Introduction

In many regions of the world populations have grown older and fertility rates have declined to very low levels, leading to simultaneously shrinking and ageing populations1,2. Globally, people above 65 years old are the fastest-growing segments of the population and in 2019, for the first time in human history, they outnumbered children younger than 5 years old1,2. Population change, and especially population increase, has always been central to debates over sustainability3. For example, the UN Agenda 2030 was mostly discussed in the context of a rapidly growing global population, focusing on the strategies needed to achieve the sustainable development goals (SDGs) in view of the ever-increasing population pressures4.

Yet the far-reaching implications of ageing and population shrinking for sustainability have so far received limited attention in policy and practice. For example, the dimensions, dynamics and consequences of simultaneous ageing and shrinking populations are by and large overlooked in the SDG documents (SDGs), with ageing mostly visible only in relation to that older people are a vulnerable group5. In other highly visible UN documents related to sustainable development such as the New Urban Agenda, the challenges posed by ageing urban populations are mentioned in only one sentence6.

This pattern is also visible in the main strands of the academic literature relating to ageing and sustainability. In one strand, ageing is mostly discussed through the lens of labour markets economics, saving patterns, pension fund policies, and the provision of health and welfare services7. However, sustainability is not present in this literature in the conventional sense, considering the deeper discussion on the possible environmental consequences of ageing and shrinking populations8. Furthermore, many studies on the economic and social ramifications of ageing have focused either at the scale of the individual/single household (mainly studies from medicine and social science) or on the national scale (mainly studies from economics)7, missing to address the urban and regional scale.

Urban studies have been the second major academic strand bridging ageing and sustainability, mainly through the phenomena of ageing and shrinking cities. While the overall urbanization and extent of larger metropolitan areas are expected to increase in the foreseeable future in many regions9, other regions and cities are simultaneously showing striking signs of shrinking and ageing. For example, there are ~350–400 shrinking cities worldwide, most of them in Europe (especially its Eastern parts), Japan and the United States9,10,11,12. However, even though this literature has touched more on sustainability, it has been more through the lens of local aspects of planning, livability, and well-being, missing the larger sustainability ramifications of an ageing and shrinking urban population.

The above suggest that ageing and shrinking populations are usually perceived as challenging obstacles for meeting sustainability objectives, and rarely as opportunities. It is highly possible, however, that rapidly ageing and shrinking populations will have at the same time multiple positive and negative ramifications for sustainability in terms of economic growth, public sector development, consumption patterns, land use change, and greenhouse gas emissions, among others7,8. Thus they will most certainly also have important implications for the implementation of many of the SDGs.

This Perspective first makes the case that ageing and shrinking urban populations will pose both major challenges, but also provide opportunities for implementing the SDGs. Second, it argues that different context-specific emerging interventions would be needed to reduce the challenges and/or leverage the opportunities offered by ageing and population shrinking to enhance urban sustainability in this increasingly urban century. We note that ageing and shrinking populations are, from a demographic point of view, two separate phenomena. However, as they are often very tightly interconnected, we will explore their sustainability implications simultaneously. The first section provides an overview of the main global patterns of ageing and shrinking population in the context of urbanization. The second section focuses on the first part of the thesis, outlining the new challenges and opportunities for SDG implementation from ageing and shrinking urban populations. The third and fourth sections focus on the second part of the thesis, highlighting some of the possible emerging interventions for reducing the challenges and/or leveraging the opportunities offered by ageing and shrinking populations, and well potential risks ahead.

Interface of ageing, population shrinking and urbanization

In 2020, 9% of the global population was above 65 years old, accounting for 728 million people. This population is projected to increase more than twofold, reaching 1.55 billion in 2050 and accounting to 16% of global population, at medium fertility rates1. People above 80 years old accounted for 143 million in 2019, and are expected to reach 426 million in 2050 and account for nearly 60% of the elderly population1, increasing particularly fast in high-income countries (Supplementary Fig. 1). However, there are major regional discrepancies in current and future patterns of ageing, with Europe expected to remain the most aged society in 2050, Asia experiencing large increases in aged population (especially in China), and most countries in Africa having a mostly young population1 (Fig. 1) (see Supplementary Table 1 for examples from selected countries). Regardless of these trends, in both affluent and less affluent regions, older women generally greatly outnumber older men, with the oldest age groups in some regions being completely female5,9.

Fig. 1: Proportion of aged population (in 2020 and 2050) and urban population (in 2018).
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Note: For a and b the projected fractions of the population above 65 years old (in %) is based on the UN medium variant1. For b the proportion of urban population (in %) is based on114.

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At the same time, there are major changes in fertility rates and population sizes. Currently, fertility rates are near or below the 2.1 replacement level in all regions apart from the African continent, and are expected to continue decreasing well below this replacement level in most regions except Africa in 20501. Out of the 27 countries with the lowest fertility rate under 1.5 globally in 2018, 21 are in Europe or East Asia (Supplementary Fig. 2). Similarly, many countries and regions are expecting large population shrinking by 2050, with most of these countries located in Europe and Asia (Fig. 2) (see Supplementary Table 1 for examples from selected countries). Some of the current fertility, mortality, migration, and population models suggest that the UN figures can be still vastly underestimated13.

Fig. 2: Countries with the highest projected population shrinking by 2050.
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Note: The bars denote the projected fraction of population shrinking between 2020 and 2050 (in %) (Data source:1); The purple figures denote the fraction of the urban population in 2018 (in %) (Data source:114).

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The above suggest the strong relationships between ageing patterns with fertility rates and population shrinking, which collectively represent a major demographic transition. This demographic transition seems to be currently mainly confined to Europe and East Asia as outlined above (Figs. 1 and 2). However, it is important to note that there may be strong interactions in that increases in the proportion of elderly in a country can put more economic and social pressure on working age population, further decreasing birth rates and/or postponing child births, thus driving fertility rates even lower14.

Before delving into the implications of an ageing and shrinking urban population for sustainability in the next section, it is important to understand the role of urbanization in this demographic transition, and the characteristics of ageing urban populations. Urbanization reportedly plays a major role in this interface, as it is a multi-dimensional process associated with increased affluence and access to jobs, improved health care and education, and cultural and behavioural change14. While initially urbanization may be partly driving mortality rates down due to increased affluence and access to health care, it later on may lead to women taking stronger control of their lives resulting in declining fertility rates (Fig. 3)14. However there is great variability in the relationship between fertility decline and urbanization between regions (Fig. 4). For example, low-income countries are often characterized by a steep decline in fertility rates with increases in urbanization, but the pattern may vary regionally (Supplementary Fig. 3). At the same time, livelihoods in urban areas are seldom dependent on adding members to the family, in contrast to many rural areas15. Instead, adding children may increase living costs and put constraints upon the often very mobile and career-oriented (yet underpaid) life of urban women16. It is worth mentioning that variation between countries may also be due to the different metrics and cut-offs levels for measuring urbanization, and a multitude of local and context-specific factors that in turn may influence variables underlying fertility rates, such as health, education, income and gender equality17. In any case irrespective of this variation, urbanization as a complex variable still seems to reasonably capture in an aggregate way the important mechanisms underlying declining fertility rates18.

Fig. 3: Evolution of the relative levels of mortality and fertility rates over time.
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Note: Based on14.

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Fig. 4: Fertility rates and urban population fraction in 2018.
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Note: Data source:1,114.

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Finally, it is worth noting that many of these demographic transitions are made within the context of accelerating climate change. Climate change can and will intersect with these demographic changes in multiple ways. For example, it can impact fertility by changing human behaviour and affecting migration patterns within countries (e.g. from rural to urban areas) and between countries (e.g. from poor to rich countries)19. These climate change-related shifts in migration patterns can exacerbate ongoing population shrinking and ageing, for example by influencing younger people to out-migrate from already rapidly ageing areas, accelerating thus population shrinking in some areas13,20,21.

Sustainability challenges and opportunities

Interface of ageing and sustainability

First, older populations experience specific challenges related to access to health, safety, capacity to deal with disasters, vulnerability to diseases/pandemics, and mobility, among others5,22. Such challenges increase the vulnerability of the elderly and require particular interventions23. The recent COVID-19 pandemic showed clearly many of these weaknesses for the elderly24. This implies some of the many challenges that an ageing population can pose for meeting many of the SDGs and their underlying targets.

Second, in the last few decades there have been significant changes in the health status and risks, activity and productivity patterns, and the socioeconomic characteristics of the elderly2. On the one hand, this has led to the development of alternative concepts and measures to offer a more nuanced perspective of what population ageing means in different contexts. This includes, for example, measures based on prospective age (i.e. years of life remaining), with a dynamic threshold of ‘old age’ that rises progressively with increasing life expectancy and health at old age, point toward a slower process of population ageing than what is indicated by the conventional measures25. Such measures can have significant implications for assessing the living conditions and living arrangements of older persons, their productive, experience-based and other contributions to society and their needs for social integration and health care. On the other hand, these shifts in the characteristics and capabilities of the elderly populations can offer real opportunities for meeting some SDG targets.

Third, although UN population projections are made at the country level1, cities represent both those areas where most elderly people will live in the near future and an arena, where the recent demographic transitions have unfolded and the new ones will emerge26. Thus an urban perspective is necessary when identifying the sustainability challenges and opportunities emerging through the demographic transition posed by an ageing and shrinking population.

The three following sub-sections explore in more depth how the ageing and shrinking populations may offer new opportunities or challenges in achieving the SDGs. We focus on 12 SDGs for which there is currently the clearest evidence to support this discussion in the context of ageing and shrinking population. We divide these SDGs across the three thematic categories of biosphere, society and economy27.

Biosphere-related SDGs

Ageing and shrinking populations are expected to offer major opportunities to achieve some targets associated with SDG6 (Clean Water and Sanitation), SDG14 (Life under Water) and SDG15 (Life on Land), and both opportunities and challenges to meet SDG13 (Climate Action), as discussed below.

Many studies have argued that ageing and shrinking populations will be beneficial for biodiversity conservation and ecosystem functioning (see an extended review in ref. 8). This is mainly through reduced environmental pressures from decreases in total consumption, considering that the growth of human population and consumption are both major drivers of global environmental change28,29,30,31. These possibly lower consumption rates associated with smaller and older populations32,33 could reduce pressures to convert natural areas for agriculture or alter rivers to provide water for agriculture and growing cities8. For example, the projected population shrinking in Japan will possibly reduce pressure on land, opening possibilities for rewilding land that is no longer needed for agriculture, forestry, or other intensive human uses34. However, this might not be transferable and/or might differ among countries. The above offer real opportunities for meeting SDG targets such as 15.1 (conservation, restoration and sustainable use of terrestrial and inland freshwater ecosystems and their services), 6.1 (universal and equitable access to safe and affordable drinking water), or 14.4 (regulate harvesting and end overfishing, illegal, unreported and unregulated fishing and destructive fishing).

However, ageing will create constraints for meeting SDG13 and particularly target 13.1 (resilience and adaptive capacity to climate-related hazards and natural disasters), considering that the elderly are generally more vulnerable to climatic extremes and disasters through diverse mechanisms35. For example, the elderly are more vulnerable (and less able to adapt) to disasters such as floods, landslides, and typhoons due to mobility or connectivity constraints36,37,38,39. Furthermore, they are more vulnerable to heat40, with heat waves causing the highest death tolls to people over 65 years old41. The expected increases in the frequency and magnitude of climatic disaster will most likely increase the vulnerability of ageing societies, e.g. many European and Asian countries characterized by an ageing population will become highly or very highly vulnerable to heatwaves (Supplementary Fig. 4). Interestingly ageing and population shrinking can have rather variable effects for GHG emissions, and thus climate change mitigation efforts. For example, population shrinking can provide 16–29% of the emission reductions needed by 2050 to keep average global temperature increases below 2 °C, and as much 37–41% of necessary emission reduction by the end of the century42. Furthermore, ageing populations provide a potential for further emission reductions due to declining age-specific material consumption at older ages32. Although there are sector, timing, and scale-effect discrepancies, it is expected that in the long run population ageing would reduce overall emissions33,43,44. However, some studies have found that elder age groups can have higher carbon footprints compared to younger age groups, due to emission-intensive activities, such as higher personal car use, home heating and medical care and treatment45,46,47.

Society-related SDGs

An ageing and shrinking population will pose major challenges for meeting SDG3 (Good Health and Wellbeing). Further to the absence of disease, healthy ageing would also require the maintenance of functional ability throughout a person’s lifespan. As mentioned in the previous sub-section the elderly are more vulnerable to environmental stressors and disasters. Similarly, water-borne diseases such as norovirus, and epidemics such as the recent COVID-19 virus or recurring influenza outbreaks are especially dangerous to the elderly48,49. Thus, health and long-term care systems need to be able to meet the needs of ageing populations through appropriate integrated care and maintaining the intrinsic capacity of older persons. However, there is ample literature on the health care-related challenges connected to an ageing society, including the escalating costs in terms of care and medicine, and the lower ability of shrinking populations to meet7,50. The above suggest that ageing will pose challenges for Target 3.4 (reduce premature mortality from non-communicable diseases) and 3.8 (universal health coverage, including financial risk protection, access to quality essential health-care services and access to safe, effective, quality and affordable essential medicines and vaccines), with the latter possibly exacerbated by population shrinking.

Similarly ageing will most likely reinforce old (and create new) inequalities51, which will pose challenges for meeting SDG1 (No Poverty), and especially the targets on poverty levels (Target 1.1–1.2) and social protection (Targets 1.3–1.4). In particular elderly people have a lower participation in employment and in most cases rely solely on pensions, with a substantial fraction of elderly falling below the poverty lines in their respective countries as pensions are not always enough to cover their daily needs5,52,53. Similarly in many of the rapidly ageing societies (especially in eastern Asia), the existing social protection programmes are not sufficiently strong and comprehensive to cover the needs of the increasingly elderly population (let alone a rapidly increasing one) with fewer people of working age contributing to them51,52,53. It is worth noting that there is a persistent gender gap in both the coverage and absolute levels of pensions52, which suggests also major implications for SDG5 (Gender Equality). However, the actual effects of inequalities in pension levels and coverage might be a bit more difficult to delineate for meeting SDG5.

Conversely, an ageing and shrinking population can offer both opportunities and challenges for meeting SDG2 (Zero Hunger). For example, theoretically speaking a shrinking population will require a lower amount of food, with this lower consumption reducing pressure on the food system and improving food security (see the previous sub-section). However, lower incomes for the elderly (see SDG1), might not allow the sufficient food access for all, as has been shown for elderly people54,55. Furthermore, an ageing and shrinking population might have an adverse effect on agricultural production due to the shrinking workforce in the agricultural sector (as has been observed in many ageing societies)56, but such effects might be offset partly or completely through automation57. Another possible challenge might emerge from the loss of traditional agricultural practices, local agricultural knowledge and local varieties, which has been observed in many ageing and shrinking communities, characterized by lower employment in agriculture. The above suggest that ageing and shrinking populations might pose challenges for meeting target 2.5 (maintain genetic diversity of crops), opportunities for target 2.4 (ensure sustainable food production systems and resilient agricultural practices), but possibly less clear outcomes for target 2.1 (end hunger and ensure access to food) and 2.3 (double the agricultural productivity and incomes of small-scale food producers).

Similarly, an ageing and shrinking population can offer both opportunities and challenges for SDG11 (Sustainable Cities and Communities). On the one hand, shrinking populations would ease up pressure on housing markets and make it easier to access affordable housing in urban areas. However, there is a need to be mindful of socioeconomic and sociospatial inequalities, and the challenges they might pose58. On the other hand, older people spend comparatively more of their time at home, which makes housing an important component of age-friendly cities59,60. Evidence suggests that many existing homes are not suitable for the varied needs of older people61,62,63. With most existing housing stock likely to be still in use by 2050 in ageing regions such as Europe, many homes will need to be adapted so that older people can continue to live in them59. Thus an ageing and shrinking population offers both challenges and opportunities for meeting target 11.1 (access to adequate, safe and affordable housing and basic services and upgraded slums).

An ageing population would most likely increase policy demand for designing accessible and safe public spaces (see the section “Boost innovation for health care and mobility”), which will have major implications for Target 11.7 (universal access to safe, inclusive and accessible, green and public spaces). On the one hand, green spaces can promote physical activity and improve the physical and mental health among older people64,65, paying clear dividends for other SDGs (see the section “Boost innovation for health care and mobility”). However, there are many barriers preventing older people from using green spaces, for example due to safety concerns66 or their design that often prioritizes other users (e.g. children). At the same a shrinking urban population might reduce the available financial resources for developing and maintaining age-friendly public spaces (e.g. through municipal taxes)67, putting an extra challenge for meeting target 11.7.

Similarly ageing and shrinking populations would make a strong case for reconfiguration and added investments in public transport26, but at the same time increase the risk of declining revenues and reducing public transport service provision where elderly fares are subsidized. Similar to public spaces, if transport services cannot meet the mobility needs of the elderly, there is a high risk of social isolation or depressive symptoms68,69. Similar to the above a possible decline in available financial resources might challenge the development of age-friendly transport systems. The combined effect of the above would pose a major challenge for addressing target 11.2 (access to safe, affordable, accessible and sustainable transport systems…notably by expanding public transport).

Finally due to the expected reduction in material consumption ageing and shrinking populations can offer real opportunities for meeting Target 11.6 (reduce the adverse per capita environmental impact of cities). However, as also mentioned in some cases elder populations have a higher carbon footprint for some categories, which might pose some barriers (see the previous sub-section).

Economy-related SDGs

Overall it is expected that an ageing and shrinking population will pose challenges for achieving SDG8 (Decent Work and Economic Growth) and SDG9 (Industry, Innovation and Infrastructure). The major mechanism relates to the declining and comparatively lower number of young workers and taxpayers7. The dependency ratio is often used as a measure of societal capacity for economic growth, with a declining dependency ratio implying that the burden on the working segment of the population increases, creating fiscal pressures on developing and maintaining public health care, pension, infrastructure, and social protection systems for older persons7. For reference, currently Japan has the lowest dependency ratio in the world (1.8), and by 2050 more than 48 countries are expected to have ratios below 21. Considering this situation it is widely believed that productivity can only be boosted through increased innovation and automation in all sectors of society (e.g. robots replacing workers in manufacturing, health and elder care centres). However, there are strong reasons to believe that rates of innovation may decrease in ageing societies, and thus slow down further economic growth and workforce replacement70. The above suggest that ageing and shrinking populations will pose major challenges for meeting many individual targets such as Target 8.1 (sustainable economic growth), 8.2 (diversify, innovate and upgrade for economic productivity), 9.1 (sustainable, resilient and inclusive infrastructures), and 9.2 (inclusive and sustainable industrialization), among others.

Conversely, ageing and shrinking populations might provide opportunities for achieving SDG12 (Sustainable Production and Consumption). The key entry point are the forecasted lower levels of consumption from both an ageing and shrinking population (see the section “Biosphere-related SDGs”), which is expected to provide opportunities for Targets 12.2 (sustainable management and efficient use of natural resources), 12.3 (halve per capita global food waste…and reduce food losses along production and supply chains), and 12.5 (reduce waste generation through prevention, reduction, recycling and reuse)71.

Emerging interventions

Capitalize on opportunities and reduce challenges

As the previous section has outlined, population ageing and shrinking both pose challenges and offer opportunities for meeting a very diverse set of SDG targets (Fig. 5). We argue that in order to enhance sustainability there is a real need to put in place interventions or strengthen existing processes in order to capitalize effectively on the new opportunities and reduce the new challenges posed by ageing and shrinking populations. Arguably many of the interventions will be context-specific considering the major differences between countries (and areas within individual countries) in terms of the pace of ageing and shrinking (see the section “Interface of ageing, population shrinking and urbanization”), the socioeconomic and environmental conditions, and the ability to invest resources.

Fig. 5: Potential effects of population ageing and shrinking for selected SDG targets and the contribution of emerging interventions.
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Note: The division of SDGs across the three thematic categories is based on27.

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In our opinion three very different, but also very promising, emerging interventions discussed in the following sub-sections are to (a) boost innovation for health care and mobility, (b) increase the extent and improve the design of open and green spaces, (c) promote social inclusion through social participation and urban knowledge co-production.

While we acknowledge that these are only some of the possible emerging interventions, we believe that they offer a good cross-section of possible options. This is because they span very different domains (e.g. technology adoption, social innovation, urban planning), target very different SDG targets through different mechanisms (Fig. 5), and are amenable and transferable to different geographical contexts, environmental and socioeconomic conditions and abilities to invest resources.

Boost innovation for health care and mobility

Many emerging interventions seek to improve health care and mobility have been piloted or implemented across countries/cities experiencing an onset in population ageing and/or shrinking (Fig. 5). These interventions range from technological innovations, to social and institutional innovations.

Some of the technological innovations for health care include socially assistive robots and virtual entertainment for mental health72,73, roadside AI services for healthcare, and a series of innovations for house-based healthcare, digital nursing and monitoring74 (Supplementary Table 2). More conventional approaches include, among others, care homes that bring together young and older people, volunteering in care homes, and day-care houses to occupy the elderly during the day (Supplementary Table 2).

Urban mobility plays an important role for the effective social inclusion of the elderly, and can include both conventional and innovative approaches. Central to these approaches would be to harness the potential offered by new patterns of urban mobility provision, which has been moving towards the concept of Mobility as a Service (MaaS) through the use of smartphones and ubiquitous internet connection, and the combination of transportation services from public and private providers75. It has been argued that MaaS could contribute to a better accessibility for the older population, given that they learn how to use the necessary technological interventions (i.e. smart phones)76.

This can be combined with age-friendly transport interventions including special fares, reduced barriers in transport hubs, and age-friendly vehicle functionalities (Supplementary Table 2), as well as active travel options such as e-bikes77. Other innovations that can improve mobility in the context of ageing and shrinking societies include autonomous driving, with different possible modes offering different advantages and disadvantages78.

Increase the extent and improve the design of green spaces

There is a strong evidence-base to suggest that public and green spaces (including urban agriculture) can have ripple positive outcomes for the physical, mental and psychological health of urban residents (Fig. 5)79,80,81. Green spaces can promote physical activity among older people, with cross-sectional surveys linking the engagement with (and quality of) open spaces to the increased life satisfaction, and reduced loneliness and social isolation of the elderly64,65. Green spaces have also played a crucial role as familiar escapes during the recent COVID-19 pandemic and other hazards.

Population ageing and shrinking open up numerous possibilities for new approaches to increase the extent and improve the design of green spaces, and open spaces more generally. Such approaches would need to put more emphasis on the multi-functionality of the urban landscape and create synergies among different age groups82,83,84.

At the level of the individual green or public space, new urban designs must consider principles of inclusivity to ensure both the accessibility/safety of the elderly, as well as integrate elements/functionalities that would increase their satisfaction (e.g. walking path routes, seating, plant species)85. Furthermore, green/public areas would need to be closer to residential homes and consider issues of social connection and mobility (see also the previous sub-section)86,87.

At the level of the neighbourhood or the city, many different planning approaches have been suggested that reflect and emphasize on different urban and cultural socioeconomic characteristics82,83. For example, the compact city approach is one potential intervention that has been applied in various countries for sustainable growth88, but has also been used in some ageing and shrinking cities to control further shrinkage89. The Compact City approach seeks to (a) transform low density urban land uses into green/spaces and prohibit urban development, (b) promote densification of the urban centres with convenient nodes for transportation, and (c) develop new housing and rebuilds aged infrastructure in designated zones90. This approach plans for the gradual urban shrinking by transforming one vacant lot at a time89, which requires long time-term thinking and transient or temporary green spaces (e.g. woodlands, urban agriculture)91,92. However, we should also note some of the possible negative feedbacks between densification and liveability for older people, such as through exacerbating urban heat island effect93, unsuitable housing94 or gentrification95. Such factors would need to be considered when reconfiguring urban spaces in order to ensure sustainability in the context of ageing and shrinking urban populations.

In this context climate change considerations would need to be factored in urban green designs to ensure that they provide both adaptation and mitigation services to urban populations96,97. Some examples can be storm water collection in urban farms during intense rainfalls to avoid hygiene issues98, or trees providing shade that gives a cooling effect during extreme heat to reduce chances of heat stress99. This becomes particularly important considering both the increased vulnerability of elderly (see the section “Society-related SDGs”), as well as their different capacity to employ (and preference for) related coping strategies100. In this sense, investing in green infrastructure (and included green spaces) that caters to the elderly through multiple ecosystem services should be seen as a future planning priority in rapidly ageing urban contexts101.

Improve social inclusion

An ageing population presents a large untapped potential for sustainable development (Fig. 5). Specifically under appropriate conditions this growing population of skilled, increasingly healthy and active people, with lots of spare time can engage in various sustainability initiatives at the local level. There has been demonstrated interest of older people in many countries to continue working or they volunteer in their communities, the extent to which older people participate in the social, civic and economic life of the city is closely linked to their experience of inclusion66.

Some suggestions to facilitate social participation are to enhance the availability and variety of social activities closer to elderly residents and foster integration within the community and with other age groups and cultures66. Accordingly, communities should facilitate for elderly residents to choose among and to participate in cultural activities—such as music and dance, which have demonstrated physical and mental health benefits102.

Urban co-production processes, such as those reflected in SDG Target 11.3 (inclusive and sustainable urbanization and capacity for participatory, integrated and sustainable human settlement planning and management) that entail the engagement of multiple stakeholders to produce research and knowledge outputs to solve urban problems103, provide an excellent opportunity to involve meaningfully older citizens and incorporate their perspectives on urban sustainability challenges, including those affecting them directly, e.g. planning of city transportation systems, housing, and outdoor spaces104,105,106. While challenges exist to establishing and implementing co-production processes with older people107, evidence for successful examples is emerging108.

Avoid vulnerable states from coordinated mitigation actions

Considering the multi-dimensional nature of population ageing and shrinking, and the high context-specificity of the observed patterns across the world, it is expected that broad mitigation efforts would be needed by national and local governments to ensure the successful implementation of the SDGs. For example this would most likely need the implementation of emerging interventions such as the one discussed in the previous section, and broader policies that seek to prevent macroeconomic decline2 such as to (a) increase in retirement age; (b) support continuing and lifelong education and health care for all; (c) encourage savings behaviour and healthy lifestyles throughout the life course; (d) promote employment among women, older persons and others traditionally excluded from the labour force; (e) support family-friendly policies to facilitate work–life balance and increased gender equality in both public and private life2,52.

In this sense, different ageing and shrinking countries and regions will very likely adapt through various context-specific social and economic measures. In some countries there are already discussions about the possibility of a ‘depopulation dividend’ through interventions such as the above linked to economic revitalization activities, i.e. ‘achievement from depopulation of positive gains that contribute to socio-cultural, political–economic, and environmentally sustainable living’109 (see example of ‘depopulation dividend’ for Sado Island in Japan, Supplementary Table 3).

However, it is also worth noting that in many countries mortality rates may not decline substantially further, but fertility rates may further decrease, creating thus a very skewed age pyramid (Fig. 6a). In such cases it is possible that enormous efforts will be put in place through diverse sets of policies to increase fertility rate and/or promote migration110. Assuming this is successful, cities (and broader countries) may over time enter a new very vulnerable phase due to the previously skewed age distribution. This new demographic phase we may call the ‘vulnerable hour-glass’ (Fig. 6b) and would represent further economic and social challenges with a very unfavourable dependency ratio (see the section “Interface of ageing, population shrinking and urbanization”).

Fig. 6: Stylised population pyramid transition.
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Note: A stylised representation of a transition from a low mortality and fertility state of a given population, to low mortality and increased fertility state (i.e. vulnerable hourglass).

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Even though this transition is hypothetical at the moment, some of its aspects have partly manifested in some urban contexts such as the formerly shrinking and until today also ageing city of Leipzig (see Supplementary Fig. 5 for Leipzig’s age pyramid). Some of the successful policy interventions used in Leipzig that might have been causing such types of transitions include the large investments in the housing estates in the inner city, which became further attractive to young adults and middle-aged that moved there due to its affordable urban life, nurseries/day-care facilities, newly equipped universities and high schools, and a certain openness for new ideas Germany111,112,113.

Even though the possibility of this hourglass-type transition and its eventual and long-term outcomes for urban sustainability are poorly understood at the moment, it is important that coordinated actions such as the above should seek to prevent it from manifesting.

Conclusions

This Perspective has critically discussed the opportunities and challenges that an ageing and shrinking urban population will have for long-term sustainability, and identified some of the possible emerging intervention to capitalize on the opportunities and reduce the challenges. In particular we find that this demographic transition will have major implications for implementing different SDGs, with some of the most promising emerging interventions including (a) innovations for health care and mobility, (b) improvement of green/public space design and extent, (c) social inclusion through social participation and urban knowledge co-production. Considering that the underlying mechanisms are highly variable between SDG targets and geographical contexts, there will be a need for combining context-specific policy and practice interventions to both leverage the opportunities and reduce the challenges posed by population ageing and shrinking for sustainability. Considering the quick pace of these changes, especially as the rate of ageing and population shrinking might be underestimated in official statistics, there is a need for urgent action.