Informe El medio ambiente en Europa: Estado y perspectivas 2020

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Fång, J., et al., 2015, ‘Spatial and temporal trends of theStockholm Convention POPs in mothers’ milk — a globalreview’, Environmental Science and Pollution Research 22(12),pp. 8989-9041 (DOI: 10.1007/s11356-015-4080-z).Helmholtz Centre for Environmental Research, 2018,‘Protecting Water Resources from Mobile Trace Chemicals —PROMOTE, a Water JPI project’ (http://www.ufz.de/promote/)accessed 4 January 2019.Gabbert, S. and Hilber, I., 2016, ‘Time matters: a stockpollutionapproach to authorisation decision-makingfor PBT/vPvB chemicals under REACH’, Journal ofEnvironmental Management 183, pp. 236-244 (DOI: 10.1016/j.jenvman.2016.08.038).Geiser, K., 2015, Chemicals without Harm | The MIT Press,MIT Press.Gercken, J., et al., 2018, Hazardous substances occurrence inBaltic Sea pilot municipalities. NonHazCity Major output from thetracking and ranking for priorisation of sources in NonHazCityproject, City of Stockholm Environmental Department (http://nonhazcity.eu/wp-content/uploads/2017/03/Report_D2.4_CC2018_final.pdf) accessed 3 June 2019.Glüge, J., et al., 2017, ‘Import, use, and emissions of PCBs inSwitzerland from 1930 to 2100’, PloS ONE 12(10), p. e0183768(DOI: 10.1371/journal.pone.0183768).Grandjean, P. and Bellanger, M., 2017, ‘Calculation of thedisease burden associated with environmental chemicalexposures: application of toxicological information in healtheconomic estimation’, Environmental Health 16(1), p. 123(DOI: 10.1186/s12940-017-0340-3).Grandjean, P. and Landrigan, P. J., 2014, ‘Neurobehaviouraleffects of developmental toxicity’, The Lancet Neurology 13(3),pp. 330-338 (DOI: 10.1016/S1474-4422(13)70278-3).Gross, L. and Birnbaum, L. S., 2017, ‘Regulating toxicchemicals for public and environmental health’, PLOS Biology15(12), p. e2004814 (DOI: 10.1371/journal.pbio.2004814).Hallmann, C. A., et al., 2014, ‘Declines in insectivorous birdsare associated with high neonicotinoid concentrations’,Nature 511(7509), pp. 341-343 (DOI: 10.1038/nature13531).Huber, S., et al., 2016, ‘A first screening and risk assessmentof pharmaceuticals and additives in personal care productsin waste water, sludge, recipient water and sediment fromFaroe Islands, Iceland and Greenland’, Science of the TotalEnvironment 562(9038), pp. 13-25(DOI: 10.1016/j.scitotenv.2016.03.063).JRC, 2016, Non-harmonised food contact materials in the EU:regulatory and market situation. BASELINE STUDY Final report(https://ec.europa.eu/jrc/en/publication/eur-scientific-andtechnical-research-reports/non-harmonised-food-contactmaterials-eu-regulatory-and-market-situation-baseline-study)accessed 23 August 2019.JRC, 2018, ‘Major accident reporting system’, EuropeanCommission Joint Research Centre (https://emars.jrc.ec.europa.eu/en/emars/content) accessed 19 October 2018.Kar, S., et al., 2017, ‘Endocrine-disrupting activity of per- andpolyfluoroalkyl substances: exploring combined approachesof ligand and structure based modeling’, Chemosphere 184,pp. 514-523.Kortenkamp, A., et al., 2012, State of the art assessment ofendocrine disrupters, Final report to the European Commission(http://ec.europa.eu/environment/chemicals/endocrine/pdf/sota_edc_final_report.pdf) accessed 17 July 2019.Kümmerer, K., 2018, ‘Sustainable chemistry – the need for abroader approach’, Scitech Europa Quarterly, 6 June 2018.Landrigan, P. J., et al., 2017, ‘The Lancet Commission onpollution and health’, The Lancet 391(10119), pp. 462-512(DOI: 10.1016/S0140-6736(17)32345-0).Liess, M., et al., 2016, ‘Predicting the synergy of multiplestress effects’, Scientific Reports 6(32965).Hallmann, C. A., et al., 2017, ‘More than 75 percent declineover 27 years in total flying insect biomass in protectedareas’, PloS ONE 12(10), p. e0185809(DOI: 10.1371/journal.pone.0185809).Malaj, E., et al., 2014, ‘Organic chemicals jeopardize thehealth of freshwater ecosystems on the continental scale’,Proceedings of the National Academy of Sciences 111(26),pp. 9549-9554 (DOI: 10.1073/pnas.1321082111).Hansen, S. F., 2018, Registration, evaluation, authorisation,categorisation and tools to evaluate nanomaterials –opportunities and weaknesses (REACT NOW), Doctoral thesis,Technical University of Denmark, Kgs. Lyngby, Denmark.Mie, A., et al., 2018, ‘Safety of safety evaluation of Pesticides:developmental neurotoxicity of chlorpyrifos and chlorpyrifosmethyl’,Environmental Health 17(1), p. 77(DOI: 10.1186/s12940-018-0421-y).Hass, U., et al., 2017, ‘Combined exposure to low dosesof pesticides causes decreased birth weights in rats’,Reproductive Toxicology 72, pp. 97-105(DOI: https://doi.org/10.1016/j.reprotox.2017.05.004).Milieu Ltd, et al., 2017, Study for the strategy for a non-toxicenvironment of the 7th Environment Action Programme,Report for the European Commission (http://ec.europa.eu/environment/chemicals/non-toxic/pdf/NTE%20main%20SOER 2020/References: Chemical pollution465
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The European environment —state a
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Cover design: EEACover photo: © Si
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ContentsPart 1Setting the scenePart
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I.ForewordThe European environment
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II.Executive summarySOER 2020 in a
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world, such as water, land, biomass
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EU policies have been more effectiv
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But governments also need to find w
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Sustainability needs to becomethe g
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00.Reporting onthe environmentin Eu
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PART 1SOER 2020/Foreword
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PART 1TABLE 0.1 The focus and conte
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PART 1BOX 0.1State of the environme
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PART 1BOX 0.1State of the environme
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PART 1BOX 0.2EEA-Eionet cooperation
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01.Assessing theglobal-Europeancont
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PART 1SOER 2020/Reporting on the en
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PART 1FIGURE 1.1Indicators for glob
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PART 1The loss and degradationof ou
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PART 1When will human‐inducedpres
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PART 1BOX 1.1Tipping points, critic
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PART 1© Antonio Atanasio Rincón,
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PART 1FIGURE 1.6 Trends in global d
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PART 1time they are the root causes
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PART 1FIGURE 1.7Share of Europe’s
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PART 1BOX 1.3Operationalising the c
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02.Europe’spolicies andsustainabi
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PART 1Summary• Recognising persis
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PART 1European environmentaland cli
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PART 1United States announced its w
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PART 1BOX 2.2The EU’s Seventh Env
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PART 1© Bojan Bencec, WaterPIX/EEA
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PART 1FIGURE 2.2The emerging EU env
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2
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4par A
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03.Biodiversityand nature72
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PART 2SOER 2020/Introduction Part 2
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PART 2The 2020 headline target is
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PART 2FIGURE 3.1 Area of Natura 200
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PART 2FIGURE 3.3Trends in conservat
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PART 2TABLE 3.3Summary assessment
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PART 2FIGURE 3.5 Common birds popul
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PART 2of the objectives of the natu
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04.Freshwater2
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PART 2par AKey messages• Water is
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PART 2FIGURE 4.1Selection of links
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PART 2and storage, and flood protec
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PART 2BOX 4.1Examples of solutions
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PART 2MAP 4.2Country comparison —
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PART 2© Chris Happel108 SOER 2020/
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PART 2setting legally binding objec
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05.Land and soil2
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PART 2par AKey messages• Land and
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PART 2TABLE 5.1Overview of selected
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PART 2FIGURE 5.1 Change in six majo
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PART 2FIGURE 5.2 Country comparison
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PART 2provide ecosystem services be
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PART 2crop yields by 2.5-15 %, but
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PART 2MAP 5.5Calculated nitrogen su
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06.Marineenvironment2
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par AKey messages• Marine life is
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PART 2people and several maritime a
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PART 2FIGURE 6.1Mean annual product
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PART 26.3.2Pressures and their impa
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PART 2FIGURE 6.3Cumulative number o
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PART 2© Bo Eide144 SOER 2020/Marin
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PART 2FIGURE 6.5Trends in the numbe
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PART 2From 2012 to 2016, the EU alm
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07.Climate change2
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PART 2SOER 2020/Climate ChangeKey m
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PART 2TABLE 7.1Overview of selected
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PART 2FIGURE 7.1 Greenhouse gas emi
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PART 2TABLE 7.2 Trends in EU emissi
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PART 2biomass combustion, incentivi
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PART 2The lower carbon intensity of
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PART 2FIGURE 7.4MtoePrimary and fin
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PART 2Since the 1950s, and inpartic
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PART 2MAP 7.1Extreme heat waves in
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PART 2MAP 7.3Projected changes in t
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PART 2FIGURE 7.8Projected welfare i
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PART 2FIGURE 7.9Overview of major p
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PART 2are also part of the Energy U
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PART 2climate package (UNFCCC, 2015
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PART 2© Giulia Soriente, My City/E
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08.Air pollution2
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PART 2par AKey messages• Air poll
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PART 2FIGURE 8.1Trends in the main
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PART 2FIGURE 8.2EU progress towards
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PART 2FIGURE 8.3 EU-28 emission red
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PART 2MAP 8.1 Annual mean NO 2conce
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PART 2MAP 8.2Estimated years of lif
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PART 2FIGURE 8.6Examples of the mai
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PART 2‘Sentinel missions’. The
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09.Waste andresourcesin a circulare
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PART 2par AKey messages• Increasi
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PART 2FIGURE 9.1Circular economy sy
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PART 2FIGURE 9.2Trends in the circu
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PART 2FIGURE 9.7Progress towards se
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PART 2© Brendan Killeen226 SOER 20
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PART 2BOX 9.3National experience of
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10.Chemicalpollution2
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PART 2par AKey messages• European
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20:20PART 2FIGURE 10.1Point and dif
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PART 2Table 10.1 presents an overvi
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PART 2Between 2000 and 2017, the pr
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PART 2in which there are significan
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PART 2chemicals is not enough to ex
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PART 210.4.2Cross-cutting challenge
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11.Environmentalnoise2
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PART 2par AKey messages• Environm
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PART 2TABLE 11.1Overview of selecte
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PART 2FIGURE 11.1Number of people e
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PART 2FIGURE 11.3 Country compariso
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PART 2FIGURE 11.4Outlook for 2020 a
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PART 2BOX 11.3Effects of noise on w
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PART 2mapping are still incomplete,
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12.Industrialpollution2
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PART 2par AKey messages• Industry
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PART 2TABLE 12.1Selected policy obj
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PART 2BOX 12.1Success in reducing s
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PART 2FIGURE 12.3Emissions of key i
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PART 2FIGURE 12.5 Total pollutant e
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PART 2© Andrzej Bochenski, Picture
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PART 2FIGURE 12.6Estimated number o
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PART 2Europe will require additiona
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13.Environmentalpressuresand sector
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PART 2par ASummary• The EU Sevent
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PART 2market for environmental tech
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PART 2294 SOER 2020/Environmental p
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PART 2FIGURE 13.1Pressures and impa
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PART 2FIGURE 13.2Development of the
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PART 2implementation patterns vary
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PART 2The overall use of fish andsh
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PART 2Mediterranean Sea and the Bla
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PART 2© Boral Kambay, NATURE@work
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PART 260 %of forests in the EU-28 a
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PART 2FIGURE 13.3 EU GHG emissions
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PART 2FIGURE 13.4Value added and em
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PART 2Strengthening environmentalin
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14.Summaryassessment2
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PART 2par A4 par A
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PART 2FIGURE 14.1 Overview of non-b
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PART 2(1) biodiversity and ecosyste
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PART 2324 SOER 2020/Summary assessm
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PART 2use of nature-based solutions
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PART 2BOX 14.3Challenges, synergies
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PART 2• The situation in Europe i
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2
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15.Sustainabilitythrougha system le
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PART 2par ASummary• The EU has co
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PART 3a comprehensive global approa
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PART 3BOX 15.1Emerging trends: four
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PART 3BOX 15.2SDG interactionsIn 20
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PART 3(UN, 2015). World leaders hav
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16.Understandingsustainabilitychall
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PART 3par ASummary• European cons
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PART 3in high-tech products and eme
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PART 3The European food systemis ch
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PART 3Wyckhuys, 2019). Moreover,an
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PART 3the principles of agroecology
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PART 3FIGURE 16.2Final energy consu
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PART 3in consumption and lifestyles
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PART 3in the demand for transport i
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PART 3vehicle ownership by bringing
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PART 3approach at the level of the
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© Rosana Grecchi, Sustainably Your
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PART 3to a loss of genetic diversit
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PART 3FIGURE 16.6Life cycle CO 2emi
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PART 3biophysical lock-ins, potenti
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17.Respondingto sustainabilitychall
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PART 2par ASummary• Responding to
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PART 3By embracing transitions,demo
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PART 3FIGURE 17.2Applying the multi
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PART 3TABLE 17.2Changing innovation
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PART 3BOX 17.1Climathon: transforma
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PART 3FIGURE 17.3Demanding environm
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PART 3BOX 17.3Electric vehicle diff
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PART 3BOX 17.5Mainstreaming organic
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PART 3BOX 17.6Restructuring the Ger
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PART 3BOX 17.7HINKU: towards carbon
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PART 3FIGURE 17.6Trends in energy R
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PART 3BOX 17.8EnergiesprongShifting
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PART 3BOX 17.9Crowdfunding bottom-u
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PART 3about using creative and part
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PART 3FIGURE 17.10 Policy mixes for
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PART 3BOX 17.10Identifying emerging
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2
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18.Where do wego from here?4
Page 415 and 416: PART 2par ASummary• Europe faces
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Page 419 and 420: PART 4Better integration of environ
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Page 423 and 424: PART 4Equally, however, sustainabil
Page 425 and 426: AcknowledgementsSOER 2020 OVERALL C
Page 427 and 428: References(https://espas.secure.eur
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Informe El medio ambiente en Europa: Estado y perspectivas 2020

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