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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.

Population projection 2017-2040

This map shows the expected population change in Nordic municipalities by looking at the change between 2017 and 2040. The colours on the main map indicates the percentage of population change at municipal level between 2017 and 2040. Shades of red indicate a population decline, whereas shades of blue indicate a population increase. The colours on the regional map (bottom-right corner) indicates the type of region according to the Eurostat’s urban-rural typology (see: http://nordregio.org/maps/urban-rural-typology-of-nordic-regions/): shades of red indicate predominantly urban regions, yellow for intermediate regions and shades of green for predominantly rural regions. In the two types of regions classified as predominantly rural (“light green” and „dark green“ regions), population growth largely remains concentrated in larger towns and their suburbs. This is particularly the case in Sweden and Finland. For instance, the regional capitals Östersund in Jämtland (SE) and Seinäjoki in South Ostrobothnia (FI) are expected to have larger populations in 2040 than today, while most other municipalities in these regions will decline. In Norway and Iceland, a somewhat more nuanced pattern applies. Here population growth is not only expected in regional capitals and other larger towns, but also in some smaller and more remote municipalities. In Denmark, finally, population growth is expected for large parts of the country until 2040, in more rural and urban areas alike. Population loss is only expected in some of the most remote municipalities at the Northern, Eastern and Southern borders of the country. While the population loss in rural regions is hence expected to continue across the Nordic Region, it appears to be more pronounced in some countries than in others. In the predominantly urban (“red”) regions, the opposite pattern applies: With very few exceptions, municipalities in these regions are expected to experience a growth in population numbers until 2040.

Change in working age population 2019-2040

This map shows the projected working age population change at municipal level during the period 2019-2040 While the total population of the Nordic Region is projected to grow by 8% to 29.5 million by 2040, the growth of the working-age population (15–64 years) is expected to be more modest at 1.5%. The working-age population also referred to as the potential labour supply, refers to all people in the population aged 15–64 years. It is a potential supply because it includes all those who fit the age requirement, despite some not actually being available for the labour market (e.g. full-time students, those with long-term illnesses or disabilities that affect their ability to work). The potential labour supply at the local level is constantly shifting due to trends such as ageing, migration and urbanisation. The red areas on the map indicate a projected working-age population decline and blue areas an increase. The yellow areas indicate a stable development. On a national level Greenland (-16.2%), the Faroe Islands (-6.6%), Finland (-3%) and Denmark (-2%) are projected to see a decrease in the working-age population, while increases are projected in Sweden (4%), Norway (4.6%), Åland (9.1%) and Iceland (10.9%). It is worth noting that, even in the parts of the Nordic Region where the working-age population is expected to shrink, the projections are less severe than the EU28 average (-6.5%). Greenland and Faroe Islands are the only exceptions. At the municipal level, the variation is even more striking with the majority (72%) of Nordic municipalities projected to experience a decrease in the size of the working-age population. As Figure 6.2 shows, this trend is most pronounced in Finland (decline of the working-age population in 90% of the municipalities) and Denmark (81%) and less apparent in Sweden (67%), Iceland (64%) and Norway (61%). Most of…

Population change in Arctic settlements

The map provides an overview of the population change in Arctic settlements with 500 inhabitants or more during the period 2000 to 2017. The purple underlaying layer shows the extent of permafrost across the Arctic. The circles indicate settlements with 500 inhabitants or more and are proportional to the total population in 2017. Blue tones indicate population growth between 2000 and 2017, while red tones indicate population decline. Four zoomed-in maps show areas with high settlement density – Arctic Fennoscandia, Iceland, the Faroe Islands, and Alaska. In Alaska, population increased in the largest settlements between 2000 and 2017. The population decline in small settlements located far from the two large cities – Anchorage and Fairbanks – has been caused by outmigration, which has cancelled out the positive natural population growth. In the Canadian Arctic, most people live in a few settlements. Similar to Alaska, the population increased in the largest settlements and decreased in small settlements. Most of the smaller settlements in Arctic Fennoscandia have witnessed a population decline between 2000 and 2017, except in Norway. The dominant pattern in Fennoscandia is a population growth in larger settlements and a population decline in surrounding smaller settlements. This is similar to the pattern observed in the other Nordic Arctic countries – Iceland, Greenland, and the Faroe Islands. New inhabitants settled in the capitals (Reykjavik, Nuuk, and Torshavn) and regional centres, from both domestic and international locations, while settlements in sparsely populated areas are becoming less attractive to incomers. In the Russian Arctic, the regions can be divided into the oil and gas areas of the Khanty-Mansi and Yamal-Nenets, and other areas. The population is growing in the oil and gas areas and declining slowly in the others. Over 75% of the settlements have been shrinking throughout the 21st century, mainly because…