Access to fixed broadband at minimum download speed 100 Mpbs
The map shows the proportion of households that had access to fixed-line broadband with download speeds >100 Mbps (superfast broadband) at the municipal level, with darker colours indicating higher coverage. Overall, Denmark has the highest levels of connectivity, with 92% of municipalities providing superfast broadband to at least 85% of households. In over half (59%) of all Danish municipalities, almost all (>95%) of households have access to this connection speed. The lowest levels of connectivity are found in Finland. This is particularly evident in rural municipalities where, on average, less than half of households (48%) have access to superfast broadband. Connectivity levels are also rather low in some parts of Iceland, for example, the Westfjords and several municipalities in the east. Households in urban municipalities are still more likely to have access to superfast broadband than households in rural or intermediate municipalities, but the gap appears to be closing in most. This is most evident in Norway, where the average household coverage for rural municipalities increased by 31% between 2018 and 2020. By comparison, average household coverage for urban municipalities in Norway increased by only 0.7%. In the archipelago (Åland Islands, Stockholm and Helsinki), general broadband connectivity is good; however, some islands with many second homes still have poor coverage.
Population change by component 2010-2019
The map shows the population change by component 2010-2019. The map is related to the same map showing regional and municipal patterns in population change by component in 2020. Regions are divided into six classes of population change. Those in shades of blue or green are where the population has increased, and those in shades of red or yellow are where the population has declined. At the regional level (see small inset map), all in Denmark, all in the Faroes, most in southern Norway, southern Sweden, all but one in Iceland, all of Greenland, and a few around the capital in Helsinki had population increases in 2010-2019. Most regions in the north of Norway, Sweden, and Finland had population declines in 2010-2019. Many other regions in southern and eastern Finland also had population declines in 2010-2019, mainly because the country had more deaths than births, a trend that pre-dated the pandemic. In 2020, there were many more regions in red where populations were declining due to both natural decrease and net out-migration. At the municipal level, a more varied pattern emerges, with municipalities having quite different trends than the regions of which they form part. Many regions in western Denmark are declining because of negative natural change and outmigration. Many smaller municipalities in Norway and Sweden saw population decline from both negative natural increase and out-migration despite their regions increasing their populations. Many smaller municipalities in Finland outside the three big cities of Helsinki, Turku, and Tampere also saw population decline from both components. A similar pattern took place at the municipal level in 2020 of there being many more regions in red than in the previous decade.
Net internal migration rate, 2010-2019
The map shows the annual average internal net migration in 2010-2019. The map is related to the same map showing net internal migration in 2020. The maps show several interesting patterns, suggesting that there may be an increasing trend towards urban-to-rural countermigration in all the five Nordic countries because of the pandemic. In other words, there are several rural municipalities – both in sparsely populated areas and areas close to major cities – that have experienced considerable increases in internal net migration. In Finland, for instance, there are several municipalities in Lapland that attracted return migrants to a considerable degree in 2020 (e.g., Kolari, Salla, and Savukoski). Swedish municipalities with increasing internal net migration include municipalities in both remote rural regions (e.g., Åre) and municipalities in the vicinity of major cities (e.g., Trosa, Upplands-Bro, Lekeberg, and Österåker). In Iceland, there are several remote municipalities that have experienced a rapid transformation from a strong outflow to an inflow of internal migration (e.g., Ásahreppur, Tálknafjarðarhreppurand, and Fljótsdalshreppur). In Denmark and Norway, there are also several rural municipalities with increasing internal net migration (e.g., Christiansø in Denmark), even if the patterns are somewhat more restrained compared to the other Nordic countries. Interestingly, several municipalities in capital regions are experiencing a steep decrease in internal migration (e.g., Helsinki, Espoo, Copenhagen and Stockholm). At regional level, such decreases are noted in the capital regions of Copenhagen, Reykjavík and Stockholm. At the same time, the rural regions of Jämtland, Kalmar, Sjælland, Nordjylland, Norðurland vestra, Norðurland eystra and Kainuu recorded increases in internal net migration. While some of the evolving patterns of counterurbanisation were noted before 2020 for the 30–40 age group, these trends seem to have been strengthened by the pandemic. In addition to return migration, there may be a larger share of young adults who…
Net international migration rate, 2010–2019
The map shows the annual average international net migration from 2010 to 2019. The map is related to the same map showing net migration in 2020. At regional level, there are only minor changes between the net migration in 2010-2019 and 2020. All regions of Norway, all regions of Sweden except Gotland and Uppsala, and the regions of Österbotten in Finland, Midtjylland in Denmark and Norðurland eystra in Iceland experienced a slight decrease in international net migration I 2020 compared to 2010-2019. There is a more marked increase in net migration in the Faroe Islands, Greenland and the region of Norðurland vestra in Iceland, and a slight increase in the region of Austurland in Iceland. At municipal level, the maps show more changing patterns. In Denmark, Norway and Sweden, several municipalities – both in the capital, intermediate, and rural regions – had lower levels of international net migration in 2020 compared to 2010-2019. In Iceland and Finland, the picture is more balanced, with some municipalities showing a decrease, others an increase. In the Faroe Islands and Greenland, several municipalities/regions had an increase in international net migration.
Help Santa to work remotely – where to locate in 2021?
Help Santa! To reduce his transit times and emissions – reindeers burn a lot of (green) fuel – and find an optimal remote workplace from where to deliver gifts to all the children in the Nordic Region! Santa has heard about this new trend “multilocational lifestyle” and he would like to know if this would suit him as well. But where to move? Santa’s little researchers have worked hard this year and done some mapping for him – and discovered places you have never even heard of! If Santa is to serve all children (0-14 years old) throughout the Nordic Region from a single address, the solution lies in Storfors Municipality. WHERE? – you might think. It is a real place, in Central-Southern Sweden. Here Santa has an average distance of 425 km distance to each child from his own backyard. This still sounds like awfully many kilometers. Could he be even more multilocal – with a home in each of the Nordic countries? This would help him to reduce his overall commuting to work significantly. Let’s try it! If he serves all 4.974 children in Åland from a residence (like a luxury hotel with all-inclusive and pets allowed) in Jomala Municipality, he will only have to travel 11 km to work on average. In Greenland, the distances are somewhat larger, and Santa, even with the most optimal location from a residence (a cabin) in Qeqqata Municipality would have to travel 288 km to each of the 11,748 children in the country. Can you guess what the other optimal locations would be in the Nordics? I bet you can’t so I will tell you: it’s the municipalities of Hallsberg in Sweden, Jämsä in Finland, Etnedal in Norway, Kalundborg in Denmark, Kjósarhreppur in Iceland and Tórshavn in Faroe Islands. Well, Santa…
Algae production in 2019
This map shows location of algae production by production method in the Nordic Arctic and Baltic Sea Region in 2019 Algae and seaweeds are gaining attention as useful inputs for industries as diverse as energy and human food production. Aquatic vegetation – both in the seas and in freshwater – can grow at several times the pace of terrestrial plants, and the high natural oil content of some algae makes them ideal for producing a variety of products, from cosmetic oils to biofuels. At the same time, algae farming has added value in potential synergies with farming on land, as algae farms utilise nutrient run-off and reduce eutrophication. In addition, aquatic vegetation is a highly versatile feedstock. Algae and seaweed thrive in challenging and varied conditions and can be transformed into products ranging from fuel, feeds, fertiliser, and chemicals, to third-generation sugar and biomass. These benefits are the basis for seaweed and algae emerging as one of the most important bioeconomy trends in the Nordic Arctic and Baltic Sea region. The production of algae for food and industrial uses has hence significant potential, particularly in terms of environmental impact, but it is still at an early stage. The production of algae (both micro- and macroalgae) can take numerous forms, as shown by this map. At least nine different production methods were identified in the region covered in this analysis. A total of 41 production sites were operating in Denmark, Estonia, the Faroe Islands, Iceland, Norway, Germany, and Sweden. Germany has by far the most sites for microalgae production, whereas Denmark and Norway have the most macroalgae sites.
Major immigration flows to the Nordic Region from 2010 to 2019
The map shows annual average immigration flows above 3,000 people, and the growing diversity in their countries of origin Sweden and Denmark, in particular, experienced large inflows from non-Nordic countries during the period 2010-2019, with Sweden standing out as the Nordic country with by far the largest immigrant in-flows. A large portion of these arrivals were from war-torn Syria (an annual average of almost 15,000), followed by Poland (approximately 4,500), United Kingdom, Iraq, India and Iran (around 4,000 each). Denmark experienced a smaller number of inflows above 3,000 people, compared to Sweden. The largest non-Nordic inflows to Denmark were around 5,000 people (per sending country) and included migrants from the U.S., Germany, Romania and Poland. For Norway, large non-Nordic in-flows were limited to Lithuania and Poland. Similarly, Finland had only one major inflow, from Estonia.
Change in share of biofuels in transport from 2010 to 2018
This map shows change in share of biofuels in final energy consumption in transport in the Nordic Arctic and Baltic Sea Region from 2010 to 2018. Even though a target for greater use of biofuels has been EU policy since the Renewable Energy and Fuel Quality Directives of 2009, development has been slow. The darker shades of blue on the map represent higher increase, and the lighter shades of blue reflect lower increase. The lilac color represent decrease. The Baltic Sea represents a divide in the region, with countries to the north and west experiencing growth in the use of biofuels for transport in recent years. Sweden stands out (16 per cent growth), while the other Nordic countries has experienced more modest increase. In the southern and eastern parts of the region, the use of biofuels for transport has largely stagnated. Total biofuel consumption for transport has risen more than the figure indicates due to an increase in transport use over the period.
Change in overnight stay 2009-2019
The indicator measures the total overnight stays by guests in all types of accommodation, i.e., hotels and holiday resorts, camping sites, youth hostels, marinas, and holiday cottages. The map shows the change in percent from 2009 and 2019 (Faroe Island: 2013-2019 due to limited data availability). The orange colour indicates a shrink, while bluish colours indicate an increase. Bluer the colour is, larger is the increase. The shaded colour in yellow highlights the regions where international guests contributed to more than half of the total overnight stays in 2019. Most Nordic regions and territories have experienced an increase in the number of overnight stays during the last decade. The most dramatic increase can be observed in Iceland, with 5 of its 8 regions witnessing an increase in overnight stays over 100% between 2009-2019. The overnight stays in Suðurnes have increased by 451% during 2009-2019, being the largest increase in the Nordic Region. It’s also worth noting that the nearly all the regions and territories with more international guests have an increase in the total number of overnight stays, indicating that international tourism is playing a more important role in the Nordic tourism industry. The only exception is Åland, whose overnight stays dropped by 5% during 2009-2019. The traditional skiing destinations in Norway and Sweden have also witnessed a decrease in their total overnight stays, i.e., Hedmark, Oppland and Dalarna. Hedmark, among all the Nordic regions and territories, experienced the largest decline of overnight stays of 15% between 2009-2019. The number of overnight stays in some regions in eastern and central Finland also decreased from 2009 to 2019, e.g., Central Ostrobothnia and Satakunta, with domestic guests as the main tourists.
How to prepare for Home Alone Christmas 2020?
The conditions for a Home Alone Christmas vary greatly across the Nordic Region. The combination of the selected two accessibility indicators is visualised on Nordregio’s Christmas Map 2020. It classifies the Nordic municipalities into nine categories, based on: – The share of households with fixed broadband of at least 30mbps is used to measure the quality and distribution of internet connection. The higher the percentage, the bigger chance you will have an uninterrupted online celebration! – The average distance to grocery stores is used to estimate the time required to get your Christmas food: the closer to a grocery store, the more spontaneous you can be. On one side of the spectrum are about a fourth of the municipalities having a high share of households (>75%) with a decent broadband connection and a short average distance to the closest grocery store (<2,5 km). This enhances last-minute Christmas preparation and high-quality online celebrations. These municipalities are colored in dark purple on the map and are mostly, but not exclusively, located in urban areas in Denmark, Finland, Iceland, Norway and Sweden. On the other side of the spectrum, about 10% of Nordic municipalities have rather weak fixed broadband coverage (<50%) and relatively long travel distances to the closest grocery store (> 5km), requiring more planning for celebrating Christmas. These municipalities are colored in light purple on the map and are mostly found in sparsely population municipalities in Finland and mountainous municipalities in Norway.
Households’ access to basic broadband in 2018
The map shows the proportion of households within each municipality that did not have access to a fixed-line broadband connection with a download speed above 30 Mbps in 2018. Put another way, the map shows the proportion of households which only had access to basic broadband. In Danish, Icelandic and Swedish municipalities, the proportion of households which only have basic broadband is rather small. In contrast, more than half of all households rely on basic broadband in many Norwegian and Finnish municipalities. The situation in Finland is particularly striking, with several municipalities in which over 75% of households have only basic Internet access. The average coverage by municipality type shows a clear digital divide between urban and rural municipalities. On average, fast broadband is available to all but 4% of households in urban municipalities. In contrast, approximately one third of households in rural municipalities do not have access to any faster broadband than 30 Mbps. The largest urban-rural digital divide is to be found in Norway and Finland. However, the pace of fibre development has never been higher. Particularly noteworthy is the strong growth in fibre-based broadband taking place outside of the densely populated areas.
At-risk-of-poverty rate 2011-2018 change
The map shows the “at-risk-of-poverty” (AROP) rate in the Nordic Region. For the period from 2004 to 2018, the AROP rate increased in all Nordic countries except Iceland. This trend was strongest in Sweden. In Finland the AROP rate has been decreasing during the past few years, in line with what has previously been indicated – namely, on account of economic turmoil. This points to one of the weaknesses of using the AROP rate alongside several other measures of inequality. That is, while people have become poorer due to the economic crisis, the at-risk-of-poverty rate has paradoxically gone down. In addition, the AROP rate for Finland is higher in 2018 than it was in 2004. Looking at these trends on a regional level over a period of time (between 2011 and 2018), we can see that the AROP rate has decreased in almost all areas of Finland, whereas the pattern is rath er more varied in the other Nordic countries (we can also see a cohesive area in the south of Denmark where the AROP rate has decreased.) Again, Sweden has the most regions displaying increases in the AROP rate. Finland and Sweden contain the largest differences between the regions with the highest and lowest AROP rate. Hence the greatest regional differences are to be found in Sweden and Finland. Sweden also has the highest average AROP rate. About the At-risk-of-poverty The at-risk-of-poverty rate is a common measure of relative poverty and social inclusion. Most notably, it has been used for monitoring the EU2020 goal of inclusive growth. The at-risk-of-poverty rate is normally defined as “the share of people with an equivalised disposable income (after social transfer) below the at-risk-of-poverty threshold, which is set at 60% of the national median equivalised disposable income after social transfer.” (Eurostat). The indicator is…
Tertiary education attainment level of 30- to 34-year-olds 2019
The map shows the proportion of the population aged 30-34 years old, who had a tertiary education at the European level in 2019. Purple shades indicate higher proportions, and pinkish shades reflect lower proportions. It is common to show the education attainment for the age group 30-34 since it is an age group where most people have finalised their studies. The focus on this age group makes it easier to see recent trends and outcomes of policies. Overall, over 40% of Europeans aged 30-34 years old had a tertiary education in 2019. Young people in the Nordic countries are among the most educated, with approximately half of 30 to 34-year-olds achieving a tertiary education across all Nordic countries. The highest proportions can be found in the capital regions. Stockholm is particularly noteworthy, with over 60% of 30 to 34-year-olds having had a tertiary education. Regions with prominent universities also stand out – for example, Skåne, Uppsala, Västerbotten and Västra Götaland (Sweden), Trøndelag (Norway) and Østjylland (Denmark).
Internal net migration of 30 to 39 years-of-age, by gender, in 2010-2019
This map shows a typology that divides the Nordic municipalities and regions into four migration categories: positive net migration for both males and females (green on the map), positive male net migration (blue on the map), positive female net migration (yellow on the map), and negative net migration for both males and females (red on the map). These migration flows on 30 to 39-year-olds are of particular interest since it is often assumed that the future of rural regions is dependent upon their capability both to retain their populations and to attract newcomers, returning residents and second home owners. In this context, the map provides a rather positive picture, because a considerable proportion of rural municipalities have experienced positive net migration among females, males, or both sexes across all the Nordic countries. Even so, there is negative net migration among both females and males in many municipalities in northern Sweden, north-eastern Norway and eastern Finland, in addition to several inland municipalities within these countries. Interestingly, there is negative net migration among both sexes across all the capital city municipalities of the Nordic Region. According to the regional map, the capital city regions of Denmark, Iceland and Norway all experienced negative net migration of young people aged 30-39 years between 2010 and 2019. The capital city region of Sweden experienced positive net migration of males and negative net migration of females while the capital city region of Finland experienced positive net migration overall. Despite the majority of peripheral regions experiencing negative net migration of 30 to 39-year-olds during the time period studied, there are also several interesting examples of rural regions which experienced positive female net migration, for example Nordjylland (Denmark), Pohjois-Savo (Finland), Austurland (Iceland), Møre og Romsdal (Norway), and Jämtland (Sweden).
Internal net migration of 20 to 29 years-of-age, by gender, in 2010-2019
This map shows a typology that divides the Nordic municipalities and regions into four migration categories: positive net migration for both males and females (green on the map), positive male net migration (blue on the map), positive female net migration (yellow on the map), and negative net migration for both males and females (red on the map). These migration flows of 20 to 29-year-olds are of interest since there is a particularly high level of internal migration among young adults across the Nordic countries compared to other EU countries. While the map shows that the great majority of municipalities experience negative net migration of young adults in favour of a few functional urban areas and some larger towns, it is possible to observe a number of exceptions to this general rule. The rural municipalities of Utsira, Moskenes, Valle, Smøla, Ballangen and Lierne in Norway have the highest positive net migration rates both for men and women. There are also positive net migration rates for males and females in the peripheral municipalities of Jomala, Kittilä, Lemland and Finström in Finland and Åland. There is positive male net migration but negative female net migration in Gratangen, Loppa, Gamvik, Drangedal and a few other Norwegian rural municipalities, plus Mariehamn in Åland, while several municipalities in remote areas of Finland have positive female net migration but negative male net migration. Some of these patterns may be related to specialised local labour markets, such as fisheries in Loppa, or recreational tourism in Kittilä. In general, the pattern of net migration among young adults is more diverse in Finland (where 72.0% of all municipalities have negative net migration), compared with 84.6% in Norway, 88.9% in Denmark and 89.0% in Sweden. However, it is important to remember that Danish, Finnish and Norwegian municipalities are smaller in size…
Broadband speed availability and coverage
Ambitious broadband connectivity targets have been set across the Nordic Region, with most countries working towards universal access to download speeds of >100 Mbps for all households. The deadline for reaching this target varies between countries, from 2020 (Denmark) to 2023 (Iceland) to 2025 (Finland & Sweden). Norway aims to provide access to download speeds of >100 Mbps for 90% of households by 2020. The map measures progress towards these targets, showing the minimum download speed that was available to at least 50% of households in each municipality through a fixed-line connection in 2018, along with the proportion of households which had access this speed. The blue shading shows municipalities where over 50% of households had access to fixed broadband with download speeds >100 Mbps. The green shading indicates municipalities where less than 50% had access to fixed broadband with download speeds >100 Mbps but where at least 50% of the population had access to fixed broadband with download speeds >30 Mbps. The orange shading shows the percentage of households who have access to fixed broadband with download speeds >10 Mbps for municipalities where less than 50% of households have access to fixed broadband with download speeds >30 Mbps.
Household coverage of NGA broadband 2018
These maps highlight the urban-rural divide with respect to household coverage of Next Generation Access (NGA) broadband in the Nordic-Baltic Region in 2018. NGA includes a range of technologies, all of which deliver minimum download speeds of 30 Mbps. The map on the left-hand side shows NGA coverage for “all households”, with darker shading representing higher levels of coverage. Here we see that over 75% of households have access to NGA coverage in most regions for most countries, with the exception of Finland and Lithuania. The highest levels of household coverage can be found in regions in Denmark, Iceland and Latvia. The map on the right-hand side shows the same indicator but includes only rural households. Here we see a quite different picture. In most of Finland and Lithuania, as well as many regions in Sweden, less than 35% of rural households have NGA coverage. Norway performs somewhat better, with NGA access for 35-65% of rural households in most regions. Again, regions in Denmark, Iceland and Latvia have the best coverage. Estonia also performs relatively well, with 65-95% of rural households covered in three of its five regions.
Household access to broadband 100Mbps
Ambitious broadband connectivity targets have been set across the Nordic Region, with most countries working towards universal access to download speeds of >100 Mbps for all households. The deadline for reaching this target varies between countries, from 2020 (Denmark) to 2023 (Iceland) to 2025 (Finland & Sweden). Norway aims to provide access to download speeds of >100 Mbps for 90% of households by 2020. The map measures progress towards these targets, showing the percentage of households with access to a fixed-line broadband connection with a minimum download speed of 100 Mbps in 2018.* Darker shading represents proportionally higher levels of coverage. According to the map, a substantial proportion of households (>75%) had access to 100 Mbps in most Danish municipalities in 2018. Sweden also has relatively good fixed broadband coverage across most of the country, though there are several municipalities where coverage drops below 60% of households. The most limited coverage can be found in Finland, parts of Norway and the Westfjords and easternmost municipalities of Iceland. *Municipal level data was not available for the Faroe Islands or Greenland. Due to municipal level data availability, Icelandic figures are from 2020.