Melting sea ice, changing naval geopolitics: The impacts of climate change in the maritime delimitations in the Arctic and the challenges to the UNCLOS

El Ártico, afectado profundamente por el cambio climático, experimenta una disminución de la criosfera en el Círculo Polar Ártico, vista por los Estados polares como una oportunidad económica y estratégica. Aunque esta “normalidad” ha generado desafíos geopolíticos en la región, marcada por la coope...

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Autores:: Filippi, Eduardo Ernesto
Deiró de Mello Neto, Milton José

Tipo de recurso:: Article of journal

Fecha de publicación:: 2024

Institución:: Universidad Externado de Colombia

Repositorio:: Biblioteca Digital Universidad Externado de Colombia

Idioma:: spa

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dc.title.spa.fl_str_mv	Melting sea ice, changing naval geopolitics: The impacts of climate change in the maritime delimitations in the Arctic and the challenges to the UNCLOS
dc.title.translated.eng.fl_str_mv	Melting sea ice, changing naval geopolitics: The impacts of climate change in the maritime delimitations in the Arctic and the challenges to the UNCLOS
title	Melting sea ice, changing naval geopolitics: The impacts of climate change in the maritime delimitations in the Arctic and the challenges to the UNCLOS
spellingShingle	Melting sea ice, changing naval geopolitics: The impacts of climate change in the maritime delimitations in the Arctic and the challenges to the UNCLOS Ártico; cambio climático; geopolítica; Convemar; controversias marítimas Arctic; Climate change; Geopolitics; UNCLOS; Maritime disputes
title_short	Melting sea ice, changing naval geopolitics: The impacts of climate change in the maritime delimitations in the Arctic and the challenges to the UNCLOS
title_full	Melting sea ice, changing naval geopolitics: The impacts of climate change in the maritime delimitations in the Arctic and the challenges to the UNCLOS
title_fullStr	Melting sea ice, changing naval geopolitics: The impacts of climate change in the maritime delimitations in the Arctic and the challenges to the UNCLOS
title_full_unstemmed	Melting sea ice, changing naval geopolitics: The impacts of climate change in the maritime delimitations in the Arctic and the challenges to the UNCLOS
title_sort	Melting sea ice, changing naval geopolitics: The impacts of climate change in the maritime delimitations in the Arctic and the challenges to the UNCLOS
dc.creator.fl_str_mv	Filippi, Eduardo Ernesto Deiró de Mello Neto, Milton José
dc.contributor.author.spa.fl_str_mv	Filippi, Eduardo Ernesto Deiró de Mello Neto, Milton José
dc.subject.eng.fl_str_mv	Ártico; cambio climático; geopolítica; Convemar; controversias marítimas
topic	Ártico; cambio climático; geopolítica; Convemar; controversias marítimas Arctic; Climate change; Geopolitics; UNCLOS; Maritime disputes
dc.subject.spa.fl_str_mv	Arctic; Climate change; Geopolitics; UNCLOS; Maritime disputes
description	El Ártico, afectado profundamente por el cambio climático, experimenta una disminución de la criosfera en el Círculo Polar Ártico, vista por los Estados polares como una oportunidad económica y estratégica. Aunque esta “normalidad” ha generado desafíos geopolíticos en la región, marcada por la cooperación desde la Guerra Fría, ahora se transforma en conflicto. Rusia y los Estados occidentales intensifican operaciones militares, acusándose mutuamente de intensificación militar. No obstante, un aspecto subestimado es la evaluación geopolítica del deshielo y el aumento del nivel del mar, especialmente su impacto en la línea de marea baja y las regulaciones de la Convención de las Naciones Unidas sobre el Derecho del Mar (Convemar). Este artículo discute los resultados del aumento del nivel del mar en los aspectos territoriales y geopolíticos del océano Ártico.
publishDate	2024
dc.date.accessioned.none.fl_str_mv	2024-06-26T16:23:50Z 2024-06-27T07:15:21Z
dc.date.available.none.fl_str_mv	2024-06-26T16:23:50Z 2024-06-27T07:15:21Z
dc.date.issued.none.fl_str_mv	2024-06-26
dc.type.spa.fl_str_mv	Artículo de revista
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dc.relation.citationedition.spa.fl_str_mv	Núm. 40 , Año 2024 : Julio-Diciembre
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dc.relation.references.spa.fl_str_mv	Anderson, A. (2009). After the ice: Life, death, and geopolitics in the New Arctic. Smithsonian. Antrim, C. (2011). The Russian Arctic in the twenty-first fentury. In Kraska, J. (Ed.). Arctic security in an age of climate change. Cambridge University Press. Árnadóttir, S. (2022). Climate change and maritime boundaries: Legal consequences of sea level rise. Cambridge University Press. Baikalov, A. V. (1932). The conquest and colonisation of Siberia. The Slavonic and East European Review, 10(30), 557-571. Biresselioglu, M. E., Demir, M. H., Solak, B., Kayacan, A., & Altinci, S. (2020). Investigating the trends in arctic research: The increasing role of social sciences and humanities. Science of the Total Environment, 729(139027). https:// doi.org/10.1016/j.scitotenv.2020.139027 Bruno, A. (2016) The nature of Soviet power: An Arctic environmental history. Cambridge University Press. Burke, R. P. (2022). The Polar pivot: Great power competition in the Arctic and Antarctica. Lynne Rienner Publishers. Bushkovich, P. (2012). A concise history of Russia. Cambridge University Press. Chalecki, E. L. (2007). He who would rule: Climate change in the Arctic and its implications for U.S. National Security. Journal of Public & International Affairs, 18, 204-222. Chen, J., Kang, S., Du, W., Guo, J., Xu, M., Zhang, Y., … Zhang, W. (2021). Perspectives on future sea ice and navigability in the Arctic. The Cryosphere, 15, 5473-5482. https://doi. org/10.5194/tc-15-5473-2021 Choudhary, S., Saalim, S. M., & Khare, N. (2021). Climate change over the Arctic: Impacts and assessment. In Khare, N. Understanding present and past Arctic environments: An Integrated approach from climate change perspectives. Elsevier. Chylek, P., Folland, C., Klett, J. D., Wang, M., Hengartner, N., Lesins, G., & Dubey, M. K. (2022). Annual mean Arctic amplification 1970-2020: Observed and simulated by cmip6 climate models. Geophysical Research Letters, 49. https://doi.org/10.1029/2022GL099371 Ebinger, C. K., & Zambetakis, E. (2009). The geopolitics of Arctic melt. International Affairs, 85(6), 1215-1232. Gascard, J., Riemann-Campe, K., Gerdes, R., Schyberg, H., Randriamampianina, R., Karcher, M., … Rafizadeh, M. (2017). Future sea ice conditions and weather forecasts in the Arctic: Implications for Arctic shipping. Ambio Journal of Environment and Society, 43(Suppl. 3), S355-S367. https://doi. org/10.1007/s13280-017-0951-5 Gilpin, R. (2010) War and change in world politics. Cambridge University Press. Hogg J., Fonoberova M., & Mezić I. (2020). Exponentially decaying modes and long-term prediction of sea ice concentration using Koopman mode decomposition. Nature Scientific Reports. 10(1),16313. https://doi. org/10.1038/s41598-020-73211-z Hønneland, G. (2016). Russia and the Arctic: Environment, identity and foreign policy. I.B.Taurius. Hosking, G. (2011). Russia and the Russians: A history. Belknap Press. International Court of Justice (2023). Question of the delimitation of the continental shelf between Nicaragua and Colombia beyond 200 nautical miles from the Nicaraguan coast (Nicaragua v. Colombia). https://www.icj-cij.org/case/154 Isaksen, I., Nordli, Ø. Ivanov, B. … & Karandasheva, T. (2022) Exceptional warming over the Barents area. Scientific Reports, 12(9731). https://doi.org/10.1038/s41598-022-13568-5 Jin, Y., Chen, M., Yan, H., Wang, T., & Yang, J. (2023). Sea level variation in the Arctic Ocean since 1979 based on oras5 data. Frontiers in Marine Science. https://doi.org/10.3389/ fmars.2023.1197456 Laruelle, M. (2014). Russia’s Arctic strategies and the future of the far north. M. E. Sharpe. MacDonald, A. P. (2022). Becoming an “Arctic-Capable” navy: Not just the Arctic and offshore patrol ship. Canadian Military Journal, 22(2), 7-16. https://www.journal.forces.gc.ca/pdfs/ cmj222Ep7.pdf McCannon, J. (2012). A history of the Arctic: Nature, exploration and exploitation. Reaktion Books. McCrystall, M. R., Stroeve, J., Serreze, M. C., Forbes, B. C., & Screen, J. A. (2021). New climate models reveal faster and larger increases in Arctic precipitation than previously projected. Nature Communications 12(6765). https://doi.org/10.1038/s41467-021-27031-y Meier, W. Petty, A. Hendricks, S. Perovich, D. Farrell, S. … & Tian-Kunze, X. (2022). Sea Ice. NOAA technical report oar arc 22-06. https://doi.org/10.25923/xyp2-vz45 Pincus, R. (2020a). Three-way power dynamics in the Arctic. Strategic Studies Quarterly, 14(1), 40-63. https://www.jstor.org/stable/26891883 Pincus, R. (2020b). Towards a new Arctic: Changing strategic geography in the GIUK Gap. The RUSI Journal, 165(3), 50-58. https://doi.org/10.1080/03071847.2020.1769496 Rantanen, M., Karpechko, A. Y., Lipponen, A. Nordling, K., Hyvärinnen, O., Ruosteenoja, K., … Laaksonen, A. (2022). The Arctic has warmed nearly four times faster than the globe since 1979. Communications Earth and Environment, 3(168). https://doi.org/10.1038/s43247-022-00498-3 Serreze M. C., & Meier W. N. (2019). The Arctic’s sea ice cover: Trends, variability, predictability, and comparisons to the Antarctic. Annals of the New York Academy of Sciences, 1436(1), 36-53. https://doi.org/10.1111/nyas.13856.Epub Serreze, M. C. (2018). Brave New Arctic: The untold story of the melting north. Princeton University Press. Serreze, M. C., Stroeve, J., Barrett, A. P. & Boisvert, L. N. (2016). Summer atmospheric circulation anomalies over the Arctic Ocean and their influences on September Sea ice extent: A cautionary tale. Journal of Geophysical Research, 121. https://doi.org/10.1002/2016JD025161. Serreze, M. C., Crawford, A., Stroeve, J. C., Barrett, A. P. and Woodgate, R. A. (2016). Variability, trends and predictability of seasonal sea ice retreat and advance in the Chukchi Sea. Journal of Geophysical Research, 121, https://doi.org/10.1002/2016JC011977. Serreze, M. C., Barry, R. G. (2014). The Arctic climate system. Cambridge University Press. Serreze M. C., Barry R. G. (2011). Processes and impacts of Arctic amplification: A research synthesis. Global Planetary Change 77(1- 2), 85-96. https://doi.org/10.1016/j.gloplacha.2011.03.004 Strawa, A. W., Latshaw, G., Farkas, S., Russell, P., & Zornetzer, S. (2020). Arctic ice loss threatens national security: A path forward. Orbis, 64(4), 622-636. https://doi.org/10.1016/j.orbis.2020.08.010 Stroeve, J. Meier, W. (2011). Arctic Sea Ice Decline. In Liu, G. (Ed.). Greenhouse Gases: emission, measurement and management. Intech Open. Tepes, P., Nienow, P., Gourmelen, N. (2021). Accelerating ice mass loss across Arctic Russia in response to atmospheric warming, sea ice decline, and Atlantification of the Eurasian Arctic shelf seas. Journal of Geophysical Research: Earth Surface, 126(7). https://doi.org/10.1029/2021JF006068 Tillman, H., Yang, J., Nielsson, E. T. (2018). The Polar silk road: China’s new frontier of international cooperation. China Quarterly of International Strategic Studies, 4(3), 345-362. Todorov, A. (2023). Russia’s Arctic shelf bid and the commission on the limits of the continental shelf, explained. Belfer Center for Science and International Affairs, Harvard Kennedy School. https://www.belfercenter.org/publi-cation/russias-arctic-shelf-bid-and-commission-limits-continental-shelf-explained Wang, C., Liu, D., Xu, M., Yu, Y., Li, X., Gao, J., & Xing, W. (2016). The sustainable relationship between navigation of Arctic passages, Arctic resources, and the environment. Journal of Sustainable Development, 9(2), 127-136. http://dx.doi.org/10.5539/jsd.v9n2p127 Wu, B., & Li, Z. (2021). Possible impacts of anomalous Arctic sea ice melting on summer atmospheres. International Journal of Climatology, 42, 1818-1827. https://doi. org/10.1002/joc.7337 Zellen, B. S. (2009). Arctic doom, Arctic boom: Geopolitics of climate change in the Arctic. ABC Clio. Zhou, X., Wang, B., Huang, F. (2022). Evaluating sea ice thickness simulation is critical for projecting a summer ice-free Arctic Ocean. Environmental Research Letters, 17(114033). https://doi.org/10.1088/1748-9326/ac9d4d Zysk, K. (2020). Russia’s military build-up in the Arctic: To what end? Center for Naval Analyses, Norwegian Institute for Defence Studies. https://www.cna.org/reports/2020/09/IOP- 2020-U-027998-Final.pdf
dc.rights.spa.fl_str_mv	Eduardo Ernesto Filippi, Milton José Deiró de Mello Neto - 2024
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spelling	Filippi, Eduardo ErnestoDeiró de Mello Neto, Milton José2024-06-26T16:23:50Z2024-06-27T07:15:21Z2024-06-26T16:23:50Z2024-06-27T07:15:21Z2024-06-26El Ártico, afectado profundamente por el cambio climático, experimenta una disminución de la criosfera en el Círculo Polar Ártico, vista por los Estados polares como una oportunidad económica y estratégica. Aunque esta “normalidad” ha generado desafíos geopolíticos en la región, marcada por la cooperación desde la Guerra Fría, ahora se transforma en conflicto. Rusia y los Estados occidentales intensifican operaciones militares, acusándose mutuamente de intensificación militar. No obstante, un aspecto subestimado es la evaluación geopolítica del deshielo y el aumento del nivel del mar, especialmente su impacto en la línea de marea baja y las regulaciones de la Convención de las Naciones Unidas sobre el Derecho del Mar (Convemar). Este artículo discute los resultados del aumento del nivel del mar en los aspectos territoriales y geopolíticos del océano Ártico.The Arctic, deeply affected by climate change, is experiencing a shrinking cryosphere in the Arctic Circle, seen by polar states as an economic and strategic opportunity. Although this “normality” has generated geopolitical challenges in the region, marked by cooperation since the Cold War, it is now transformed into conflict. Russia and Western states intensify military operations, accusing each other of military escalation. However, an underestimated aspect is the geopolitical assessment of melting ice and sea level rise, especially its impact on the low tide line and United Nations Convention on the Law of the Sea (UNCLOS) regulations. This article discusses the results of sea level rise on the territorial and geopolitical aspects of the Arctic Ocean.application/pdf10.18601/16577558.n40.082346-21321657-7558https://bdigital.uexternado.edu.co/handle/001/15728https://doi.org/10.18601/16577558.n40.08spaFacultad de Finanzas, Gobierno y Relaciones Internacionaleshttps://revistas.uexternado.edu.co/index.php/oasis/article/download/9621/16062Núm. 40 , Año 2024 : Julio-Diciembre17840161OasisAnderson, A. (2009). After the ice: Life, death, and geopolitics in the New Arctic. Smithsonian.Antrim, C. (2011). The Russian Arctic in the twenty-first fentury. In Kraska, J. (Ed.). Arctic security in an age of climate change. Cambridge University Press.Árnadóttir, S. (2022). Climate change and maritime boundaries: Legal consequences of sea level rise. Cambridge University Press.Baikalov, A. V. (1932). The conquest and colonisation of Siberia. The Slavonic and East European Review, 10(30), 557-571.Biresselioglu, M. E., Demir, M. H., Solak, B., Kayacan, A., & Altinci, S. (2020). Investigating the trends in arctic research: The increasing role of social sciences and humanities. Science of the Total Environment, 729(139027). https:// doi.org/10.1016/j.scitotenv.2020.139027Bruno, A. (2016) The nature of Soviet power: An Arctic environmental history. Cambridge University Press.Burke, R. P. (2022). The Polar pivot: Great power competition in the Arctic and Antarctica. Lynne Rienner Publishers.Bushkovich, P. (2012). A concise history of Russia. Cambridge University Press.Chalecki, E. L. (2007). He who would rule: Climate change in the Arctic and its implications for U.S. National Security. Journal of Public & International Affairs, 18, 204-222.Chen, J., Kang, S., Du, W., Guo, J., Xu, M., Zhang, Y., … Zhang, W. (2021). Perspectives on future sea ice and navigability in the Arctic. The Cryosphere, 15, 5473-5482. https://doi. org/10.5194/tc-15-5473-2021Choudhary, S., Saalim, S. M., & Khare, N. (2021). Climate change over the Arctic: Impacts and assessment. In Khare, N. Understanding present and past Arctic environments: An Integrated approach from climate change perspectives. Elsevier.Chylek, P., Folland, C., Klett, J. D., Wang, M., Hengartner, N., Lesins, G., & Dubey, M. K. (2022). Annual mean Arctic amplification 1970-2020: Observed and simulated by cmip6 climate models. Geophysical Research Letters, 49. https://doi.org/10.1029/2022GL099371Ebinger, C. K., & Zambetakis, E. (2009). The geopolitics of Arctic melt. International Affairs, 85(6), 1215-1232.Gascard, J., Riemann-Campe, K., Gerdes, R., Schyberg, H., Randriamampianina, R., Karcher, M., … Rafizadeh, M. (2017). Future sea ice conditions and weather forecasts in the Arctic: Implications for Arctic shipping. Ambio Journal of Environment and Society, 43(Suppl. 3), S355-S367. https://doi. org/10.1007/s13280-017-0951-5Gilpin, R. (2010) War and change in world politics. Cambridge University Press.Hogg J., Fonoberova M., & Mezić I. (2020). Exponentially decaying modes and long-term prediction of sea ice concentration using Koopman mode decomposition. Nature Scientific Reports. 10(1),16313. https://doi. org/10.1038/s41598-020-73211-zHønneland, G. (2016). Russia and the Arctic: Environment, identity and foreign policy. I.B.Taurius.Hosking, G. (2011). Russia and the Russians: A history. Belknap Press.International Court of Justice (2023). Question of the delimitation of the continental shelf between Nicaragua and Colombia beyond 200 nautical miles from the Nicaraguan coast (Nicaragua v. Colombia). https://www.icj-cij.org/case/154Isaksen, I., Nordli, Ø. Ivanov, B. … & Karandasheva, T. (2022) Exceptional warming over the Barents area. Scientific Reports, 12(9731). https://doi.org/10.1038/s41598-022-13568-5Jin, Y., Chen, M., Yan, H., Wang, T., & Yang, J. (2023). Sea level variation in the Arctic Ocean since 1979 based on oras5 data. Frontiers in Marine Science. https://doi.org/10.3389/ fmars.2023.1197456Laruelle, M. (2014). Russia’s Arctic strategies and the future of the far north. M. E. Sharpe.MacDonald, A. P. (2022). Becoming an “Arctic-Capable” navy: Not just the Arctic and offshore patrol ship. Canadian Military Journal, 22(2), 7-16. https://www.journal.forces.gc.ca/pdfs/ cmj222Ep7.pdfMcCannon, J. (2012). A history of the Arctic: Nature, exploration and exploitation. Reaktion Books.McCrystall, M. R., Stroeve, J., Serreze, M. C., Forbes, B. C., & Screen, J. A. (2021). New climate models reveal faster and larger increases in Arctic precipitation than previously projected. Nature Communications 12(6765). https://doi.org/10.1038/s41467-021-27031-yMeier, W. Petty, A. Hendricks, S. Perovich, D. Farrell, S. … & Tian-Kunze, X. (2022). Sea Ice. NOAA technical report oar arc 22-06. https://doi.org/10.25923/xyp2-vz45Pincus, R. (2020a). Three-way power dynamics in the Arctic. Strategic Studies Quarterly, 14(1), 40-63. https://www.jstor.org/stable/26891883Pincus, R. (2020b). Towards a new Arctic: Changing strategic geography in the GIUK Gap. The RUSI Journal, 165(3), 50-58. https://doi.org/10.1080/03071847.2020.1769496Rantanen, M., Karpechko, A. Y., Lipponen, A. Nordling, K., Hyvärinnen, O., Ruosteenoja, K., … Laaksonen, A. (2022). The Arctic has warmed nearly four times faster than the globe since 1979. Communications Earth and Environment, 3(168). https://doi.org/10.1038/s43247-022-00498-3Serreze M. C., & Meier W. N. (2019). The Arctic’s sea ice cover: Trends, variability, predictability, and comparisons to the Antarctic. Annals of the New York Academy of Sciences, 1436(1), 36-53. https://doi.org/10.1111/nyas.13856.EpubSerreze, M. C. (2018). Brave New Arctic: The untold story of the melting north. Princeton University Press.Serreze, M. C., Stroeve, J., Barrett, A. P. & Boisvert, L. N. (2016). Summer atmospheric circulation anomalies over the Arctic Ocean and their influences on September Sea ice extent: A cautionary tale. Journal of Geophysical Research, 121. https://doi.org/10.1002/2016JD025161.Serreze, M. C., Crawford, A., Stroeve, J. C., Barrett, A. P. and Woodgate, R. A. (2016). Variability, trends and predictability of seasonal sea ice retreat and advance in the Chukchi Sea. Journal of Geophysical Research, 121, https://doi.org/10.1002/2016JC011977.Serreze, M. C., Barry, R. G. (2014). The Arctic climate system. Cambridge University Press.Serreze M. C., Barry R. G. (2011). Processes and impacts of Arctic amplification: A research synthesis. Global Planetary Change 77(1- 2), 85-96. https://doi.org/10.1016/j.gloplacha.2011.03.004Strawa, A. W., Latshaw, G., Farkas, S., Russell, P., & Zornetzer, S. (2020). Arctic ice loss threatens national security: A path forward. Orbis, 64(4), 622-636. https://doi.org/10.1016/j.orbis.2020.08.010Stroeve, J. Meier, W. (2011). Arctic Sea Ice Decline. In Liu, G. (Ed.). Greenhouse Gases: emission, measurement and management. Intech Open.Tepes, P., Nienow, P., Gourmelen, N. (2021). Accelerating ice mass loss across Arctic Russia in response to atmospheric warming, sea ice decline, and Atlantification of the Eurasian Arctic shelf seas. Journal of Geophysical Research: Earth Surface, 126(7). https://doi.org/10.1029/2021JF006068Tillman, H., Yang, J., Nielsson, E. T. (2018). The Polar silk road: China’s new frontier of international cooperation. China Quarterly of International Strategic Studies, 4(3), 345-362.Todorov, A. (2023). Russia’s Arctic shelf bid and the commission on the limits of the continental shelf, explained. Belfer Center for Science and International Affairs, Harvard Kennedy School. https://www.belfercenter.org/publi-cation/russias-arctic-shelf-bid-and-commission-limits-continental-shelf-explainedWang, C., Liu, D., Xu, M., Yu, Y., Li, X., Gao, J., & Xing, W. (2016). The sustainable relationship between navigation of Arctic passages, Arctic resources, and the environment. Journal of Sustainable Development, 9(2), 127-136. http://dx.doi.org/10.5539/jsd.v9n2p127Wu, B., & Li, Z. (2021). Possible impacts of anomalous Arctic sea ice melting on summer atmospheres. International Journal of Climatology, 42, 1818-1827. https://doi. org/10.1002/joc.7337Zellen, B. S. (2009). Arctic doom, Arctic boom: Geopolitics of climate change in the Arctic. ABC Clio.Zhou, X., Wang, B., Huang, F. (2022). Evaluating sea ice thickness simulation is critical for projecting a summer ice-free Arctic Ocean. Environmental Research Letters, 17(114033). https://doi.org/10.1088/1748-9326/ac9d4dZysk, K. (2020). Russia’s military build-up in the Arctic: To what end? Center for Naval Analyses, Norwegian Institute for Defence Studies. https://www.cna.org/reports/2020/09/IOP- 2020-U-027998-Final.pdfEduardo Ernesto Filippi, Milton José Deiró de Mello Neto - 2024info:eu-repo/semantics/openAccesshttp://purl.org/coar/access_right/c_abf2Esta obra está bajo una licencia internacional Creative Commons Atribución-NoComercial-CompartirIgual 4.0.http://creativecommons.org/licenses/by-nc-sa/4.0https://revistas.uexternado.edu.co/index.php/oasis/article/view/9621Ártico;cambio climático;geopolítica;Convemar;controversias marítimasArctic;Climate change;Geopolitics;UNCLOS;Maritime disputesMelting sea ice, changing naval geopolitics: The impacts of climate change in the maritime delimitations in the Arctic and the challenges to the UNCLOSMelting sea ice, changing naval geopolitics: The impacts of climate change in the maritime delimitations in the Arctic and the challenges to the UNCLOSArtículo de revistahttp://purl.org/coar/resource_type/c_6501http://purl.org/coar/resource_type/c_2df8fbb1http://purl.org/coar/version/c_970fb48d4fbd8a85Textinfo:eu-repo/semantics/articleJournal articleinfo:eu-repo/semantics/publishedVersionPublicationOREORE.xmltext/xml2761https://bdigital.uexternado.edu.co/bitstreams/9fcaccd1-edfc-4428-99f2-9d0b83f7d036/download47f4cf6e1366c39844bdad9a430a85e8MD51001/15728oai:bdigital.uexternado.edu.co:001/157282024-06-27 02:15:22.116http://creativecommons.org/licenses/by-nc-sa/4.0Eduardo Ernesto Filippi, Milton José Deiró de Mello Neto - 2024https://bdigital.uexternado.edu.coUniversidad Externado de Colombiametabiblioteca@metabiblioteca.org

Melting sea ice, changing naval geopolitics: The impacts of climate change in the maritime delimitations in the Arctic and the challenges to the UNCLOS

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