Potential Hydrological Restrictions on Water Use in the Basins of Rivers Flowing into Russian Arctic Seas

Water consumption has been evaluated for the basins of the rivers flowing into the Arctic seas of the Russian Federation and, separately, for the Arctic zone of Russia (AZR). Long-term dynamics of the major characteristics of water consumption are given for the period from the 1980s to 2017 along wi...

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Published in:GEOGRAPHY, ENVIRONMENT, SUSTAINABILITY
Main Authors: Dmitriy Magritsky V., Natalia Frolova L., Olga Pakhomova M.
Other Authors: This study was supported by the Russian Foundation for Basic Research, project no. 18-05-60021-Arctic Study on water quality was done within RFBR project 18-05-60219.
Format: Article in Journal/Newspaper
Language:English
Published: Russian Geographical Society 2020
Subjects:
Russian Arctic Region;water consumption;wastewaters;water-management system;rivers;hydrological restrictions on water use
Arctic
Murmansk
Kolyma
dvina
kolyma river
lena river
Murmansk Oblast
nenets
Pechora
Polarforschung
Yamalo Nenets
Online Access:https://ges.rgo.ru/jour/article/view/1155
https://doi.org/10.24057/2071-9388-2019-59
id ftjges:oai:oai.gesj.elpub.ru:article/1155
record_format openpolar
institution Open Polar
collection Geography, Environment, Sustainability (E-Journal)
op_collection_id ftjges
language English
topic Russian Arctic Region;water consumption;wastewaters;water-management system;rivers;hydrological restrictions on water use
spellingShingle Russian Arctic Region;water consumption;wastewaters;water-management system;rivers;hydrological restrictions on water use
Dmitriy Magritsky V.
Natalia Frolova L.
Olga Pakhomova M.
Potential Hydrological Restrictions on Water Use in the Basins of Rivers Flowing into Russian Arctic Seas
topic_facet Russian Arctic Region;water consumption;wastewaters;water-management system;rivers;hydrological restrictions on water use
description Water consumption has been evaluated for the basins of the rivers flowing into the Arctic seas of the Russian Federation and, separately, for the Arctic zone of Russia (AZR). Long-term dynamics of the major characteristics of water consumption are given for the period from the 1980s to 2017 along with data on its structure. The possible effect of the total water withdrawal and consumptive water use on river water inflow into the Arctic seas has been evaluated for the 1980s (a period of maximal anthropogenic load), for 2006–2017 and up to 2030. The volumes of water consumption in limits of AZR are relatively low. Moreover, the water withdrawal has dropped considerably compared with the situation in the 1980s, in particular, by about 30% in the Pechora, Lena river basins, and from the rivers of Murmansk oblast, and by 50% in the Northern Dvina, Yenisei, and Kolyma river basins. It has increased in the Nenets and Yamalo-Nenets AO because of the intense development of the local oil-and-gas complex. Nowadays, according to the authors’ estimates, 21.28 km3/year is being withdrawn in the drainage basins of RF Arctic seas and 2.58 km3/year, within the AZR, or 28.8 and 3.5% of the total volume in Russia. The largest contribution to this value is due to the water-management complexes in the basins of the Ob (14.7 km3/year), Yenisei (2.77), Northern Dvina (0.64), and Murmansk oblast (1.72 km3/year). The volumes of water discharges back into water bodies at the drainage basins of Russian Arctic seas are comparable with the volumes of freshwater withdrawal -71% of water intake. Even lesser is the difference within AZR. The major water users are the industry (with a high proportion of mining plants), thermal power engineering, and municipal economy. But considerable and diverse hydrological restrictions exist at the municipal level and for some water users in AZR. These local hydrological restrictions have been formulated and analyzed in detail, for the first time. They form three large groups. Original maps are given to illustrate the specific features and regularities in the present-day distribution of water-management characteristics over AZR.
author2 This study was supported by the Russian Foundation for Basic Research, project no. 18-05-60021-Arctic Study on water quality was done within RFBR project 18-05-60219.
format Article in Journal/Newspaper
author Dmitriy Magritsky V.
Natalia Frolova L.
Olga Pakhomova M.
author_facet Dmitriy Magritsky V.
Natalia Frolova L.
Olga Pakhomova M.
author_sort Dmitriy Magritsky V.
title Potential Hydrological Restrictions on Water Use in the Basins of Rivers Flowing into Russian Arctic Seas
title_short Potential Hydrological Restrictions on Water Use in the Basins of Rivers Flowing into Russian Arctic Seas
title_full Potential Hydrological Restrictions on Water Use in the Basins of Rivers Flowing into Russian Arctic Seas
title_fullStr Potential Hydrological Restrictions on Water Use in the Basins of Rivers Flowing into Russian Arctic Seas
title_full_unstemmed Potential Hydrological Restrictions on Water Use in the Basins of Rivers Flowing into Russian Arctic Seas
title_sort potential hydrological restrictions on water use in the basins of rivers flowing into russian arctic seas
publisher Russian Geographical Society
publishDate 2020
url https://ges.rgo.ru/jour/article/view/1155
https://doi.org/10.24057/2071-9388-2019-59
long_lat ENVELOPE(161.000,161.000,69.500,69.500)
geographic Arctic
Murmansk
Kolyma
geographic_facet Arctic
Murmansk
Kolyma
genre Arctic
Arctic
dvina
kolyma river
lena river
Murmansk Oblast
nenets
Pechora
Polarforschung
Yamalo Nenets
genre_facet Arctic
Arctic
dvina
kolyma river
lena river
Murmansk Oblast
nenets
Pechora
Polarforschung
Yamalo Nenets
op_source GEOGRAPHY, ENVIRONMENT, SUSTAINABILITY; Vol 13, No 2 (2020); 25-34
2542-1565
2071-9388
op_relation https://ges.rgo.ru/jour/article/view/1155/461
Agafonova S., Frolova N., Surkova G. (2017). Modern characteristics of the ice regime of Russian Arctic rivers and their possible changes in the 21 st century. Geography, Environment, Sustainability, 10(4), 4-15, DOI:10.24057/2071-9388-2017-10-4-4-15.
Alekseevskii N. (ed) (2007). Geoecological State of the Russian Arctic Coast and the Safety of Nature Development. Moscow: GEOS. (in Russian).
Alekseevskii N., Frolova N. and Khristophorov A. (2011). Monitoring Hydrological Processes and Improving Water Use Safety. Moscow: Moscow State University. (in Russian).
Alekseevskiy, N.I. (ed) (2013). Atlas The Russian Arctic in the 21st century: environmental conditions and development risks. Moscow: Feoriya. (in Russian).
Amurbvu.ru (2017). Amur BWD with SIUPWB for rivers of the Chukchee and Bering seas. Official Website. [online] Available at: www.amurbvu.ru/deyatelnost/skiovo/ [Accessed 12 May 2019].
Chernyaev A. (ed) (2000). Water of Russia. River Basins. Ekaterinburg: AKVA-PRESS. (in Russian).
Demin A. (2011). Water resources development in Russia: present-day state and forecasts. Moscow: Water Problems Institute, Russian Academy of Sciences, 51. (in Russian).
Dpbvu.ru (2017). Dvinsko-Peshorskoe BWD with SIUPWB of the rivers of the Kola Peninsula, Karelia, Northern Dvina, Onega, Mezen, and Pechora. Official Website. [online] Available at: www.dpbvu.ru/deyatelnost/skiovo-vklyuchaya-ndv. [Accessed 12 May 2019].
Enbvu.ru (2017). Yenisei BWD with SIUPWB for the rivers of Yenisei, Pyasina, Nizhnyaya Taimyra, Khatanga, Olenek, and Lena. Official Website. [online] Available at: www.skiovo.enbvu.ru [Accessed 12 May 2019].
Frolova N. (2006). River Hydrology: Anthropogenic Changes in River Flow, Moscow: Moscow State University. (in Russian).
Frolova N. and Vorob’evskii I. (2011). Hydroecological restrictions on water use in the Irtysh Basin. – Vestn. Mosk. Univ., Ser. 5, Geography, (6), 34-41 (in Russian).
Khristoforov A. (2010). Ecological–Economic Principles of Water Use. Moscow: Moscow State University, 161. (in Russian).
Kozlov D. (2018). Problems of transboundary use of water resources in the Irtysh basin and prospects of hydraulic engineering construction in the region. – SB. scientific. works «Water for reclamation, water industry economy and the natural environment in a changing climate», (11), 32-37.
Magritskiy D. (2008). Anthropogenic Impact on the runoff of Russian rivers emptying into the Arctic Ocean. Water Resources, vol. 35, (1), p.1-14, DOI:10.1134/S0097807808010016.
Magritsky D. (2018). Climate-induced and anthropogenic changes in water runoff in the major rivers of the Russian Federation in their lower reaches and at marine mouths. – Present-Day Trends and Development Perspectives of Hydrometeorology in Russia: Proc. All-Russia Sci.-Pract. Conf. Irkutsk: Irkutsk State University, 285-294. (in Russian).
Magritsky D., Frolova N., Evstigneev V., Povalishnikova E., Kireeva, M. and Pakhomova O. (2018). Long-term changes of river water inflow into the seas of the Russian Arctic sector. – Polarforschung, vol. 87, (2), 177-194.
Magritsky D., Lebedeva S. & Skripnik E. (2017). Hydrological hazards at mouths of the Northern Dvina and the Pechora rivers, Russian Federation. – Nat. Hazards, vol. 88(1), 149-170, DOI:10.1007/s11069-016-2673-6.
Magritsky D., Mikhailov V., Korotaev V. and Babich D. (2013). Changes in hydrological regime and morphology of river deltas in the Russian Arctic. – Proc. of HP1. IAHS-IAPSO-IASPEI Assembly, IAHS Publ. 358, 67-79.
Mpr.gov-murman.ru (2017). Ministry of Natural Resources and Ecology of Murmansk oblast. Official Website. [online] Available at: https://mpr.gov-murman.ru/ [Accessed 12 May 2019].
National Atlas of the Arctic (2017). Moscow: AO Kartografiya. (in Russian).
Nobwu.ru (2017). Nizhneobskoe BWD with SIUPWB of the rivers of Ob, Taz, Pur, and Nadym. Official Website. [online] Available at: www.nobwu.ru/index.php/ndvskiovo [Accessed 12 May 2019].
Pryakhina G. (2003). Assessing the effect of large reservoirs on river runoff in the lower pool, Extended Abstract Cand. Sci. (Geogr.) Dissertation, St. Petersburg. (in Russian).
Ratkovich D. (2003). Actual problems of water supply. Moscow: Nauka.
Russian Water Resources and Water Economy: Statistical Book (2006 –2018), Moscow: NIA-Priroda (in Russian).
Shiklomanov I. (1979). Anthropogenic Changes in River Water Abundance, Leningrad: Gidrometeoizdat, 302.
Shiklomanov I. (ed) (2008). Water Resources of Russia and Their Use. St. Petersburg, Gos. Gidrol. Inst. (in Russian).
State Water Cadastre (1982–2018). Surface and underground water resources, their use and quality. Annual Publication, Leningrad, St. Petersburg. (in Russian).
Stoyashcheva N. and Rybkina I. (2014). Water resources of the Ob–Irtysh river basin and their use. – Water Resour., 41, (1), 1-7.
Vuglinskii V. (1991). Water Resources and Water Balance of Large Reservoirs in the USSR, Leningrad: Gidrometeoizdat, 223. (in Russian).
Water in Russia (1991–2002): The State, Use, and Protection. – Annual Publication 1986–2000: Sverdlovsk, Yekaterinburg. (in Russian).
Zaitseva I. and Koronkevich N. (eds) (2003). Anthropogenic Impact on Water Resources of Russia and Nearby States in the Late XX Century. Moscow: Nauka. (in Russian).
https://ges.rgo.ru/jour/article/view/1155
doi:10.24057/2071-9388-2019-59
op_rights Authors who publish with this journal agree to the following terms:Authors retain copyright and grant the journal the right of first publication with the work simultaneously licensed under a Creative Commons Attribution License that allows others to share the work with an acknowledgement of the work's authorship and initial publication in this journal.Authors can enter into separate, additional contractual arrangements for the non-exclusive distribution of the journal's published version of the work (e.g., post it to an institutional repository or publish it in a book), with an acknowledgment of its initial publication in this journal.Authors are permitted and encouraged to post their work online (e.g., in institutional repositories or on their website) prior to and during the submission process, as it can lead to productive exchanges, as well as earlier and greater citation of published work (See The Effect of Open Access).The information and opinions presented in the Journal reflect the views of the authors and not of the Journal or its Editorial Board or the Publisher. The GES Journal has used its best endeavors to ensure that the information is correct and current at the time of publication but takes no responsibility for any error, omission, or defect therein.
Авторы, публикующие в данном журнале, соглашаются со следующим:Авторы сохраняют за собой авторские права на работу и предоставляют журналу право первой публикации работы на условиях лицензии Creative Commons Attribution License, которая позволяет другим распространять данную работу с обязательным сохранением ссылок на авторов оригинальной работы и оригинальную публикацию в этом журнале.Авторы сохраняют право заключать отдельные контрактные договорённости, касающиеся не-эксклюзивного распространения версии работы в опубликованном здесь виде (например, размещение ее в институтском хранилище, публикацию в книге), со ссылкой на ее оригинальную публикацию в этом журнале.Авторы имеют право размещать их работу
op_rightsnorm CC-BY
op_doi https://doi.org/10.24057/2071-9388-2019-59
https://doi.org/10.24057/2071-9388-2017-10-4-4-15
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container_title GEOGRAPHY, ENVIRONMENT, SUSTAINABILITY
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container_issue 2
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spelling ftjges:oai:oai.gesj.elpub.ru:article/1155 2023-05-15T14:28:00+02:00 Potential Hydrological Restrictions on Water Use in the Basins of Rivers Flowing into Russian Arctic Seas Dmitriy Magritsky V. Natalia Frolova L. Olga Pakhomova M. This study was supported by the Russian Foundation for Basic Research, project no. 18-05-60021-Arctic Study on water quality was done within RFBR project 18-05-60219. 2020-06-24 application/pdf https://ges.rgo.ru/jour/article/view/1155 https://doi.org/10.24057/2071-9388-2019-59 eng eng Russian Geographical Society https://ges.rgo.ru/jour/article/view/1155/461 Agafonova S., Frolova N., Surkova G. (2017). Modern characteristics of the ice regime of Russian Arctic rivers and their possible changes in the 21 st century. Geography, Environment, Sustainability, 10(4), 4-15, DOI:10.24057/2071-9388-2017-10-4-4-15. Alekseevskii N. (ed) (2007). Geoecological State of the Russian Arctic Coast and the Safety of Nature Development. Moscow: GEOS. (in Russian). Alekseevskii N., Frolova N. and Khristophorov A. (2011). Monitoring Hydrological Processes and Improving Water Use Safety. Moscow: Moscow State University. (in Russian). Alekseevskiy, N.I. (ed) (2013). Atlas The Russian Arctic in the 21st century: environmental conditions and development risks. Moscow: Feoriya. (in Russian). Amurbvu.ru (2017). Amur BWD with SIUPWB for rivers of the Chukchee and Bering seas. Official Website. [online] Available at: www.amurbvu.ru/deyatelnost/skiovo/ [Accessed 12 May 2019]. Chernyaev A. (ed) (2000). Water of Russia. River Basins. Ekaterinburg: AKVA-PRESS. (in Russian). Demin A. (2011). Water resources development in Russia: present-day state and forecasts. Moscow: Water Problems Institute, Russian Academy of Sciences, 51. (in Russian). Dpbvu.ru (2017). Dvinsko-Peshorskoe BWD with SIUPWB of the rivers of the Kola Peninsula, Karelia, Northern Dvina, Onega, Mezen, and Pechora. Official Website. [online] Available at: www.dpbvu.ru/deyatelnost/skiovo-vklyuchaya-ndv. [Accessed 12 May 2019]. Enbvu.ru (2017). Yenisei BWD with SIUPWB for the rivers of Yenisei, Pyasina, Nizhnyaya Taimyra, Khatanga, Olenek, and Lena. Official Website. [online] Available at: www.skiovo.enbvu.ru [Accessed 12 May 2019]. Frolova N. (2006). River Hydrology: Anthropogenic Changes in River Flow, Moscow: Moscow State University. (in Russian). Frolova N. and Vorob’evskii I. (2011). Hydroecological restrictions on water use in the Irtysh Basin. – Vestn. Mosk. Univ., Ser. 5, Geography, (6), 34-41 (in Russian). Khristoforov A. (2010). Ecological–Economic Principles of Water Use. Moscow: Moscow State University, 161. (in Russian). Kozlov D. (2018). Problems of transboundary use of water resources in the Irtysh basin and prospects of hydraulic engineering construction in the region. – SB. scientific. works «Water for reclamation, water industry economy and the natural environment in a changing climate», (11), 32-37. Magritskiy D. (2008). Anthropogenic Impact on the runoff of Russian rivers emptying into the Arctic Ocean. Water Resources, vol. 35, (1), p.1-14, DOI:10.1134/S0097807808010016. Magritsky D. (2018). Climate-induced and anthropogenic changes in water runoff in the major rivers of the Russian Federation in their lower reaches and at marine mouths. – Present-Day Trends and Development Perspectives of Hydrometeorology in Russia: Proc. All-Russia Sci.-Pract. Conf. Irkutsk: Irkutsk State University, 285-294. (in Russian). Magritsky D., Frolova N., Evstigneev V., Povalishnikova E., Kireeva, M. and Pakhomova O. (2018). Long-term changes of river water inflow into the seas of the Russian Arctic sector. – Polarforschung, vol. 87, (2), 177-194. Magritsky D., Lebedeva S. & Skripnik E. (2017). Hydrological hazards at mouths of the Northern Dvina and the Pechora rivers, Russian Federation. – Nat. Hazards, vol. 88(1), 149-170, DOI:10.1007/s11069-016-2673-6. Magritsky D., Mikhailov V., Korotaev V. and Babich D. (2013). Changes in hydrological regime and morphology of river deltas in the Russian Arctic. – Proc. of HP1. IAHS-IAPSO-IASPEI Assembly, IAHS Publ. 358, 67-79. Mpr.gov-murman.ru (2017). Ministry of Natural Resources and Ecology of Murmansk oblast. Official Website. [online] Available at: https://mpr.gov-murman.ru/ [Accessed 12 May 2019]. National Atlas of the Arctic (2017). Moscow: AO Kartografiya. (in Russian). Nobwu.ru (2017). Nizhneobskoe BWD with SIUPWB of the rivers of Ob, Taz, Pur, and Nadym. Official Website. [online] Available at: www.nobwu.ru/index.php/ndvskiovo [Accessed 12 May 2019]. Pryakhina G. (2003). Assessing the effect of large reservoirs on river runoff in the lower pool, Extended Abstract Cand. Sci. (Geogr.) Dissertation, St. Petersburg. (in Russian). Ratkovich D. (2003). Actual problems of water supply. Moscow: Nauka. Russian Water Resources and Water Economy: Statistical Book (2006 –2018), Moscow: NIA-Priroda (in Russian). Shiklomanov I. (1979). Anthropogenic Changes in River Water Abundance, Leningrad: Gidrometeoizdat, 302. Shiklomanov I. (ed) (2008). Water Resources of Russia and Their Use. St. Petersburg, Gos. Gidrol. Inst. (in Russian). State Water Cadastre (1982–2018). Surface and underground water resources, their use and quality. Annual Publication, Leningrad, St. Petersburg. (in Russian). Stoyashcheva N. and Rybkina I. (2014). Water resources of the Ob–Irtysh river basin and their use. – Water Resour., 41, (1), 1-7. Vuglinskii V. (1991). Water Resources and Water Balance of Large Reservoirs in the USSR, Leningrad: Gidrometeoizdat, 223. (in Russian). Water in Russia (1991–2002): The State, Use, and Protection. – Annual Publication 1986–2000: Sverdlovsk, Yekaterinburg. (in Russian). Zaitseva I. and Koronkevich N. (eds) (2003). Anthropogenic Impact on Water Resources of Russia and Nearby States in the Late XX Century. Moscow: Nauka. (in Russian). https://ges.rgo.ru/jour/article/view/1155 doi:10.24057/2071-9388-2019-59 Authors who publish with this journal agree to the following terms:Authors retain copyright and grant the journal the right of first publication with the work simultaneously licensed under a Creative Commons Attribution License that allows others to share the work with an acknowledgement of the work's authorship and initial publication in this journal.Authors can enter into separate, additional contractual arrangements for the non-exclusive distribution of the journal's published version of the work (e.g., post it to an institutional repository or publish it in a book), with an acknowledgment of its initial publication in this journal.Authors are permitted and encouraged to post their work online (e.g., in institutional repositories or on their website) prior to and during the submission process, as it can lead to productive exchanges, as well as earlier and greater citation of published work (See The Effect of Open Access).The information and opinions presented in the Journal reflect the views of the authors and not of the Journal or its Editorial Board or the Publisher. The GES Journal has used its best endeavors to ensure that the information is correct and current at the time of publication but takes no responsibility for any error, omission, or defect therein. Авторы, публикующие в данном журнале, соглашаются со следующим:Авторы сохраняют за собой авторские права на работу и предоставляют журналу право первой публикации работы на условиях лицензии Creative Commons Attribution License, которая позволяет другим распространять данную работу с обязательным сохранением ссылок на авторов оригинальной работы и оригинальную публикацию в этом журнале.Авторы сохраняют право заключать отдельные контрактные договорённости, касающиеся не-эксклюзивного распространения версии работы в опубликованном здесь виде (например, размещение ее в институтском хранилище, публикацию в книге), со ссылкой на ее оригинальную публикацию в этом журнале.Авторы имеют право размещать их работу CC-BY GEOGRAPHY, ENVIRONMENT, SUSTAINABILITY; Vol 13, No 2 (2020); 25-34 2542-1565 2071-9388 Russian Arctic Region;water consumption;wastewaters;water-management system;rivers;hydrological restrictions on water use info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion 2020 ftjges https://doi.org/10.24057/2071-9388-2019-59 https://doi.org/10.24057/2071-9388-2017-10-4-4-15 https://doi.org/10.1134/S0097807808010016 2021-05-21T07:34:36Z Water consumption has been evaluated for the basins of the rivers flowing into the Arctic seas of the Russian Federation and, separately, for the Arctic zone of Russia (AZR). Long-term dynamics of the major characteristics of water consumption are given for the period from the 1980s to 2017 along with data on its structure. The possible effect of the total water withdrawal and consumptive water use on river water inflow into the Arctic seas has been evaluated for the 1980s (a period of maximal anthropogenic load), for 2006–2017 and up to 2030. The volumes of water consumption in limits of AZR are relatively low. Moreover, the water withdrawal has dropped considerably compared with the situation in the 1980s, in particular, by about 30% in the Pechora, Lena river basins, and from the rivers of Murmansk oblast, and by 50% in the Northern Dvina, Yenisei, and Kolyma river basins. It has increased in the Nenets and Yamalo-Nenets AO because of the intense development of the local oil-and-gas complex. Nowadays, according to the authors’ estimates, 21.28 km3/year is being withdrawn in the drainage basins of RF Arctic seas and 2.58 km3/year, within the AZR, or 28.8 and 3.5% of the total volume in Russia. The largest contribution to this value is due to the water-management complexes in the basins of the Ob (14.7 km3/year), Yenisei (2.77), Northern Dvina (0.64), and Murmansk oblast (1.72 km3/year). The volumes of water discharges back into water bodies at the drainage basins of Russian Arctic seas are comparable with the volumes of freshwater withdrawal -71% of water intake. Even lesser is the difference within AZR. The major water users are the industry (with a high proportion of mining plants), thermal power engineering, and municipal economy. But considerable and diverse hydrological restrictions exist at the municipal level and for some water users in AZR. These local hydrological restrictions have been formulated and analyzed in detail, for the first time. They form three large groups. Original maps are given to illustrate the specific features and regularities in the present-day distribution of water-management characteristics over AZR. Article in Journal/Newspaper Arctic Arctic dvina kolyma river lena river Murmansk Oblast nenets Pechora Polarforschung Yamalo Nenets Geography, Environment, Sustainability (E-Journal) Arctic Murmansk Kolyma ENVELOPE(161.000,161.000,69.500,69.500) GEOGRAPHY, ENVIRONMENT, SUSTAINABILITY 13 2 25 34

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