The Impact of Internal Migration on the Spatial Distribution of Population in Germany over the Period 1991-2017 The Impact of Internal Migration on the Spatial Distribution of Population in Germany over the Period 1991-2017* Nico Stawarz, Nikola Sander Abstract: In 1885 and 1889 Ravenstein published two seminal papers on the role of migration in changing population distribution. This article analyses the importance of internal migration for shaping the spatial population distribution of Germany in the last three decades. We use a time-series dataset of annual inter-county migra- tion fl ows from the German population register for the years 1991 to 2017. Popula- tion density is used as proxy measure for settlement type as an alternative to the commonly used BBSR typology. Our fi ndings show that around 3 percent of the population moves between counties each year, and that the effi cacy of internal mi- gration in redistributing population has declined since the 1990s. Our results are in line with other recent work stating that the re-urbanisation phase, which was prevalent during the 2000s, has ended and sub-urbanisation patterns have become more prominent since 2011. We show that internal migration indeed plays an im- portant role in shaping the distribution of population, especially the movements of young adults and families along the rural-urban continuum. In the 1990s and 2000s, internal migration tended to be more important for shaping regional populations than international migration and natural population change. Notably, this ranking reversed in the last few years and natural population change even became positive for densely settled regions. Keywords: Internal migration · Population redistribution · Population density · Germany · Sub-urbanisation · Urbanisation Comparative Population Studies Vol. 44 (2019): 291-316 (Date of release: 23.03.2020) Federal Institute for Population Research 2020 URL: www.comparativepopulationstudies.de DOI: 10.12765/CPoS-2020-06en URN: urn:nbn:de:bib-cpos-2020-06en5 * This article belongs to a special issue on “Internal Migration as a Driver of Regional Population Change in Europe: Updating Ravenstein”. • Nico Stawarz, Nikola Sander292 1 Introduction Changes in population size as well as age and sex structure at the regional level have important implications for regional planning and infrastructure provision. In Germany, internal and international migration have been major drivers of regional population change, besides fertility and mortality. A key factor has been the move- ment between and within East and West Germany after reunifi cation, which has signifi cantly altered the age and sex structure in many eastern regions (Heiland 2004; Kühntopf/Stedtfeld 2012; Sander 2014). Moreover, international migration has an indirect effect on fertility, given that Germany usually exhibits population gains among younger adults of reproductive age (Sobotka 2008). The ways in which migration shapes regional population change are not a new phenomenon. More than 120 years ago, Ravenstein (1885, 1889) published two seminal papers in which he analysed the interrelation of internal and international migration patterns and population change, as well as their spatial outcomes in Eu- rope and North America. The results show that migration was already then a key factor affecting regional population change. Migration in turn was largely driven by economic development and spatial inequalities. In late nineteenth-century Germa- ny, the era of industrialisation unfolded in the context of crop failures and the onset of capitalist agriculture, which led to substantial rural-urban movements towards industrial cities like Duisburg, Essen and Dortmund in the coal-mining region of the Ruhrgebiet. Since the early works by Ravenstein, migration has become an even more impor- tant driving force, especially in the context of low fertility and rising life expectancy (Bujard 2011; Statistisches Bundesamt/Wissenschaftszentrum Berlin für Sozial- forschung 2018: 16ff. and 44ff.; Wenau et al. 2019). In Germany and other European countries, research has demonstrated that the impact of internal and international migration on the population distribution and change increased relative to births and deaths since the late 1960s (Birg 1974; Gatzweiler/Schlömer 2008; Rees et al. 2017). In this paper, we focus on the impact of internal migration on the regional dis- tribution of the population in Germany and how this changed in recent decades (Gatzweiler 1975; Kemper 1985; Sander 2018; Szymańska et al. 2009). We pay spe- cial attention to the migration trends among young adults and those aged 30 to 49 years, because these highly mobile age groups tend to have the strongest impact on regional population age and sex structure, thereby also indirectly affecting natural population change. Previous work has shown that the movement of young people from the countryside to the cities entails a rejuvenation of the population in the cities, while more rural localities tend to record an increase in the mean age of the population through migration (Gatzweiler/Schlömer 2008; Mai et al. 2007; Sander 2014). Such movements lead to pronounced regional differences that are mainly discussed within the context of urbanisation, sub-urbanisation and counter-urban- isation, also referred to as the urban development model (Champion 2001; Geyer/ Kontuly 1993). For Germany, studies based on population size and the BBSR typol- ogy of regions show that the pattern of internal migration has switched from sub- urbanisation in the 1990s to (re-)urbanisation in the 2000s (BBSR 2018b; Gans 2017; The Impact of Internal Migration on the Spatial Distribution of Population in Germany ... • 293 Haußmann 2007; Herfert/Osterhage 2012; Milbert/Sturm 2016). However, there are pronounced differences between West and East Germany (e.g. Kontuly et al. 1997). In the East, the sub-urbanisation phase of the 1990s ended earlier than in the West, resulting in net migration for the largest cities becoming positive by the end of the 1990s (Sander 2014; Schlömer 2009). Furthermore, recent studies suggest that the (re-)urbanisation phase has ended in Germany and the pattern switched back to sub-urbanisation in the last few years (Busch 2016; Henger/Oberst 2019). The con- tinued growth in suburban movements has also been found in other western coun- tries (Florida 2017; Frey 2017). Following Ravenstein (1885; 1889), one would argue that these shifts in migration patterns are related to variations in economic develop- ment across localities. Indeed, the re-urbanisation in the 2000s seems to have been mainly driven by the rise of jobs in the service sector and the knowledge-based economy that tend to cluster in larger cities (Gans 2017; Geppert/Gornig 2010; Mil- bert/Sturm 2016). However, the new phase of suburbanisation may be the result of economic counterforces that dampen internal migration into the cities, such as in- creased rents coupled with housing shortages (BBSR 2018a; Florida 2017; Henger/ Oberst 2019). Against this background, we aim to determine the impact of internal migration on the population distribution in Germany and pay special attention to the changes over time and the shifts between urbanisation and sub-urbanisation over the period 1991 to 2017. This paper contributes to the literature by providing a longer-term perspective on internal migration at the county level within Germany, and by ap- plying the population density approach rather than a settlement typology. Our data comprises a time-series dataset of annual inter-county migration fl ows for the years 1991 to 2017 based on data of the Federal Statistical Offi ce of Germany and the Statistical Offi ces of the Länder, which was compiled and adjusted for boundary changes by the Federal Institute for Research on Building, Urban Affairs and Spatial Development (BBSR). To avoid the inaccuracies of existing settlement typologies, we analyse the impact of internal migration on the population distribution using the population density approach proposed by Rees and Kupiszewski (1999; see also Rees et al. 2017). This allows us to capture the full range of the spatial distribution of population across the rural-urban continuum. The following section lays out the theoretical considerations and the third sec- tion outlines the data and methods. We then present the empirical results and con- clude the paper with a summary and discussion of the main results. 2 Theoretical Assumptions Following Ravenstein (1885; 1889), we can think of two regularities – or “laws” – of migration that form the point of departure for this paper. First, economic reasons are an important factor for persons to move to economically wealthy regions. Sec- ond, cities gain population through migration, while areas that are more rural lose population within the trend towards urbanisation. These two regularities feed into a key question that concerns population researchers and that is the focus of this pa- • Nico Stawarz, Nikola Sander294 per: How do internal (and international) migration fl ows alter the spatial distribution of population across regions within a country? A key aspect of population redistribution is the association between migration and economic development. Earlier work has suggested a relationship in which ris- ing unemployment leads to higher outfl ows. Economic migration models state that, under the assumption of full access to information and unrestricted mobility, inter- nal migration plays a balancing role and tends to equalise regional disparities (e.g. Harris/Todaro 1970). However, more recent work concludes that migration fl ows do not reduce regional disparities but rather tend to intensify existing ones (Greenwood 2014, 1975; Krugman 1991). This may at least in part be due to changes in the spatial distribution of jobs and services. However, internal migration from poorer to richer regions may increase the welfare of the total population in a given country. Since occupations in the service sector and knowledge-based economy have become more important for national economies, and those jobs tend to cluster in cities or economically dense localities, an increasing spatial concentration of economic ac- tivity can be observed (Florida 2017; Fritsch/Stützer 2007; Gans 2017; Geppert et al. 2008). Correspondingly, studies show a positive correlation between a region’s GDP and internal migration, as well as a positive relation between income potentials, business related services, creative industries and population development, while a high unemployment rate tends to dampen internal migration (Birg 1974; Decres- sin 1994; Gans 2017). Moreover, other theories argue that location-specifi c ameni- ties (e.g. climate, diversity, cultural infrastructure) are important for the decision for a specifi c location (especially for education-related moves) (e.g. Clark et al. 2002; Florida 2002). In a nutshell, these theories assume that location-specifi c amenities are a crucial factor for urban development by attracting human capital and jobs or fi rms. However, Storper and Scott (2009) argue that even if amenities play a greater role, individuals are mainly attracted by the local economy. Therefore, people are more likely to move out of regions with a weak economy regardless of the quality of life in that region (Kawka/Sturm 2006). For Germany, Geppert and Gornig (2010) have shown a rising spatial concentration of jobs in the cities at the expense of jobs in more rural areas. Moreover, the number of employees in the industry sector has decreased in the cities, while those in the service sector and in knowledge-based occupations have increased. In sum, one may conclude that the potential of internal migration to equalise spatial disparities cannot be confi rmed empirically. Instead, studies demonstrate that movements between regions tend to intensify existing differences between localities (especially between urban and rural areas). We call this the disparity hypothesis. 2.1 The urban development model Much of the earlier work on migration and regional development was based on the assumption that the process of spatial change is unidirectional, with only urban areas gaining in population through migration. However, we know that the way in which migration redistributes population is not unidirectional, and that periods of concentration may be interrupted by periods of de-concentration. The urban de- The Impact of Internal Migration on the Spatial Distribution of Population in Germany ... • 295 velopment model (e.g. Geyer/Kontuly 1993) describes the ebbs and fl ows in how internal migration alters the settlement structure. The model distinguishes between three main patterns: urbanisation, sub-urbanisation and counter-urbanisation (Champion 2001). In simple terms, in the phase of urbanisation, cities exhibit posi- tive rates of net migration and population gains (concentration) due to their positive economic development. If the monocentric structure of the city is overstrained (e.g. infrastructure, limited space, high costs), sub-urbanisation takes place and smaller neighbouring localities show positive net migration rates (intraregional decentrali- sation), while the net migration rates of the biggest cities decrease.1 In the fi nal stage, counter-urbanisation prevails and populations in the lowest density areas increase while the largest cities lose population due to internal migration. This cycle in the development of the settlement structure is observed in several countries, and also in West Germany (Champion 2001). On the contrary, East Germany (the former GDR, where moving patterns where largely shaped by the central planning of hous- ing) experienced urbanisation tendencies from the 1950s until the 1980s, followed by a strong sub-urbanisation period in the 1990s (Mai/Micheel 2008; Sander 2018). The urban development model by Geyer and Kontuly (1993) suggests that after a cycle is completed a new one takes place. In line with this assumption, Germany has shown a new phase of urbanisation since the late 1990s (Buzar et al. 2007; Gans 2017; Haußmann 2007; Herfert/Osterhage 2012; Milbert/Sturm 2016). The key driving forces behind the urban revival are a rising number of jobs in the cities (e.g. knowledge based economy), an increased quality of life (gentrifi cation, more cul- tural opportunities and better infrastructures), an increased number of students, and the general demographic change (e.g. more single households and dual-earner households) as well as a new appreciation of city life (Buzar et al. 2007; Gans 2017; Green 2018; Siedentop 2008). However, more recent studies show that this urban revival has come to an end, and that the pattern has switched back to sub-urban- isation, mainly due to soaring rents and a growing housing shortage in the cities (Busch 2016; Florida 2017; Henger/Oberst 2019). In sum, from the urban development model we can draw two main conclusions: First, areas with lower population density also benefi t in specifi c phases from inter- nal migration and not just those with the highest density. We call this the differential spatial development hypothesis. Second, the disparity hypothesis must be revised in that internal migration reduces spatial disparities between neighbouring regions and leads to a better infrastructure between those (Geyer/Kontuly 1993). Moreover, those regions with the lowest population density located far away from the largest cities as well as those regions with a weak economic structure tend to lose popula- tion through migration (Milbert/Sturm 2016). 1 Already during the urbanisation phase, smaller cities in the hinterland show increasing net mi- gration rates because individuals with high educational level and income want to improve their quality of life and thus move into more rural areas. • Nico Stawarz, Nikola Sander296 2.2 Migration decision and age-specifi c internal migration fl ows The forces discussed in the previous section operate on the macro level. However, we know that the way in which migration alters the spatial distribution of popula- tion is ultimately shaped by the actions of individuals (Esser 1996). In simple terms, internal migration fl ows are the result of individual decisions to move or not to move in search of utility maximisation (e.g. Borjas et al. 1992; Burda/Hunt 2001; Kratz/ Brüderl 2013). Hence, persons with high levels of education tend to migrate to re- gions with better labour market conditions or a higher income potential to maximise the returns on their educational investment (Becker 1975). But, as Kecskes (1994) ar- gues, the decision to migrate is typically more complex and requires that individuals need to experience a desire for change or are dissatisfi ed with their current situation (see also Adam et al. 2008; Rossi 1980; Schulz 2009). Therefore, in a simple migra- tion model, there is a trigger, which causes that individuals search for alternatives to alter the dissatisfying situation (Mulder/Hooimeijer 1999). If relocation is a poten- tial alternative, the individuals subjectively evaluate different destinations based on the search radius, the cost for living space, infrastructures, job market, expected income, and their constraints (e.g. available income) (Lee 1966). This process may lead to the decision to migrate. From this point of view, individuals may relocate to another region after becoming unemployed if there is no possibility to fi nd a new job in the region of current residence. Further complicating the decision-making process, migration is not an isolated decision of an individual but a group decision (e.g. in families), in which the preferences of each single individual are to be consid- ered (Mincer 1978; Stark/Bloom 1985). From a life course perspective (e.g. Elder 1978; Mayer 2004; Mulder/Hooimeijer 1999), the preferences for a specifi c living environment as well as the opportunities and costs of relocation for individuals (or couples and families) change across the life course (e.g. birth of a child, becoming unemployed) (Huinink 2005; Kemper 1985; Lersch 2014; Mulder 1993). Therefore, research on internal migration has identifi ed typical age-specifi c migration patterns (age-specifi c internal migration hypothesis), which are prevalent in a large number of countries, and can be explained by the underlying migration decisions (Bernard et al. 2014; Dittrich-Wesbuer et al. 2008; Milbert/Sturm 2016; Plane/Jurjevich 2009; Rossi 1980). Young adults aged 18 to 29 have the highest propensity to migrate and tend to move towards urban areas for vocational training, to study or to establish their economic career. For young fami- lies (persons aged 30-49) it is more important to improve the quality and quantity of their living space and environment, and so they relocate to more rural localities in search for detached housing. Older adults with stable occupational careers and older children living with them (ages 50-64) show the lowest spatial mobility rates. Those who do move tend to favour rural destinations with lower living costs and/ or high amenities. Persons aged 65 years and over tend to move to be closer to the family, e.g. because of widowhood, grand parenting or the need for institutional or “private” care (e.g. van Diepen/Mulder 2009). In this paper, we consider the life course perspective by studying the impact of age-specifi c migration patterns on population redistribution. The Impact of Internal Migration on the Spatial Distribution of Population in Germany ... • 297 3 Data and Methods 3.1 Data We use a time-series dataset of annual inter-county migration fl ows from the Fed- eral Statistical Offi ce of Germany and the Statistical Offi ces of the Länder for the years 1991 to 2017, which was compiled and adjusted for boundary changes by the Federal Institute for Research on Building, Urban Affairs and Spatial Develop- ment (BBSR) (BBSR 2010). Therefore the data provide the annual number of moves between i and j (e.g. from Dresden to Hamburg and vice versa) for all 401 counties (Kreise) over a period of 27 years. Since the patterns of internal migration differed signifi cantly between Germans and foreigners in the years 2015 and 2016 due to high infl ows of refugees from the Middle East, we look at each group separately. Moreover, we differentiate between six age groups (<18, 18-24, 25-29, 30-49, 50-64, and 65 and over). We specify the population at risk of migration in a given county as the mid-year population. By drawing on county-level data for births, deaths, immi- gration and emigration, we distinguish the impact of internal migration from natural population change (births and deaths) and international migration (immigration mi- nus emigration). We use the unemployment rate, GDP per capita and asking rents (Angebotsmieten) measured at the county level to determine the association be- tween internal migration and other contextual factors. Unfortunately, there is a lack of data on rents at the county level in Germany. We thus use asking rents compiled by the BBSR that are based on the commercial apartment listings from internet da- tabases and newspapers as a proxy (BBSR 2016). The asking rents provide a current picture of the cost of living space because they only capture the prices of newly built fl ats and of older fl ats that were re-rented to a new tenant. 3.2 Methods To provide an overall picture of the impact of internal migration in Germany on the population redistribution over the period 1991 to 2017, we use the crude migration intensity (CMI) and the migration effectiveness index (MEI) (Bell et al. 2002; Rees et al. 2017). The CMI indicates the percentage or level of migration, defi ned as the ratio of moves (M) to the population at risk (P) The MEI (fi rst proposed by Shryock/Siegel 1975) captures the imbalance be- tween internal migration fl ows and counter-fl ows, and therefore indicates whether internal migration is an effi cient mechanism of population redistribution. The MEI can assume values between 0 and 100, while high values indicate an asymmetry of internal migration fl ows, which means that some regions gain population and oth- ers lose. Low values result from closely balanced internal migration fl ows that have a comparatively small effect on population redistribution. The MEI is computed as follows: (1) • Nico Stawarz, Nikola Sander298 where Di is the total infl ow to zone i, and Oi is the total outfl ow from zone i. Moreo- ver, we also computed the mean distance moved in each year by using the Euclid- ian distance between the geometric centres of counties created using ArcGIS. To consider both inter-county and intra-county fl ows, we use the method proposed by Batty (1976).2 It is assumed that areas are circular and that the population is evenly distributed within these (for a further discussion see Stillwell and Thomas 2016). We computed the intra-zonal distance for a specifi c zone (dii) as follows: where ri is the radius of a circle that corresponds to the area (Ai) of zone i. To deter- mine the effect of internal migration on the population redistribution in a specifi c region, we use the net migration rate that shows the percentage of population gains or losses due to internal migration. The net migration rate for region i, N i is com- puted as follows: where Di are the total infl ows, Oi the total outfl ows, and Pi is the population of zone i. Given that the population is not evenly distributed across counties, we need to take into account the settlement structure. In Germany, the settlement classifi cation of the BBSR is commonly used for this purpose. It distinguishes between largest cities, cities, hinterland and rural areas (Milbert 2015).3 However, this classifi cation does not adequately capture the complexity of the settlement system. For example, the city of Flensburg is defi ned as a rural area, but it is indeed a middle-sized city in a peripheral rural environment with around 85,900 inhabitants, and therefore should be rather classifi ed as urban (BMVI 2018). A further limitation of the BBSR classifi ca- tion is that it lacks cross-national comparability. For these reasons, and because the classifi cation does not capture the full-range of the urban-rural continuum (Amcoff 2006; Bocquier 2005; Buettner 2015), we use the population density as a proxy to distinguish between urban and rural areas. This measure has been suggested by Rees and Kupiszewski (1999), but has thus far not been used to study internal mi- gration in Germany (see also Rees et al. 2017). We calculate the population density (2) 2 However, both the corrected distances moved as well as the uncorrected lead to similar conclu- sions about the change of the distances moved over time, but differ in their level. 3 We also conducted analyses using the BBSR area classifi cation, which lead to similar results as reported below. (3) and (4) (5) The Impact of Internal Migration on the Spatial Distribution of Population in Germany ... • 299 by dividing the number of inhabitants (P ij ) in given zone i and year j by the area (A i ) measured in km² and then take the base-10 log of population density.4 We use simple but effective linear regression models to determine the asso- ciation between population density and internal migration (Rees et al. 2017). To estimate the impact for several years, we use random effects (RE) models, which consider autocorrelation over time (Rabe-Hesketh/Skrondal 2012).5 We do not con- sider any covariates because our analyses are mainly of descriptive interest. The slope of the regression line shows how internal migration (y) and population density (x) are related. For example, a positive b-coeffi cient indicates a positive relation between the net migration rate and the log of population density, which means that more densely populated regions gain more population through internal migration compared to lower densely populated localities. However, given that a linear asso- ciation may lead to biased results, we also used cubic slopes to model patterns that are more complex. 4 Results We fi rst give an overall picture of the impact of internal migration in Germany on the population redistribution over the period 1991 to 2017. Figure 1 shows the crude migration intensity (CMI), the migration effectiveness index (MEI), and the mean distance moved for the period 1991 to 2017. The CMI shows that about 3 percent (mean across all years x̅ = 3.25) of the pop- ulation in Germany moves across county boundaries each year (Fig. 1a). The values were relatively stable until 2011 and increased thereafter to almost 4 percent. How- ever, this is largely due to the high immigration numbers recorded in these years, and the systematic redistribution of refugees across municipalities. Compared with other countries such as Finland, Australia or Denmark, the population in Germany is only moderately mobile (Rees et al. 2017). Note that, since the number of spatial units (i.e. the MAUP) affects the CMI, this limits comparisons between countries, and observed differences should be interpreted with care. However, using more advanced measures such as the ACMI proposed by Bell et al. (2015) yields a similar pattern with Germany being a moderately mobile country compared to Finland, Australia or Denmark. The impact of migration is also modest when considering its effectiveness in redistributing population. The MEI is relatively small across the entire period (x̅ = 7.97), indicating rather balanced migration fl ows in Germany. The MEI values decreased over the observed 4 However, the population density measure also has its shortcomings. It is based on the size of regions without considering function, land use and infrastructure. Furthermore, the usual resi- dent population is used without considering daytime populations (i.e. commuting) (Brenner/ Schmid 2014; Coombes/Raybold 2001; Parr 2007). 5 Moreover, we also estimated models that consider spatial autocorrelation (Anselin 2009). These models (not reported) yield very similar estimates and lead us to the same conclusions as the models shown here. • Nico Stawarz, Nikola Sander300 period, except for the last few years (Fig. 1b). The higher values in the 1990s are the result of the unbalanced migration fl ows between East and West Germany after reunifi cation, which led to population losses in the eastern part of Germany. The de- cline of the MEI since 1991 shows that migration fl ows have become more balanced over time. The peak in the years 2014 to 2016 is – as shown above – a consequence of the high immigration numbers in these years and the distinctive internal migra- tion patterns of newly arrived foreigners. When comparing the effectiveness across countries, Germany shows lower MEI values than Spain, Canada or Russia (Rees et al. 2017), suggesting a modest role of migration in population redistribution within Germany and a relatively stable settlement system. As the settlement pattern and the high level of development in Germany sug- gest, the mean migration distance is relatively short. When considering both intra- and inter-county fl ows, the mean distance moved across all years is 68 km. In the early 1990s, the mean distance was higher due to the longer-distance moves from East to West Germany. This is also true for the early 2000s, when East-West migra- tion peaked for a second time. In the late 1990s, the emerging sub-urbanisation trend meant that the distance decreased, given that people moved from cities to neighbouring counties (see Fig. 1c). This also holds for the urbanisation phase in the late 2000s. Overall, we see a constant decline of the distance moved since the early 2000s, thus indicating – as Busch (2016) noted – a prevalence of movements from the cities to closely surrounding counties. In a next step, we look at population density as a proxy for settlement structure. Figure 2 shows the spatial variation in population density in 2017. The map illus- trates that the population density seems to be a good proxy for classifying counties. Cities like Munich, Berlin, Hamburg, and Leipzig are clearly indicated as densely set- tled areas and rural localities in the north of Bavaria, Mecklenburg-West Pomerania, Schleswig Holstein and Brandenburg show low density values. The densely settled areas in the Ruhr district and the region of Cologne, Bonn and Frankfurt are clearly visible. However, the counties surrounding Berlin have a low density, although the city has spread across county boundaries into Brandenburg. However, this is more Fig. 1: Crude migration intensity, migration effectiveness index, and distance moved, 1991-2017, for the total population and for Germans only 0 1 2 3 4 5 1991 1996 2001 2006 2011 2016 Years Crude migration intensity (CMI) (a) Migration intensity Total Germans 0 5 10 15 20 25 30 1991 1996 2001 2006 2011 2016 Years Migration effectiveness index (MEI) (b) Migration effectiveness 55 60 65 70 75 80 85 1991 1996 2001 2006 2011 2016 Years Distance (km) (c) Average distance moved Source: Federal Statistical Offi ce of Germany and the Statistical Offi ces of the Länder, Spatial Monitoring of the BBSR, own calculations The Impact of Internal Migration on the Spatial Distribution of Population in Germany ... • 301 Fig. 2: Classifi cation of counties using population density in Germany Berlin Wiesbaden Düsseldorf Hannover Hamburg Schwerin München Kiel Dresden Bremen Potsdam Stuttgart Mainz Magdeburg Erfurt Saarbrücken 1,56 to under 2 - 36,3 to under 100 2 to under 2,2 - 100 to under 150 2,2 to under 2,5 - 150 to under 300 2,5 to under 3 - 300 to under 1.000 3 to under 3,67 - 1.000 to under 4.670 Logarithmised population density, 2017 • Flensburg Source: Federal Statistical Offi ce of Germany and the Statistical Offi ces of the Länder, Spatial Monitoring of the BBSR, own calculations, © GeoBasis-DE/BKG (2017) • Nico Stawarz, Nikola Sander302 a problem of the size and shape of the counties (i.e. the MAUP) rather than a prob- lem of the density measure itself. Figure 3 shows the distribution of the log of population density in 1991 and 2017 using kernel density estimates. Following the OECD (2007), which defi nes localities with fewer than d = 150 inhabitants/km² (log(d) = 2.18) as rural and areas with more than d = 300 inhabitants/km² (log(d) = 2.48) as urban, we see that the distribution peaks within the rural category. The means of the population density in 1991 and 2017 (x̅ d1991 = 2.43 and x̅ d2017 = 2.44) and the kernel estimates show that the distributions are close together. Both, less and higher densely settled areas have become more prevalent in 2017 compared to 1991. So, how does the density measure compare to the standard settlement clas- sifi cation by the BBSR? In fi gure 4, we plott the average population density by the BBSR settlement types. Overall, the density measure is in line with the BBSR clas- sifi cation. However, for 32 counties, the density measure differs from the BBSR classifi cation. For example, Flensburg, Bayreuth, and Amberg are classifi ed as rural and Schweinfurt, Bamberg, Eisenach, Frankfurt (Oder) as hinterland. Based on the density measure, these counties are classifi ed as urban areas.6 Fig. 3: Smoothed probability distributions of population density for the years 1991 and 2017 19912017 0.2 0.4 0.6 0.8 1.0 1.2 0 1.0 1.5 2.0 2.5 3.0 3.5 4.0 LOG(Population Density) Probability distribution (Kernel density) Source: Federal Statistical Offi ce of Germany and the Statistical Offi ces of the Länder, Spatial Monitoring of the BBSR, own calculations, bandwidth 0.29 6 We also conducted some of the analyses presented in the study employing the BBSR typology, which lead to similar conclusions. The Impact of Internal Migration on the Spatial Distribution of Population in Germany ... • 303 In a next step, we examine how net internal migration rates relate to population density. We adopt the approach used by Rees et al. (2017) to model the relationship between rates of net migration and the logarithm of population density by estimat- ing linear regression slopes for selected years (see Fig. 5). For 1994 we fi nd a nega- tive relation (b = -0.74) between the net migration rate and population density. The estimates show that on average localities with densities between 1.5 and 2.5 gain population from internal migration while those with higher density lose. The confi - dence intervals indicate that this relationship does not hold for all regions, suggest- ing that there is some degree of variation among regions with similar population density. In 1994, populations in more rural areas increased due to internal migration, while populations in urban areas shrank, also referred to as the sub-urbanisation phase of the 1990s in Germany. For 2006, we see a positive relation of population density and internal migration (b = 0.46), which is in line with the re-urbanisation phase that prevailed in the 2000s. In 2017, the relationship between net migration rates and population density (b = -0.18) changed again, suggesting the beginning of a new sub-urbanisation phase in that people move to lower density regions. Figure 6 summarises the shifts between sub-urbanisation and (re-)urbanisation across time. Here, we show the relationship between net migration rates and popu- lation density over the period 1991 to 2017 using random effects (RE) models with interaction effects. Note that negative coeffi cients indicate population gains due to internal migration for lower density regions, while the same is true for higher density regions in the case of positive coeffi cients. In the early 1990s, we fi nd a weak relationship between population density and internal migration, which may Fig. 4: BBSR typology and population density in 2017 N=96 N=102 N=137 N=661.0 1.5 2.0 2.5 3.0 3.5 4.0 Rural areas Hinterland Cities Largest Cities LOG(Population Density) Source: Federal Statistical Offi ce of Germany and the Statistical Offi ces of the Länder, Spatial Monitoring of the BBSR, own calculations • Nico Stawarz, Nikola Sander304 be due to high volumes of movements from rural areas in the East to cities in West Germany. In the mid- and late 1990s, sub-urbanisation was characterised by popula- tion gains in rural areas. In the early 2000s, the weak relation between net migration and population density indicates that the pattern switched back to urbanisation, with population gains in high density areas in the late 2000s. After 2011, the coeffi - cients decrease showing that the re-urbanisation ended, and since 2014, we fi nd an increasingly negative relation between net migration rates and population density, displaying population gains in lower density regions. The high immigration to Ger- many between 2014 and 2016 blurs this effect a bit. To take variations in migration behaviour across the life course into account, we calculate the coeffi cients for the relationship between net migration rates and (the log of) population density for the period 1991 to 2017 for six age groups also deploy- ing RE models (see Fig. 7). Across the entire period, the relationship is strongest for those aged 18-24 years, followed by those aged 25-29 years. For all other ages, the relationship is much weaker, suggesting that movements among young adults have the strongest impact on population redistribution. For all age groups except those aged 18-24 years, the pattern over time resembles the pattern shown in Fig- ure 6 for all ages. For young adults aged 18-24 years, the coeffi cients are strongly positive throughout the entire period. Migration among this age group redistributes population from rural to urban areas and thus clearly affects the spatial distribution of population. However, the impact has become slightly weaker with the end of the re-urbanisation phase around the year 2011. Focusing on the labour market entrants Fig. 5: Net internal migration rates by population density (regression slope and 95 percent confi dence intervals) 1994 2017 2006 -1.2 -1.0 -0.8 -0.6 -0.4 -0.2 0.2 0.4 0.6 0.8 1.0 1.2 0 1.0 1.5 2.0 2.5 3.0 3.5 4.0 LOG(Population Density) Net internal migration rate (%) Source: Federal Statistical Offi ce of Germany and the Statistical Offi ces of the Länder, Spatial Monitoring of the BBSR, own calculations The Impact of Internal Migration on the Spatial Distribution of Population in Germany ... • 305 (25 to 29 year olds, Fig. 7c), there is a weaker relationship between net migration rates and population density compared to the 18 to 24 year olds. This may be the result of jobs being more equally distributed across space compared to apprentice- ships or universities. Families (under 18 and 30-49 year olds, Fig. 7a and d) usually show internal migration patterns towards lower density localities. Interestingly, in the re-urbanisation phase this relationship is weaker, indicating that families move more often to or stay in higher density areas. The relationship between internal migration and population density for those aged 50 and over is weakly negative (Fig. 7e and f). In sum, we fi nd that the way in which internal migration alters the spa- tial distribution of population varies by age, with migration among younger adults towards densely populated areas having a stronger impact than movements among older adults to less densely populated regions. In a next step, we determine the impact of internal migration on population re- distribution relative to the impact of international migration and natural population change. Using net rates for all three components of change, we show their relation- ship with the log of population density for selected years deploying linear regres- sion models (see Fig. 8). Years were selected to best capture the sub-urbanisation phase (in the 1990s), the transition phase from sub-urbanisation to re-urbanisation (early 2000s), the re-urbanisation phase (mid of the 2000s to the early 2010s), and the “new” sub-urbanisation phase (since the mid of the 2010s). The results show a nonlinear relationship with population density, especially for natural population Fig. 6: Relationship between net internal migration rates and population density from 1991 to 2017 (b-coeffi cients and 95 percent confi dence intervals) -1.2 -1.0 -0.8 -0.6 -0.4 -0.2 0.2 0.4 0.6 0.8 1.0 1.2 0 1991 1996 2001 2006 2011 2017 Years b-coefficients Source: Federal Statistical Offi ce of Germany and the Statistical Offi ces of the Länder, Spatial Monitoring of the BBSR, own calculations • Nico Stawarz, Nikola Sander306 change. Given the nonlinearity, we calculate cubic relations between net rates and the log of population density.7 Our results show that in 1994, the relationship with international migration was positive across all regions, while the relationship with natural population change was negative (see Fig. 8a). For internal migration, the sub-urbanisation trend at that time meant that the direction of the relationship varied strongly between low and highly dense regions. In 2003, the pattern for internal and international migration shifted, while the coeffi cients for natural population change were similar to those observed in 1994. For internal and international migration, we see that coeffi cients increase and change from negative to positive as population density rises. Regions with a density below 2.2 lose population, mainly as a result of negative net inter- nal migration rates and negative natural population change, whereas populations increase in regions with a density above 2.2 due to positive migration rates over- compensating for negative natural population change. Figure 8c shows that in 2006 the impact of international migration was almost non-existent due to its very low Fig. 7: Relationship between net internal migration rates and population density from 1991 to 2017 for different age groups (b-coeffi cients and 95 percent confi dence intervals) Source: Federal Statistical Offi ce of Germany and the Statistical Offi ces of the Länder, Spatial Monitoring of the BBSR, own calculations 7 Note that we also checked nonlinear relations for all other analyses for which a linear relation is assumed and which lead to similar conclusions. -4 -2 2 4 6 8 0 1991 1996 2001 2006 2011 2017 Years b-coefficients (b) 18 - 24 -4 -2 2 4 6 8 0 1991 1996 2001 2006 2011 2017 Years b-coefficients (c) 25 - 29 -4 -2 2 4 6 8 0 1991 1996 2001 2006 2011 2017 Years b-coefficients (a) under 18 -4 -2 2 4 6 8 0 1991 1996 2001 2006 2011 2017 Years b-coefficients (e) 50 - 64 -4 -2 2 4 6 8 0 1991 1996 2001 2006 2011 2017 Years b-coefficients (f) 65 and over -4 -2 2 4 6 8 0 1991 1996 2001 2006 2011 2017 Years b-coefficients (d) 30 - 49 The Impact of Internal Migration on the Spatial Distribution of Population in Germany ... • 307 intensity, whereas the impact of internal migration became much more pronounced compared to previous years and caused a signifi cant redistribution of population from less dense to more densely settled regions. In 2017, the pattern changed again with international migration causing population gains especially in highly dense ar- eas (see Fig. 8d). The impact of natural population change has become more pro- nounced compared to previous years. The impact of internal migration has become weaker and coeffi cients are now negative for highly dense areas, confi rming the beginning of a new phase of sub-urbanisation mentioned earlier. It is also worth Fig. 8: Net internal migration, natural population change and net international migration by population density Source: Federal Statistical Offi ce of Germany and the Statistical Offi ces of the Länder, Spatial Monitoring of the BBSR, own calculations Internal Natural International -1.0 -0.8 -0.6 -0.4 -0.2 0.2 0.4 0.6 0.8 1.0 0 1.0 1.5 2.0 2.5 3.0 3.5 4.0 LOG(Population Density) Net rates (%) (a) 1994 Internal Natural International -1.0 -0.8 -0.6 -0.4 -0.2 0.2 0.4 0.6 0.8 1.0 0 1.0 1.5 2.0 2.5 3.0 3.5 4.0 LOG(Population Density) Net rates (%) (b) 2003 Internal Natural International -1.0 -0.8 -0.6 -0.4 -0.2 0.2 0.4 0.6 0.8 1.0 0 1.0 1.5 2.0 2.5 3.0 3.5 4.0 LOG(Population Density) Net rates (%) (c) 2006 Internal Natural International -1.0 -0.8 -0.6 -0.4 -0.2 0.2 0.4 0.6 0.8 1.0 0 1.0 1.5 2.0 2.5 3.0 3.5 4.0 LOG(Population Density) Net rates (%) (d) 2017 • Nico Stawarz, Nikola Sander308 noting that some highly dense regions gained population due to a positive natural population change in 2017, somewhat counterbalancing the negative effect of inter- nal migration for these regions. In a fi nal step, we determine the relationship between internal net migration rates, unemployment rates, GDP per capita, and rents for the years 2006 and 2017 (GDP was only available until 2016 at the time of writing). We use quadratic and cubic terms to visualise the relationship estimated by linear regression models. Fig- ure 9a shows that areas with an unemployment rate of 9 percent and above tend to experience negative net migration rates in 2006. This relation is weaker in 2017. However, if only German citizens are considered, the relationship is similar to that observed in 2006. Furthermore, while there was a positive relationship between GDP per capita and net migration in 2006, meaning the higher the GDP the higher the net gain, this relationship is reversed and weaker in 2016 (see Fig. 9b). This may be a result of the shift in internal migration patterns from re-urbanisation to sub- urbanisation. While in 2006 movements were directed towards high density areas with high GDP, in 2016 people were pushed out of the cities by soaring housing costs. Indeed, the relationship between rents and internal migration changed no- ticeably between 2006 and 2017. In 2006, the relationship was positive, indicating that regions with high rents recorded high net gains. In 2017, this relationship was negative (see Fig. 9c), suggesting that higher rents and limited housing availability in the cities were strongly associated with the shift in internal migration fl ows that we observed since 2011. 5 Summary and Discussion This paper examined the impact of internal migration on the spatial distribution of population in Germany. We used a time-series dataset of inter-county migration fl ows in Germany for the period 1991 to 2017. Moreover, we employed the popula- tion density approach proposed by Rees and Kupiszewski (1999; see also Rees et al. 2017) to demonstrate that population density is a suitable proxy measure for settle- Fig. 9: Contextual factors infl uencing net internal migration Source: Federal Statistical Offi ce of Germany and the Statistical Offi ces of the Länder, Spatial Monitoring of the BBSR, own calculations 2006 2016 -2.0 -1.5 -1.0 -0.5 0.5 1.0 1.5 2.0 0 9.0 9.5 10.0 10.5 11.0 11.5 12.0 12.5 LOG(GDP in Euro per capita) Net internal migration rate (%) (b) GDP 2006 2017 -2.0 -1.5 -1.0 -0.5 0.5 1.0 1.5 2.0 0 3 5 7 9 11 13 15 17 19 Rents in Euro per m² Net internal migration rate (%) (c) Rents 2006 2017 -2.0 -1.5 -1.0 -0.5 0.5 1.0 1.5 2.0 0 0 5 10 15 20 25 Unemployment rate Net internal migration rate (%) (a) Unemployment The Impact of Internal Migration on the Spatial Distribution of Population in Germany ... • 309 ment type, thus providing a valid alternative to the commonly used BBSR typology. Besides, the population density approach avoids the problem of continual changes in the settlement type classifi cation. The results show that around 3 percent of the population move across counties in Germany each year. While internal migration was modestly effective in redis- tributing population during the 1990s, its impact declined over time, presumably as a consequence of the decline in longer-distance migration from East to West Germany (e.g. Heiland 2004; Sander 2014). We have demonstrated that internal (and international) migration plays an important role in shaping the distribution of population across space. Even if internal migration fl ows are currently directed to less densely settled areas, our results show that it is not the remote rural areas that benefi t from this trend, but the relatively densely populated areas within the greater regions around Munich, Frankfurt and Cologne. Focusing on the distance moved we fi nd that distances tended to be smaller dur- ing periods of sub-urbanisation and greater during periods of re-urbanisation. High volumes of East-West migration in the early 1990s and the early 2000s also seem to affect migration distances. This trend coincides with the shift in the relationship be- tween internal net migration rates and population density over the same period. In the 2000s, the results show population gains due to internal migration in the highest density areas (re-urbanisation), this pattern switched back to sub-urbanisation and population gains for lower dense areas. Looking at age patterns, our results clearly show that young adults are the key driver of the re-urbanisation phase. Therefore, we fi nd strong positive relations of population density and net internal migration rates of the 18 to 29 year olds. For all other age groups (under 18, 30 to 49, 50 to 64 and 65 and over) the analysis shows a negative relation, which means that moves are directed to areas with lower densities. These age specifi c profi les of internal migration are in line with those found in previous work (e.g. Bernardi 2014; Milbert/ Sturm 2016). However, families and older adults also contribute to the shifts be- tween sub- and re-urbanisation due to altered living preferences and the new at- tractiveness of the cities (e.g. Florida 2002; Storper/Scott 2009). Therefore, we fi nd a reduced negative relation of population density and net internal migration rate for the period in which re-urbanisation takes place. Moreover, our results indicate that high rents and limited housing availability in the cities are key drivers of the recent shift from urbanisation to sub-urbanisation. Of course, our study also has limitations. First, the analyses were done at the county level, and, as discussed earlier for the case of Berlin, this certainly biases our results due to the modifi able areal unit problem (MAUP). Therefore, similar analyses with smaller spatial units (e.g. at the municipality level) and with other spatial clas- sifi cations are needed. Second, we did not consider covariates in the regression models, which is a fruitful avenue for future work. Third, since the macro-level data used here provide no information on the drivers of migration at the individual level, we used age as a proxy measure for the reason for moving. Therefore, data with more contextual information (e.g. the level of education) is needed to study internal migration in more detail. • Nico Stawarz, Nikola Sander310 In summary, our study highlights – more than 120 years after Ravenstein (1885, 1889) published his two seminal papers – the importance of internal migration for shaping the population distribution in Germany. First, in line with the literature, we fi nd that younger adults are more prone to migrate, and that their movements are a key driver of change in the age-distribution across space. This means that, on av- erage, populations become younger in high density localities and older in regions with lower population density. Second, in line with Ravenstein, our results show a clear relationship between internal migration and economic wealth. However, this relationship is complex and varies over time. While internal migration in the 2000s seemed to be labour market oriented (i.e. a dominance of movements to places with high GDP per capita), the pattern in the 2010s became more motivated by other factors due to increased rents in the cities (i.e. a pattern of short-distance moves to places with lower GDP). Third, we fi nd mixed results regarding the unidirectional trend towards urbanisation that Ravenstein noted. We fi nd periods in which more rural areas gain population, while in other periods the same is true for cities. How- ever, as the urban development model (Geyer/Kontuly 1993) proposes, we fi nd that the change between sub-urbanisation and urbanisation also leads to stronger mi- gration links between cities and their surroundings. We conclude by identifying aspects in need of further research. The approach proposed by Plane and Jurjevich (2009) should be used in the German context to study migration fl ows up and down the urban hierarchy. Furthermore, given that our results suggest that densely settled regions exhibited positive natural population change in recent years, the impact of migration on regional fertility rates needs to be studied in more detail. 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Socio-Economic Series 12: 109-120 [doi: 10.2478/v10089-009- 0007-0]. van Diepen, Albertine M.L.; Mulder, Clara H. 2009: Distance to Family Members and Relocations of Older Adults. In: Journal of Housing and the Built Environment 24,1: 31-46 [doi: 10.1007/s10901-008-9130-0]. Wenau, Georg; Grigoriev, Pavel; Shkolnikov, Vladimir 2019: Socioeconomic Disparities in Life Expectancy Gains among Retired German Men, 1997-2016. In: Journal of Epide- miology and Community Health [doi: 10.1136/jech-2018-211742]. Date of submission: 17.10.2019 Date of acceptance: 27.01.2020 Dr. Nico Stawarz (), Dr. Nikola Sander. Federal Institute for Population Research (BiB). Wiesbaden, Germany. E-mail: nico.stawarz@bib.bund.de, nikola.sander@bib.bund.de URL: https://www.bib.bund.de/DE/Institut/Mitarbeiter/Stawarz/Stawarz.html https://www.bib.bund.de/DE/Institut/Mitarbeiter/Sander/Sander.html Published by Prof. Dr. Norbert F. 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