Burandt T., Xiong B., Löffler K., Oei P. (2019). Decarbonizing China’s energy system – Modeling the transformation of the electricity, transportation, heat, and industrial sectors. Applied Energy, 255, June, 113820. DOI: 10.1016/j.apenergy.2019.113820
Emelyanov K., Zotov N. (2021). Savings on decarbonization. Energeticheskaya politika=Energy policy, 10, 26–37. DOI: 10.46920/2409-5516_2021_10164_26 (in Russian).
Fleming R.C., Mauger R. (2021). Green and just? An update on the ‘European Green Deal’. Journal for European Environmental & Planning Law, 18, 164–180. DOI: 10.1163/18760104-18010010
Guzii V., Leibin V. (2021). Planetary risks of Russian fires. Ekspert=Expert, 38(1221), 59–63 (in Russian).
He G., Lin J., Sifuentes F. et al. (2010). Rapid cost decrease of renewables and storage accelerates the decarbonization of China TMs power system. Nature Communications, 11, 1–9. DOI: 10.1038/s41467-020-16184-x
Huang P., Liu Y. (2017). Renewable energy development in China: Spatial clustering and socio-spatial embeddedness. Current Sustainable Renewable Energy Reports, 4, 38–43. DOI: 10.1007/s40518-017-0070-8
Kattsov V.M., Kobysheva N.V., Meleshko V.P. et al. (2011). Otsenka makroekonomicheskikh posledstvii izmenenii klimata na territorii Rossiiskoi Federatsii na period do 2030 goda i dal’neishuyu perspektivu [Assessment of the Macroeconomic Consequences of Climate Change on the Territory of the Russian Federation for the Period through to 2030 and Beyond]. Moscow: RIF D`ART.
Lebedeva M.A. (2021a). Prerequisites and problems of alternative energy development in the subjects of the European North of Russia. Nauchnyi zhurnal NIU ITMO. Ser.: Ekonomika i ekologicheskii menedzhment=Scientific Journal NRU ITMO. Series “Economics and EnvironmentalManagement”, 3. DOI: 10.17586/2310-1172-2021-14-3-58-74. Available at: http://economics.ihbt.ifmo.ru/ru/article/20673/predposylki_i_problemy_razvitiya_alternativnoy_energetiki_v_subektah_evropeyskogo_severa_rossii.htm (accessed: December 13, 2021; in Russian).
Lebedeva M.A. (2021b). The state and prospects of renewable energy development in the regions of the Far North of Russia. Problemy razvitiya territorii=Problems of Territory’s Development, 4, 139–155. DOI: 10.15838/ptd.2021.4.114.8 (in Russian).
Mekhanik А. (2020). On hydrogen into the future. Ekspert=Expert, 51, 34–38 (in Russian).
Pietzcker R.C., Osorio S., Rodrigues R. (2021). Tightening EU ETS targets in line with the European Green Deal: Impacts on the decarbonization of the EU power sector. Applied Energy, 293, February, 116914. DOI: 10.1016/j.apenergy.2021.116914
Porfir’ev B., Shirov A., Kolpakov A. (2021). How to complete the tour. Ekspert=Expert, 4, 66–69 (in Russian).
Porfir’ev B.N. (2021). Green Agenda: An asymmetric response, Ekspert=Expert, 18–19, 19–21 (in Russian).
Revich B.A., Shaposhnikov D.A. (2021). The COVID-19 pandemic: New knowledge on the impact of air quality on the spread of coronavirus infection in cities. Problemy prognozirovaniya=Studies on Russian Economic Development, 4, 28–37. DOI: 10.47711/0868-6351-187-28-37 (in Russian).
Revich B.A., Shaposhnikov D.A., Anisimov O.A., Belolutskaya M.A. (2019). The influence of temperature waves on the health of the population in the cities of the North-Western region of Russia. Problemy prognozirovaniya=Studies on Russian Economic Development, 3, 127–134 (in Russian).
Revich B.A., Shaposhnikov D.A., Raichich S.R., Saburova S.A., Simonova E.G. (2021). Creating zones in administrative districts located in the Russian Arctic region specific as per threats of cattle burials decay due to permafrost degradation. Analiz riska zdorov’yu=Health Risk Analysis, 1, 115–125. DOI: 10.21668/health.risk/2021.1.12 (in Russian).
Roginko S. (2021a). Biden’s climate office and Paris agreement. Nauchno-analiticheskii vestnik IE RAN=Scientific and Analytical Herald of the Institute of Europe RAS, 1, 7–16 (in Russian).
Roginko S.А. (2021b). America’s climate turn: Ends and means. Obshchestvennye nauki i sovremennost’=Social Sciences and Contemporary World, 2, 53–65 (in Russian).