Climate change in Norway discusses
global warming
In common usage, climate change describes global warming—the ongoing increase in global average temperature—and its effects on Earth's climate system. Climate change in a broader sense also includes previous long-term changes to E ...
issues that affect
Norway
Norway, officially the Kingdom of Norway, is a Nordic country in Northern Europe, the mainland territory of which comprises the western and northernmost portion of the Scandinavian Peninsula. The remote Arctic island of Jan Mayen and the ...
, whose territory comprises the western portion of the
Scandinavian Peninsula plus the island
Jan Mayen
Jan Mayen () is a Norwegian volcanic island in the Arctic Ocean with no permanent population. It is long (southwest-northeast) and in area, partly covered by glaciers (an area of around the Beerenberg volcano). It has two parts: larger ...
and the archipelago of
Svalbard. All regions and seasons of Norway are expected to become warmer and wetter due to climate change.
On a
per-capita basis, Norway is the world's largest producer, and exporter, of
oil and natural gas Oil and gas law in the United States is the branch of law that pertains to the acquisition and ownership rights in oil and gas both under the soil before discovery and after its capture, and adjudication regarding those rights.
Overview
The law ...
outside the
Middle East
The Middle East ( ar, الشرق الأوسط, ISO 233: ) is a geopolitical region commonly encompassing Arabia (including the Arabian Peninsula and Bahrain), Asia Minor (Asian part of Turkey except Hatay Province), East Thrace (Europ ...
. In 2016, 56 new licenses for oil exploration near the
Lofoten islands
Lofoten () is an archipelago and a traditional district in the county of Nordland, Norway. Lofoten has distinctive scenery with dramatic mountains and peaks, open sea and sheltered bays, beaches and untouched lands. There are two towns, Svolvæ ...
were issued. However, 98% of Norway's electricity demand is supplied by
renewable sources
A renewable resource, also known as a flow resource, is a natural resource which will replenish to replace the portion depleted by usage and consumption, either through natural reproduction or other recurring processes in a finite amount of ti ...
, mostly from
hydroelectric power
Hydroelectricity, or hydroelectric power, is electricity generated from hydropower (water power). Hydropower supplies one sixth of the world's electricity, almost 4500 TWh in 2020, which is more than all other renewable sources combined an ...
, generated using Norway's extensive freshwater reserves.
Emissions are also generated through transportation, although Norway is a world leader in
electric vehicles.
Warmer temperatures in Norway are causing
permafrost and
glaciers to retreat, and leading to shifts in precipitation patterns.
Climate change is particularly impacting Norway's
Arctic
The Arctic ( or ) is a polar region located at the northernmost part of Earth. The Arctic consists of the Arctic Ocean, adjacent seas, and parts of Canada (Yukon, Northwest Territories, Nunavut), Danish Realm (Greenland), Finland, Iceland, N ...
region. Biodiversity and forested areas are experiencing shifts due to the phenomenon, with significant implications for the
agriculture and economy of the country. Indigenous
Sámi
The Sámi ( ; also spelled Sami or Saami) are a Finno-Ugric-speaking people inhabiting the region of Sápmi (formerly known as Lapland), which today encompasses large northern parts of Norway, Sweden, Finland, and of the Murmansk Oblast, Ru ...
people's practices are being impacted by climate change.
Norway's government have introduced several social and economic policies towards
climate change mitigation, including through
carbon capture and storage
Carbon capture and storage (CCS) or carbon capture and sequestration is the process of capturing carbon dioxide (CO2) before it enters the atmosphere, transporting it, and storing it (carbon sequestration) for centuries or millennia. Usually th ...
. Norway wants to achieve
carbon neutrality
Carbon neutrality is a state of net-zero carbon dioxide emissions. This can be achieved by balancing emissions of carbon dioxide with its removal (often through carbon offsetting) or by eliminating emissions from society (the transition to the "p ...
by 2030, partly by investing in projects with emissions reduction abroad. It wants to achieve zero emission in the country by 2050. In 2020, Norway pledged to achieve a 50% - 55% reduction in domestic emissions from the level of 1990 by 2030.
Greenhouse gas emissions
Energy consumption
In 2015,
Norway's energy supply reached 1.7 million tonnes – a 311.3% increase since 1990
- and their total domestic consumption was 213 terawatt-hours (TWh) in 2015, of which 89 TWh were used by households and services. This was a 2% increase in household consumption, which has been attributed to lower temperatures causing a rise in demand for heating,
which also led to a 7% rise in biofuel use from 2014. Due to rising global demand in natural gas and oil, 56 new licences were issued in January 2016 to allow more oil exploration near the
Lofoten islands
Lofoten () is an archipelago and a traditional district in the county of Nordland, Norway. Lofoten has distinctive scenery with dramatic mountains and peaks, open sea and sheltered bays, beaches and untouched lands. There are two towns, Svolvæ ...
, in addition to the North and Barents seas. This poses a threat to biodiversity and fish stocks in these areas despite numerous promises to improve their environmental ratings and the Paris pledge. On the other hand, 98% of Norway's electricity demand is supplied by renewable energies, 95% of this comes from
hydroelectric power
Hydroelectricity, or hydroelectric power, is electricity generated from hydropower (water power). Hydropower supplies one sixth of the world's electricity, almost 4500 TWh in 2020, which is more than all other renewable sources combined an ...
.
Because of the knowledge that their electricity is supplied by renewable sources and its very low cost as it is produced domestically, consumption in Norway is three times higher than the average European.
Electricity consumption equates to approximately 77% of household energy usage in an average detached house.
Transportation
The transportation sector accounts for one-third of the total
greenhouse gas emissions
Greenhouse gas emissions from human activities strengthen the greenhouse effect, contributing to climate change. Most is carbon dioxide from burning fossil fuels: coal, oil, and natural gas. The largest emitters include coal in China and ...
produced in Norway (~16.5 million tons of ), with road traffic accounting for ~10 million tons of CO
2.
Norway's transport mix is heavily influenced by its low population density, narrow shape and long coastline with many small islands. The Norwegian Ministry of Transport and Communications has overall responsibility for the civil aviation, public roads and rail transport sector, ferry services forming part of the national road system (i.e. coastal regions), for
coastal management
Coastal management is defence against flooding and erosion, and techniques that stop erosion to claim lands. Protection against rising sea levels in the 21st century is crucial, as sea level rise accelerates due to climate change. Changes in s ...
, the marine environment and port and sea transport policy. They also have the ability to delegate tasks related to public transport and roads to the designated counties and municipalities. The majority of infrastructure in Norway is publicly owned, with operations often contracted out to private firms.
Public transport in and around urban populations is well developed, particularly is
Oslo
Oslo ( , , or ; sma, Oslove) is the capital and most populous city of Norway. It constitutes both a county and a municipality. The municipality of Oslo had a population of in 2022, while the city's greater urban area had a population ...
which has one of the most advanced public transportation systems in Europe boasting metro, bus, tram and ferry networks that are all integrated on a zone-based far system with the latest technology. However, regions with low populations do often lack
public transport
Public transport (also known as public transportation, public transit, mass transit, or simply transit) is a system of transport for passengers by group travel systems available for use by the general public unlike private transport, typi ...
infrastructure, forcing inhabitants to have their own car. Public transport is subsidized by the government.
Rail transport
Trains produced ~18-36g/km of , depending on capacity of the train.
The main railway network in Norway consists of 4,087 km (2,556 mi) of standard gauge lines, of which 242 km (150 mi) is double track and 64 km (40 mi) is high-speed rail (with speeds up to 210 km/hr).
2,622 km (64%) is electrified through a 15 kV 16 Hz AC with overhead wires. This enables significant reductions in greenhouse gas emissions given that 98% (134TWh) of Norway's electricity sector is power by renewable energy (129TWh or 95% of which is produced by hydroelectricity). The only sections that are not electrified are the lines north of Miøsa (except the Dovre and Ofoten Line). Diesel locomotives run the non-electrified sections. All of the urban railways use 750 V DC via overhead wires on the tramways and third rail on the Oslo T-bane.
The railways transported 73,836,237 passengers’ 3,555 million km in 2015, with the transport of goods seeing 31,585,437 tons of cargo 3,498 million km.
Road transport
= Cars
=
Norway's fleet of electric cars is one of the cleanest in the world due to its high abundance of electricity generated by hydropower (98%). This has steadily grown in interest, with the end of 2016 seeing 5% (135,000) of all passenger cars on Norwegian roads being a plug-in (Figure 2). Government incentives include being exempt from all non-recurring vehicle fees (including purchase tax and 25% VAT on purchase), a tax reduction for plug-in hybrids and free access to road ferries. These in certain municipalities they can park for free and use public transport lanes. This successful integration of policies has seen electric vehicles widely accepted in Norway and the public even had the chance to discuss and propose ideas for the governments NTP. This led to the NTP setting the goal that all new cars; buses and light commercial vehicles should be zero emission vehicles (i.e. all-electric or hydrogen powered) by 2025. However, there have been some side effects with excessively high public subsidies, increased traffic congestion in public transport lanes, shortage of parking spaces for conventional cars (intentional) and loss of revenue for ferry operators.
About half of new cars in Norway in January–June 2019 were electric cars and a quarter in the same period 2018.
As of March 2020, 55.9% of the car sales in Norway were electric cars, 26.4% were hybrids (with or without plugs).
= Buses
=
Each county is responsible for the public bus and boat transport in their area, with railways, regional airlines and the Coastal boat all being financed by the state. In 2015, buses transported 356 million passengers over 4 billion passenger km. In an attempt to meet their plan to be carbon-neutral by 2050 (conditional for 2030) Oslo is also converting municipal buses to run on biomethane captured from human waste in order to cut emissions (saves 44 tons of per bus per year compared to gas alternatives).
Civil aviation
Civil aviation produced ~220-455g/km of , depending on capacity of the plane.
Norway has 98 airports, of which 51 facilitate public flights, including one heliport. 45/51 are owned by the government through it airport operator, Avinor. Norway is the country in Europe with the most airline trips per capita, and the routes from Oslo to Trondheim, Bergen and Stavanger are all amongst the ten busiest in Europe. Contributing factors include poor rail and road infrastructure in areas with a low population density, rugged geography and a limited population in the interior and north.
The main gateway by air to Norway is Oslo Airport (Gardermoen), located 50 km north of Oslo and primarily services both major Norwegian airlines; Scandinavian Airlines System and Norwegian Air Shuttle.
Water transport
Car ferries are vital links across fjords and to islands where there is no fixed connection. There are currently over one hundred car ferry connections in Norway. In 2015, boats transported 11 million passengers to their destination, a 10% growth from 2014. Norway even has started to install battery-electric ferries and has plans to expand the current fleet, powered by the large amount of hydroelectricity. The Coastal Express (known as Hurtigruten) operates daily from Bergen to Kirkenes, stopping at 35 ports. This is pleasing news on a regional and national level but fails to address their huge international fleet as shipping and aircraft regulations where notably absent from the Paris Agreement.
Fossil fuel production
Norway has a strong ranking of 17 out of 180 countries analyzed in 2016. However, it is one of the world's largest oil exporter and has the largest sovereign fund of any country. In 2015, Norway produced 53.9 million tonnes of greenhouse gases (GHGs) with 15.1 million tonnes attributed to oil and gas extraction.
This was higher than any other source of emissions, including energy supply, agriculture and road traffic. The total emissions of GHGs increased by 600,000 tonnes since 2014, with emissions from oil and gas extraction increasing by 83.3% since 1990. In more detail, a 25% increase CO
2 emissions, 10% decrease in methane, 38% decrease in nitrous oxide; 44.7 million tonnes (Mt) was CO
2, 5.5 Mt of CH
4, 2.6 Mt of N
2O (Figure 1).
The petroleum and natural gas
production on the Norwegian continental shelf utilizes pipelines totaling 9,481 km to transport products to processing plants and onwards to other European countries.
Industrial emissions
Mining and quarrying
12 million tonnes of equivalents and 66 TWh were used by the manufacturing mining and quarrying industry in 2015 - a 39% emissions reduction since 1990, second only to oil and gas extraction.
This industry is showing a downward trend in emissions, but there was an increase between 2014 and 2015 of 3.1%.
Agriculture
Higher production and use of fertilizer in 2015 contributed notably to higher and nitrous oxide emissions,
which was also the largest proportion of agricultural emission causes. The agricultural sector emitted 4.5 million tonnes of equivalents, but these emissions have been steadily decreasing since 1990.
Impacts on the natural environment
Temperature and weather changes
All climate scenarios indicate that all season in all regions of Norway will become warmer this century.
Low, mean and high projections depict the annual mean temperature rising by 2.3 °C, 3.4 °C and 4.6 °C respectively by 2100 (Table 1). For the mainland, the smallest increase is expected in Western Norway 3.1 °C (1.9-4.2 °C), with the highest being in the northernmost country (Finnmark) of 4.2 °C (3.0-5.4 °C). This is expected to be even larger in offshore territories such as
Svalbard and
Jan Mayen
Jan Mayen () is a Norwegian volcanic island in the Arctic Ocean with no permanent population. It is long (southwest-northeast) and in area, partly covered by glaciers (an area of around the Beerenberg volcano). It has two parts: larger ...
, some predictions as high at 8 °C.
The largest increase is projected during winter, whilst the smallest will occur during summer. This will see an increase in the growing season and corresponding decrease in snow cover over large parts of the country.
Hence, warmer seasons will increase in length, whilst winter will become shorter and more sporadic depending on given temperature regions.
Thawing permafrost
Permafrost is defined as ground, soil or rock, including ice or organic material that remains at or below zero degrees Celsius for at least two consecutive years. The regions in which permafrost occurs occupy ~24% (23 million km2) of the
Northern Hemisphere. Modelling suggests that permafrost covers have been warming and thawing since the end of the
Little Ice Age c. 120 years ago. Access the current global distribution of permafrost here.
Permafrost plays three important roles in the context of climate change; a mechanism for temperature archives, a translator of global warming through subsidence and related impacts and a facilitator of further change through its effect on the
global carbon cycle
The carbon cycle is the biogeochemical cycle by which carbon is exchanged among the biosphere, pedosphere, geosphere, hydrosphere, and atmosphere of the Earth. Carbon is the main component of biological compounds as well as a major component ...
(Figure 2).
Due to its climate setting (mild winters, cool summers), mountain permafrost is the dominating permafrost type. In Southern Norway, the lower permafrost extends from 1300 to 1600 metres above sea level (masl). Whilst in the north, mountain permafrost begins around 900masl in the west and as low as 400masl in the east (Finnimark county). The archipelago of
Svalbard is also covered by approximately 60% of continuous permafrost and is the only landscape in Scandinavia where people are living directly on permafrost.
Ground temperature measurements taken by The
University of Oslo
The University of Oslo ( no, Universitetet i Oslo; la, Universitas Osloensis) is a public research university located in Oslo, Norway. It is the highest ranked and oldest university in Norway. It is consistently ranked among the top universit ...
and the Meteorological Institute have shown an increase of 1 °C since 1999, with clear evidence of permafrost degradation in test sites shown by the Norwegian Permafrost Database (NORPERM).
The lower limit of mountain permafrost are highly sensitive to global warming as their permafrost temperatures are already just below 0 °C and will thaw if current trends continue.
Already the wetland areas of northern Norway (palsas and peat plateaus) have air photo and field analysis showcasing reductions of up to 50% in ground ice cover since the 1950s.
This results in a considerable loss of permafrost and may trigger an increased emission of greenhouse gases (positive-feedback mechanism) from previously frozen, but now degrading organic material.
Most of the permafrost in Norway is situated in uninhabited areas making the impact on society limited. However, glaciations and glacier erosion helped have sculpted mountain areas in Norway, revealing many steep and unstable slopes (i.e. Mt.Nordnes northeast of
Tromsø
Tromsø (, , ; se, Romsa ; fkv, Tromssa; sv, Tromsö) is a municipality in Troms og Finnmark county, Norway. The administrative centre of the municipality is the city of Tromsø.
Tromsø lies in Northern Norway. The municipality is the ...
).
These slopes tend to lie in the permafrost area and failure of such slopes could affect roads, towns and even trigger localised tsunamis if large rock masses hit fjords or lakes.
Melting has even recently caused the
Global Seed Vault, buried in a mountain deep inside the
Arctic Circle, to be breached after global warming produced extraordinary temperatures over the winter, sending meltwater gushing into the entrance tunnel. Continued melting will cause gas and oil pipelines to crack and buildings to slowly fall apart due to unstable ground.
Glacial retreat
Most of the
glacier
A glacier (; ) is a persistent body of dense ice that is constantly moving under its own weight. A glacier forms where the accumulation of snow exceeds its ablation over many years, often centuries. It acquires distinguishing features, such as ...
s in the Norwegian Arctic are found in
Svalbard, where glaciers have a total volume of ~7,000km3 and an area of 36,000km2. On the mainland glaciers only have a volume of 64km3 and an area of 1,000km2.
The glaciers in Svalbard are key contributors to
sea level rise
Globally, sea levels are rising due to human-caused climate change. Between 1901 and 2018, the globally averaged sea level rose by , or 1–2 mm per year on average.IPCC, 2019Summary for Policymakers InIPCC Special Report on the Ocean and Cry ...
as the archipelago accounts for 11% of Arctic land ice, apart from
Greenland
Greenland ( kl, Kalaallit Nunaat, ; da, Grønland, ) is an island country in North America that is part of the Kingdom of Denmark. It is located between the Arctic and Atlantic oceans, east of the Canadian Arctic Archipelago. Greenland i ...
. Melting in Svalbard is extensive and is in line with both Arctic and global trends.
Knowledge of glacier volume and ice thickness distribution is important for assessing the cryospheric contribution to sea-level rise, glacier response to global warming and water resource management at the local to national level in Norway. When glaciers melt the white surface of the glaciers that normally reflects solar radiation becomes exposed (underlying dark surfaces), causing a positive feedback mechanism and hence further melting and increase in temperatures.
Having experienced a brief period of expansion between 1940-90s as a response to higher winter accumulation, Norwegian glaciers have continued retreating as a result of less snowfall and higher summer temperatures (=more melting).
This has led to long-term forecasts where it is expected to see a summer temperature increase of at least 2.3 °C and a significant increase (~16%) by the end of the 21st century. As a result, ~98% of the Norwegian glaciers are likely to disappear and the glacier area may be reduced by ~34% by 2100.
This is in line with global glacier volume dramatically decreasing over the rest of the 21st century.
Precipitation patterns
Strong westerly winds bring moist air masses from the ocean and fall in the form of rain/snow to most of Norway. However, this does vary greatly from coastal areas that could receive more than 3500mm annually down to 300mm in south-eastern Norway and
Finnmarksvidda
Finnmarksvidda ( sme, Finnmárkkoduottar; en, Finnmark plateau/highland) is Norway's largest plateau, with an area greater than . The plateau lies about above sea level. Approximately 36% of Finnmark lies on the Finnmarksvidda.
Geography
Fr ...
where they are on the leeward side of mountain ranges.
Modelled climate data expects mainland Norway to experience annual precipitation increases of around 18% (5-30%) up to 2100, with respect to 1961–1990.
The largest variation is expected in autumn (+23%) as precipitation starts to fall as rain rather than snow, with the lowest being in summer 9% (-3 to 17%) as nearly all precipitation already falls in the form of rain.
Projections also indicate more days with heavy rainfall and precipitation values in the extreme events all over Norway and in all seasons. This is particularly relevant during winter and autumn where the number of days with heavy rainfall is expected to double.
The long-term outlook for the snow season is that it will become increasingly shorter over the century. A reduction of 2-3 month is estimated for low-elevation and coastal areas in west, mid and north Norway (when comparing current (1961-1990) and future climate data (2071-2100)). As winters become shorter, snowfall in autumn and spring will reduce. The decrease in total annual snowfall is smaller with increasing altitude and distance from the coast. Highly mountainous areas may experience slight increases in snowfall.
The current trends over the last 40 years is unprecedented and if continued Norway would experience annual precipitation changes of 30% over a century. This is 2-3 times higher than predicted.
Wind speed
Future projections to the year 2100 (compared with 1961–1990) indicate small or no changes for average wind speed.
Changes are expected to stay within the range of natural variability and have different effects depending on the scenario. Extreme geostrophic wind speeds are expected to experience a 2-6% decrease over the
Norwegian Sea
The Norwegian Sea ( no, Norskehavet; is, Noregshaf; fo, Norskahavið) is a marginal sea, grouped with either the Atlantic Ocean or the Arctic Ocean, northwest of Norway between the North Sea and the Greenland Sea, adjoining the Barents Sea to ...
, whereas southern and eastern parts of Northern Europe will see an increase of 2-4%.
Sea-level rise
In comparison to other parts of the world,
Norway
Norway, officially the Kingdom of Norway, is a Nordic country in Northern Europe, the mainland territory of which comprises the western and northernmost portion of the Scandinavian Peninsula. The remote Arctic island of Jan Mayen and the ...
and
Svalbard will not experience any dramatic effects from a rise in sea level, as the land is still rising after the previous Ice Age and the coast is relatively steep.
At the end of the previous Ice Age, a layer of ice up to 3 km thick covered parts of northern Europe and North America. When the ice melted, the significant weight of the ice layer that pushed the Earth's crust down into the mantle began to rise again. Land uplift was greatest immediately after the ice melted, however, it is estimated to continue rising for another 10,000 years.
Studies suggest that Norway will experience an approximately 10 cm greater rise in sea level than the global average within the year 2100.
Despite great uncertainty from all data, the
IPCC
The Intergovernmental Panel on Climate Change (IPCC) is an intergovernmental body of the United Nations. Its job is to advance scientific knowledge about climate change caused by human activities. The World Meteorological Organization (WMO) ...
calculated a global increase of 10–90 cm during this century.
Other studies conducted by the NOU Climate Adaptation in 2009 suggest a 40–95 cm rise in sea level in northern Norway up until 2100, corrected for land uplift. This makes infrastructure long the coast more vulnerable to damage, especially during storm surges.
Ecosystems
Agricultural land vs forests
Agricultural areas account for 3% of the mainland, while the forests are about 37%. Around 47% of the land is located above the tree line.
Studies have demonstrated that future long-term warming trends may lead to a longer growing season and hence increasing agricultural yields.
This effect would increase progressively from south to north. In Northern Norway this is projected to be in the order of an increase of 1–4 weeks for the period 2021–2050, compared with 1961–1990.
A longer season could also increase the use of legumes and more productive perennial forage grasses, vegetables and grains.
The relationship between a longer growing season and agriculture is not linear.
An extended growing season is still limited by the reduced photoperiod, which terminates growth irrespective of the temperature increase. Thus, there needs to be both prolonged autumn and earlier spring to promote longer growing seasons, whilst taking the risk of frost into account. Frost on snow-free soil leads to thick layers of frozen soil that can prolong lower soil temperatures irrespective of other factors that favor an early start to the season. Increased precipitation in autumn could also complicate harvesting and agricultural practices.
The agricultural industry is already exposed to several other issues that could be compounded by global warming. Those are that the farming population is ageing with the younger generation flocking to cities for education and other forms of employment.
Furthermore, any reductions in
agricultural subsidies
An agricultural subsidy (also called an agricultural incentive) is a government incentive paid to agribusinesses, agricultural organizations and farms to supplement their income, manage the supply of agricultural commodities, and influence the ...
and lack of increases in real incomes for farming may exacerbate the problem even further.
The most obvious change in forestry will be the expansion of coniferous forests. They will spread northwards and to higher elevations in the next century due to increasing temperatures.
Birch
A birch is a thin-leaved deciduous hardwood tree of the genus ''Betula'' (), in the family Betulaceae, which also includes alders, hazels, and hornbeams. It is closely related to the beech- oak family Fagaceae. The genus ''Betula'' contains ...
forests are expected to exhibit similar trends. This will result in a considerable increase in forested area in northern Norway. A temperature increase of 2 degrees Celsius can move the tree line up the mountainside by about 300 m.
Biodiversity
The Norwegian
Arctic
The Arctic ( or ) is a polar region located at the northernmost part of Earth. The Arctic consists of the Arctic Ocean, adjacent seas, and parts of Canada (Yukon, Northwest Territories, Nunavut), Danish Realm (Greenland), Finland, Iceland, N ...
is getting warmer and wetter, with large local variations.
This is already having observed effects on almost all ecosystems. One is a terrestrial ecosystem, which has led to the earlier migration of birds, earlier sexual maturation in some animals, higher production and reproduction in both plants and animals, and earlier budding and pollen production.
This is also evident in forests as warming temperatures leads to a higher tree line. The result of this is an expansion both northwards and upwards of species, particularly coniferous and birch forests.
This movement will also cause northern boreal forests to invade tundra ecosystems in the long-term future.
Whilst heat-stress is not expected to become a large issue on land, particularly in
Northern Norway, warmer conditions will support the spread of disease-bearing insects (especially those limited by the cold temperatures) and invasive species into Norway, thus increasing the vulnerability of native species, livestock and the human population alike.
Rising temperatures have affected local Norwegian ecosystems in many ways. Sea ice is diminishing, threatening ice-dependent species quicker than first imagined.
The absence of sea ice leads to more rapid warming, due to the feedback mechanisms associated with the absorbance of sunlight.
It also leads to a reduction in biodiversity, as several species are dependent on sea ice. For example, ice algae that grow in and under the ice, seals that need sea ice to give birth to their young, polar bears that prey on seals and several species of bird too.
The rising temperatures are having direct impacts on freshwater and wetlands biodiversity. Atlantic salmon is a keystone species in rivers along the coast of Norway. Salmon have an upper temperature limit in the twenties so future warming may make it increasingly difficult to maintain current population levels. Higher initial temperatures could lead to increased growth and production in the short-term but ultimately there could be a massive collapse if warming trends continue.
This has been made evident by the recent decline in mean individual mass and annual mean length of the fish. It is suggested that the size change of Atlantic salmon is made by the collapse and rebuilding of the pelagic fish abundance in the North Atlantic Ocean, a gradual decrease in zooplankton abundance and climate change. It could also promote genetic abnormalities and the spread of disease such as Pancreas Disease (PD) and
Infectious Salmon Anemia Virus (ISA). Furthermore, lake and river surface water temperatures are projected to increase further, resulting in a longer summer stratification period and more
cyanobacterial blooms.
Furthermore, both the
Atlantic salmon and the
Arctic char
The Arctic char or Arctic charr (''Salvelinus alpinus'') is a cold-water fish in the family Salmonidae, native to alpine lakes and arctic and subarctic coastal waters. Its distribution is Circumpolar North. It spawns in freshwater and populat ...
r have experienced changes in abundance. Whilst both species coexist it has been the Arctic charr who seems to be more vulnerable to environmental changes, hence leading to its overall decline in numbers.
A rise in sea temperatures will also affect marine,
estuarine and
intertidal ecosystems. Warmer seawater can lead to more phytoplankton and zooplankton but it is not known if other species can utilise this increase in food stocks.
This change also favours species that prefer warmer waters and they will start to out-compete local species. Additionally, increased concentrations in the atmosphere are leading to
ocean acidification
Ocean acidification is the reduction in the pH value of the Earth’s ocean. Between 1751 and 2021, the average pH value of the ocean surface has decreased from approximately 8.25 to 8.14. The root cause of ocean acidification is carbon dioxid ...
, which is expected to continue over the next century to levels not witnessed in the last 20 million years.
This may cause the extinction of coral species as the changing water chemistry makes it increasingly difficult for organisms with calcareous shells to form with calcium.
The Arctic
The Arctic region will warm more rapidly than the global mean, and mean warming over land will be larger than over the ocean, with studies indicating somewhere between 3-12 degrees Celsius with a high degree of uncertainty.
Over the last two decades Arctic sea ice and Northern Hemisphere spring snow cover has continued to decrease in extent not exhibited in at least the last 1,450 years.
This is expected to continue as global mean surface temperatures increase.
The annual mean sea ice extent has decreased in the range of 3.5 to 4.1% per decade (0.45 to 0.51 million square km per decade) over the period 1979–2012. This rate increases to 9.4 to 13.6% per decade (0.73 to 1.07 million square km per decade) for the summer sea ice minimum; hence it is most rapid in summer (Figure 3). Furthermore, IPCCs 5th Synthesis Report illustrates the continued reduction in extent of Arctic July–August–September (summer) average sea ice between 1900 and 2100.
Year-round reductions in
Arctic sea ice
The Arctic ice pack is the sea ice cover of the Arctic Ocean and its vicinity. The Arctic ice pack undergoes a regular seasonal cycle in which ice melts in spring and summer, reaches a minimum around mid-September, then increases during fall ...
extent are projected by the end of the 21st century from multi-model averages. These reductions range from 43 to 94% in September and from 8-34% in February. Thus, it is very likely that we will see a nearly ice-free
Arctic Ocean
The Arctic Ocean is the smallest and shallowest of the world's five major oceans. It spans an area of approximately and is known as the coldest of all the oceans. The International Hydrographic Organization (IHO) recognizes it as an ocean, a ...
in September before mid-century or towards the end of the 21st century depending on our ability to cut greenhouse gas emissions to the atmosphere. This is as anthropogenic influences have very likely contributed to Arctic sea ice loss since 1979.
This is very worrying as sea ice plays a crucial role in regulating the temperature of Earth. Sea ice prevents warming to its high
albedo
Albedo (; ) is the measure of the diffuse reflection of solar radiation out of the total solar radiation and measured on a scale from 0, corresponding to a black body that absorbs all incident radiation, to 1, corresponding to a body that refl ...
and its ability to reflect the sunlight's rays. However, in the event of less sea ice the ocean then absorbs this heat and continues to increase further warming (
positive feedback loop
Positive feedback (exacerbating feedback, self-reinforcing feedback) is a process that occurs in a feedback loop which exacerbates the effects of a small disturbance. That is, the effects of a perturbation on a system include an increase in the ...
). This affects those animals that rely on sea ice (i.e. polar bears and some seal species).
Impacts on people
Economic impacts
Agriculture
A warmer climate will have its pros and cons for the Norwegian agriculture. Higher temperatures combined with new types of plants adapted to the milder climate may yield larger harvests and possibly making two harvests possible per year. The
impact of climate change will vary between regions as there are already today a lot of local differences in precipitation etc. An earlier time of snow melting in areas with a dry climate may lead to crops drying out and dying. In wetter regions, further increased precipitation may cause outbreaks of fungus invasion on crops.
Forestry
The productive forest in Norway is expected to increase considerably due to climate change, but not without complications. Mild winters will reduce the resistance of trees and their frost tolerance.
Freeze-thaw
Frost weathering is a collective term for several mechanical weathering processes induced by stresses created by the freezing of water into ice. The term serves as an umbrella term for a variety of processes such as frost shattering, frost wedg ...
cycles will also be more frequent during mild winters, damaging the trees. Pest invasions and diseases are expected to be more frequent as new pests can move rapidly northwards. It is also possible that insects will be able to reproduce one more generation per summer due to higher temperatures, so that for instance the European spruce bark beetle may damage spruce trees with an extra invasion per summer.
Social and cultural impacts
The Sami people maintain large herds of reindeer. As climate change progresses, the winters in
Sámi
The Sámi ( ; also spelled Sami or Saami) are a Finno-Ugric-speaking people inhabiting the region of Sápmi (formerly known as Lapland), which today encompasses large northern parts of Norway, Sweden, Finland, and of the Murmansk Oblast, Ru ...
have become less and less predictable. Increased temperatures lead to more frequent icing on the ground, leaving food inaccessible for the
reindeer
Reindeer (in North American English, known as caribou if wild and ''reindeer'' if domesticated) are deer in the genus ''Rangifer''. For the last few decades, reindeer were assigned to one species, ''Rangifer tarandus'', with about 10 sub ...
. Having to move the reindeer to new grazing areas is problematic because of conflicts related to area usage. Unstable early winters already present difficulties when moving the reindeer from the winter grazing areas to the summer grazing areas because lakes and rivers do not properly freeze. The increased humidity and temperature can favour insects and parasitic pests that target reindeer. However, the increased temperatures could have some positives for reindeer herding, as there may be increased plant growth and better food availability during summer grazing. Early springs can also extend the summer grazing season.
Mitigation and Adaptation
Policies and legislation
According to the World Economic Forum's Travel and Tourism Competitiveness Report 2015 (biannual report), Norway placed 9/141 in air transport infrastructure, 35/141 in quality of railroad infrastructure, 56/141 in ground and port infrastructure and 74/141 regarding the quality of roads.
However, recognizing that 1/3 of Norway's emissions are from transport, the National Transport Plan (NTP) has outlined specific goals to achieve an emission-free transport system;
By 2025, all new private cars, buses and light commercial vehicles should be zero-emission vehicles. New heavier vans, 75% of new long-distance buses and 50% of new trucks have until 2030 to achieve zero-emissions. Similarly, by 2030 40% of all ships in short sea shipping should be using biofuels or be at or below zero-emissions. Biofuels will annually replace 1.7 billion liters of fossil fuel by 2030. This alone provides a theoretical reduction in GHGs of ~5 million tons of equivalents.
Greenhouse gas emissions from equipment and raw materials for construction, operation, and maintenance of the infrastructure is targeted to be reduced by 40% by 2030.
Carbon capture and storage (CCS)
Currently, the Norwegian government has set the main goal of its CCS policy to identify measures that can contribute to technology development and cost reductions. Furthermore, they seek to construct at least one full-scale carbon capture demonstration plant by 2020.
This was made evident in their recent feasibility studies whereby the Minister of Petroleum and Energy (overall responsibility), Gassnova SF (project coordinator and capture storage) and Gassco AS (transport) identified three potential sites for full-scale CCS projects; a cement factory in Brevik (Norcem AS), an ammonia plan at Herøys in Porsgrunn (Yara Norge AS) and a waste recovery plant at Klemetsrud (Waste-to-Energy Agency in Oslo).
However, both Statoil and Gassnova consider an onshore facility, accessed by ship, and a pipeline to ‘Smeaheia’ to be the best solution for storage. In their statement they highlight that "the costs for planning and investment for such a chain is estimated at between 7.2-12.6 billion kroner (~US$852-1492 million) with an uncertainty of +/- 40% or better". Hence, a full-scale project will not be realised until at least 2022.
The Norwegian Government was expected to outline further plans for CCS in the 2017 state budget. CCS is a potential means of mitigating the effects of fossil fuel emissions to global warming and ocean acidification. However, given Norway's power supply is almost 100% renewable (majority coming from hydroelectricity) it is odd that they could also be depicted as world leaders when it comes to CCS technology. This can be explained by several key factors;
- Conflict between the large offshore oil and gas industry whose emissions are growing and the relatively high ambition in environmental protection expected by civil society and outlined in
climate and energy
In the 21st century, the earth's climate and its energy policy interact and their relationship is studied and governed by a variety of national and international institutions.
The relationships between energy-resource depletion, climate change, ...
policy targets
- During 1997-2005 there was discussions to introduce natural gas plants into the country's previously emissions-free power supply. This led to CCS becoming the only viable solution to overcome this political conflict.
- The realization of
enhanced oil recovery (EOR) upon installation of CCS technology led the oil and gas industry-led companies to start up CCS initiatives from the early 1990s (i.e. Statoil's pioneering storage project, separating from natural gas, at the
Sleipner gas field
Oil from the Sleipner field.
The Sleipner gas field is a natural gas field in the block 15/9 of the North Sea, about west of Stavanger, Norway. Two parts of the field are in production, Sleipner West (proven in 1974), and Sleipner East (1981) ...
in the North Sea).
Social policy
The
Norwegian government
The politics of Norway take place in the framework of a parliamentary, representative democratic constitutional monarchy. Executive power is exercised by the Council of State, the cabinet, led by the prime minister of Norway. Legislative power is ...
is attempting to tackle global warming directly through an array of national and international plans and policies. Norway has long pledged to play a leading role in negotiations towards a more ambitious international climate change agreement, using their starting point as limiting the average rise in global temperatures to no more than 2 degrees Celsius above pre-industrial levels (Figure 4). However, Norway is one of the largest exporters of carbon in traded fuels. On a per capita basis, Norway exports of carbon through traded fuels are five times larger than such exports from any other country in the World. Norway's effective contribution to global warming is a lot greater than emissions that are due to its domestic consumption only.
This became apparent when almost all countries in the world first became parties to the
United Nations Framework Convention on Climate Change (UNFCCC) in 1992. Despite global emissions rising since then, Norway's long-term goal has remained to become a
carbon neutral
Carbon neutrality is a state of net-zero carbon dioxide emissions. This can be achieved by balancing emissions of carbon dioxide with its removal (often through carbon offsetting) or by eliminating emissions from society (the transition to the "p ...
country by 2050 (with a conditional target of 2030) through the assistance of the EU emissions trading market, international cooperation on emissions reductions, emissions trading and project-based cooperation. This sentiment has been reflected through their ongoing commitments in international agreements as depicted below. However, this has not come without scrutiny as the country is often questioned for buying itself out of burdensome domestic environmental obligations by purchasing international quotas and offsetting emissions through the
EU trading scheme (despite not being a member of the EU).
Sovereign funding
Relevant to social policy considerations is the discussion around the use of The Government Pension Fund Global (GPFG). This is a fund where the surplus profit produced by Norwegian petroleum industry (oil and gas) is deposited. Previously called ‘
The Petroleum Fund of Norway
The Government Pension Fund of Norway ( no, Statens pensjonsfond) comprises two entirely separate sovereign wealth funds owned by the government of Norway.
The Government Pension Fund Global, also known as the Oil Fund, was established in 1990 t ...
’ when it was established in 1990, the fund changed its name in 2006. Norges Bank Investment Management (NBIM) manages the fund, which is part of the Norwegian Central Bank and on behalf of the Ministry of Finance. It is not a normal pension fund in the sense as its financial backing comes from oil profits rather than pensioners. This makes continued investment dependent on the survival of the oil industry, despite the world realizing fossil fuels directly contribute to global warming.
As of April 2017, the fund was valued at US$916.9 billion (NOK 7.827 trillion). This makes it the third largest pension fund in the world behind the Social Security Trust Fund (US – value US$2.837 trillion) and the Government Pension Investment Fund (Japan – US$1.103 trilion).
Due to the large size of the fund compared to the relative low population of Norway (~5.3 million in 2017), the fund has become a hot political issue. This includes whether the petroleum revenues should be used now rather than save for the future and if carrying out spending would cause inflation. Furthermore, there are arguments over whether the high level of exposure (62.5%) to the highly volatile stock market is financially safe or simply appropriate diversification. More importantly, in regards to global warming and ethical issues, the fund has been question on its investment policy.
There is large controversy over the investment policy as current and previous investments have included industries such as arms production, tobacco and fossil fuels. Despite having ethical guidelines that prohibit the investment in companies that directly or indirectly attribute to killing, torture, deprivation of freedom or other violations of human rights, the fund is still allowed to fossil fuel companies and a number of arms-producing companies (excluding nuclear weapons).
In 2014, there was significant pressure leading to a parliament investigation as to whether the fund should divest its coal assets in line with it ethical investment mandate. This resulted the fund divesting from energy companies that derive more than 30% of their revenues from coal, 53 companies in total. There is evidence however, that investment into coal actually grew during this period by simply shifting money to those companies who derive <70% of their revenues from coal (i.e. Glencore, BHP and Rio Tinto). In the same year the fund also increased its stake in 59/90 oil and gas companies in which it holds shares in excess of US$30 billion. This gravely disappointed campaigners who argue it should sell of all investments in the fossil fuel industry as they continue to drive global warming and climate change.
International cooperation
Developed nations like Norway have been instructed to take the lead in reducing their emissions and investing heavily in climate commitments as part of its partnership schemes with
developing nations
A developing country is a sovereign state with a lesser developed industrial base and a lower Human Development Index (HDI) relative to other countries. However, this definition is not universally agreed upon. There is also no clear agreeme ...
- particularly focusing on clean, renewable energy resources, climate change mitigation/adaptation and food security, primarily funded through the Norwegian Clean Energy for Development initiative launched in 2007 and the International Energy and Climate Change Initiative Energy+ (launched in 2011). For example, in 2010 Norway supported household installation of 80,000 solar home systems in Nepal.
Society and culture
Public perception and activism
There seems to be two stories, one about Norway wanting to be a world leader in global climate change and environmental issues whilst the other tends to favour Norway's oil and gas reserves, claiming that its necessary to extract more oil and gas because of high demand and in order to help the poor who in some parts of the world have no access to energy. This duality therefore sends a very polarised message to the Norwegian public and may be part of the reason why there is a lack of engagement or enthusiasm currently observed around the issue of climate change.
The scientific debate
Norwegians are not discussing whether or not climate change exists, as that is considered a certainty. Rather issues arise on the timescales at which human actions are affecting the planet and how quickly our planet responds to significant increases in greenhouse gas emissions, i.e. global warming of surface temperatures. The scientific community has even debated the sustainability of different climate technological solutions in the press, i.e.
carbon capture and storage
Carbon capture and storage (CCS) or carbon capture and sequestration is the process of capturing carbon dioxide (CO2) before it enters the atmosphere, transporting it, and storing it (carbon sequestration) for centuries or millennia. Usually th ...
,
bioenergy and
offshore wind power
Offshore wind power or offshore wind energy is the generation of electricity through wind farms in bodies of water, usually at sea. There are higher wind speeds offshore than on land, so offshore farms generate more electricity per amount of c ...
.
Increasingly, it is Norwegian climate researchers that are depicted as world leaders in several areas and have produced the most number of publications in the world (per capita). This is also demonstrated by the high numbers of Norwegian researchers serving as authors for the
Intergovernmental Panel on Climate Change (IPCC) working group reports and other prominent international research organisations.
Research on global warming is often being portrayed through the same journalistic principles as other news stories; newsworthiness and contested phenomena. Despite previous attempts at balanced reporting giving rise to a skewed perception of climate skepticism, the debate over anthropogenic climate change in Norway is quite progressive compared to others. So much so that you don't even see conservative politicians or media commentators question mainstream climate science anymore as to them it is clear that the planet is warming. Moreover, the main debate is centered on the timescale of change due to our impacts.
Public information systems
Norway is a small, politically stable Northern European country with a substantial welfare scheme. The Norwegian media landscape is also based on public and government-funded broadcasting where high uptake is considered important for citizen's knowledge on political issues. This, combined with Norway's access to energy resources, makes it a particularly interesting field of study. This is evident by the huge economic interests associated with the oil and gas industry, leading to the popularity of the Norwegian petro-industrial complex and a public discourse around
skepticism
Skepticism, also spelled scepticism, is a questioning attitude or doubt toward knowledge claims that are seen as mere belief or dogma. For example, if a person is skeptical about claims made by their government about an ongoing war then the p ...
towards climate science. On the other hand, Norwegians have had a long history of environmental concern given their stunning nature and widespread popular perception of renewable energy affluence thanks to large hydroelectric resources. This dualism has led to an undercurrent of doubt towards climate change and can pose the question: If the climate issue is such a threat, why aren't the politicians doing anything about it? Nonetheless, the government also gets very little credit for its climate policy.
In the past, most people believed that climate change was real. However, perceptions started to shift thanks to an emphasis on ‘balanced reporting’, whereby accounts of scientific controversy made the public ambiguous as to the urgency of the issue. Shifts in public attitude towards climate change have also been shaped by many other key factors. These include news media coverage of changes in nature (nature drama), coverage of presumed experts’ disagreement about global warming (science drama), critical attitudes toward media, observations of political inaction and consideration with respect to everyday life. This lead some to conclude that there is not a lack of public knowledge surrounding global warming,
rather that translating this knowledge into action can be regarded as problematic. People often indicated that their behaviour was constrained by a lack of infrastructure and mechanisms, higher prices of environmentally friendly goods, current design promoted private car usage and a lack of disincentives to pollute.
Furthermore, a lack of strong proactive policies by the government has fostered widespread frustration within the public arena, as messages of how to address global warming and climate change are often inconsistent. On the one hand it advocated for geographically remote technical fixes (i.e. CCS and
biofuels), whilst on the other hand, the public was asked to take on the prime responsibility of reducing emissions.
This mentality that there is a lack of visible political action is then often hard to change.
Examples of this include public calls for comprehensive policies for electric road transport (currently in force), better and cheaper modes of public transport, political guidance concerning energy efficiency in buildings and willingness to develop renewable energy technologies.
This led a study on young people to conclude that individual actions did "not matter much in the global context" and that authorities did not facilitate "contributions from ordinary citizens".
Furthermore, they highlighted that they think Norway does have a responsibility to help poor countries but also must mitigate the problem and reduce its own oil production simultaneously.
Another strand of research related to climate policy analysed whether support for international
climate action is conditional on perceptions of reciprocity. Some studies also suggest that public support for international climate change is more conditional in Norway than in the US or Canada, leading one to suggest that country size and dependence on fossil fuels may be more important than national traditions for multilateral cooperation in predicting unilateral climate action support. The latest opinion polls in Norway however have seen climate change jump to be the second-most important issue on the public's agenda. This is up from sixth place in 2010–2014.
See also
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Plug-in electric vehicles in Norway
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Regional effects of global warming
The effects of climate change impact the physical environment, ecosystems and human societies. The environmental effects of climate change are broad and far-reaching. They affect the water cycle, oceans, sea and land ice ( glaciers), sea le ...
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Climate change in Sweden
Climate change in Sweden has received significant public and political attention. Mitigating its effects has been high on the agenda of cabinets of the Governments of Sweden from 1996 through 2021. Sweden aims for an energy supply system with ...
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Climate change in Europe
Climate change in Europe has resulted in an increase in temperature of 1.9 °C (2019) in Europe compared to pre-industrial levels. Europe's climate is getting warmer due to anthropogenic activity. According to international climate experts ...
References
{{Europe topic, Climate change in
Norway
Norway, officially the Kingdom of Norway, is a Nordic country in Northern Europe, the mainland territory of which comprises the western and northernmost portion of the Scandinavian Peninsula. The remote Arctic island of Jan Mayen and the ...