07. Analysis of pollution of soils with completed cleaning agents from individual farms growing cows, sheep and goats

https://doi.org/10.31073/agrovisnyk201803-07
Zhukors'kyj O. M., Kryvohyzha Je. M., Lesyk O. B.
Pages: 40-44.

Full article: 
Abstract
The purpose. To analyze volumes of pollution of soils with completed acting matters of cleaning agents from individual farms growing cows, sheep and goats. Methods. Calculated method. Results. By interrogation and under the formula developed by authors volumes of receipt in soil of spent solutions of some washing and sanitizer means which are usually used in domestic economies are specified. Conclusions. It is determined that after sanitization of milking apparatuses and milk utensils in equipments of population of Ternopil, Ivano-Frankivsk and Chernivtsi oblasts the following volumes (during a year) of cleaning and sanitizing means enter the soil: surfactants — 571,6 tons; joints of chlorine — 109,7 tons. That can negatively influence ecosystems.

Key words: cleaning agent, sanitization, milk utensils, soil pollution, ecosystem.

References
  1. The official site of State Statistics Service of Ukraine, available at: www.ukrstat.gov.ua.
  2. Jones G.M. (2009). Cleaning and Sanitizing Milking Equipment. Publications (Virginia Cooperative Extension), 400–404:1–4. Available at: https://pubs.ext.vt.edu/404/404-400/404-400.html.
  3. Gilbert P.H. (1982) The use of detergents and sanitizers in Dairy Farm Sanitation: an updated perspective. Journal of the South African Veterinary Association, 53(2):103–106.
  4. Zhukorskyi O.M., Kryvokhyzha Ye.M. (2016) Ecological risks of using chemical sanitizing agents for milking machines and milk containers. Agricultural science and practice, 3 (3):12–16.
  5. Bobyl'ova O.A., Gerasimova V.G., Snoz S.V., Shilina V.F. (2006) Voprosy bezopasnosti dlya zdorov'ya cheloveka tovarov bytovoy khimii pri provedenii gosudarstvennoy sanitarnoy epidemiologicheskoy ekspertizy [Problems of household chemical goods safety for human health during state sanitary-epidemiological expertise]. Sovremennye problemy toksikologii [Modern problems of toxicology], 4:38–43 [in Russian].
  6. Belova V.I., Volkov Yu. P. (1991) Osnovnye napravleniya issledovaniy v razrabotke dezinfitsiruyushchikh sredstv [The main areas of research in the development of disinfectants]. Sb. n. tr. NII vaktsin i syvorotok. Nauchnye osnovy dezinfektsii i sterilizatsii [Collection of Scientific Papers Research Institute of Vaccines and Sera. Scientific basis disinfection and sterilization], Moscow, 13−18 [in Russian].
  7. Lal H., Misra V., Viswanathan P.N., KrishnaMurti C.R. (1983) Comparative studies on ecotoxicology of synthetic detergents. Ecotoxicology and Environmental Safety, 7 (6):538–545.
  8. Abel P.D. (1974) Toxicity of synthetic detergents to fish and aquatic invertebrates. Journal of Fish Biology, 6(3):279–298.
  9. Azizullah A., Richter P., Ullah W., Ali I., Häder D.P. (2013) Ecotoxicity evaluation of a liquid detergent using the automatic biotest ECOTOX. Ecotoxicology, 22 (6):1043–1052.
  10. Gheorghe S., Lucaciu I., Grumaz R. (2011) Detergents legislative framework and ecotoxicological testing methodology. Journal of Environmental Protection and Ecology, 12 (3A):1525–1532.
  11. Boillot C., Emmanuel E., Perrodin Y. (2006) Étude des effets combinés du glutaraldéhyde et des surfactants contenus dans les effluents hospitaliers vis-à-vis de Daphnia magna. Déchets. Sciences et Techniques, 42:22–28.
  12. Emmanuel E., Blanchard J-M., Keck G., Vermande P., Perrodin Y. (2004) Toxicological effects of sodium hypochlorite disinfections on aquatic organisms and its contribution to AOX formation in hospital wastewater. Environment International, 30 (7):891–900.