Source: https://military-site-cleaning.cz/publications/
Timestamp: 2019-04-21 06:05:59+00:00

Document:
1. Pidlisnyuk V., Erickson L., Trögl J., Shapoval P., Davis L., Popelka J., Stefanovska T., Hettiarachchi G.2018. Metals uptake behaviour in Miscanthus x giganteus plant during growth at the contaminated soil from the military site in Sliač, Slovakia, vol. 20, 2, p.1-7. IF=0,774.
2. Kvak V., Stefanovska T., Pidlisnyuk V., Alasmary Z., Kharytonov M., The long-term assessmet of Miscanthusxgiganteus cultivation in the forest-steppe zone of Ukraine. INMATEH- Agricultural Engineering, 2018, vol.54, 1, p.113-121. IF=0,20.
3. Pidlisnyuk, V., Erickson L., Stefanovska T., Pidlisnyuk I., Davis L., 2017. Phytotechnologies with biomass production as a sustainable solution for military land revitalization. Chapter in a Book: Biblioteka Regionalisty, Publishing House of Wroclaw economic University, Wroclaw, Poland, v.17, p. 87-94.
1.StefanovskaT., Pidlisnyuk V., Erikson L., Skwierch A., Kornobis F., Zouhar M., 2018. The development and preliminary assessment of using the biological indicators to evaluate the soil quality under Miscanthus x giganteus production at the contaminated abandoned sites. FAO. 2018. Proceedings of the Global Symposium on Soil Pollution 2018. Rome, Italy, Food and Agriculture Organization of the United Nations. 976 pp. Licence: CC BY-NC-SA 3.0 IGO. ISBN 978-92-5-130863-9, p.620-627.
2.Pidlisnyuk V., Erickson L., Stefanovska T., Hettiarachchi G., Davis L., Trogl J., 2018. Sustainable soil management of polluted military site by phytostabilization with biomass production using biofuel crop Miscanthusxgiganteus FAO. 2018. Proceedings of the Global Symposium on Soil Pollution 2018. Rome, Italy, Food and Agriculture Organization of the United Nations, 976 pp. Licence: CC BY-NC-SA 3.0 IGO. ISBN 978-92-5-130863-9, р.795-801.
3. Pidlisnyuk V., Stefanovska T., Erickson L., Trogl J.,2018. Impact of military territories to the Environment and place of phytotechnolog with biomass production of miscanthus. Book of Abstracts of the Central and Eastern European Conference on Health and the Environment “Environmental and health issues in fast changing economies, CEECHE2018, Krakow, Poland, June 10-14, 2018, C2.
4. Gruss I., Twardowski J., Stefanovska T, Pidlisnyuk V. ,2018. Environmental risk assessment of heavy metal contamination at military sites in Ukraine: avoidance and reproduction test with Collembola Book of Abstracts of the Central and Eastern European Conference on Health and the Environment “Environmental and health issues in fast changing economies, CEECHE2018, Krakow, Poland, June 10-14, 2018, C3.
5. Nebeska D., Malinska H., Trogl J., Pidlisnyuk V., Smaha M., Hokubova M., Medzona A.,2018. Growing Miscanthus xgiganteus in post-militar soil ans soils contaminated by petroleum hydrocarbons: remediation and biomass production. Book of Abstracts of the Central and Eastern European Conference on Health and the Environment “Environmental and health issues in fast changing economies, CEECHE2018, Krakow, Poland, June 10-14,2018, C5.
6. Stefanovska T., Pidlisnyuk V., Skwierch A., Kornobis F.,2018. The composition of nematode community associated with Miscanthusxgiganteus grown at Dolyna military contaminated site. Book of Abstracts of the Central and Eastern European Conference on Health and the Environment “Environmental and health issues in fast changing economies, CEECHE2018, Krakow, Poland, June 10-14,2018, C6.
7. Medkov A., Stefanovska T., Pidlisnyuk V., Ponomarenko S., Petrenko A., Stadnik V., Reshetnjak L., Bondarenko Y., 2018. Effect of three PGRs to the growth and development of first year Miscanthus x giganteus at the military soils, contaminated by heavy metals. Book of Abstracts of the Central and Eastern European Conference on Health and the Environment “Environmental and health issues in fast changing economies, CEECHE2018, Krakow, Poland, June 10-14, 2018, P. 35.
8. Černy J., Trogl J., Pidlisnyuk V., Nebeska D.,2018. Remediation of military areas contaminated by petroleum hydrocarbons: is it possible to effectively produce Miscanthusxgiganteus biomass? Book of Abstracts of the Central and Eastern European Conference on Health and the Environment “Environmental and health issues in fast changing economies, CEECHE2018, Krakow, Poland, June 10-14, 2018, P36.
9. Nurzhanova A., Pidlisnyuk V., Stefanovska T., Kenessov B., Sailaukhanuly Y., Kalugin S., Abit K., Nurzhanov Ch. Problems of organochlorine pesticides in Kazakhstan (of the former storehouse pesticides, military and mining sites). Formulation and Application Technology. Pesticides residues. Toxicology and ecotoxicology. Abstracts 70th International Symposium of Crop protection, Ghent, Belgium, May 21st, 2018, 88.
1. Kharytonov M., PidlisnyukV., Stefanovska T., Babenko M., Martynova N., Rula I.
The estimation of Miscanthusxgiganteus adaptive potential for cultivation on the mining and post-mining lands in Ukraine. Submitted to Journal “Environmental Science and Pollution Research”, 20.05.2018, is under the reviewing process.
2. Pidlisnyuk V., Erickson L., Stefanovska T., Popelka J., Hettiarachchi G., Davis L., Trögl J.
Sustainable soil management of military polluted site by phytotechnology with biomass production using biofuel crop Miscanthus x giganteus. Submitted to Journal “Environmental Pollution” 30.06.2018, is under the reviewing process.
1.Pidlisnyuk V. Sustainable soil management of polluted military site by phytostabilization with biomass production using biofuel crop Miscanthusxgiganteus. Global Symposium on Soil Pollution 2018, Rome, Italy, Food and Agriculture Organization of the United Nations, 2-4.05. 2018 (oral presentation).
2.Stefanovska T. The development and preliminary assessment of using the biological indicators to evaluate the soil quality under Miscanthus x giganteus production at the contaminated abandoned sites. Global Symposium on Soil Pollution 2018, Rome, Italy, Food and Agriculture Organization of the United Nations, 2-4.05.2018 2018 (oral presentation).
3.Pidlisnyuk V., Stefanovska T., Erickson L., Trogl J. Impact of military territories to the Environment and place of phytotechnolog with biomass production of miscanthus. Central and Eastern European Environmental Health Conference-CEECHE2018, Krakow, Poland, 10-14.06. 2018 (oral presentation).
4. Stefanovska T., Pidlisnyuk V., Skwierch A., Kornobis F. The composition of nematode community associated with Miscanthusxgiganteus grown at Dolyna military contaminated site. CEECHE2018, Krakow, Poland, 10-14.06. 2018 (oral presentation).
5. Nebeska D., Malinska H., Trogl J., Pidlisnyuk V., Smaha M., Hokubova M., Medzona A. Growing Miscanthus xgiganteus in post-militar soil ans soils contaminated by petroleum hydrocarbons: remediation and biomass production. CEECHE2018 conference, Krakow, Poland, 10-14.06.2018 (oral presentation).
6.Medkov A., Stefanovska T., Pidlisnyuk V., Ponomarenko S., Stadnik V. Effect of three PGRs to the growth and development of the first year Miscanthus x giganteus growth at the contaminated by heavy metals military site. CEECHE2018, Krakow, Poland, 10-14.06.2018 (poster presentation).
7. Černy J., Trogl J., Pidlisnyuk V., Nebeska D. Remediation of military areas contaminated by petroleum hydrocarbons: is it possible to effectively produce Miscanthusxgiganteus biomass? CEECHE2018 conference, Cracow, Poland, 10-14.06.2018 (poster presentation).
8. Nebeska D., Trogl J., Pidlisnyuk V., Smaha M., Holubova M. Development of PLFA profile of soil microbial communities during pot growth of Miscanthusx giganteus on contaminated soils. International conference “Ecology of Soil Microorganisms 2018”, Helsinki, Finland, 17-21.06.2018 (poster presentation).
9. Černy J., Nebeska D., Jilkova J., Pidlisnyuk V. Optimization of Miscanthusxgiganteus production based on the creation of economic models. -Introduction. International scientific conference CEDER2018, Usti nad Labem, Czech Republic, 28-29.06.2018 (oral presentation).
10. Stadnik V., Sozanskyi M., Shapoval P., Pidlisnyuk I., Kvak V. The possibility of Miscanthus x giganteus growing as a biofuel crop on contaminated military sites. 5th International Congress «Sustainable Development: Environmental Protection. Energy Saving. Sustainable Environmental Management», 26-29.09. 2018, Lviv, Ukrainе (oral presentation).
11. Malinska H. Miscanthus x giganteus in marginal soils, stress response and biomass production in context of genetic features. 11 International Conference “Plant Functioning under environmental stress”,12-15.09. 2018, Kracow, Poland (oral presentation).
14. Sozanskyi M., Shapoval P., Pidlisnyuk I., Kvak V. The possibility of miscanthus x giganteus growing as a biofuel crop on contaminated military site. 5th International Congress «Sustainable Development: Energy Saving. Environmental Protection. 26-29. 09. 2018, Lviv Ukraine (oral presentation).
1.Shapoval P., Stadnik V., Sozanskyi M., Stefanovska T., Medkov A. Chlorophyll ﬂuorescence as a tool to monitor physiological status of Miscanthus x giganteus under abiotic stress conditions. EastWest Chemistry Congress, 10-12.10. 2018, Lviv, Ukraine.
2.Pidlisnyuk V., Trogl J., Stefanovska T., Nebeska D., Kvak V., Medkov A., Shapoval P., Erickson L. Elaboration the phytotechnology for metals contaminated military sites with growing the biofuel crop Miscanthus xgiganteus. 15 International Phytotechnology Conference, Novy Sad, Serbia. 2-4.10. 2018.
3. Alasmary Z., Hettiarachchi G.M., Roozeboom K.L., Davis L.C., Erickson L.E. Stabilization of lead in a contaminated military site using a second‐generation biofuel crop and phosphate‐based soil amendments. 15 International Phytotechnology Conference, Novy Sad, Serbia. 2-4.10.2018.
4. Nurzhanov Ch., Pidlisnyuk V., Nurzhanova A., Naizabayeva L. Mathematical model for growing Miscanthus x giganteus at the soil contaminated by xenobiotics. 15 International Phytotechnology Conference, Novy Sad, Serbia. 2-4.10.2018.
5. Nurzhanova A., Pidlisnyuk V., Abit K., Nurzhanov Ch., Kenessov B., Stefanovska T., Erickson L. Using of Miscanthus x giganteus for phytoremediation of the contaminated soil: case of military and mining sites. 15 International Phytotechnology Conference, Novy Sad, Serbia. 2-4.10.2018.
Pidlisnyuk Valentina, Stefanovska Tetyana Patent #127487 (useful model). Method of growing Miscanthuxgiganteus at the degradated land. UkrPatent, August 8, 2018.
Kharytonov M., Martynova N., Sitnyk S., Naumenko M., Pidlisnyuk V., Stefanovska T. 2017. A productive potential estimation of five genotypes of the Miscanthus anderss genus in the Ukrainian steppe zones conditions. INMATEH-Agricultural Engineering, 2017, 52 (2), 129-136. IF=0,20.
Pidlisnyuk V., Erickson L., Trögl J., Shapoval P., Davis L., Popelka J., Stefanovska T., Hettiarachchi G. 2018. Metals uptake behaviour in Miscanthus x giganteus plant during growth at the contaminated soil from the military site in Sliač, Slovakia. Polish Journal of Chemical Technology, 20, in press: accepted on February 7, 2018. IF=0,774.
Kvak V., Stefanovska T., Pidlisnyuk V., Alasmary Z., Kharytonov M., 2018. The long-term assessmet of Miscanthusxgiganteus cultivation in the forest-steppe zone of Ukraine. INMATEH-Agricultural Engineering, 53, in press: accepted on March 10, 2018. IF=0,20.
Stefanovska T., Chumak P., Pidlisnyuk V., Kovalchuk V., Kava L. 2017. State of the art on adaptability of Miscanthiococcus miscanthi takaschi (Homoptepa, Pseudococcidae) followed by the introduction of Miscanthusxgigateus to Ukraine. Communications in Agricultural and Applied Biological Science, 82 (4), 177-181. IF=0,10.
Nurzhanova A., Pidlisnyuk V., Sailaukhanuly Y., Kenessov Y., Trogl J., Aligulova R., Kalugin S., Nurmagambetova A., Abit K., Stefanovska T., Erickson L. 2017. Phytoremediation of military soil contaminated by metals and organochlorine pesticides using miscanthus. Communications in Agricultural and Applied Biological Science, 82/2, 61-68, IF=0,10.
Skwiercz A., Stefanovska T., Pidlisnyuk V., Zouhar M., Kornobis F., Obruch M., Sozanskyi M. 2017. Nematode community composition associated with Miscanthusxgiganteus frowing at the polluted site. Communications in Agricultural and Applied Biological Science, 82/3, 281-285. IF=0,10.
Kharchenko M., Pidlisnyuk V., Stefanovska T. 2017. Production of Miscanthusxgiganteus biomass at the abandoned industrial soils for future use at the paper industry. Studia Biologica, 11 (3-4), 98-99. ISSN 1996-4536.
Stefanovska T., Pidlisnyuk V., Bilui O., Kvak V., Zvihun G., Shapoval P. 2017. Agronomic aspects of growing Miscanthusxgiganteus as raw material for production of solid fuel at the military contaminated soils. Studia Biologica, 11(3-4), 99-100. ISSN 1996-4536.
Medkow A., Sefanovska T., Pidlisnyuk V., Ponomarenko S. 2017. Impact of PGRs to the adaptive properties of Miscanthusxgiganteus during production of biomass at the soil contaminated by heavy metals. Studia Biologica, 11 (3-4), 100-102. ISSN 1996-4536.
Pidlisnyuk V., Stefanovska T., Erickson L., Shapoval P., Trogl J., Yaschuk S. 2017. Developing an inexpensive process to produce biomass and to restore soil at the sites contaminated by the past military activities in Ukraine. Studia Biologica, 11 (3-4),103-104. ISSN 1996-4536.
Sozanskyi M., Pidlisnyuk V., Stadnik V., Shapoval P. 2017. Detection of the heavy metals concentration at biomass of Miscanthusxgiganteus which was growth at the military land. Studia Biologica, 11 (3-4), 105-106. ISSN 1996-4536.
Stefanovska T., Skwiercz A., Zouhar M., Kornobis F., Pidlisnyuk V., Ovruch M. 2017. Study of phytonematodes as bioindicators of soil parameters changes while producing Miscanthusxgiganteus at the soil contaminated by heavy metals. Studia Biologica,11(3-4), pp.106-107. ISSN 1996-4536.
Alasmary Z., “Phytotechnology for contaminated military site at Ft. Riley”, American Society of Agronomy/Crop Science Annual Meeting, Tampa, Florida, U.S.A., October 22-25, 2017. Oral presentation.
Pidlisnyuk V. Developing an inexpensive process to produce biomass and to restore soil at the sites contaminated by the past military activities in Ukraine. IV International conference “Plant Ontogenesis in natural and transformed environments”. Physiological, Biochemical and Ecological Aspects”, Lviv, Ukraine, October 4-6, 2017. Oral presentation.
Stefanovska T. Agronomic aspects of growing giant miscanthus (Miscanthus x giganteus) for solid biofuel production produced at the polluted by military activities’ sites, IV International conference “Plant Ontogenesis in natural and transformed environments”. Physiological, Biochemical and Ecological Aspects”, Lviv, Ukraine, October 4-6, 2017.Oral presentation.
Trögl J., Nebeska D. Analysis of soil microbial communities and estimation of interactions while growing Miscanthus x giganteus at the abandoned or contaminated lands. IV International conference “Plant Ontogenesis in natural and transformed environments”. Physiological, Biochemical and Ecological Aspects”, Lviv, Ukraine, October 4-6, 2017.Oral presentation.
Medkov A., Stefanovska T., Pidlisnyuk V., Ponomarenko S. Impact of plant growth regulators to Miscanthus x giganteus establishment while producing biomass at the land contaminated by heavy metals, IV International conference “Plant Ontogenesis in natural and transformed environments”. Physiological, Biochemical and Ecological Aspects”, Lviv, Ukraine, October 4-6, 2017. Poster presentation.
Sozanskyi M., Pidlisnyuk I, Stadnik V., Shapoval P. Determination of heavy metals in biomass of Miscanthusx giganteus grown on contaminated military sites, IV International conference “Plant Ontogenesis in natural and transformed environments”. Physiological, Biochemical and Ecological Aspects”, Lviv, Ukraine, October 4-6, 2017.Poster presentation.
Kava L., Fedun G. Specific composition of soil dwelling herbivorous during giant Miscanthus x giganteus biomass production, IV International conference “Plant Ontogenesis in natural and transformed environments”. Physiological, Biochemical and Ecological Aspects”,Lviv, Ukraine, October 4-6, 2017. Poster presentation.
Pidlisnyuk V., Stefanovska T. Method for growing Miscanthuxgiganteus at the abandoned land. Submitted to Ukrainian Patent Agency, January 4, 2018, # 1576.
Pidlisnyuk V., Stefanovska, T. 2014. Method for growing plants in heavy metals contaminated soils. Claim for the Invention of Ukraine, #a2013 12471. letter #2413/3A/14 from State Intellectual Service of Ukraine, January 29,2014.
Stefanovska T., Pidlisnyuk V., Lewis E., Gorbatenko A. (2017) Herbivorous insets diversity at Miscanthus x giganteus in Ukraine. Agriculture (Polnogospodarstvo), 63(1), 14-22. DOI: 10.1515/agri-2017-0003, IF=0,360.
1. Erickson L., Pidlisnyuk V., Trögl J., Shapoval P., Popelka J., Davis L., Stefanovska T., Hettiarachchi G. Perennial phytotechnology with biomass production for abandoned military site in Sliač, Slovakia. Proc. of International conference „Chemical tecnology and ingineering“, Lviv, June 26-30, 2017, Book of Abstracts, Published by Lvivska Politekhnika, 2017, UDK 338.24.658.014 X46. p.282-283.
2. Pidlisnyuk V., Stefanovska T., Kvak V. Phytoremediation of soils contaminated by heavy metals after military activities by Miscanthus x giganteus. Proc. of the All-Ukrainian scientific-practical conference “Actual questions of modern technologies for cultivation of the agricultural crops in the climate change conditions, June 15-16, 2017, Kamenetz-Podilsky.Available at: http://sophus.at.ua/Conf_2017/Zb_PDATU_06_2017.pdf, p. 152-154.
3.Ponomarenko S., Stefanovska T., Medkov A., Kapriy M. Bioregulators of plant development in growing biofuel crops. Proc. of the 17 International scientific conference “Sakharov reading 2017: environmental problems of the 21 century”, Minsk, Belorussia, May 18-19, 2017, p. 40-41.
4. Stefanovska T., Pidlisnyuk V., Skwiercz A., Obruch M., Yaschuk S. Using of nematodes for indication of soil quality during growing of Miscanthus x giganteus biomass at the military contaminated soils. Proc. of the 17 International scientific conference “Sakharov reading 2017: environmental problems of the 21 century”, Minsk, Belorussia, May 18-19, 2017, p. 211-213.
5. Nebeská D., Pidlisnyuk V., Trögl J., Veronesi-Dáňová P., Seidlová L., Kuráň P., Erickson L., Davis L. Using soil microbial community characteristics for assessment changes in military contaminated land during application of phytotechnlogy with Miscanthus x giganteus, Proc. of BioBio2017, 6th International Symposium on Biosorption and Biodegradation, Prague, Czech Republic, June 25-29, 2017, Prague, Czech Republic, June 25-29, 2017, p.80.
1.Nurzhanova A., Pidlisnyuk V., Kenessov B., Sailaukhanuly Y., Trogl J., Aligulova R., Kalugin S., Nurmagambetova А., Abit K. Phytoremediation of soil contaminated by organochlorine pesticides using miscanthus, 69th International Symposium on Crop Protection, May 23, 2017, Gent, Belgium (poster presentation).
2.Stefanovska T., Chumak P., Pidlisnyuk V., Kovalchuk V., Kava L. State of the art on adaptability of Miscanthiococcus miscanthi takaschi (Homoptepa, Pseudococcidae) followed by the introduction of Miscanthus x gigateus to Ukraine. 69th International Symposium on Crop Protection, May 23, 2017, Gent, Belgium (poster presentation).
3.Skwiercz A., Stefanovska T., Zouhar M., Kornobis F., Pidlisnyuk V. Monitoring of plant parasitic nematodes of Miscanthus x giganteus, highly potential crop for commercial biofuel production in Ukraine. 69th International Symposium on Crop Protection, May 23, 2017, Gent, Belgium (poster presentation).
4.Skwiercz A., Stefanovska T., Zouhar M., Kornobis F., Pidlisnyuk V., Nematode community composition associated with Miscanthus x giganteus in Ukraine growing on polluted and non-polluted sites, 69th International Symposium on Crop Protection, May 23, 2017, Gent, Belgium (poster presentation).
5.Davis L. C., Almasary Z., Erickson L. E., Hettiarachchi G., Nurzanova A., Pidlisnyuk V., Roozeboom K., Stefanovska T., Trogl J. Using a second generation biofuel crop for phytostabilization of contaminated military lands. 17 Annual Meeting of the American Ecological Engineering Society, "Ecological engineering for adaptation in the anthropocene", May 23-25, 2017, UGA, Athens, Georgia, USA (oral presentation).
6.Hettiarachchi G., Alasmary Z., Roozeboom K., Davis L., Erickson L., Pidlisnyuk V., Stefanovska T., Nurzanova A., Trogl J. Field-based investigations on stabilization of contaminated military sites through growing biofuel crops and soil amendments. Annual Meeting of Multi-State Research Project, W3170, June 11-13, 2017, Environmental Learning Centre, Hyperion Water Reclamation Plant, Los Angeles, CA, U.S.A (oral presentation).
7.Pidlisnyuk V., Stefanovska T., Kvak V. Phytoremediation of soils contaminated by heavy metals after military activities by Miscanthus x giganteus. All-Ukrainian scientific-practical conference “Actual questions of modern technologies for cultivation of the agricultural crops in the climate change conditions”, June 15-16, 2017, Kamenetz-Podilsky, Ukraine (oral presentation).
8.Nebeská D., Pidlisnyuk V., Trögl J., Veronesi-Dáňová P., Seidlová L., Kuráň P., Erickson L., Davis L. Using soil microbial community characteristics for assessment changes in military contaminated land during application of phytotechnlogy with Miscanthus x giganteus, BioBio 2017, 6th International Symposium on Biosorption and Biodegradation, Prague, Czech Republic, June 25-29, 2017 (poster presentation).
9. Erickson L., Pidlisnyuk V., Trögl J., Shapoval P., Popelka J., Davis L., Stefanovska T., Hettiarachchi G. Perennial phytotechnology with biomass production for abandoned military site in Sliač, Slovakia. International conference „Chemical tecnology and ingineering“, Lviv, Ukraine, June 26-30, 2017 (oral presentation).
10. Pidlisnyuk V., Trögl J., Nebeská D., Veronesi-Dáňová1 P.,Seidlová L., Kuráň P., Erickson L., Davis L. Microbial communities characteristics during two-year growth of biofuel crop Miscanthus x giganteus on the military contaminated soil, 7th Congress of European Microbiologists, FEMS 2017, Valencia, Spain, July 9-13, 2017 (poster presentation).
11.Nurzhanova A., Pidlisnyuk V., Trogl J., Abit K., Aligulova R. Investigation of the biological activity indicators for military contaminated soil. 7th Congress of European Microbiologists, Valencia, Spain, July 9-13, 2017 (poster presentation).
12.Pidlisnyuk V. ,Trogl J., Stefanovska T., Shapoval P., Nurzhanova A., Erickson L., Davis L., Hettiarachchi G. Phytotechnology with Miscanthus x giganteus biomass production for sustainable management of military sites. RemTech Europe conference on remediation market and technologies, Ferrara, Italy, September 20-22, 2017 (oral presentation).
13. Pidlisnyuk V., Stefanovska T., Erickson L., Hettiarachichi G., Davis L., Shapoval P., Nurzhanova A. Using Miscantus x giganteus for restouration of former military sites.14th International Phytotehnologies Conference. Phytotechnologies: new sustainable solution for environmental challenges, IPC 2017, Montreal, Canada, September 25-29, 2017 (oral presentation).
14.Hettiarachchi G., Alasmary Z., Roozeboom K., Davis L., Erickson L., Pidlisnyuk V., Stefanovska T., Nurzhnova A., Trogl J. Field–based investigations on phytostablization of a contaminated military site using biofuel crop growth assisted with soil amendments. 14th International Phytotehnologies Conference. Phytotechnologies: new sustainable solution for environmental challenges, IPC 2017, Montreal, Canada, September 25-29, 2017 (oral presentation).
1.Pidlisnyuk V., Trogl J., Stefanovska T., Shapoval P., Erickson L.(2016). Preliminary results on growing second generation biofuel crop Miscanthusxgiganteus at the polluted military site in Ukraine. Nova Biotechnologica et Chimica, 15-1, p.77-84. DOI: 10.1515/nbec-2016-0008 ( IF=0,188).
The semi-field research on exploring opportunity to use second-generation biofuel crop Miscanthus x giganteus for restoration of former military site in Kamenetz-Podilsky, Ukraine was carried out during two vegetation seasons. Despite high metal pollution of soil, in particular, by Fe, Mn, Ti, and Zr, no growth inhibition was observed. The concentrations followed pattern soil > roots > stems > leaves. For some metals as As and Pb the concentration in the above-ground parts were statistically comparable to zero. Generally, no correlations was observed between concentrations of metals is the soil and in the upper plant’s parts. The research confirmed the ability of Miscanthus x giganteus to grow on the military soils predominantly contaminated by heavy metals.
Concentrations of selected organochlorine pesticides (OCPs), i.e.,4,4’-dichlorodiphenyltrichloroethane (p,p’-DDT), its metabolites (p,p’-DDE, p,p’-DDD), and hexachlorocyclohexanes (HCHs) have been determined in 100 soil samples collected from a contaminated site centered around a former storehouse in the Kyzyl Kairat village, Almaty region, Kazakhstan, that constitutes an exemplary case example. The OCPs were observed in all analyzed soil samples, with predominance of α-HCH, p,p′-DDD, p,p′-DDE and p,p′-DDT. Total concentrations ranged from 1.38 to 11,100 µg kg-1 with an average value of 1,040 µg kg-1 for DDT and its metabolites, and 0.1 to 438 µg kg-1 with an average value of 24 µg kg-1 for HCHs. The observed concentrations of the OCPs were found to be in agreement with previous studies and are rationalized in terms of the possible degradation pathways of DDTs and HCHs. Spatial distribution patterns of OCPs are elucidated by contour maps. Observed concentrations of the OCPs were used to evaluate the cancer risk to humans via ingestion, dermal contact and inhalation of soil particles. The cancer risk mainly occurs from ingestion, whereas dermal exposure contributes to a minor extent to the total cancer risk. The risk associated with inhalation was found to be negligible. The total cancer risk for the studied OCPs were found to be: p,p’-DDT ˃ p,p’-DDE ˃ p,p’-DDD ˃ α-HCH ˃ β-HCH ˃ γ-HCH.
1. Pidlisnyuk V., Shapoval P., Stefanovska T., Hettiarachchi G., Erickson L., Davis D., Trogl J. (2016) Recovering of soil from the military contaminated site in Sliac, Slovakia by Miscanthus x guganteus. Abstract Book. International multidisciplinary conference "Sustainable technologies and the legal/economic aspects of agricultural production" 27-28 April 2016, Kyiv, Ukraine, 109-111.
2. Nurzhanova A., Pidlisnyuk V., Sailaukhanyly Y., Nurzhanov Ch., Naizabayeva L., Kalugin S., Stefanovska T. (2016) Physiological basis of the stability of miscanthus to soils polluted by heavy metals // Abstract Book. International multidisciplinary conference "Sustainable technologies and the legal/economic aspects of agricultural production" 27-28 April 2016, Kyiv, Ukraine, 115-119.
3. Stefanovska T., Pidlisnyuk V., Khabalikyan A., Yaschuk S., Ovruch M. (2016) The impact of Miscanthus x giganteus cultivation on interebrate diversity in agricultural landscapes. International multidisciolinary conference « Sustainable technologies and the legal/economic aspects of agricultural production», 27-28 April, 2016, NULES, Kyiv, Ukraine, 112-113.
4. Stefanovska T., Kucherovska S., Lewis E., Pidlisnyuk V. (2016) Enthomocomplex of energetic plants for production of second generation biofuels.International multidisciolinary conference « Sustainable technologies and the legal/economic aspects of agricultural production», 27-28 April, 2016, NULES, Kyiv, Ukraine, 107-109.
5. Pidlisnyuk V., Trogl J., Stefanovska T. (2016) Effect of growing biofuel crop Miscanthusxgiganteus at the military contaminated soil to the microbial communities’ characteristics .Eurosoil, Istanbul 2016, 17-22 July-TEMMUZ 2016, report L-490.
6. Stefanovska T., Pidlisnyuk V.(2016) Using nematodes for determination state of phizosphere in phytotechnology with miscanthus x giganteus implemented for military heavy metal contaminated soil in Ukraine.Eurosoil, Istanbul 2016, 17-22 July-TEMMUZ 2016, and report V-390.
7. Pidlisnyuk V., Stefanovska T., Shapoval P.(2016) Developing perennial phytotechnology for contaminated military site: case of Kamenetz-Podilsky, Ukraine. Proceeding of the International conference Contaminated Sites, Bratislava, Slovakia, September 12-13, 2016, 124-132.
Stefanovska T., Pidisnyuk V., Lewis E., Gorgatenko A., Herbivorous insects diversity at Miscanthusxgigantes in Ukraine. Submitted to the Journal for Agricultural Sciences, March, 2017.
The article presents the results of a study about the first model experiments in greenhouses were carried out to determine the possibility of using M.xgiganteus in the phytoremediation of contaminated soils with heavy metals.
2.Nurzhanova A., Pidlisnyuk V., Sailaukhanyly Y., Kalugin S., Mursalieva V., Stefanovska T., Erickson L. (2015) Miscanthus x giganteus – promising bioenergetic phytoremediant. Reports of the National Academy of Sciences of the Republic of Kazakhstan 303, 128 – 138 (in Russian).
Miscanthus x giganteus, having an ability to grow on marginal and degraded of anthropogenic pollutants lands. It is of highly productive, non-food perennial plant with a high content of lignin and cellulose in stem. It is used in many countries for phytostabilisation polluted soils with persistent xenobiotics. The high productivity of biomass M.xgiganteus on the contaminated degraded lands can turn the phytoremediation technology into a profitable bioenergy industry in our country.
Soil monitoring was accomplished at 76 former pesticide storehouses in Kazakhstan. Pesticides’ gas chromatography analysis was limited to the organochlorine pesticides DDT (p,p'-dichlorodiphenyltrichloroethane) and HCH (hexachlorocyclohexane), and their associated metabolites and isomers: 2.4’DDD (p,p'-dichlorodiphenyl dichloroethane); 4.4’DDD; 4.4’DDT; 4.4’DDE(p,p'-dichlorodiphenyldichloroethylene); α-HCH; β-HCH; and γ-HCH. The studies showed exceeding of Maximum Acceptable Concentration (MAC) by 10 times at soil samples taken at 24 former pesticide storehouses, and the basic pollutants were isomers of α HCH, β HCH and metabolite of 4.4’DDE, 4.4’DDT, supplemented by heavy metals. Monitoring data demonstrated the potential ecological danger and health risk posed by the sites, especially those located near populated areas. In order to eliminate the negative environmental and health effect it was proposed to use phytotechnology with second generation biofuel crop Miscanthus x giganteus. The technology applied directly at the contaminated area (in situ), helping to decrease costs and to reduce exposure from polluted sites. Plant shows good growing at the soil contaminated by pesticides during vegetation season.
8.Stefanovska T., Pidlisnyuk V., Erickson L., Dolya M., Lewis E., Vystavna Y. (2015). Potential to evaluate the efficiancy of phytotechnology with Miscanthus x giganteus at the abandoned military sites by using soil nematodes as bioindicators.12 International Phytotechnology Conference “Phytotechnologies for Sustainable Development” , September 27-30.2015, Manhattan, Kansas, USA. Abstract Book, Editor Larry E.Erickson, ISBN 178-0-692-50825-1.
10. Pidlisnyuk V., Nurzhanova A., Stefanovska T.,Erickson L. (2016) Phytoremediation of soil contaminated by xenobiotic pollutants by using elephant grass Miscanthusxgiganteus and switchgrass Panicum virgatum L. // Abstract Book. CEECHE 2016 (Central and Easter European Conference on Health and the Environment), April 10-14, Prague, Czech Republic, P50, p.127.
1. Pidlisnyuk V.(presenting author), Shapoval P., Stefanovska T., Hettiarachchi G., Erickson L., Davis D., Trogl J. “Recovering of soil from the military contaminated site in Sliac, Slovakia by Miscanthus x giganteus”. International multidisciplinary conference «Sustainable technologies and the legal/economic aspects of agricultural production», 27-28 April, 2016, Kyiv, Ukraine.
2. Stefanovska T., Kucherovska S. (presenting author), Lewis E., Pidlisnyuk V. Enthomocomplex of energetic plants for production of second generation biofuels.International multidisciolinary conference « Sustainable technologies and the legal/economic aspects of agricultural production», 27-28 April, 2016, NULES, Kyiv, Ukraine.
3. Nurzhanova A., “Physiological basis of the stability of miscanthus to soils polluted by heavy metals”.. International multidisciplinary conference «Sustainable technologies and the legal/economic aspects of agricultural production», 27-28 April, 2016, Kyiv, Ukraine.
4. Hettiarachchi G. ,“New Phytotechnology for Cleaning Contaminated Military Sites”, Annual Meeting of Multi-State Research Project (W3170: Beneficial Reuse of Residuals and Reclaimed Water: Impact on Soil Ecosystem and Human Health) funded by the United States Department of Agriculture- National Institute for Food and Agriculture (NIFA), June 26-28, 2016 at the Ohio State University, Columbus, Ohio, U.S.A.
5. Pidlisnyuk V., Stefanovska T., Trogl J., Shapoval P.,(presenting author), Erickson L. Biomass from second generation crops produced at the military contaminated land. International Symposium EPESSEM’2016: Environmental protection. Energy Saving. Sustainable environmental management”, Lviv, Ukraine, September 20-21, 2016.
6. Pidlisnyuk V., Stefanovska T., Kava L. . (presenting author) ,, Trögl J., Erickson L. Potential of biomass from Miscanthus x giganteus producing at the military contaminated land. International conference “Biomass for energy”, Section 1. “Resources of biomass and production”. Kyiv, Ukraine, September 20-21, 2016.
7. Pidlisnyuk V.(presenting author), Stefanovska T., Trogl J., Shapoval P. Developing perennial phytotechnology for contaminated military site: case of Kamenetz-Podilsky. International conference Contaminated Sites 2016, Bratislava, Slovakia, September 12-13, 2016.
8. Stefanovska T.(poster presenter) , Lewis E., Pidlisnyuk V., Kava L. “Changes of soil nematode community while planting miscanthusxgiganteus at the military contaminated sites” International conference Contaminated Sites 2016, Bratislava, Slovakia, September 12-13, 2016.
9. Valentina Pidlisnyuk presented project and research results at the Czech-Saxony Innovation Day was held in Prague, Czech Republic on September 10, 2016. Event was attended by Saxony Minister of Science and the Art Eva-Maria Stange and Vice-Prime Minister of Czech Republic on Innovation Pavel Belobradek (picture 1).
11. Lawrence Davis presented results of the project to an audience of about 50 in the Department of Biochemistry and Molecular Biophysics, Kansas State University on November, 30, 2016. An earlier version of this talk, including data from the Ft Riley project first year, was also given in the Department of Horticulture, Forestry and Recreation Resources at K-State on April 20, 2016.

References: V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V.