Jump to content

Climate change in Spain

From Wikipedia, the free encyclopedia

Climate change has caused temperatures in the world to rise in the last few decades, and temperatures in Europe have risen twice as fast as the average change in the rest of the world.[1] In Spain, which already has a hot and dry climate, extreme events such as heatwaves are becoming increasingly frequent.[2][3] The country is also experiencing more episodes of drought and increased severity of these episodes.[4] Water resources will be severely affected in various climate change scenarios.[5]

To mitigate the effects of climate change, Spain is promoting an energy transition to renewable energies, such as solar and wind energy.[6] In 2021, to support this process, the government approved a law on climate change and energy transition.[7]

Spanish society as a whole is one of the most climate change conscious societies in the EU.[8] Due to the effects of global warming, Spanish society is demanding stronger measures.[9]

Greenhouse gas emissions

[edit]
Annual Greenhouse gas emissions (not including land use change)

Four sectors generate 90% of emissions: transport, industry, agriculture and energy.[10]

Greenhouse gas emissions by sector

Per capita CO2 emissions (not including land use change) were 5 tonnes in 2021.[11] Spain accounts for 9% of the total CO2 emissions in the European Union.[12] CO2 emissions are dominated by the combustion of fossil fuels for transport and electricity generation, and by the industrial production of materials such as cement.[13]

Fossil fuels

[edit]

A large part of Spain's energy demand comes from fossil fuels, which account for over 70% of the total. In 2021 oil was responsible for 60% of the emissions and natural gas 30% of emissions.[14][page needed][15]

Transportation

[edit]

Greenhouse gas emissions are the highest in the transportation sector, accounting for 27% of total GHG emissions.[16] Of that, 90% of emissions come from road transport, with light-duty vehicles, such as passenger cars and motorbikes, contributing 66% and heavy trucks and buses accounting for the remaining 34%.[17]

Electricity generation

[edit]

Spain is considered an energy island, as its electricity import and export capacity is very limited, at 2.8 GW with France and 3.70 GW with Portugal.[18]

In 2022 coal-fired power plants emitted 15% of the CO2 from electricity generation,[18] but these will be shut down by 2030.[15] Almost all the rest is from gas-fired power plants.[18]

In the Balearic Islands electricity production is mainly natural gas and some solar energy, while the Canary Islands produce almost all their electricity with oil.[18]

Agriculture and waste

[edit]

Agriculture produces two potent greenhouse gasses: nitrous oxide and methane.[13]

Impacts on the natural environment

[edit]

Temperature and weather changes

[edit]
Warming stripes: Spain 1901-2020
Köppen climate classification map for Spain for 1980–2016
2071–2100 map under the most intense climate change scenario. Mid-range scenarios are currently considered more likely[19][20][21]

Between 1965 and 2015 the average temperature rose by 1.5 °C (2.7 °F).[2] According to Aemet the frequency of heatwaves have doubled since 2010. Between 1980 and 2000 were 10 to 12 heatwaves per decade, whereas between 2010 and 2020 there were 24. The duration of these heatwaves will also be longer, with at least 41 days of extreme heat predicted in 2050 and, in the worst emissions scenario, 50 days. Compare this to heatwaves in 1971-2000 when the average number of days was 21 days annually.[3]

Based on the IPCC reports, different scenarios have been developed in order to study the future climate. The AEMET (Spanish meteorology agency) has studied how three of these would affect the Spanish climate through the year 2100: RCP 4.5, RCP 6, and RCP 8.5. The first scenario (RCP 4.5) envisages an increase in greenhouse gas emissions for several more decades, before stabilising and then decreasing before the end of the century. The RCP 8.5 scenario models the most extreme case, with no regulation of greenhouse gas emissions.[22]

In the best-case scenario (RCP 4.5), between 2081 and 2100 the annual maximum temperature would increase 2–4 °C (3.6–7.2 °F), with an uncertainty of 0.5–1.5 °C (0.90–2.70 °F).[22] In RCP 6.0 that becomes an increase of 1-4 °C ± 0.5-1.5 °C (1.8–7.2 °F ± 0.90–2.70 °F) between 2046 and 2065, and of 3–5 °C (5.4–9.0 °F) between 2081 and 2100.[22]

In the worst-case scenario (RCP 8.5), the annual maximum temperature increases of 4–7 °C (7.2–12.6 °F) are expected for 2081–2100. In this scenario there is an uncertainty of 1.5–3 °C (2.7–5.4 °F).[22]

Changes are also predicted regarding precipitation. In scenario RCP 4.5, predicted changes for the years 2081-2100 range from +10% (in specific localised regions) to -20% with an uncertainty of up to 30%. Whereas in scenario RCP 8.5 the expected annual precipitation change varies from +10% to -30% with uncertainties of 10-30% between 2081 and 2100.[22]

Extreme weather events

[edit]

Heatwaves

[edit]

Of Spain's many heat waves, some that stand out are:[23]

  • 2017 for being the year with most heat waves, having had 5, totaling 25 days - 1991 and 2016 had 4 heat waves each.
  • 2003 for having had the hottest summer ever recorded with an average national temperature of 24.94 °C (76.89 °F), and for having had the longest heatwave at the time. This 16 day heatwave caused thousands of deaths in Europe.
  • 2015 for having the longest heat wave which lasted for 26 days, ten days more than the previous record holder.
  • 2012 for having the most extensive heatwave. On August 10, it affected 40 out of 50 provinces.

Climate change made the April 2023 heatwave at least 100 times more likely.[24] The previous year (2022) heatwaves killed almost 4,000 people in Spain.[25]

Heatwaves from 1901 to 2010

Winter of 2022-2023

[edit]

The winter of 2022-2023 was, in general, hot and humid. December 2022 was the hottest December in the historical record, with the winter being the fifth hottest of the 21st century.[26]

Meteorological drought

[edit]

In March 2022 AEMET analysed the previous 12 months and found that peninsular Spain has been in a meteorological drought since January 2022. These events are probably made more likely by climate change.[26]

Water resources

[edit]

The annual precipitation was 601.2 mm (23.7 in) between 1991 and 2020, and may decrease by 64.52 mm (2.5 in) in 2040–2059.[2] The effect that climate change has on water resources can be worse in regions that already have low water resources levels and recurring droughts.[5]

According to existing climate change scenarios, Spain's water resources will be severely affected. However, these effects are difficult to accurately measure due to the natural variability of the water cycle and the impact of water usage on flow rates. As a result, enhancing the assessment of climate change impacts by hydrological simulation models is needed.[5]

River basin districts with a higher water exploitation index appear to experience more significant reductions in mean annual runoff. If the predicted climate change scenarios in Spain materialize, the traditional measures used to combat water scarcity must be applied more intensely and in ways consistent with regional effects on water resources. Policymakers in Spain face the challenge of understanding the impact of climate change and devising and executing policies that guarantee the best adaptation to the expected decrease in water resources in the most impacted regions, particularly those already facing water scarcity.[5]

Water resources in Spain are expected to experience temperature increases, more frequent and severe droughts and floods, and decreases in river flows, resulting in reduced water availability. These impacts may aggravate existing conflicts between Spanish regions and further elevate water as a potential powerful political tool.[27]

Sea level rise

[edit]

The Ebro Delta is a significant wetland area in the western Mediterranean, about 40% of the delta plain is less than 0.5 metres (20 in) above mean sea level, and parts of the southern margin are at mean sea level but protected by dikes. The delta may see a sea level rise of at least 3 mm (18 in) per year.[28] The government is investing millions of euros into shifting sediments to alleviate the impacts of erosion, however this is not seen as a long-term solution.[29]

To offset negative impacts from waterlogging and saltwater intrusion, and to maintain land elevation, future management plans should consider the relative sea level rise. Plans will also need to regulate freshwater and sediment flows from the river. Doing this will entail the partial removal of sediments trapped behind the Ribarroja Dam and Mequinença Dam, as the stocks and inputs of sediments in the corresponding reservoirs are sufficient to elevate the delta plain by around 50 cm (20 in).[28]

Coastal measurements indicate that the global mean sea level has risen at a rate of 1.8 mm (116 in) per year from 1950 to 2000, with regional variability. Gauge records in the Bay of Biscay indicate that sea-level rise is accelerating, which is in line with rates observed from satellite imagery in the open ocean since 1993.[30]

Coastal habitats have been mapped via historical airborne photography since 1954 and via high-resolution imagery since 2004. The analysis of tide gauge records from Santander in northern Spain shows that relative mean sea level has been rising at a rate of 2.08 ± 0.33 mm (0.082 ± 0.013 in) per year from 1943 to 2004, consistent with trends from measurements elsewhere in the region. Using a LIDAR-based DTM, the study predicts an 11.1 ha (27 acres) sea-level rise in the Gipuzkoan coast within a 50-year period. However, only 2.95 hectares (7.3 acres) change was detected from historical and recent orthophotography, possibly due to sea-level rise. While 98 hectares (240 acres; 0.98 km2; 0.38 sq mi) were transformed by human impacts, suggesting that human impact poses a greater threat to Basque coastal and estuarine habitats than natural erosive processes and global climate change.[30]

Biodiversity

[edit]

A study conducted in northeast Spain concluded that the disappearances of white-clawed crayfish, Mediterranean barbel, chub, European eel, and southern water vole were clearly related to the hydrological changes of the studied stream. The study suggested that no other factors could explain their disappearance: there is no industrial or agrarian sewage in the Olzinelles valley that could cause water quality to deteriorate; the industrial pollution in the river Tordera has been reduced by the construction of sewage treatment plants and other administrative measures; these species had no market value in the study area, and fishing and capturing were occasional, making it unlikely that negative effects on their populations resulted from these activities. Additionally, the human pressure on these species has decreased over the years, as the valley's population dropped by 76% from 1924 to 2007.[31]

The disappearance of white-clawed crayfish in the Olzinelles stream may have been due to the loss of water flow or from the impact of red swamp crayfish. The red swamp crayfish became one of the most widespread invasive species in Spain after its introduction to streams in the Montnegre Mountains in 1989. Though as of 2011 surveys conducted in the Olzinelles stream had not found the crayfish, which was believed related to the absence of water.[31]

Impacts on people

[edit]

Economic impact

[edit]

Tourism

[edit]

Although the scientific community has made significant progress in predicting the magnitude and regional variation of climate change in upcoming decades, it is remains challenging to estimate the economic costs of climate change. The challenge mainly lies in the uncertainties of future climate change and economic projections, as well as the intricacies of connecting physical impacts and economic processes.[32]

As many of the tourist activities in Spain are weather-dependent, the industry may be strongly impacted by climate change. It has been projected that the Tourist Climate Index (TCI), which was 'excellent' and 'very good' during the summers (June–August) of 1961 through 1990, will become 'acceptable' around Spain, and 'good' and 'very good' in the north of the country for the years 2051–2080.[32]

Agriculture impact

[edit]

Climate change impacts are being observed globally, with certain regions that are already water scarce having higher levels of vulnerability. Spain is predicted to be highly vulnerable because of uneven availability of water resources, and due to existing demands. As a result of its geographic and socio-economic characteristics, Spain is regarded as one of the most vulnerable countries to climate change in the European Union. Models forecast further increases in temperature and reductions in precipitation, which will likely have a profound impact on the region.[33]

Desertification, one of the most significant impacts of climate change in Spain, poses a significant threat to a substantial portion of the country. Over 30% of the area is already severely impacted by desertification, with human activity in arid regions exacerbating the situation. Causes of desertification include forest fires, loss of vegetation cover, erosion, and salinization processes. Climate change projections predict an exacerbation of these issues, particularly in regions with a dry and semi-arid Mediterranean climate.[33]

The agricultural sector is responsible for about 10% of greenhouse gas emissions in Spain. Livestock, particularly pig manure management, accounts for over half the emissions, while crop systems account for the remainder. While agriculture has shown the ability to adapt to long term changes, the magnitude of the changes due to climate change is likely to exceed the adaptive capacity of many European farmers. Therefore, sustainable agriculture requires the synergy of adaptation and mitigation, with no clear separation between them. The Spanish agriculture sector has already implemented several measures aimed at reducing emissions, improving knowledge about them, and introducing energy efficiency criteria in modernizing irrigation systems.[33]

Climate change will have significant impacts on agriculture, ecosystems, and biodiversity, resulting in alterations to Spain's characteristics, accentuating the existing desertification issues, reducing water availability, increasing costs of adaptation measures, and potentially causing future problems such as pests, invasive species, and reduced crop yields. While agriculture is responsible for significant emissions, the efforts being made to address this also recognize its role as a carbon sink.[33]

Health impacts

[edit]

Between 1998 and 2012 over three thousand people died annually due to heatwaves. In the worst-case scenario that number could become 14,500 in 2035-2064 and over 30,000 between 2070 and 2099.[3]

Rising temperatures, ozone levels, and particulate matter concentrations, particularly in urban areas, have been found to increase heat stress, leading to higher risk of death from various health conditions including ischaemic heart disease, stroke, metabolic disorders, and kidney disease. The health impacts of climate change may disproportionately affect groups such as people with chronic illnesses, the elderly, children, and people who are pregnant.[34]

Mitigation and adaptation

[edit]

Renewable energy

[edit]

The Institute for the Diversification and Saving of Energy (IDAE) is a public entity that has, since its origin, been in charge of the promotion of renewable energies. The IDAE was in charge of carrying out the National Renewable Energy Action Plan 2011–2020, which achieved the 2020 renewable energy objectives, thereby complying with the EU directive to have 20% of energy consumption come from renewable sources. The organization is also charged with meeting the new target of 27% renewable energy by 2030, the commitment the EU made at the Paris climate change conference in 2016 in order to limit the global temperature increase to 1.5 °C (2.7 °F). This support and promotion of renewable energies by Spain and the EU has reduced their costs, especially solar and wind power, turning them into competitive technologies as in some cases they are cheaper than fossil fuels.[6]

Photovoltaic system at the roof of the event center KOM in Altach

The contribution of renewable energies to the electricity generation mix approaches 40%,[6] as Spain has about 3000 hours of sunlight per year, making it one of the sunniest countries in Europe and one with large solar resources.[35] Solar energy generation had a record year in Spain in 2022, growing by 33% and becoming the fourth largest source of electricity. With a generation of 28,000 GWh, and an increase in installed capacity of 3.4 GW, solar energy has seen the greatest growth in production capacity.[36]

Another sector with strong growth is solar energy for self-consumption, which, with an installed capacity of 2,507 MW compared to 1,203 MW in 2021, saw growth of 108%. Spain has an installed self-consumption capacity totaling 5,249 MW. This boom has largely been possible due to a progressive elimination of barriers and local incentives.[37]

PS10 solar power tower

In Europe, Spain comes second in terms of wind energy generation and the fourth in terms of installed capacity with a capacity of 30.8 GW. The world's leading renewable energy producer, one of the five largest electricity companies in the world, is Spanish and the leading solar thermal companies are also Spanish. Spain has the largest installed capacity of solar thermal power in the world, with commercial operation in all four currently available technologies: tower, enclosed-parabolic trough, fresnel and dishes.[6]

Control Centre of Renewable Energies (CECRE) is the world's leading renewable energy control centre, which is responsible for ensuring the integration of large shares of renewables into the electricity sector and markets, which presents challenges due to intermittency. Another problem is that Spain is an energy island, as its small electricity interconnection with France does not allow the exchange of energy with the rest of the European continent. The CECRE is the first national control centre in the world dedicated exclusively to monitoring and controlling renewable energy production, maximising its integration, and guaranteeing the security of the electricity system.[6]

There is also the special case of El Hierro, which uses 100% renewable energy. It is a self-sufficient and sustainable island with a hybrid system of wind and hydro energy that covers the entire energy demand of the island. El Hierro stores the surplus wind energy by means of hydroelectric power.[6]

Transportation

[edit]

The transportation sector has the highest energy consumption in Spain, accounting for 40.4% of the total demand. Of that demand road transport accounts for 81.3%, the vast majority of which uses imported oil. This energy dependence cost approximately €40 billion in 2014, equivalent to 3.8% of Spain's GDP, with consequent problems for the economy, environment, and energy security.[38]

In order to solve this problem, policies have been established at the national level, with a special focus on trucks, private cars, and buses, which account for the largest share of road transport consumption. Spain approved the Strategy for Boosting Alternative Energy in 2015 and the National Action Framework for the development of the market and the infrastructures for alternative fuels in the transport sector in 2016. These measures are structured according to 3 priorities: infrastructure, market and industrialisation.[38]

Spain has several factories that produce alternative fuels for vehicles, as well as companies that produce the infrastructure equipment for recharging. Electric vehicles on Spanish roads account for less than 1% of all vehicles, although the number of electric vehicles has been increasing. For the promotion of these electric vehicles, and more sustainable transport in general, the Spanish government has launched the MOVES III Plan. The plan, provides direct aid to electric vehicles and charging infrastructure, has a €400 million budget, with the option to increase it to €800 million depending on demand.[39]

The beneficiaries of the MOVES III Plan can be individuals or companies, as long as they purchase an electric vehicle, a plug-in hybrid, or an electric vehicle with a long range. The price of the vehicle must be less than €45,000, and the maximum aid is €7,000.[39]

Renfe Series 100 train at Seville-Santa Justa railway station

Spain is the European leader in sustainable rail transportation, as its 3,100 km (1,900 mi) of high speed train tracks are the most extensive high speed network in Europe. Reaching speeds of 310 km/h (190 mph), it possible to connect the North and South of the country in 5 hours.[40] Also 90% of the vehicles using compressed natural gas are public buses, and use in taxis is increasing in some metropolitan areas.[38]

Policies and legislation

[edit]

On September 11, 2019, Spain declared a climate emergency.[41]

In 2021, the Spanish parliament approved a law on climate change and energy transition that calls for a 23% reduction of emissions by 2030 (compared to 1990 levels) and carbon neutrality by 2050. By or before 2030 all coal-fired power plants will have been shut down and coal-phase out is supported by EU funds for a just transition.[15] By 2040 Spain plans to limit car sales to electric vehicles.[42]

On 20 May 2021, The Climate Change and Energy Transition Law went into force; the law requires reaching climate neutrality by 2050 at the latest. Article 3 establishes the long-term objective of decarbonising the economy by 2050 with a 100% renewable electricity system. In addition, the law establishes a series of shorter term objectives, including: reducing greenhouse gas emissions at least 23% by 2030, compared to 1990 levels; achieving 42% renewable energy in energy consumption and 74% renewable energy in electricity generation; as well as reducing energy consumption by 39.5% by improving energy efficiency.[7]

The law also prohibits authorisations for hydrocarbon exploration and exploitation, instead establishing direct subsidies for biogas, biomethane, hydrogen and other renewable fuels. By 2040 new commercial vehicles must all be zero emission and by 2023[needs update] all municipalities with more than 50,000 inhabitants, and all islands, must implement their own climate change mitigation measures.[7]

Law 7/2021 on climate change and energy transition establishes 7 main objectives:[43]

  • Carbon neutrality by 2050
  • Reduce emissions by at least 55% by 2030, compared to 1990
  • Reduce greenhouse gas emissions at least 23% compared to 1990 levels
  • Reduce greenhouse gas emissions at least 55% by 2030, compared to 1990 levels
  • Improve energy efficiency at least 39.5%
  • Renewable energies should account for at least 74% of electricity generation by 2030
  • Renewable energies should account for at least 42% of energy consumption by 2030

Paris Agreement

[edit]

Spain signed the Paris Agreement on 22 April 2016 and ratified it on 12 June 2017. Prior to this agreement, Spain had signed the Kyoto Protocol on 29 April 1998, which was ratified on 31 May 2002.[44] The last annual conference on climate change took place in Madrid in December 2019.[45]

On 23 March 2023, Teresa Ribera, Vice President of the Spanish Government, and Fatih Birol, International Executive Director of the International Energy Agency, announced Madrid will host an international climate and energy summit on 2 October 2023. The goal of the summit is to build a coalition to maintain the commitment reached in the Paris agreement—limiting the global temperature increase to below 1.5 °C (2.7 °F).[46]

According to the IEA, global CO2 emissions need to peak before 2025, and drop to net zero by 2050, to prevent global temperatures from rising by more than 1.5 °C (2.7 °F). The summit is confirmation of the Paris agreement and will be useful to provide global decision-makers with the opportunity to send a signal of strength for our common future.[46]

In the words of Fatih Birol, the meeting in Madrid will be "the moment to come together in a grand coalition of all stakeholders – encompassing governments, the energy industry, investors and civil society – that are genuinely committed to reducing emissions while safeguarding energy security. We need to send a strong message ahead of COP28 that the 1.5 °C goal is still alive."[46]

Society and culture

[edit]

Public awareness

[edit]

As the effects of climate change are being felt more in Spain than in central and northern European countries, Spanish society is more concerned about climate change than countries traditionally considered environmentalist such as Germany or Sweden.[8]

In Spain 82% of people think that climate change is the biggest challenge for humanity in the 21st century. Furthermore, 81% of Spanish people believe that climate change has an impact on their lives, versus 77% of Europeans in general. A majority of Spanish people also believe that their country should rely more on renewable energies.[9]

Spanish people also think that the governmental measures are too flexible and that they allow individuals and companies to avoid changing their behaviour. Therefore 58% of Spanish people think that Spain will not succeed in reducing greenhouse gas emissions as set out in the Paris agreement.[9]

Among the most popular Spanish solutions against climate change are: educating and improving children's concern for sustainable consumption; the creation of a specific tax for those products and services that contribute the most to climate change; and eliminating short-haul flights, instead promoting high-speed trains.[9]

Activism

[edit]

Climate movements in Spain are growing especially among the youth. A slogan used by a wide range of civil society groups including climate activists, workers' unions and fair housing movements is that "without sustainability there is no social justice."[47]

Spanish environmental activists have spoken out against plans to expand airports in Madrid and Barcelona; the organisers of these protests have united around a platform called Zeroport.[47]

The Fridays for Future movement has also become very popular in Spain. The first demonstration took place at the University of Girona and quickly spread to the rest of the country.[48]

In 2019, half a million people took to the streets because of climate change.[47]

See also

[edit]

References

[edit]
  1. ^ Horton, Helena (2022-11-02). "Europe's climate warming at twice rate of global average, says report". The Guardian. ISSN 0261-3077. Retrieved 2023-05-30.
  2. ^ a b c "World Bank Climate Change Knowledge Portal". World Bank Climate Change Knowledge Portal. Retrieved 2021-08-17.
  3. ^ a b c Medina, Miguel Ángel; Tasca, Elisa (2021-08-12). "Weather experts on Spain's heatwave: 'A summer like this will be considered cold in 30 years' time'". EL PAÍS. Retrieved 2021-08-17.
  4. ^ Pleitgen, Fred; Otto, Claudia; Paddison, Laura (2023-05-02). "Disappearing lakes, dead crops and trucked-in water: Drought-stricken Spain is running dry". CNN. Retrieved 2023-05-30.
  5. ^ a b c d T. Estrela; M.A. Pérez-Martin; E. Vargas (2012). "Impacts of climate change on water resources in Spain". Hydrological Sciences Journal. 57 (6): 1154–1167. doi:10.1080/02626667.2012.702213.
  6. ^ a b c d e f "Renewable energies in Spain". Institute for the Diversification and Saving of Energy.
  7. ^ a b c IEA. "Climate change and energy transition law".
  8. ^ a b "Spain, among the countries with the greatest awareness of climate change". CO2 Revolution. 14 February 2023.
  9. ^ a b c d European Investment Bank. "81% of Spanish people in favour of stricter government measures imposing behavioural changes to address the climate emergency".
  10. ^ "Spain | Greenhouse Gas Emissions: An analysis by region". BBVA Analysis.
  11. ^ "Annual CO2 emissions". Our World in Data.
  12. ^ "EU progress on climate action - How are the Member States doing? Climate action in Spain" (PDF).
  13. ^ a b Hannah Ritchie; Max Roser (11 May 2020). "Spain: CO2 Country Profile". Our World in Data.
  14. ^ "Spain 2021: Energy Policy Review" (PDF). International Energy Agency.
  15. ^ a b c "Press corner". European Commission - European Commission. Retrieved 2023-06-04.
  16. ^ European Parliament. "EU progress on climate action – How are the Member States doing?" (PDF). Retrieved 16 April 2023.
  17. ^ Paula Perez-Lopez; Carles M. Gasol; Jordi Oliver-Sola; Sagrario Huelin; Maria Teresa Moreira; et al. (September 2013). "Greenhouse gas emissions from Spanish motorway transport: Key aspects and mitigation solutions". Energy Policy. 60: 705–713. doi:10.1016/j.enpol.2013.04.075 – via HAL open science.
  18. ^ a b c d "Electricity Maps". Electricity Maps.
  19. ^ Hausfather, Zeke; Peters, Glen (29 January 2020). "Emissions – the 'business as usual' story is misleading". Nature. 577 (7792): 618–20. Bibcode:2020Natur.577..618H. doi:10.1038/d41586-020-00177-3. PMID 31996825.
  20. ^ Schuur, Edward A.G.; Abbott, Benjamin W.; Commane, Roisin; Ernakovich, Jessica; Euskirchen, Eugenie; Hugelius, Gustaf; Grosse, Guido; Jones, Miriam; Koven, Charlie; Leshyk, Victor; Lawrence, David; Loranty, Michael M.; Mauritz, Marguerite; Olefeldt, David; Natali, Susan; Rodenhizer, Heidi; Salmon, Verity; Schädel, Christina; Strauss, Jens; Treat, Claire; Turetsky, Merritt (2022). "Permafrost and Climate Change: Carbon Cycle Feedbacks From the Warming Arctic". Annual Review of Environment and Resources. 47: 343–371. doi:10.1146/annurev-environ-012220-011847. Medium-range estimates of Arctic carbon emissions could result from moderate climate emission mitigation policies that keep global warming below 3°C (e.g., RCP4.5). This global warming level most closely matches country emissions reduction pledges made for the Paris Climate Agreement...
  21. ^ Phiddian, Ellen (5 April 2022). "Explainer: IPCC Scenarios". Cosmos. Archived from the original on 20 September 2023. Retrieved 30 September 2023. "The IPCC doesn't make projections about which of these scenarios is more likely, but other researchers and modellers can. The Australian Academy of Science, for instance, released a report last year stating that our current emissions trajectory had us headed for a 3°C warmer world, roughly in line with the middle scenario. Climate Action Tracker predicts 2.5 to 2.9°C of warming based on current policies and action, with pledges and government agreements taking this to 2.1°C.
  22. ^ a b c d e "Regionalización AR5-IPCC. Mapas de proyecciones. Regionalización estadística análogos. Peninsula y Baleares". AEMET (in Spanish).
  23. ^ "Heatwaves" (PDF). AEMET.
  24. ^ Carrington, Damian (2023-05-05). "April Mediterranean heatwave 'almost impossible' without climate crisis". The Guardian. ISSN 0261-3077. Retrieved 2023-06-04.
  25. ^ "Climate change is already killing us, but strong action now can prevent more deaths". World Health Organization. Retrieved 7 July 2023.
  26. ^ a b "España finaliza el invierno con una sequía de larga duración". AEMET (in Spanish).
  27. ^ Elisa Vargas-Amelin; Pablo Pindado (10 October 2014). "The challenge of climate change in Spain: Water resources, agriculture and land". Journal of Hydrology. 518B: 179–278. Bibcode:2014JHyd..518..243V. doi:10.1016/j.jhydrol.2013.11.035.
  28. ^ a b Carles Ibàñez; Antoni Canicio; John W. Day; Antoni Curcó (1997). "Morphologic Development, Relative Sea Level Rise and Sustainable Management of Water and Sediment in the Ebre Delta, Spain". Journal of Coastal Conservation. 3 (2): 191–202. doi:10.1007/BF02905244. JSTOR 25098268. S2CID 195277039.
  29. ^ Nathan Siegel (5 July 2023). "Can Spain keep the rising sea from washing away a critical delta?". Mongabay. Retrieved 7 July 2023.
  30. ^ a b Guillem Chust; Ángel Borja; Pedro Liria; Ibon Galparsoro; Marta Marcos; Ainhoa Caballero; Raúl Castro (2009). "Human impacts overwhelm the effects of sea-level rise on Basque coastal habitats (N Spain) between 1954 and 2004". Estuarine, Coastal and Shelf Science. 84 (4): 453–462. Bibcode:2009ECSS...84..453C. doi:10.1016/j.ecss.2009.07.010.
  31. ^ a b Iago Otero; Martí Boada; Anna Badia; Eduard Pla; Jordi Vayreda; Santi Sabaté; Carles A. Gracia; Josep Peñuelas (January 2011). "Loss of water availability and stream biodiversity under land abandonment and climate change in a Mediterranean catchment (Olzinelles, NE Spain)". Land Use Policy. 28 (1): 207–218. doi:10.1016/j.landusepol.2010.06.002.
  32. ^ a b Lars Hein; Marc J Metzger; Alvaro Moreno (December 2009). "Potential impacts of climate change on tourism; a case study for Spain". Current Opinion in Environmental Sustainability. 1 (2): 170–178. Bibcode:2009COES....1..170H. doi:10.1016/j.cosust.2009.10.011.
  33. ^ a b c d Elisa Vargas-Amelin; Pablo Pindado (10 October 2014). "The challenge of climate change in Spain: Water resources, agriculture and land". Journal of Hydrology. 518B: 243–249. Bibcode:2014JHyd..518..243V. doi:10.1016/j.jhydrol.2013.11.035.
  34. ^ Jason Glaser; Jay Lemery; Balaji Rajagopalan; Henry F Diaz; Ramón García-Trabanino; Gangadhar Taduri; Magdalena Madero; Mala Amarasinghe; Georgi Abraham; Sirirat Anutrakulchai; Vivekanand Jha; Peter Stenvinkel; Carlos Roncal-Jimenez; Miguel A Lanaspa; Ricardo Correa-Rotter; David Sheikh-Hamad; Emmanuel A Burdmann; Ana Andres-Hernando; Tamara Milagres; Ilana Weiss; Mehmet Kanbay; Catharina Wesseling; Laura Gabriela Sánchez-Lozada; Richard J Johnson (August 2016). "Climate Change and the Emergent Epidemic of CKD from Heat Stress in Rural Communities: The Case for Heat Stress Nephropathy". Clinical Journal of the American Society of Nephrology. 11 (8): 1472–1483. doi:10.2215/CJN.13841215. PMC 4974898. PMID 27151892.
  35. ^ "2022 a brilliant year for solar photovoltaic energy". Red Electrica. Retrieved 6 July 2023.
  36. ^ "Wind and solar photovoltaic electricity generation break records in Spain in 2022". Red Electrica. Retrieved 6 July 2023.
  37. ^ "Photovoltaic self-consumption installed in Spain grew by 108% compared to 2021". Global Solar Council. Retrieved 6 July 2023.
  38. ^ a b c Segurado, Pilar de Arriba; Barquero, Carlos García. "Opportunity of DAFI to ensure a more efficient and sustainable transport in the EU. The Spanish case".
  39. ^ a b "MOVES III Plan: What the subsidy is for and who can benefit from it?". LRP Energy (Blog).
  40. ^ "Sustainable Transport". Renfe.
  41. ^ "LA DECLARACIÓN DEL GOBIERNO ANTE LA EMERGENCIA CLIMÁTICA Y AMBIENTAL" (PDF). Ministry for the Ecological Transition and the Demographic Challenge. Retrieved May 23, 2023.
  42. ^ "Spain at last adopts promised law on becoming carbon neutral". AP NEWS. 2021-05-13. Retrieved 2021-08-17.
  43. ^ Research institute of climate change and environment. "Law 7/2021 on climate change and energy transition".
  44. ^ "Spain". United Nations Climate Change.
  45. ^ "Spain rolls out ambitious new climate legislation". windflix. Retrieved 22 May 2020.
  46. ^ a b c "Spain and IEA to host international Climate and Energy Summit in October aimed at building grand coalition to keep 1.5 °C within reach". IEA.
  47. ^ a b c "How do Spanish activists push for climate action amidst economic recovery?". Clean energy wire. 29 September 2021. Retrieved 7 July 2023.
  48. ^ "The Fridays for Future Movement in Spain". Seeing the Woods. 2020-01-08.