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... mosses: Comparison of aquatic and terrestrial species as air pollution biomonitors // Environmental Pollution. 2023. Vol. 333. P. 122069. doi: 10.1016/j.envpol.2023.122069. 4. Frontasyeva M., Galinskaya T. Ye, Krmar M. et al. Atmospheric deposition of heavy metals in northern Serbia and Bosnia-Herzegovina studied by the moss biomonitoring, neutron activation analysis and GIS technology // Journal of Radioanalytical and Nuclear Chemistry. 2004. Vol. 259, № 1. P. 141—144. doi: 10.1023/­b:jrnc.0000015819....

... Biomonitoring of Atmospheric Pollution with Trace Elements in the Moscow Region, Russia // Toxics. 2022. Vol. 10, № 2. doi: 10.3390/TOXICS10020066/S1. 17. Nekhoroshkov P., Peshkova A., Zinicovscaia I. et al. Assessment of the Atmos­pheric Deposition of Heavy Metals and Other Elements in the Mountain Crimea Us­ing Moss Biomonitoring Technique // Atmosphere. 2022. Vol. 13, № 4. P. 573. doi: 10.3390/ATMOS13040573. 18. Tabors G., Brūmelis G., Nikodemus O. et al. Decreased atmospheric deposition of heavy ...

... Технология утилизации осадков сточных вод. URL: https://synecogas.ru/utilizaciya-osadkov-stochnyh-vod-s-polucheniem-biouglya (дата обращения: 13.08.2024). Taoze L., Bangyu L., Wei Z. Nutrients and Heavy Metals in Biochar Produced by Sewage Sludge Pyrolysis: Its Application in Soil Amendment // Pol. J. Environ. Stud. 2014. Vol. 23, № 1. Р. 271—275. Wang Z., Tian Q., Guo J. et al. Co-pyrolysis of sewage sludge/cotton stalks with K2CO3 for biochar ...

... depending on the amount of atmospheric precipitation. The authors calculated the indexes of HM concentration, which underlies the offered classification of the Baltic region countries by in the level of pollution. 1. Ilyin I., Rozovskaya O., Travnikov O. Heavy metals: transboundary pollution of the environment EMEP status report 2/2008 : [сайт МСЦ-Восток]. URL: http://www.msceast.org/publications.html (дата обращения: 10.01.2011). 2. Harmens H., Mills G., Hayes F. et. al. Air pollution ...

... Exposure of the Population of the European Community to Radioactivity in the Baltic Sea. Maria-Balt Project, 2d S. P. Nielsen. Proceedings of a Seminar held at Hasseludden Conference Centre, Stockholm, 9—11 June 1998 . P. 77—129. 6 . Brugmann L. Heavy metals in the Baltic Sea. In The State of the Baltic / ed. by G. Kullenberg, Mar. Pollut. Bull. 1981. Vol. 12 (6). P. 214—218. 7. HELCOM . Baltic Sea Environmental Proceedings. 2004. N 108. Heavy Metal Pollution to the Baltic Sea in 2004. Helsinki ...

... Platin, Palladium und Rhodium in Umweltmaterialien an der Bundesautobahn A5 (Akm 458-Akm 524) // Emissionen von Platinmetallen / hrsg. F. Zereini, F. Alt. Berlin, 1999. P. 147—159. 2. Ure A. M., Quevauviller P., Muntau H., Griepink B. Speciation of heavy metals in soils and sediments. An account of the improvement and harmonization of extraction techniques undertaken under the auspices of the BCR of the Comission of the European Communities Intern // J. Environ. Anal. Chem. 1993. № 51. P. 135—151....

... atmospheric depo-sition with an emphasis on the Arctic // Sci. Total Environ. 1995. Vol. 160/161. P. 737—747. 3. Бязров Л. Г. Лишайники в экологическом мониторинге. М., 2002. 4. Garty J. Biomonitoring atmospheric heavy metals with lichens: theory and application // Crit. Rev. Plant Sci. 2001.Vol. 20. P. 309—371. 5. Heavy Metals, Nitrogen And Pops In European Mosses: 2015 Survey. URL: http://icpvegetation.ceh.ac.uk/publications/documents/MossmonitoringMANUAL-2015-17....

... heavy metal pollution from anthropogenic activities and remediation strategies: A review // Journal of Environ­mental Management. 2019. № 246. Р. 101—118. doi: 10.1016/j.jenvman.2019.05.126. 2. Rahman Z., Singh V. P. The relative impact of toxic heavy metals (THMs) (arse­nic (As), cadmium (Cd), chromium (Cr)(VI), mercury (Hg), and lead (Pb)) on the to­tal environment: an overview // Environmental Monitoring and Assessment. 2019. № 191. doi: 10.1007/s10661-019-7528-7. 3. Alengebawy A., Abdelkhalek ...

... интерпретации данных, корреляционного и факторного анализа позволило выделить антропогенную и природную составляющую загрязнения мхов. 1. Protocol on heavy metals: [site of UNECE]. URL: http://www.unece. org/env/lrtap/hm_h1.htm ( дата обращения : 01.04.2010). 2. Atmospheric Heavy Metal Deposition in Europe 1995—1996. Copenhagen, 1998. 3. Баринова Г.   М. Калининградская ...

... Ovsepyan A. E., Zimovets A. A. et al. Mercury distribution in bot­tom sediments of the White Sea and the rivers of its basin // Handbook of Environ­mental Chemistry. 2018. 82:207—240. 10. Fedorov Y. A., Zimovec A. A. About the principal sources of heavy metals in the Northern Dvina River estuary // Proceedings of the Xth SGEM. 2011. 2:171—174. 11. Gandhi N., Tang R. W. K., Bhavsar S. P. et al. Fish mercury levels appear to be increasing lately: A report from 40 years of monitoring in the province ...

... 171—176. 3. Щеглова А. И., Цветновой О. Б. Грибы — биоиндикаторы техногенного загрязнения // Природа. 2002. № 11. C. 39—46. 4. Cocchi L., Vescovi L., Petrini L. E. et al. Heavy metals in edible mushrooms in Italy// Food Chemistry. 2006. № 98. P. 277—284. 5. Isildak O., Turkekul I., Elmastas M. et al. Analysis of heavy metals in some wild-grown edible mushrooms from the middle black sea region, Turkey //Food Chemistry. 2004....

... вод тяжелыми металлами. Л ., 1989. 9. Krasnov Е . V. Corals and mollusks as indicators of sea water quality // Water quality bulletin. 1977. Vol. 2 , No. 4 . P. 10—11. 10. Kulikova I. , Seisuma Z., Legzdina M. Concentration of heavy metals in the Riga gulf ecosystem // Materials of the International Conference «Ecobaltica — 91». Ka­liningrad , 1991. P. 116—117. 11. Pempkowiak J., Szefer P. The concentration and sources of heavy metals in some sea species // Materials ...

... 580—585. 18. Petkovšek S. Al S., Pokorny B. Lead and cadmium in mushrooms from the vi¬cinity of two large emission sources in Slovenia // Science of the Total Environment. 2013. N 443. P. 944—954. 19. Gast S. H., Jansen E., Bierling J., Haanstra L. Heavy metals in Mushrooms and their relationship with soil characteristics // Chemosphere. 1988. Vol. 17, № 4. P. 789—799. 20. Иванов А. И., Костычев А. А., Скобанев А. В. Аккумуляция тяжелых метал¬лов ...

... // Environ. Sci. Pollut. 2000. Vol. 7. Р. 191—194. 10. Кемеровская область. Ч. 1 : Природа и население / под ред. В. П. Удодова. Новокузнецк, 2008. 11. Verma R. K. Phytoremediation of Heavy Metals Extracted from Soil and Aquatic Environments: Current Advances as well as Emerging Trends // Biointer­face Research in Applied Chemistry. 2022. Vol. 12. Р. 5486—5509. 12. Зиновьева О. М., Колесникова Л. А., Меркулова ...

... Свердловск, 1974. С. 3—28. 2. Kent M. Plant growth problems in colliery spoil reclamation — a review // Applied Geography. 1982. Vol. 2, iss. 2. P. 83—107. doi: 10.1016/0143-6228(82)90029-7. 3. Dang Z., Liu C., Haigh M. Mobility of heavy metals associated with the natural weathering of coal mine spoils // Environmental Pollution. 2002. Vol. 118. P. 419— 426. doi: 10.1016/S0269-7491(01)00285-8. 4. Hüttl R. F. Ecology of post strip-mining landscapes in Lusatia, Germany //Environmental ...

... геоситуация — на автодорогах регионального значения. This article shows that the annual increase in traffic in the Smolensk region affects the environmental features of roadside land pollution by oil products, heavy metals, waste, calcium chloride, and magnesium. The author emphasizes an increase in traffic accidents and road-traffic fatality on the Moscow — Minsk international route. The environmental — geographical situation on regional roads is proved to be ...

... Benjamin M. M., Leckie J. O. Conceptual Model for Metal-Ligand-Surface Interactions During Adsorption // Environ. Sci. Technol. 1981. № 15(9). P. 1050—1057. 2. Frimmel F. H., Huber L. Influence of Humic Substances on the Aquatic Adsorption of Heavy Metals on Defined Mineral Phases // Environ. Intern. 1996. № 22(5). P. 507—517. 3. Kretzschmar R., Holthoff H., Sticher H. Influence of pH and humic acid on coagulation of kaolinite: A dynamic light scattering study // J. Colloid Interface Sci. 1998....