Climate migration frightens… climate poverty is frightening!

Michał Burzyński, Christoph Deuster, Frédéric Docquier, Jaime de Melo 10 December 2019

Over the 21st century, climate change will manifest itself through anthropogenic temperature changes, sea-level rise, and increased frequency/intensity of extreme weather events and natural disasters. Damages from climate change are expected to vary across and within countries according to proximity of seas and oceans, land topology, industry structure, and initial temperature levels. Developing countries that have contributed the least to climate change will be the most adversely affected, and migratory pressures – both internal and international – will presumably be strongest in the poorest countries of the world (Dell et al. 2014).

Modelling and predicting migration responses to long-term climate change is a challenging task. Beyond uncertainty about expected climate change, climate variables closely interact with other economic and political drivers of migration. In addition, mobility decisions are context-specific and are influenced by many factors that vary across regions and countries – such as country size, level of economic development, political situation, migrants’ networks, or cultural characteristics. 

And last but not least, the predicted effects of climate change have barely started to materialise. Existing literature has mostly looked at the mobility responses to fast-onset climate shocks, like weather anomalies, storms, hurricanes, torrential rains, floods, landslides, and so on. Because slow-onset climate effects like global warming, desertification and sea-level rise have only started, evidence on their implications for long-term migration is much more controversial. 

In a recent paper (Burzynski et al. 2019), we investigate the long-term effects of climate change on intra-regional (rural or urban), inter-regional (rural to urban), and international migration, as well as on global inequality and extreme poverty. We carry out simulations for virtually all developing countries and the OECD countries. South–South migration – often between contiguous countries affected by similar long-term climate trends – is ignored.

Modelling direct and indirect effects of climate change

Instead of extrapolating empirical estimates of reduced-form migration responses to weather shocks, we use a structural model of the world economy that formalises the income and mobility responses to climate-related changes in space liveability, and economic and health variables. The model distinguishes between forced displacement and voluntary migration. It accounts for the interplay between different forms of migration at various spatial scales, as well as for the high degree of heterogeneity in migratory behaviour between people of different places of origin (rich versus poor countries, rural versus urban regions, flooded versus unflooded areas), and levels of education.

The model is used to predict the joint effects of changing temperature and sea level on income distribution and individual decisions about fertility, education, and mobility. Mitigation policies are not considered; climate change scenarios are exogenous to human decisions or reflect the outcome of mitigation policies that are not captured in the model.

The parameters of the model – reflecting technological disparities between spatial units as well as all legal and private mobility costs – are calibrated to exactly match international mobility and urbanisation data from the last 30 years. The ‘backcast’ exercises conducted with this type of model demonstrate that it accurately fits past migration trends and generates sensible projections. The calibrated model is simulated over three periods of 30 years each (2010–2040, 2040–2070, and 2070–2100) under three main climate scenarios:

  • Benchmark: Constant temperature and sea level. Most likely unattainable, this scenario serves as a reference for comparisons.
  • Intermediate: +2.1°C in global temperature with +1.1m sea-level rise over the century. This corresponds to the median scenario from the World Bank. The bulk of changes in the sea level is expected to take place during the first half of the century.
  • Maximalist: +4.1°C in global temperature with +1.3m sea-level rise over the century.
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Climate damage functions

Four climate damage functions are considered. Two relate to slow-onset mechanisms that are easier to anticipate and are more likely to induce adaptation strategies such as crop switching and migration. We also include two additional mechanisms related to the greater frequency of fast-onset climate shocks, which are more difficult to estimate and/or are more uncertain.

  • First, we account for changes in total factor productivity driven by long-term variations in mean temperature (Desmet and Rossi-Hansberg 2015, Shayegh 2017). For countries close to the equator, agricultural productivity will decrease by 20–25% over the century if the temperature increases by 2.1°C; non-agricultural productivity will decrease by 10%. The effect will be 2.5-times greater if temperature increases by 4.1°C. In contrast, productivity will be positively impacted in countries above the 35th parallel.
  • Second, we model forced displacements driven by the uniform rise in the sea level. Combining NASA estimates with our population forecasts, we predict that about 80 million adults will be forcibly displaced by the middle of the century if the sea level increases by 1.1 metres, a scenario that is consistent with a +2.1°C change in temperature (Desmet et al. 2018). About 100 million adults will be forced to move if the sea level increases by 1.3 metres, which is consistent with a +4.1°C change in temperature.
  • Third, we model the expected income losses induced by natural disasters and by the productivity and health effects of extreme heat waves (Burke et al. 2015b). Those losses are calibrated using cross-sectional data on the US states.

Another set of explorative results accounts for climate-driven conflicts over resources.

Climate change will increase global inequality and extreme poverty

In Figure 1, we report the relative differences in 2100 between the intermediate (+2.1°C and +1.1 metres) and benchmark scenarios (no climate change). Focusing on the intermediate scenario, climate change will reduce income per worker by 15% in countries close to the equator and will increase it by 10% at higher latitudes. Hence, the income gap between the richest and poorest countries will increase by 25% over the course of the 21st century. Climate change increases the share of the world population living with less than 2% of the worldwide mean level of income by 0.5 percentage points. 

Figure 1 Macroeconomic responses by latitude (2100)

Notes: The font size of country labels is proportional to the log of population; the font lightens as level of GDP per worker rises (i.e. poor countries are labelled in dark characters). The third-degree polynomial trends in solid grey lines represent the mean difference between the intermediate and benchmark scenarios as a function of latitude. Conversely, the polynomial trends in dashed black lines represent the mean difference between the maximalist (+4.1°C and +1.3 metres) and benchmark scenarios.

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The second panel in Figure 1 illustrates changes in urbanisation, which attenuates the total factor productivity shocks because the average level of labour productivity is greater in non-agriculture than in agriculture. The third panel shows the rise in international emigration. Finally, the fourth panel shows how urbanisation and international migration affect human capital accumulation. 

Although urbanisation increases access to education in poor countries, rising international emigration reduces human capital accumulation in developing countries. The reason is that high-skilled people face smaller migration costs, which implies that international emigration is of the brain-drain type. 

As temperatures and sea level continue to rise, the economic prosperity of dozens of millions is under threat. Under the maximalist scenario, the macroeconomic effects will be twice as large, and the share of the population below the poverty line will increase by five percentage points.

Climate migrants will mostly relocate within their country

Comparing climate scenarios to the benchmark, Figure 2 gives the number of climate migrants predicted for the 21st century for each 30-year window. We suppose that migration laws and policies do not change from those of the current period, and we first ignore climate-related conflicts. 

Combining slow-onset and fast-onset mechanisms, climate change will lead to displacements from vulnerable to more viable locations in their country or abroad (Rigaud et al. 2018). Over the century, this will induce movement of 105 million adults in the intermediate scenario to 162 million adults in the maximalist, translating to about 210 to 320 million people with accompanying children.

Figure 2 Number and type of climate migrants (million per 30-year window)


In the intermediate scenario, 58% (maximalist scenario: 41%) are local movements within the region of birth (from flooded to non-flooded areas), 16% (maximalist: 26%) are interregional (from agriculture to non-agriculture), and 26% (maximalist: 33%) international to the OECD countries. This represents 27.7 million (maximalist: 56.1 million) international adult migrants over the century. On average, this means that the stock of climate immigrants to OECD countries increases by 9 million (maximalist: 17 million) per period.

Figure 2 also reveals that the brunt of climate change impact is in the first half of the century. By the year 2040, only 10% (maximalist: 14%) of climate migrants will leave their country. Hence, compared to other drivers of migration pressure – such as population growth differentials and the rise in educational attainment – climate change will induce limited effects on the share of international migrants to high-income countries. It will increase the immigrant share in total population by 0.4 percentage points (maximalist: 0.9 percentage points) in the US and in Europe, while demographic imbalances and the rise of education should increase migration pressure by seven to nine percentage points. 

Considering additional climate variants, our model clearly suggests that forced displacements due to sea-level rise will be mostly local, while inter-regional and international mobility responses will be overwhelmingly governed by the total factor productivity responses to temperature change.

Added international migration pressure from climate-related conflicts

In contexts of high political and social instability, climate change could contribute to the onset and propagation of conflicts, which would produce additional waves of forced displacements. While the literature on climate and conflicts shows mixed results, Burke et al. (2015b) and Abel et al. (2019) argue that climate change’s effect on conflict occurrence is particularly relevant for countries undergoing political transformation or poverty crises. 

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Building on these studies, we consider a pessimistic scenario with a climate-related persistent conflict in seven Western Asian countries (i.e. experiencing widespread political instability), and in ten countries with significant levels of poverty (i.e. experiencing social instability). Starting from the intermediate climate scenario, this scenario almost triples the international migration response, adding 45 million international adult migrants over the 21st century (i.e. 15 million per 30-year period). The long-run share of international migrants in the world population increases by 0.5 percentage points. 

Hence, international migration responses become larger when accounting for generalised and persistent conflicts over resources. Security and humanitarian policy measures are needed to avoid climate-related humanitarian crises and additional waves of forced displacements.

Concluding remarks

Climate change is sometimes perceived as a trigger of mass emigration from developing to developed countries. This is because low-latitude countries in general, and their rural population in particular, will likely be the most adversely affected. Considering plausible climate scenarios, we predict forced and voluntary movements of 210 to 320 million climate migrants over the 21st century. 

However, disentangling the spatial structure of these mobility responses suggests that, depending on the climate scenario, around two-thirds or three-quarters of these migrants will relocate internally, leaving about 28 to 56 million international migrants over the century. In poor countries and regions, long-haul migration to OECD destinations is a costly adaptation strategy of last resort. In addition, the minority of cross-border migrants is positively selected along education levels, which implies that international climate migration reinforces the adverse impact of climate change. 

Overall, our study suggests that massive international flows of climate refugees are unlikely, except under generalised and persistent conflicts over resources. On the contrary, climate change will most likely increase global inequality and extreme poverty. This is the real threat to all of us.


Abel, G, M Brottager, J Cuaresma and R Muttarak (2019), “Climate, conflict and forced migration”, Global Environmental Change 54: 239–49.

Burke, M, J Dykema, D Lobell, E Miguel and S Satyanah (2015a), “Incorporating climate uncertainty into estimates of climate change impacts”, Review of Economics and Statistics 97(2): 461–71.

Burke, M, S M Hsiang and E Miguel (2015b), “Climate and conflict”, Annual Review of Economics 7(1): 577–617.

Burzynski, M, C Deuster, F Docquier and J de Melo (2019), “Climate change, inequality and human migration”, CEPR Discussion Paper 13997. 

Dell, M, B F Jones and B A Olken (2014), “What do we learn from the weather? The new climate-economy literature”, Journal of Economic Literature 52(3): 740–98.

Desmet, K, and E Rossi-Hansberg (2013), “Moving to Greenland in the face of global warming”,, 16 January.

Desmet, K, D K Nagy, E Rossi-Hansberg (2018), “Adapt or be flooded”,, 2 October. 

Rigaud, K, B Jones, J Bergmann, V Clement, K Ober, J Schewe, S Adamo, S McCusker and A Midgley (2018), “Groundswell: Preparing for internal climate migration”, World Bank.

Shayegh, S (2017), “Outward migration may alter population dynamics and income inequality”, Nature Climate Change 7(11): 828.