1.Rahmstorf, S. A semi-empirical approach to projecting future sea-level rise. Science 315, 368–370 (2007).2.Stocker, T. et al. Climate Change 2013: The Physical Science Basis. Working Group I Contribution to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change (Cambridge Univ. Press, 2013).3.Jevrejeva, S., Moore, J. C. & Grinsted, A. Sea level projections to AD2500 with a new generation of climate change scenarios. Glob. Planet. Change 80, 14–20 (2012).4.Sweet, W. V. et al. Global and Regional Sea Level Rise Scenarios for the United States (National Oceanic and Atmospheric Administration, 2017).5.Kopp, R. E. et al. Probabilistic 21st and 22nd century sea-level projections at a global network of tide-gauge sites. Earths Future 2, 383–406 (2014).6.Bamber, J. L., Oppenheimer, M., Kopp, R. E., Aspinall, W. P. & Cooke, R. M. Ice sheet contributions to future sea-level rise from structured expert judgment. Proc. Natl Acad. Sci. USA 116, 11195–11200 (2019).7.Dangendorf, S. et al. Persistent acceleration in global sea-level rise since the 1960s. Nat. Clim. Change 9, 705–710 (2019).8.Neumann, B., Vafeidis, A. T., Zimmermann, J. & Nicholls, R. J. Future coastal population growth and exposure to sea-level rise and coastal flooding — a global assessment. PLOS ONE 10, e0118571 (2015). A global assessment of the populations living in the LECZ and in the 100-year floodplain.9.Nicholls, R. J. et al. Sea-level rise and its possible impacts given a ‘beyond 4°C world’ in the twenty-first century. Philos. Trans. R. Soc. A Math. Phys. Eng. Sci. 369, 161–181 (2011).10.Hauer, M. E., Evans, J. M. & Mishra, D. R. Millions projected to be at risk from sea-level rise in the continental United States. Nat. Clim. Change 6, 691–695 (2016).11.McGranahan, G., Balk, D. & Anderson, B. The rising tide: assessing the risks of climate change and human settlements in low elevation coastal zones. Environ. Urban. 19, 17–37 (2007).12.Strauss, B. H., Kulp, S. & Levermann, A. Carbon choices determine US cities committed to futures below sea level. Proc. Natl Acad. Sci. USA 112, 13508–13513 (2015).13.Field, C. B. et al. Climate Change 2014: Impacts, Adaptation and Vulnerability: Regional Aspects. Working Group II Contribution to the IPCC Fifth Assessment Report (Cambridge Univ. Press, 2014).14.Desmet, K. et al. Evaluating the economic cost of coastal flooding. NBER Work. Pap. https://doi.org/10.3386/w24918 (2018).15.Schneider, S. H. & Chen, R. S. Carbon dioxide warming and coastline flooding: physical factors and climatic impact. Annu. Rev. Energy 5, 107–140 (1980). One of, if not the, first articles to quantify the potential displacement associated with SLR.16.Mercer, J. H. West Antarctic ice sheet and CO2 greenhouse effect: a threat of disaster. Nature 271, 321–325 (1978).17.Poulter, B. & Halpin, P. N. Raster modelling of coastal flooding from sea-level rise. Int. J. Geogr. Inf. Sci. 22, 167–182 (2008).18.Chang, S. W., Clement, T. P., Simpson, M. J. & Lee, K.-K. Does sea-level rise have an impact on saltwater intrusion? Adv. Water Resour. 34, 1283–1291 (2011).19.Carretero, S., Rapaglia, J., Bokuniewicz, H. & Kruse, E. Impact of sea-level rise on saltwater intrusion length into the coastal aquifer, Partido de La Costa, Argentina. Cont. Shelf Res. 61–62, 62–70 (2013).20.Knighton, A. D., Mills, K. & Woodroffe, C. D. Tidal-creek extension and saltwater intrusion in northern Australia. Geology 19, 831–834 (1991).21.Werner, A. D. & Simmons, C. T. Impact of sea-level rise on sea water intrusion in coastal aquifers. Groundwater 47, 197–204 (2009).22.Giambastiani, B. M. S., Antonellini, M., Oude Essink, G. H. P. & Stuurman, R. J. Saltwater intrusion in the unconfined coastal aquifer of Ravenna (Italy): a numerical model. J. Hydrol. 340, 91–104 (2007).23.Ketabchi, H., Mahmoodzadeh, D., Ataie-Ashtiani, B. & Simmons, C. T. Sea-level rise impacts on seawater intrusion in coastal aquifers: review and integration. J. Hydrol. 535, 235–255 (2016).24.Moftakhari, H. R. et al. Increased nuisance flooding along the coasts of the United States due to sea level rise: past and future. Geophys. Res. Lett. 42, 9846–9852 (2015).25.Vitousek, S. et al. Doubling of coastal flooding frequency within decades due to sea-level rise. Sci. Rep. 7, 1399 (2017).26.Strauss, B. H., Ziemlinski, R., Weiss, J. L. & Overpeck, J. T. Tidally adjusted estimates of topographic vulnerability to sea level rise and flooding for the contiguous United States. Environ. Res. Lett. 7, 014033 (2012).27.Van Manh, N. et al. Future sediment dynamics in the Mekong Delta floodplains: Impacts of hydropower development, climate change and sea level rise. Glob. Planet. Change 127, 22–33 (2015).28.Bruun, P. Sea-level rise as a cause of shore erosion. J. Waterw. Harb. Div. 88, 117–132 (1962).29.Leatherman, S. P., Zhang, K. & Douglas, B. C. Sea level rise shown to drive coastal erosion. Eos Trans. Am. Geophys. Union. 81, 55–57 (2000).30.Hallegatte, S. et al. Assessing climate change impacts, sea level rise and storm surge risk in port cities: a case study on Copenhagen. Clim. Change 104, 113–137 (2011).31.Tebaldi, C., Strauss, B. H. & Zervas, C. E. Modelling sea level rise impacts on storm surges along US coasts. Environ. Res. Lett. 7, 014032 (2012).32.Karim, M. F. & Mimura, N. Impacts of climate change and sea-level rise on cyclonic storm surge floods in Bangladesh. Glob. Environ. Change 18, 490–500 (2008).33.Woodruff, J. D., Irish, J. L. & Camargo, S. J. Coastal flooding by tropical cyclones and sea-level rise. Nature 504, 44–52 (2013).34.Mahmuduzzaman, M., Ahmed, Z. U., Nuruzzaman, A. K. M. & Ahmed, F. R. S. Causes of salinity intrusion in coastal belt of Bangladesh. Int. J. Plant. Res. 4, 8–13 (2014).35.Sušnik, J. et al. Interdisciplinary assessment of sea-level rise and climate change impacts on the lower Nile delta, Egypt. Sci. Total. Environ. 503–504, 279–288 (2015).36.Suarez, P., Anderson, W., Mahal, V. & Lakshmanan, T. R. Impacts of flooding and climate change on urban transportation: A systemwide performance assessment of the Boston Metro Area. Transp. Res. D Transp. Environ. 10, 231–244 (2005).37.Jacobs, J. M., Cattaneo, L. R., Sweet, W. & Mansfield, T. Recent and future outlooks for nuisance flooding impacts on roadways on the US East Coast. Transp. Res. Rec. 2672, 1–10 (2018).38.Dawson, D., Shaw, J. & Gehrels, W. R. Sea-level rise impacts on transport infrastructure: The notorious case of the coastal railway line at Dawlish, England. J. Transp. Geogr. 51, 97–109 (2016).39.Keenan, J. M., Hill, T. & Gumber, A. Climate gentrification: from theory to empiricism in Miami-Dade County, Florida. Environ. Res. Lett. 13, 054001 (2018). Discusses the concept of ‘climate gentrification’ due to SLR.40.McAlpine, S. A. & Porter, J. R. Estimating recent local impacts of sea-level rise on current real-estate losses: a housing market case study in Miami-Dade, Florida. Popul. Res. Policy Rev. 37, 871–895 (2018).41.Fussell, E. et al. Weather-related hazards and population change: a study of hurricanes and tropical storms in the United States, 1980–2012. Ann. Am. Acad. Political Soc. Sci. 669, 146–167 (2017).42.Alexander, M., Polimis, K. & Zagheni, E. The impact of Hurricane Maria on out-migration from Puerto Rico: evidence from Facebook data. Popul. Dev. Rev. 45, 617–630 (2019).43.Scott, D., Simpson, M. C. & Sim, R. The vulnerability of Caribbean coastal tourism to scenarios of climate change related sea level rise. J. Sustain. Tour. 20, 883–898 (2012).44.Mehvar, S., Filatova, T., Syukri, I., Dastgheib, A. & Ranasinghe, R. Developing a framework to quantify potential sea level rise-driven environmental losses: a case study in Semarang coastal area, Indonesia. Environ. Sci. Policy 89, 216–230 (2018).45.Badjeck, M.-C., Allison, E. H., Halls, A. S. & Dulvy, N. K. Impacts of climate variability and change on fishery-based livelihoods. Mar. Policy 34, 375–383 (2010).46.Desantis, L. R., Bhotika, S., Williams, K. & Putz, F. E. Sea-level rise and drought interactions accelerate forest decline on the Gulf Coast of Florida, USA. Glob. Change Biol. 13, 2349–2360 (2007).47.Black, R., Bennett, S. R. G., Thomas, S. M. & Beddington, J. R. Climate change: Migration as adaptation. Nature 478, 447–449 (2011). An especially useful overarching framework to discuss migration as multifaceted.48.Döös, B. R. Can large-scale environmental migrations be predicted? Glob. Environ. Change 7, 41–61 (1997).49.McLeman, R. A. Climate and Human Migration: Past Experiences, Future Challenges (Cambridge Univ. Press, 2014).50.Hauer, M. E. Migration induced by sea-level rise could reshape the US population landscape. Nat. Clim. Change 7, 321–325 (2017). One of the first studies to model the potential migration destinations of SLR migrants.51.Gibbons, S. J. A. & Nicholls, R. J. Island abandonment and sea-level rise: An historical analog from the Chesapeake Bay, USA. Glob. Environ. Change 16, 40–47 (2006). One of the few historical analogues of island abandonment.52.Hauer, M. E., Hardy, R. D., Mishra, D. R. & Pippin, J. S. No landward movement: examining 80 years of population migration and shoreline change in Louisiana. Popul. Environ. 40, 369–387 (2019).53.Trincardi, F. et al. The 1966 flooding of Venice: What time taught us for the future. Oceanography 29, 178–186 (2016).54.Fussell, E., Curtis, K. J. & DeWaard, J. Recovery migration to the City of New Orleans after Hurricane Katrina: a migration systems approach. Popul. Environ. 35, 305–322 (2014).55.Bailey, C., Gramling, R. & Laska, S. B. in Perspectives on the Restoration of the Mississippi Delta: The Once and Future Delta (eds Day, J. W., Kemp, G. P., Freeman, A. M. & Muth, D. P.) 125–140 (Springer, 2014).56.Yohe, G. W. & Schlesinger, M. E. Sea-level change: the expected economic cost of protection or abandonment in the United States. Clim. Change 38, 447–472 (1998).57.Yohe, G., Neumann, J., Marshall, P. & Ameden, H. The economic cost of greenhouse-induced sea-level rise for developed property in the United States. Clim. Change 32, 387–410 (1996).58.Fankhauser, S. Protection versus retreat: the economic costs of sea-level rise. Environ. Plan. A Econ. Space 27, 299–319 (1995).59.Chen, J. & Mueller, V. Coastal climate change, soil salinity and human migration in Bangladesh. Nat. Clim. Change 8, 981–985 (2018). One of the few studies to link a SLR hazard to empirical models of human migration.60.Davis, K. F., Battachan, A., D’Odorico, P. & Suweis, S. A universal model for predicting human migration under climate change: examining future sea level rise in Bangladesh. Environ. Res. Lett. 13, 064030 (2018).61.Adams, H. & Kay, S. Migration as a human affair: Integrating individual stress thresholds into quantitative models of climate migration. Environ. Sci. Policy 93, 129–138 (2019). Quantifies potential thresholds for migrating due to SLR.62.Hino, M., Field, C. B. & Mach, K. J. Managed retreat as a response to natural hazard risk. Nat. Clim. Change 7, 364–370 (2017). A global study of historic managed retreats that identifies four types of managed retreats.63.Koslov, L. The case for retreat. Public Cult. 28, 359–387 (2016).64.Pilkey, O. H., Pilkey-Jarvis, L. & Pilkey, K. C. Retreat From a Rising Sea: Hard Choices in an Age of Climate Change (Columbia Univ. Press, 2016).65.Maldonado, J. K., Shearer, C., Bronen, R., Peterson, K. & Lazrus, H. in Climate Change and Indigenous Peoples in the United States: Impacts, Experiences and Actions (eds Maldonado, J. K., Colombi, B. & Pandya, R.) 93–106 (Springer, 2014).66.Kniveton, D. Sea-level-rise impacts: Questioning inevitable migration. Nat. Clim. Change 7, 548–549 (2017).67.Laurice Jamero, M. A. et al. Small-island communities in the Philippines prefer local measures to relocation in response to sea-level rise. Nat. Clim. Change 7, 581–586 (2017). Demonstrates that, when given the option to relocate, people prefer to stay and protect in place rather than migrate.68.Kulp, S. A. & Strauss, B. H. New elevation data triple estimates of global vulnerability to sea-level rise and coastal flooding. Nat. Commun. 10, 4844 (2019).69.Mengel, M., Nauels, A., Rogelj, J. & Schleussner, C.-F. Committed sea-level rise under the Paris Agreement and the legacy of delayed mitigation action. Nat. Commun. 9, 601 (2018).70.Hinkel, J. et al. Coastal flood damage and adaptation costs under 21st century sea-level rise. Proc. Natl Acad. Sci. USA 111, 3292–3297 (2014).71.Rigaud, K. K. et al. Groundswell: Preparing for Internal Climate Migration (World Bank, 2018).72.Siders, A. R., Hino, M. & Mach, K. J. The case for strategic and managed climate retreat. Science 365, 761–763 (2019).73.Hallegatte, S., Green, C., Nicholls, R. J. & Corfee-Morlot, J. Future flood losses in major coastal cities. Nat. Clim. Change 3, 802–806 (2013).74.Brown, S. et al. Quantifying land and people exposed to sea-level rise with no mitigation and 1.5°C and 2.0°C rise in global temperatures to year 2300. Earths Future 6, 583–600 (2018).75.Nicholls, R. J. & Cazenave, A. Sea-level rise and its impact on coastal zones. Science 328, 1517–1520 (2010).76.Curtis, K. J. & Schneider, A. Understanding the demographic implications of climate change: estimates of localized population predictions under future scenarios of sea-level rise. Popul. Environ. 33, 28–54 (2011). One of the first studies to hypothesize that SLR might not just spur people to migrate but will actually alter migration destinations.77.Marzeion, B. & Levermann, A. Loss of cultural world heritage and currently inhabited places to sea-level rise. Environ. Res. Lett. 9, 034001 (2014).78.Rowley, R. J., Kostelnick, J. C., Braaten, D., Li, X. & Meisel, J. Risk of rising sea level to population and land area. Eos Trans. Am. Geophys. Union. 88, 105–107 (2007).79.Small, C. & Nicholls, R. J. A global analysis of human settlement in coastal zones. J. Coast. Res. 19, 584–599 (2003).80.Lichter, M., Vafeidis, A. T. & Nicholls, R. J. Exploring data-related uncertainties in analyses of land area and population in the “low-elevation coastal zone” (LECZ). J. Coast. Res. 27, 757–768 (2010).81.Small, C., Gornitz, V. & Cohen, J. E. Coastal hazards and the global distribution of human population. Environ. Geosci. 7, 3–12 (2000).82.Mondal, P. & Tatem, A. J. Uncertainties in measuring populations potentially impacted by sea level rise and coastal flooding. PLOS ONE 7, e48191 (2012).83.Purvis, M. J., Bates, P. D. & Hayes, C. M. A probabilistic methodology to estimate future coastal flood risk due to sea level rise. Coast. Eng. 55, 1062–1073 (2008).84.Crowell, M. et al. An estimate of the U.S. population living in 100-year coastal flood hazard areas. J. Coast. Res. 262, 201–211 (2010).85.Heberger, M., Cooley, H., Herrera, P., Gleick, P. H. & Moore, E. Potential impacts of increased coastal flooding in California due to sea-level rise. Clim. Change 109, 229–249 (2011).86.Hauer, M. E., Evans, J. M. & Alexander, C. R. Sea-level rise and sub-county population projections in coastal Georgia. Popul. Environ. 37, 44–62 (2015).87.Hardy, R. D. & Hauer, M. E. Social vulnerability projections improve sea-level rise risk assessments. Appl. Geogr. 91, 10–20 (2018).88.El-Raey, M. Vulnerability assessment of the coastal zone of the Nile delta of Egypt, to the impacts of sea level rise. Ocean Coast. Manag. 37, 29–40 (1997).89.Zhang, K., Dittmar, J., Ross, M. & Bergh, C. Assessment of sea level rise impacts on human population and real property in the Florida Keys. Clim. Change 107, 129–146 (2011).90.Li, X. et al. GIS analysis of global impacts from sea level rise. Photogramm. Eng. Remote. Sens. 75, 807–818 (2009).91.Kleinosky, L. R., Yarnal, B. & Fisher, A. Vulnerability of Hampton Roads, Virginia to storm-surge flooding and sea-level rise. Nat. Hazards 40, 43–70 (2007).92.Sweet, W. V. & Park, J. From the extreme to the mean: Acceleration and tipping points of coastal inundation from sea level rise. Earths Future 2, 579–600 (2014).93.Bobba, A. G. Numerical modelling of salt-water intrusion due to human activities and sea-level change in the Godavari Delta, India. Hydrol. Sci. J. 47, S67–S80 (2002).94.Ataie-Ashtiani, B., Werner, A. D., Simmons, C. T., Morgan, L. K. & Lu, C. How important is the impact of land-surface inundation on seawater intrusion caused by sea-level rise? Hydrogeol. J. 21, 1673–1677 (2013).95.Loáiciga, H. A., Pingel, T. J. & Garcia, E. S. Sea water intrusion by sea-level rise: scenarios for the 21st century. Groundwater 50, 37–47 (2012).96.Ranasinghe, R., Callaghan, D. & Stive, M. J. Estimating coastal recession due to sea level rise: beyond the Bruun rule. Clim. Change 110, 561–574 (2012).97.Seto, K. C. Exploring the dynamics of migration to mega-delta cities in Asia and Africa: Contemporary drivers and future scenarios. Glob. Environ. Change 21, S94–S107 (2011).98.Black, R., Arnell, N. W., Adger, W. N., Thomas, D. & Geddes, A. Migration, immobility and displacement outcomes following extreme events. Environ. Sci. Policy 27, S32–S43 (2013).99.Adger, W. N. et al. Focus on environmental risks and migration: causes and consequences. Environ. Res. Lett. 10, 060201 (2015).100.Connell, J. Last days in the Carteret Islands? Climate change, livelihoods and migration on coral atolls. Asia Pac. Viewp. 57, 3–15 (2016).101.Black, R. et al. The effect of environmental change on human migration. Glob. Environ. Change 21, S3–S11 (2011).102.Dieleman, F. M. Modelling residential mobility; a review of recent trends in research. J. Hous. Built Environ. 16, 249–265 (2001).103.Clark, W. A. & Maas, R. Interpreting migration through the prism of reasons for moves. Popul. Space Place 21, 54–67 (2015).104.De Longueville, F., Zhu, Y. & Henry, S. Direct and indirect impacts of environmental factors on migration in Burkina Faso: application of structural equation modelling. Popul. Environ. 40, 456–479 (2019).105.Findlay, A. M. Migrant destinations in an era of environmental change. Glob. Environ. Change 21, S50–S58 (2011).106.Fussell, E., Hunter, L. M. & Gray, C. L. Measuring the environmental dimensions of human migration: the demographer’s toolkit. Glob. Environ. Change 28, 182–191 (2014).107.Adams, H. Why populations persist: mobility, place attachment and climate change. Popul. Environ. 37, 429–448 (2016).108.Slovic, P. The Perception of Risk (Routledge, 2016).109.Ludy, J. & Kondolf, G. M. Flood risk perception in lands “protected” by 100-year levees. Nat. Hazards 61, 829–842 (2012).110.Botzen, W. J. W., Aerts, J. C. J. H. & van den Bergh, J. C. J. M. Dependence of flood risk perceptions on socioeconomic and objective risk factors: individual perceptions of climate change. Water Resour. Res. 45, W10440 (2009).111.Bubeck, P., Botzen, W. J. W. & Aerts, J. C. J. H. A review of risk perceptions and other factors that influence flood mitigation behavior. Risk Anal. 32, 1481–1495 (2012).112.Kousky, C. Managing shoreline retreat: a US perspective. Clim. Change 124, 9–20 (2014).113.Grothmann, T. & Reusswig, F. People at risk of flooding: why some residents take precautionary action while others do not. Nat. Hazards 38, 101–120 (2006).114.Knocke, E. T. & Kolivras, K. N. Flash flood awareness in southwest Virginia. Risk Anal. 27, 155–169 (2007).115.Solberg, C., Rossetto, T. & Joffe, H. The social psychology of seismic hazard adjustment: re-evaluating the international literature. Nat. Hazards Earth Syst. Sci. 10, 1663–1677 (2010).116.Kayastha, S. L. & Yadava, R. P. in Population Redistribution and Development in South Asia Vol. 3 (eds Kosiński, L. A. & Elahi, K. M.) 79–88 (Springer, 1985).117.Scoones, I. Sustainable Rural Livelihoods: A Framework for Analysis (Institute of Development Studies, 1998).118.Hunter, L. M., Luna, J. K. & Norton, R. M. Environmental dimensions of migration. Annu. Rev. Sociol. 41, 377–397 (2015).119.Stark, O. & Bloom, D. E. The new economics of labor migration. Am. Econ. Rev. 75, 173–178 (1985).120.McDowell, C. & de Haan, A. Migration and Sustainable Livelihoods: A Critical Review of the Literature (Institute of Development Studies, 1997).121.McLeman, R. A. Settlement abandonment in the context of global environmental change. Glob. Environ. Change 21, S108–S120 (2011).122.Harris, J. R. & Todaro, M. P. Migration, unemployment and development: a two-sector analysis. Am. Econ. Rev. 60, 126–142 (1970).123.Lee, E. S. A theory of migration. Demography 3, 47–57 (1966).124.Greenwood, M. J. Internal migration in developed countries. Handb. Popul. Fam. Econ. 1, 647–720 (1997).125.Plane, D. A., Henrie, C. J. & Perry, M. J. Migration up and down the urban hierarchy and across the life course. Proc. Natl Acad. Sci. USA 102, 15313–15318 (2005).126.Morrison, P. S. & Clark, W. A. Internal migration and employment: macro flows and micro motives. Environ. Plan. A. 43, 1948–1964 (2011).127.Donner, S. D. & Webber, S. Obstacles to climate change adaptation decisions: a case study of sea-level rise and coastal protection measures in Kiribati. Sustain. Sci. 9, 331–345 (2014).128.Farbotko, C. & Lazrus, H. The first climate refugees? Contesting global narratives of climate change in Tuvalu. Glob. Environ. Change 22, 382–390 (2012).129.Shen, S. & Gemenne, F. Contrasted views on environmental change and migration: the case of Tuvaluan migration to New Zealand. Int. Migr. 49, e224–e242 (2011).130.Campbell, J. & Warrick, O. Climate Change and Migration Issues in the Pacific (United Nations ESCAP, 2014).131.McLeman, R. A. & Hunter, L. M. Migration in the context of vulnerability and adaptation to climate change: insights from analogues. Wiley Interdiscip. Rev. Clim. Change 1, 450–461 (2010).132.Lu, X. et al. Unveiling hidden migration and mobility patterns in climate stressed regions: A longitudinal study of six million anonymous mobile phone users in Bangladesh. Glob. Environ. Change 38, 1–7 (2016).133.Curtis, K. J., Fussell, E. & DeWaard, J. Recovery migration after Hurricanes Katrina and Rita: spatial concentration and intensification in the migration system. Demography 52, 1269–1293 (2015).134.DeWaard, J., Curtis, K. J. & Fussell, E. Population recovery in New Orleans after Hurricane Katrina: exploring the potential role of stage migration in migration systems. Popul. Environ. 37, 449–463 (2016).135.Pais, J. F. & Elliott, J. R. Places as recovery machines: vulnerability and neighborhood change after major hurricanes. Soc. Forces 86, 1415–1453 (2008).136.Hsiang, S. M. & Jina, A. S. Geography, depreciation, and growth. Am. Econ. Rev. 105, 252–256 (2015).137.Hsiang, S. M. & Jina, A. S. The Causal Effect of Environmental Catastrophe on Long-Run Economic Growth: Evidence From 6,700 Cyclones (National Bureau of Economic Research, 2014).138.Roback, J. Wages, rents, and the quality of life. J. Polit. Econ. 90, 1257–1278 (1982).139.Cragg, M. & Kahn, M. New estimates of climate demand: evidence from location choice. J. Urban Econ. 42, 261–284 (1997).140.Rappaport, J. in Environmental Amenities and Regional Economic Development (eds Cherry, T. L. & Rickman, D.) 25–53 (Routledge, 2009).141.de Sherbinin, A. et al. Climate vulnerability mapping: a systematic review and future prospects. Wiley Interdiscip. Rev. Clim. Change 10, e600 (2019).142.McLeman, R. & Smit, B. Migration as an adaptation to climate change. Clim. Change 76, 31–53 (2006).143.Adger, W. N. D., de Campos, R. S. K. & Mortreux, C. R. in Routledge Handbook of Environmental Displacement and Migration (eds McLeman, R. & Gemenne, F.) 29–41 (Routledge, 2018).144.Koerth, J., Vafeidis, A. T. & Hinkel, J. Household-level coastal adaptation and its drivers: a systematic case study review. Risk Anal. 37, 629–646 (2017). A review of household coastal adaptation processes, including the sociodemographic characteristics of who adapts in place.145.Nicholls, R. J. Planning for the impacts of sea level rise. Oceanography 24, 144–157 (2011). An easy-to-read and interpret overview of adaptation options for SLR.146.Cartwright, A. Global Climate Change and Adaptation – A Sea-Level Rise Risk Assessment (LaquaR Consultants CC, 2008).147.Herzog, M. M. & Hecht, S. B. Combatting sea level rise in Southern California: how local governments can seize adaptation opportunities while minimizing legal risk. Hastings West-Northwest J. Environ. Law Policy 19, 463 (2013).148.Hinkel, J. et al. The ability of societies to adapt to twenty-first-century sea-level rise. Nat. Clim. Change 8, 570–578 (2018).149.Stive, M. J. F. et al. A new alternative to saving our beaches from sea-level rise: the sand engine. J. Coast. Res. 29, 1001–1008 (2013).150.Nicholls, R. J., Leatherman, S. P., Dennis, K. C. & Volonté, C. R. Impacts and responses to sea-level rise: qualitative and quantitative assessments. J. Coast. Res. 26–43 (1995).151.Hinkel, J. et al. A global analysis of erosion of sandy beaches and sea-level rise: An application of DIVA. Glob. Planet. Change 111, 150–158 (2013).152.Davis, J. L., Currin, C. A., O’Brien, C., Raffenburg, C. & Davis, A. Living shorelines: coastal resilience with a blue carbon benefit. PLOS ONE 10, e0142595 (2015).153.Swann, L. The Use of Living Shorelines to Mitigate the Effects of Storm Events on Dauphin Island, Alabama, USA (American Fisheries Society, 2008).154.Hinkel, J. et al. Sea-level rise impacts on Africa and the effects of mitigation and adaptation: an application of DIVA. Reg. Environ. Change 12, 207–224 (2012).155.Fu, X., Gomaa, M., Deng, Y. & Peng, Z.-R. Adaptation planning for sea level rise: a study of US coastal cities. J. Environ. Plan. Manag. 60, 249–265 (2017).156.Klein, R. J. T. et al. Technological options for adaptation to climate change in coastal zones. J. Coast. Res. 17, 531–543 (2001).157.Aerts, J. C. J. H. A review of cost estimates for flood adaptation. Water 10, 1646 (2018).158.Bloetscher, F., Romah, T., Berry, L., Hammer, N. H. & Cahill, M. A. Identification of physical transportation infrastructure vulnerable to sea level rise. J. Sustain. Dev. 5, 40–51 (2012).159.Boateng, I. An assessment of the physical impacts of sea-level rise and coastal adaptation: a case study of the eastern coast of Ghana. Clim. Change 114, 273–293 (2012).160.Lee, Y. Coastal planning strategies for adaptation to sea level rise: a case study of Mokpo, Korea. J. Build. Constr. Plan. Res. 2, 74–81 (2014).161.Esteban, M. et al. Adaptation to sea level rise on low coral islands: Lessons from recent events. Ocean Coast. Manag. 168, 35–40 (2019).162.Mortreux, C. & Barnett, J. Climate change, migration and adaptation in Funafuti, Tuvalu. Glob. Environ. Change 19, 105–112 (2009).163.Jamero, Ma. L., Onuki, M., Esteban, M. & Tan, N. Community-based adaptation in low-lying islands in the Philippines: challenges and lessons learned. Reg. Environ. Change 18, 2249–2260 (2018).164.Dannenberg, A. L., Frumkin, H., Hess, J. J. & Ebi, K. L. Managed retreat as a strategy for climate change adaptation in small communities: public health implications. Clim. Change 153, 1–4 (2019).165.Lincke, D. & Hinkel, J. Economically robust protection against 21st century sea-level rise. Glob. Environ. Change 51, 67–73 (2018).166.Danh, V. T. & Mushtaq, S. in Environmental Change and Agricultural Sustainability in the Mekong Delta (eds. Stewart, M. A. & Coclanis, P. A.) 181–204 (Springer, 2011).167.Huntington, H. P., Goodstein, E. & Euskirchen, E. Towards a tipping point in responding to change: rising costs, fewer options for arctic and global societies. AMBIO 41, 66–74 (2012).168.Abel, N. et al. Sea level rise, coastal development and planned retreat: analytical framework, governance principles and an Australian case study. Environ. Sci. Policy 14, 279–288 (2011).169.Lemann, A. B. Stronger than the storm: disaster law in a defiant age. LA Law Rev. 78, 437–498 (2017).170.King, M. A tribe faces rising tides: the resettlement of Isle de Jean Charles comments. LSU J. Energy Law Resour. 6, 295–318 (2017).171.Flatt, V. B. et al. From surviving to thriving: equity in disaster planning and recovery. Univ. Hawai’i Richardson School Law https://doi.org/10.2139/ssrn.3340133 (2019).172.Geisler, C. & Currens, B. Impediments to inland resettlement under conditions of accelerated sea level rise. Land Use Policy 66, 322–330 (2017).173.McNamara, K. E. & Des Combes, H. J. Planning for community relocations due to climate change in Fiji. Int. J. Disaster Risk Sci. 6, 315–319 (2015).174.Bronen, R. Climate-induced community relocations: using integrated social-ecological assessments to foster adaptation and resilience. Ecol. Soc. 20, 36 (2015).175.King, D. et al. Voluntary relocation as an adaptation strategy to extreme weather events. Int. J. Disaster Risk Reduct. 8, 83–90 (2014).176.Siders, A. Managed coastal retreat: a legal handbook on shifting development away from vulnerable areas. Columbia Public Law https://doi.org/10.2139/ssrn.2349461 (2013).177.Liu, L. et al. Natural environment: saving an essential part of Hawaii. Hawaii Business Magazine https://www.hawaiibusiness.com/change-report-environment/ (2019).178.Byrne, J. P. The cathedral engulfed: Sea-level rise, property rights, and time. LA Law Rev. 73, 69–118 (2012).179.Butler, W. H., Deyle, R. E. & Mutnansky, C. Low-regrets incrementalism: land use planning adaptation to accelerating sea level rise in Florida’s coastal communities. J. Plan. Educ. Res. 36, 319–332 (2016).180.Marino, E. Adaptation privilege and voluntary buyouts: perspectives on ethnocentrism in sea level rise relocation and retreat policies in the US. Glob. Environ. Change 49, 10–13 (2018).181.Mach, K. J. et al. Managed retreat through voluntary buyouts of flood-prone properties. Sci. Adv. 5, eaax8995 (2019).182.Kaswan, A. Seven principles for equitable adaptation. Sustain. Dev. Law Policy 13, 41–46 (2012).183.Verchick, R. R. M. & Johnson, L. R. When retreat is the best option: flood insurance after Biggert-Waters and other climate change puzzles. John Marshall Law Rev. 47, 695–718 (2013).184.Cutter, S. L., Boruff, B. J. & Shirley, W. L. Social vulnerability to environmental hazards. Soc. Sci. Q. 84, 242–261 (2003).185.McDowell, C. Climate-change adaptation and mitigation: implications for land acquisition and population relocation. Dev. Policy Rev. 31, 677–695 (2013).186.Lovelock, C. E. et al. The vulnerability of Indo-Pacific mangrove forests to sea-level rise. Nature 526, 559–563 (2015).187.Wetzel, F. T., Kissling, W. D., Beissmann, H. & Penn, D. J. Future climate change driven sea-level rise: secondary consequences from human displacement for island biodiversity. Glob. Change Biol. 18, 2707–2719 (2012).188.Crossett, K., Ache, B., Pacheco, P. & Haber, K. National coastal population report, population trends from 1970 to 2020 (NOAA, 2013).189.Loughran, K. & Elliott, J. R. Residential buyouts as environmental mobility: examining where homeowners move to illuminate social inequities in climate adaptation. Popul. Environ. 41, 52–70 (2019).190.Hori, M., Schafer, M. J. & Bowman, D. J. Displacement dynamics in southern Louisiana after Hurricanes Katrina and Rita. Popul. Res. Policy Rev. 28, 45–65 (2009).191.Thiede, B. C. & Brown, D. L. Hurricane Katrina: Who stayed and why? Popul. Res. Policy Rev. 32, 803–824 (2013).192.Rosenzweig, C. et al. Developing coastal adaptation to climate change in the New York City infrastructure-shed: process, approach, tools, and strategies. Clim. Change 106, 93–127 (2011).193.Parris, A. S. et al. Global sea level rise scenarios for the United States National Climate Assessment. NOAA Institutional Repository (2012).194.Quay, R. Anticipatory governance: a tool for climate change adaptation. J. Am. Plann. Assoc. 76, 496–511 (2010).195.Hamilton, L. C., Saito, K., Loring, P. A., Lammers, R. B. & Huntington, H. P. Climigration? Population and climate change in Arctic Alaska. Popul. Environ. 38, 115–133 (2016).196.Albert, S. et al. Heading for the hills: climate-driven community relocations in the Solomon Islands and Alaska provide insight for a 1.5 °C future. Reg. Environ. Change 18, 2261–2272 (2018).197.Ali, A. Vulnerability of Bangladesh to climate change and sea level rise through tropical cyclones and storm surges. Water Air Soil Pollut. 92, 171–179 (1996).198.Huq, S., Ali, S. I. & Rahman, A. A. Sea-level rise and Bangladesh: A preliminary analysis. J. Coast. Res. 44–53 (1995).199.Dasgupta, S., Kamal, F. A., Khan, Z. H., Choudhury, S. & Nishat, A. in World Scientific Reference on Asia and the World Economy (eds Agarwal, M., Pan, J. & Whalley, J.) 205–242 (World Scientific, 2015).200.Clarke, D., Williams, S., Jahiruddin, M., Parks, K. & Salehin, M. Projections of on-farm salinity in costal Bangladesh. Environ. Sci. Process. Impacts 17, 1127–1136 (2015).201.Payo, A. et al. Modeling daily soil salinity dynamics in response to agricultural and environmental changes in coastal Bangladesh. Earths Future 5, 495–514 (2017).202.Khanom, T. Effect of salinity on food security in the context of interior coast of Bangladesh. Ocean Coast. Manag. 130, 205–212 (2016).203.Kartiki, K. Climate change and migration: a case study from rural Bangladesh. Gend. Dev. 19, 23–38 (2011).204.Mallick, B. & Vogt, J. Cyclone, coastal society and migration: empirical evidence from Bangladesh. Int. Dev. Plan. Rev. 34, 217–240 (2012).205.Islam, M. R. Climate change, natural disasters and socioeconomic livelihood vulnerabilities: migration decision among the char land people in Bangladesh. Soc. Indic. Res. 136, 575–593 (2018).206.Hassani-Mahmooei, B. & Parris, B. W. Climate change and internal migration patterns in Bangladesh: an agent-based model. Environ. Dev. Econ. 17, 763–780 (2012).207.Poncelet, A., Gemenne, F., Martiniello, M. & Bousetta, H. in Environment, Forced Migration and Social Vulnerability (eds Afifi, T. & Jäger, J.) 211–222 (Springer, 2010).208.Mallick, B. & Vogt, J. Population displacement after cyclone and its consequences: empirical evidence from coastal Bangladesh. Nat. Hazards 73, 191–212 (2014).209.Call, M., Gray, C., Yunus, M. & Emch, M. Disruption, not displacement: environmental variability and temporary migration in Bangladesh. Glob. Environ. Change 46, 157–165 (2017).210.Gray, C. L. & Mueller, V. Natural disasters and population mobility in Bangladesh. Proc. Natl Acad. Sci. USA 109, 6000–6005 (2012).211.Chen, J. J., Mueller, V., Jia, Y. & Tseng, S. K.-H. Validating migration responses to flooding using satellite and vital registration data. Am. Econ. Rev. 107, 441–445 (2017).212.Shaw, R., Mallick, F. H. & Islam, M. A. Climate Change Adaptation Actions in Bangladesh (Springer, 2013).213.United Nations High Commissioner for Refugees. Climate change and statelessness: an overview (UNHCR, 2009).214.Kälin, W. & Schrepfer, N. Protecting People Crossing Borders in the Context of Climate Change – Normative Gaps and Possible Approaches (Univ. Bern, 2012).215.Vidas, D., Freestone, D. & McAdam, J. International law and sea level rise: the new ILA Committee. ILSA J. Int. Comp. Law 21, 397–408 (2015).216.Constable, A. L., Climate change and migration in the Pacific: options for Tuvalu and the Marshall Islands. Reg. Environ. Change 17, 1029–1038 (2017).217.Ionesco, D., Mokhnacheva, D. & Gemenne, F. The Atlas of Environmental Migration (Routledge, 2016).218.McNamara, K. E. Cross-border migration with dignity in Kiribati. Forced Migr. Rev. 49, 62 (2015). An example of an unplanned or unmanaged retreat in Kiribati, where economic and educational opportunities are enhanced for cross-border, international migrants.219.Klepp, S. & Herbeck, J. The politics of environmental migration and climate justice in the Pacific region. J. Hum. Rights Environ. 7, 54–73 (2016).220.Gerland, P. et al. World population stabilization unlikely this century. Science 346, 234–237 (2014).221.Rogers, A. Age patterns of elderly migration: an international comparison. Demography 25, 355–370 (1988).222.Nicholls, R. J., Adger, W. N., Hutton, C. W. & Hanson, S. E. Deltas in the Anthropocene (Palgrave Macmillan, 2020).223.Barnett, J. & McMichael, C. The effects of climate change on the geography and timing of human mobility. Popul. Environ. 39, 339–356 (2018).224.Gharbaoui, D. J. in Routledge Handbook of Environmental Displacement and Migration Vol. 300 (eds McLeman, R. & Gemenne, F.) 300–319 (Routledge, 2018).225.Hutton, D. & Haque, C. E. Patterns of coping and adaptation among erosion-induced displacees in Bangladesh: implications for hazard analysis and mitigation. Nat. Hazards 29, 405–421 (2003).226.Barman, D. S., Majumder, C. S., Rahaman, M. Z. & Sarker, S. Foundations of migration from the disaster consequences coastal area of Bangladesh. Dev. Ctry. Stud. 2, 22–29 (2012).227.Chhetri, P., Stimson, R. J. & Western, J. Understanding the downshifting phenomenon: a case of South East Queensland, Australia. Aust. J. Soc. Issues 44, 345–362 (2009).228.Fussell, E., Sastry, N. & VanLandingham, M. Race, socioeconomic status, and return migration to New Orleans after Hurricane Katrina. Popul. Environ. 31, 20–42 (2010).229.Chamlee-Wright, E. & Storr, V. H. “There’s no place like New Orleans”: sense of place and community recovery in the Ninth Ward after Hurricane Katrina. J. Urban Aff. 31, 615–634 (2009).230.Adger, W. N., Barnett, J., Brown, K., Marshall, N. & O’brien, K. Cultural dimensions of climate change impacts and adaptation. Nat. Clim. Change 3, 112–117 (2013).231.Zickgraf, C. in Routledge Handbook of Environmental Displacement and Migration (eds McLeman, R. & Gemenne, F.) 71–84 (Routledge, 2018).232.Warner, K. Coordinated approaches to large-scale movements of people: contributions of the Paris Agreement and the Global Compacts for migration and on refugees. Popul. Environ. 39, 384–401 (2018).233.McAdam, J. The emerging New Zealand jurisprudence on climate change, disasters and displacement. Migr. Stud. 3, 131–142 (2015).

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