PRINCIPLES AND PROSPECTS OF PHYTOTECHNOLOGY IMPLEMENTATION TO INTEGRATED WATER RESOURCES MANAGEMENT IN UKRAINE

Authors

  • O. M. Beketov National University of Urban Economy in Kharkiv, Ukraine
  • O. M. Beketov National University of Urban Economy in Kharkiv, Ukraine

Abstract

The paper deals with the problem of implementation of integrated water resource management principles and practices at the watershed scale. Priority tasks of basin authorities are highlighted following the example of the Severski Donets River Authority, Ukraine. The principles and prospects of phytotechnology implementation to practices of integrated water resource management in Ukraine are discussed. These include: (1) diversity of plant communities used in phytotechnology facilities; (2) both off-stream and in-stream applications; (3) complex use of single type phytotechnologies; (4) addressing all pollution sources in a watershed; (5) setting numerical targets to achieve desired ecological health state; (6) bottom-up approach; and (7) leadership provided by a river basin authority.

Keywords: water resources, integrated water basin management, river basin, water quality, phytotechnologies

Author Biographies

, O. M. Beketov National University of Urban Economy in Kharkiv, Ukraine

старший викладач.

, O. M. Beketov National University of Urban Economy in Kharkiv, Ukraine

кандидат технічних наук, доцент.

References

Література

Гребінь, В.В. Гідрографічне районування території України як передумова розробки планів інтегрованого управління річковими басейнами [Текст] / В.В. Гребінь, М.В. Яцюк, О.В. Чунарьов // Гідрологія, гідрохімія і гідроекологія. 2012. - Т. 2. - С. 8-16.

Сташук, В.А. Еколого-економічні основи басейнового управління водними ресурсами: монографія [Текст] / В.А. Сташук. – Д.: ВАТ «Вид-во «Зоря», 2006. – 480 с.

Пшеюк, О.О. Адміністрування діяльності водогосподарського комплексу за басейновим принципом: міжнародний досвід та перспективи впровадження [Текст] / О.О. Пшеюк // Фінансова система України: наукові записки. – Серія : Економіка. – 2009. - № 11. – C. 311-316.

Євдокимов, В.О. Державне регулювання розвитку водогосподарського комплексу шляхом впровадження інтегрованого підходу до управління водними ресурсами за басейновим принципом [Текст] / В.О. Євдокимов, В.М. Жук // Актуальні проблеми державного управління. – 2015. - № 1 (47). – С. 139-145.

Дейнега, М.А. Правове забезпечення якості водних ресурсів за законодавством України та Європейського Союзу [Текст] / М.А. Дейнега, Р.І. Шестопалка // Національний університет біоресурсів і природокористування України. - 2013. – № 182. Ч. 2. - С. 116-123.

Гриценко, А.В. Удосконалення правил охорони поверхневих вод України від забруднення зворотними водами [Текст] / А.В. Гриценко, О.Г. Васенко, В.С. Кресін // Проблеми охорони навколишнього природного середовища та екологічної безпеки: зб. наук. пр., УкрНДІЕП. – 2016. – Вип. XXVIII. – С. 3-13.

Дмитренко, Т.В. Аналіз сучасного стану проблеми екологічної деградації малих річок України [Текст] / Т.В. Дмитренко, Ю.І. Вергелес // Комунальне господарство міст. – 2016. - № 132. – С. 93-97.

Mayer, A., Winkler, R., Fry, L. (2014) Classification of watersheds into integrated social and biophysical indicators with clustering analysis. Ecological Indicators, 45: 340-349. https://doi.org/10.1016/j.ecolind.2014.04.030

Neumann, A., Kim, D.-K., Perhar, G., Arhonditsis, G.B. (2017) Integrative analysis of the Lake Simcoe watershed (Ontario, Canada) as a socio-ecological system. Journal of Environmental Management, 188: 308-321. https://doi.org/10.1016/j.jenvman.2016.11.073

Comín, F.A., Sorando, R, Darwiche-Criado, N., García, M., Masip, A. (2014) A protocol to prioritize wetland restoration and creation for water quality improvement in agricultural watersheds. Ecological Engineering, 66: 10-18.

http://dx.doi.org/10.1016/j.ecoleng.2013.04.059.

Erol, A., Randhir, T.O. (2013) Watershed ecosystem modeling of land-use impacts on water quality. Ecological Modelling, 270: 54–63. https://doi.org/10.1016/j.ecolmodel.2013.09.005

Ni, J., Xu, J., Zhang, M. (2016) Constructed wetland planning-based bi-level optimization to balance the watershed ecosystem and economic development: A case study at the Chaohu Lake watershed, China. Ecological Engineering, 97: 106-121. https://doi.org/10.1016/j.ecoleng.2016.07.024

Richardson, C.J., Flanagan, N.E., Ho, M., Pahl, J.W. (2011) Integrated stream and wetland restoration: A watershed approach to improved water quality on the landscape. Ecological Engineering, 37: 25-39. https://doi:10.1016/j.ecoleng.2010.09.005

Sanchez, G.M., Nejadhashemi, A.P., Zhang, Zh., Marquart-Pyatt, S., Habron, G., Shortridge, A. (2015) Linking watershed-scale stream health and socioeconomic indicators with spatial clustering and structural equation modeling. Environmental Modelling & Software, 70: 113-127. https://doi.org/10.1016/j.envsoft.2015.04.012

Yang, G., Best, E.P.H. (2015) Spatial optimization of watershed management practices for nitrogen load reduction using a modeling-optimization framework. Journal of Environmental Management, 161: 252–260. https://doi.org/10.1016/j.jenvman.2015.06.052

Водна рамкова директива ЄС 2000/60. Основні терміни та їх визначення. [Електронний ресурс]. – Режим доступу: http://dbuwr.com.ua/docs/Waterdirect.pdf

Наукові засади раціонального використання водних ресурсів України за басейновим принципом [Текст]: Монографія / [В.А. Сташук, В.Б. Мокін, В.В. Гребінь, О.В. Чунарьов] / За ред. В.А.Сташука. – Херсон: Грінь Д.С., 2014. – 320 с.

Вострікова, Н. В. Аналіз стану законодавчої бази щодо інтегрованого управління водними ресурсами в Україні [Текст] / Н.В.Вострікова // Державне будівництво. – 2014. - № 1.- С. 25-32.

Сіверсько-Донецьке басейнове управління водними ресурсами: [Офіційна сторінка] [Електронний ресурс] – Режим доступу: www.sdbuvr.slav.dn.ua.

Знаменский, В.А. Управление потоками веществ, сбрасываемых в реки: монография [Текст] / В.А. Знаменский; НИИЭРВ, Красноярск, 2005. – 163 с.

Лапшев, Н.Н. Расчеты выпусков сточных вод [Текст]/ Н.Н. Лапшев. – М.: Стройиздат, 1977. – 87 с. (Защита окружающей среды).

Практические рекомендации по расчету разбавления сточных вод в реках, озерах и водохранилищах [Текст] / Сост.: А.В. Караушев, А.Я. Шварцман, М.А. Бесценная, Л.И. Фаустова. – Ленинград, 1970. – 89 с.

Охрана водных ресурсов [Текст] / Сост.: И.И. Бородавченко, Н.В. Зарубаев и др. – М.: Колос, 1979. – 246 с.

Mitsch W., Jørgensen S. E. Ecological Engineering and Ecosystem Restoration / William J. Mitsch, Sven Erik Jørgensen. – Hoboken, NJ: John Wiley & Sons, Inc., 2004, 380 p.

Zalewski M. (ed.) Integrated Watershed Management: Ecohydrology & Phytotechnology Manual / Maciej Zalewski, Iwona Wagner-Lotkowska, Editors. – Osaka: UNEP - The United Nations Environment Programme, International Environmental Technology Centre, 2004, 246 p.

Кучерявий, В.П. Фітомеліорація [Текст] / В.П. Кучерявий. – Львів : Світ., 2003. – 540 с.

Castaldelli, G., Soana, E., Racchetti, F., Fano, E.A., Bartoli, M. (2012) Vegetated canals mitigate nitrogen surplus in agricultural watersheds. Agriculture, Ecosystems & Environment, 212: 253–262. https://doi.org/10.1016/j.agee.2015.07.009

Darwiche-Criado, N., Comin, F.A., Masip, A., Garcia, M., Eismann, S.G., Sorando, R. (2017) Effects of wetland restoration on nitrate removal in an irrigated agricultural area: The role of in-stream and off-stream wetlands. Ecological Engineering, 103, Part B: 426-435. https://doi.org/10.1016/j.ecoleng.2016.03.016

Grochowska, J., Augustyniak, R., Łopata, M. (2017) How durable is the improvement of environmental conditions in a lake after the termination of restoration treatments. Ecological Engineering, 104, Part A: 23-29. https://doi.org/10.1016/j.ecoleng.2017.03.020

Tournebize, J., Chaumont, C., Mander, Ü. (2017) Implications for constructed wetlands to mitigate nitrate and pesticide pollution in agricultural drained watersheds. Ecological Engineering, 103, Part B: 415–425. https://doi.org/10.1016/j.ecoleng.2016.02.014

Gross, C., Hagy III, J.D. (2017) Attributes of successful actions to restore lakes and estuaries degraded by nutrient pollution. Journal of Environmental Management, 187: 122-136. https://doi.org/10.1016/j.jenvman.2016.11.018

References

Grebin’, V.V. Hydrographic divisioning of Ukraine as a prerequisite for integrated water basin management / V.V. Grebin’, M.V. Yatsyuk, O.V. Chunaryov // Hydrologiya, hydrochimiya i hydroecologiya, 2012, V.2, P. 8-16. (in Ukrainian)

Stashuk, V.A. Environmental and economic fundamentals of water resources management at a basin scale: Monograph / V.A. Stashuk. Dnipro: JSV ‘Zorya’ Publ., 2006, 480 p. (in Ukrainian)

Psheyuk, O.O. The basin principle of administrating water resources management: An international perspective and prospects for implementation / O.O. Psheyuk // Finansova systema Ukrayiny: naukovi zapysky, Seriya ‘Ekonomika’, 2009, N. 11, P. 311-316. (in Ukrainian)

Yevdokymov, V.O. Governing the water economy by the means of implementation of the integrated water resource management using the basin approach / V.O. Yevdokymov, V.M. Zhuk // Aktual’ni problem derzhavnogo upravlinnya, 2015, N. 1 (47), P. 139-145. (in Ukrainian)

Deynega, M.A. Legislative support for securing water resources quality in Ukraine and the European Union / M.A. Deynega, R.I. Shestopalka // Natsional’nyi universytet bioresursiv I pryrodokorystuvannya Ukrayiny, 2013, N. 182, Pt.2, P. 116-123. (in Ukrainian)

Grytsenko, A.V. Improved rules of surface water pollution from reverse waters in Ukraine / A.V. Grytsenko, O.G. Vasenko, V.S. Kresin // Problems of environmental protection and safety, 2016, Iss. XXXVIII, P. 3-13. (in Ukrainian)

Dmytrenko, T.V. Small rivers ecological degradation in Ukraine: State of the art / T.V. Dmytrenko, Yu.I. Vergeles // Komunal’ne hospodarstvo mist, 2016, N. 132, P. 93-97. (in Ukrainian)

Mayer, A., Winkler, R., Fry, L. (2014) Classification of watersheds into integrated social and biophysical indicators with clustering analysis. Ecological Indicators, 45: 340-349. https://doi.org/10.1016/j.ecolind.2014.04.030

Neumann, A., Kim, D.-K., Perhar, G., Arhonditsis, G.B. (2017) Integrative analysis of the Lake Simcoe watershed (Ontario, Canada) as a socio-ecological system. Journal of Environmental Management, 188: 308-321. https://doi.org/10.1016/j.jenvman.2016.11.073

Comín, F.A., Sorando, R, Darwiche-Criado, N., García, M., Masip, A. (2014) A protocol to prioritize wetland restoration and creation for water quality improvement in agricultural watersheds. Ecological Engineering, 66: 10-18. http://dx.doi.org/10.1016/j.ecoleng.2013.04.059.

Erol, A., Randhir, T.O. (2013) Watershed ecosystem modeling of land-use impacts on water quality. Ecological Modelling, 270: 54–63. https://doi.org/10.1016/j.ecolmodel.2013.09.005

Ni, J., Xu, J., Zhang, M. (2016) Constructed wetland planning-based bi-level optimization to balance the watershed ecosystem and economic development: A case study at the Chaohu Lake watershed, China. Ecological Engineering, 97: 106-121. https://doi.org/10.1016/j.ecoleng.2016.07.024

Richardson, C.J., Flanagan, N.E., Ho, M., Pahl, J.W. (2011) Integrated stream and wetland restoration: A watershed approach to improved water quality on the landscape. Ecological Engineering, 37: 25-39. https://doi:10.1016/j.ecoleng.2010.09.005

Sanchez, G.M., Nejadhashemi, A.P., Zhang, Zh., Marquart-Pyatt, S., Habron, G., Shortridge, A. (2015) Linking watershed-scale stream health and socioeconomic indicators with spatial clustering and structural equation modeling. Environmental Modelling & Software, 70: 113-127. https://doi.org/10.1016/j.envsoft.2015.04.012

Yang, G., Best, E.P.H. (2015) Spatial optimization of watershed management practices for nitrogen load reduction using a modeling-optimization framework. Journal of Environmental Management, 161: 252–260. https://doi.org/10.1016/j.jenvman.2015.06.052

Water Framework Directive, EU 2000/06/ec. Accessed at: http://ec.europa.eu/environment/water/water-framework/index_en.html

Scientific bases of rational use of water resources of Ukraine following the basin approach: Monograph / V.A. Stashuk, ed.; V.A. Stashuk, V.B. Mokin, V.V. Grebin’, O.V. Chunaryov. - Kherson, Grin’ D.S. Publ., 2014, 320 p. (in Ukrainian)

Vostrikova, N.V. Analysis of the legislative state-of-the-art in integrated water resources management in Ukraine / N.V. Vostrikova // Derzhavne budivnytstvo, 2014, N. 1, P. 25-32. (in Ukrainian)

Siverski Donets’ Basin Authority: An official web-site. – Accessed at: www.sdbuvr.slav.dn.ua.

Znamenskiy, V.A. Managing the matter flows discharged to rivers: Monograph / V.A. Znamenskiy. NIIERV, Krasnoyarsk, 2005, 163 p. (in Russian)

Lapshev, N.N. Calculations of wastewater discharges / N.N. Lapshev. Moscow: ‘Stroyizdat’ Publ., 1977, 87 p. (‘Environmental Protection’ Series) (in Russian)

Practical recommendations on calculation of wastewater dilution in rivers, lakes and reservoirs / A.V. Karaushev, L.Ya. Shvartsman, M.A. Bestsennaya, L.I. Faustova. Leningrad, 1970, 89 p. (in Russian)

Water resources protection / I.I. Borodavchenko et al. Moscow: ‘Kolos’ Publ., 1979, 246 p. (in Russian)

Mitsch W., Jørgensen S. E. Ecological Engineering and Ecosystem Restoration / William J. Mitsch, Sven Erik Jørgensen. – Hoboken, NJ: John Wiley & Sons, Inc., 2004, 380 p.

Zalewski M. (ed.) Integrated Watershed Management: Ecohydrology & Phytotechnology Manual / Maciej Zalewski, Iwona Wagner-Lotkowska, Editors. – Osaka: UNEP - The United Nations Environment Programme, International Environmental Technology Centre, 2004, 246 p.

Kucheryavyi, V.P. Phytotechnology / V.P. Kucheryavyi. Lviv: ‘Svit’ Publ., 2003, 540 p. (in Ukrainian)

Castaldelli, G., Soana, E., Racchetti, F., Fano, E.A., Bartoli, M. (2012) Vegetated canals mitigate nitrogen surplus in agricultural watersheds. Agriculture, Ecosystems & Environment, 212: 253–262. https://doi.org/10.1016/j.agee.2015.07.009

Darwiche-Criado, N., Comin, F.A., Masip, A., Garcia, M., Eismann, S.G., Sorando, R. (2017) Effects of wetland restoration on nitrate removal in an irrigated agricultural area: The role of in-stream and off-stream wetlands. Ecological Engineering, 103, Part B: 426-435. https://doi.org/10.1016/j.ecoleng.2016.03.016

Grochowska, J., Augustyniak, R., Łopata, M. (2017) How durable is the improvement of environmental conditions in a lake after the termination of restoration treatments. Ecological Engineering, 104, Part A: 23-29. https://doi.org/10.1016/j.ecoleng.2017.03.020

Tournebize, J., Chaumont, C., Mander, Ü. (2017) Implications for constructed wetlands to mitigate nitrate and pesticide pollution in agricultural drained watersheds. Ecological Engineering, 103, Part B: 415–425. https://doi.org/10.1016/j.ecoleng.2016.02.014

Gross, C., Hagy III, J.D. (2017) Attributes of successful actions to restore lakes and estuaries degraded by nutrient pollution. Journal of Environmental Management, 187: 122-136. https://doi.org/10.1016/j.jenvman.2016.11.018

Published

2017-07-04

How to Cite

, & . (2017). PRINCIPLES AND PROSPECTS OF PHYTOTECHNOLOGY IMPLEMENTATION TO INTEGRATED WATER RESOURCES MANAGEMENT IN UKRAINE. Municipal Economy of Cities, (135), 112–118. Retrieved from https://khg.kname.edu.ua/index.php/khg/article/view/5036

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