ukraine under Conditions of Contrasting Radiation Loads: 36 Years after the Chernobyl Nuclear Power Plant Catastrophe.

It has been 36 years since the Chernobyl Nuclear Power Plant catastrophe, but the consumption of wild mushrooms in Ukrainian Polissya is still dangerous since its territory is heavily contaminated by radionuclides. The aim of this study was to estimate 137Cs and 90Sr uptake in wild mushrooms from locations with contrast radioactive loads (Zhytomyr Polissya, Ukraine). In mushroom samples collected from Drevlyanskyi Nature Reserve since 2013 (average levels of soil surface contamination with 137Cs are 555-1480 kBq m-2), the highest levels of 137Cs were observed in symbiotroph species - Imleria badia (≤ 2680 kBq kg-1 dry mass [dm]), Tricholoma equestre (≤ 1420 kBq kg-1 dm), Lactarius rufus (≤ 602 kBq kg-1 dm), Sarcodon imbricatus (≤ 464 kBq kg-1 dm), Leccinum scabrum (≤ 117 kBq kg-1 dm), Suillus bovinus (≤ 118 kBq kg-1 dm), and Boletus edulis (≤ 96 kBq kg-1 dm). 90Sr activity was significantly lower, with the highest levels detected in Russula emetica (193 Bq kg-1 dm), Daedaleopsis confragosa (145 Bq kg-1 dm), and Hypholoma fasciculare (141 Bq kg-1 dm). The 137Cs/90Sr ratio in fruiting bodies in samples ranged from 6.1 (Bovistella utriformis) to 28,979 (T. equestre). Activity concentrations in mushrooms from locations with relatively low contamination with 137Cs (18.5-27.75 kBq m-2) also reached the highest values in symbiotroph species I. badia (7698 Bq kg-1 dm), Lactarius vellereus (6072 Bq kg-1 dm), and S. luteus (1448 Bq kg-1 dm). Potential calculated annual effective doses due to mushroom consumption by adults, considering only the effect of 137Cs, reached 0.311 and 8.71 mSv in B. edulis and I. badia from highly contaminated locations, respectively, and 0.0014 and 0.009 mSv in these species from low contaminated ones.

Radiocesium (137Cs) and Mineral Elements in Culinary-Medicinal Mushrooms from the Southern Outskirts of Kyiv, Ukraine.

In recent decades, the estimation of radionuclide and heavy metal levels in culinary-medicinal mushrooms has been of interest because some of them have proven to be hyperaccumulators of toxic elements. This article presents results on radiocesium (137Cs) activity in fruit bodies of medicinal-culinary mushrooms-Agaricus sylvaticus Schaeff., Chlorophyllum rhacodes (Vitt.) Vellinga, Coprinellus micaceus (Bull.) Vilgalys, Hopple & Jacq. Johnson, Coprinopsis atramentaria (Bull.) Redhead, Vilgalys & Moncalvo, Coprinus comatus (O.F. Mull.) Pers., Fistulina hepatica (Schaeff.) With., Laetiporus sulphureus (Bull.) Murrill, Leccinum scabrum (Bull.) Gray, Macrolepiota procera (Scop.) Singer, Melanoleuca brevipes (Bull.) Pat., Pleurotus ostreatus (Jacq.) P. Kumm., Xerocomellus chrysenteron (Bull.) Sutara, nonedible Echinoderma asperum (Pers.) Bon, and toxic species Agaricus xanthodermus Genev.-collected in 2015, as well as magnesium, manganese, iron, copper, zinc, chromium, nickel, molybdenum, cadmium, selenium, lead, and mercury content in medicinal-culinary species-Armillaria mellea (Vahl) P. Kumm., Ch. rhacodes, C. comatus, Grifola frondosa (Dicks.) Gray, Gyroporus cyanescens (Bull.) Quel., L. scabrum, M. procera, P. ostreatus, and X. chrysenteron-collected during 2016-2017 on the southern outskirts of Kyiv, the capital of Ukraine. The data obtained suggest safe levels of radiocesium and some essential and toxic elements in mushroom fruit bodies. All the investigated species are collective sorbents of magnesium, manganese, copper, and zinc; thus, they represent the source of the intake of these elements in the human body. The species-specific manner of mineral element accumulation was observed. In addition to medicinal values, some species (in particular, M. procera and Ch. rhacodes) are of interest as potential informative bioindicators of heavy metal contamination of the environment.