Adaptation Actions for a Changing Arctic: Perspectives from the Barents Area

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Chapter 4 · Physical and socio-economic environment

Sharp, M., M. Ananicheva, A. Areendt, J.-O. Hagen, R. Hock, E. Josberger, R.D. Moore, W.T. Pfeffer and G.J. Wolken, 2011. Mountain glaciers and ice caps. In: Snow, Water, Ice and Permafrost in the Arctic (SWIPA): Climate Change and the Cryosphere. Arctic Monitoring and Assessment Programme (AMAP), Oslo, Norway Shindell, D., J.C.I. Kuylenstierna, E. Vignati, R. van Dingenen, M.Amann, Z. Klimont, S.C.Anenberg, N. Muller, G. Janssens- Maenhaut, F. Raes, J. Schwartz, G. Faluvegi, L. Pozzoli, K. Kupiainen, L. Höglund-Isaksson, L. Emberson, D. Streets, V. Ramanathan, K. Hicks, N.T. Kim Oanh, G. Milly, M.Williams, W. Demkine and D. Fowler, 2012. Simultaneously mitigating near-term climate change and improving human health and food security. Science, 335:183-189. Shkolnik, I.M. and S.V. Efimov, 2013. Cyclonic activity in high latitudes as simulated by a regional atmospheric climate model: added value and uncertainties. Environmental Research Letters, 8:45007, doi:10.1088/1748-9326/8/4/045007. Sievert, S., S. Zhakarov and R. Klingholz, 2011. The Waning World Power:The Demographic Future of Russia and the other Soviet Successor States. Berlin Institute for Population and Development. Simpson,M.J.R., J.E.Ø.Nilsen,O.R. Ravndal, K. Breili,H. Sande, H.P.Kierulf,H. Steffen, E. Jansen,M.Carson and O.Vestøl, 2015. Sea Level Change for Norway: Past and Present Observations and Projections to 2100.Norwegian Centre for Climate Services (NCCS), NCCS Report No. 1/2015. Skagseth,Ǿ.,T.Furevik,R.Ingvaldsen,H.Loeng,K.A.Mork,K.A. Orvik and V. Ozhigin, 2008.Volume and heat transports to the Arctic Ocean via the Norwegian and Barents Seas. In: Dickson, B.,J.Meincke and P.Rhines (eds.),Arctic-Subarctic ocean fluxes: defining the role of Nordic Seas in climate. Springer. Skjelvan, I., E. Falck, F. Rey and S. Kringstad, 2008. Inorganic carbon time series at Ocean Weather Station M in the Norwegian Sea. Biogeosciences, 5:549-560. Skogen, M.D., A. Olsen, K.Y. Børsheim, A.B. Sandø and I. Skjelvan, 2014.Modelling ocean acidification in the Nordic and Barents Seas in present and future climate. Journal of Marine Systems, 131:10-20. Slater,A.G. and D.M. Lawrence, 2013. Diagnosing present and future permafrost from climate models. Journal of Climate, 26:5608-5623. Smedsrud, L.H., R. Ingvaldsen, J.E.Ø. Nilsen and Ø. Skagseth, 2010. Heat in the Barents Sea: transport, storage, and surface fluxes. Ocean Science, 6:219-234. Smedsrud, L.H., I.N. Esau, R.B. Ingvaldsen, T. Eldevik, P.M. Haugan, C. Li,V. Lien,A. Omar, O.H. Otterå, B. Risebrobakken, A.B. Sandø,V. Semenov and S.A. Sorokina, 2013.The role of the Barents Sea in theArctic climate system.Reviews of Geophysics, 51:415-449. Smith, L.C. 2011.The New North: TheWorld in 2050. London: Profile Books.

Change for the Baltic Sea Basin. pp. 69-97. Regional Climate Studies. Springer. Sakshaug, E., 2004. Primary and secondary production in the Arctic Seas. In: Stein, R. and R.M. Macdonald (eds.), The Organic Carbon Cycle in theArctic Ocean. pp. 57-81. Springer. Sander, G., J. Gille, A. Stępień, T. Koivurova, J. Thomas, J.-C. Gascard and D. Justus, 2016. Changes in Arctic maritime transport.In: Stępień,A.,T.Koivurova and T,Kankaanpää (eds.), The Changing Arctic and the European Union. pp. 81‑114. Brill Nijhoff. Sandø, A.B., J.E. Nilsen, Y. Gao and K. Lohmann, 2010. Importance of heat transport and local air-sea heat fluxes for Barents Sea climate variability.Journal of Geophysical Research, 115:C07013, doi:10.1029/2009JC005884 Sandø,A.B.,Y.A.Melsom andW.P. Budgell, 2014a.Downscaling IPCC control run and future scenario with focus on the Barents Sea. Ocean Dynamics, 64:927-949. Sandø, A.B., Y. Gao and H.R. Langehaug, 2014b. Relation between ocean heat transports, sea ice processes and Arctic sea ice variability in NorESM1-M simulations. Journal of Geophysical Research: Oceans, 119:2095-2108. Sato, K., J. Inoue,Y.-M. Kodama and J.E.Overland, 2012. Impact of Arctic sea-ice retreat on the recent change in cloud-base height during autumn.Geophysical Research Letters,39:L10503, doi:10.1029/2012GL051850 Sato, K., J. Inoue and M.Watanabe, 2014. Influence of the Gulf Stream on the Barents Sea ice retreat and Eurasian coldness during early winter. Environmental Research Letters, 9:101003. Schlichtholz, P., 2011. Influence of oceanic heat variability on sea ice anomalies in the Nordic Seas. Geophysical Research Letters, 38:L05705, doi:10.1029/2010GL045894 Schweiger, A.J., R.W. Lindsay, S. Vavrus and J.A. Francis, 2008. Relationships between arctic sea ice and clouds during autumn. Journal of Climate, 21:4799-4810. Screen, J.A. and I. Simmonds, 2010. The central role of diminishing sea ice in recent arctic temperature amplification. Nature, 464:1334-1337. Screen, J.A. and I. Simmonds, 2012.Declining summer snowfall in theArctic: causes, impacts and feedbacks.Climate Dynamics, 38:2243-2256. Screen, J.A., C. Deser, I. Simmonds and R. Tomas, 2014. Atmospheric impacts of Arctic sea-ice loss, 1979–2009: Separating forced change from atmospheric internal variability. Climate Dynamics, 43:333-344. Serreze, M.C., A.P. Barrett and J. Stroeve, 2012. Recent changes in tropospheric water vapor over the Arctic as assessed from radiosondes and atmospheric reanalyses. Journal of Geophysical Research: Atmospheres, 117:D10104, doi:10.1029/2011JD017421. Shapiro, G.I., J.M. Huthnance and V.V. Ivanov, 2003. Dense water cascading off the continental shelf.Journal of Geophysical Research, 108:3390, doi:10.1029/2002JC001610, C12.