Arctic and Baltic sea ice

Arctic sea ice is rapidly declining. On average, the Arctic has lost an area of 71,000km 2 of sea ice per year in summer and 31,000km 2 per year in winter since 1979. The Arctic sea ice area for summer 2025 was the second lowest ever and sea ice is becoming younger and thinner. An almost ice-free Arctic sea in summer is projected to be a rare event for 1.5°C of global warming but will be the norm for 2.5°C warming. Since about 1800, the maximum sea ice extent in the Baltic Sea shows a decreasing trend, and reached its lowest value ever in the winter of 2019/20. This decreasing trend is projected to continue.

Metadata

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Workflow

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"required": true, "title": "Additional information", "title_size": "h3" }, "677f7422-6da4-4c86-bca8-de732b7047b9": { "@type": "dividerBlock", "disableNewBlocks": true, "fixed": true, "hidden": true, "readOnly": true, "required": true, "section": false, "spacing": "m", "styles": {} }, "73e36475-b8a1-41f3-b5d9-89f71856707d": { "@layout": "794c9b24-5cd4-4b9f-a0cd-b796aadc86e8", "@type": "group", "allowedBlocks": [], "as": "section", "block": "73e36475-b8a1-41f3-b5d9-89f71856707d", "data": { "blocks": { "12d8c532-f7ad-43fe-ada7-330b2d7a7a39": { "@type": "slate", "disableNewBlocks": true, "fixed": true, "instructions": { "content-type": "text/html", "data": "<p><br/></p>", "encoding": "utf8" }, "plaintext": "Published: date \u2012 25min read", "readOnly": true, "readOnlySettings": true, "required": true, "value": [ { "children": [ { "text": "" }, { "children": [ { "text": "Published: " }, { "children": [ { "text": "date" } ], "data": { "id": "effective", "widget": "datetime" }, "type": 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"placeholder": "Summary", "plaintext": "Arctic sea ice is rapidly declining. On average, the Arctic has lost an area of 71,000km 2 of sea ice per year in summer and 31,000km 2 per year in winter since 1979. The Arctic sea ice area for summer 2025 was the second lowest ever and sea ice is becoming younger and thinner. An almost ice-free Arctic sea in summer is projected to be a rare event for 1.5\u00b0C of global warming but will be the norm for 2.5\u00b0C warming. Since about 1800, the maximum sea ice extent in the Baltic Sea shows a decreasing trend, and reached its lowest value ever in the winter of 2019/20. This decreasing trend is projected to continue. ", "readOnlySettings": true, "required": true, "value": [ { "children": [ { "text": "Arctic sea ice is rapidly declining. On average, the Arctic has lost an area of 71,000km" }, { "children": [ { "sup": true, "text": "2" } ], "type": "sup" }, { "text": " of sea ice per year in summer and 31,000km" }, { "children": [ { "sup": true, "text": "2" } ], "type": "sup" }, { "text": " per year in winter since 1979. The Arctic sea ice area for summer 2025 was the second lowest ever and sea ice is becoming younger and thinner. An almost ice-free Arctic sea in summer is projected to be a rare event for 1.5\u00b0C of global warming but will be the norm for 2.5\u00b0C warming. Since about 1800, the maximum sea ice extent in the Baltic Sea shows a decreasing trend, and reached its lowest value ever in the winter of 2019/20. This decreasing trend is projected to continue.\u00a0" }, { "children": [ { "text": "" } ], "type": "strong" }, { "text": "" } ], "styleName": "text-justify", "type": "p" } ] }, "3cccc2bb-471a-44c7-b006-5595c4713ff2": { "@type": "layoutSettings", "disableNewBlocks": true, "fixed": true, "layout_size": "narrow_view", "readOnly": true, "readOnlySettings": true, "required": true }, "ddde07aa-4e48-4475-94bd-e1a517d26eab": { "copyrightIcon": "ri-copyright-line", "styles": {}, "variation": "default", "@type": "title", "disableNewBlocks": true, "fixed": true, "hideContentType": true, "hideCreationDate": true, "hideDownloadButton": true, "hideModificationDate": true, "placeholder": "Indicator title", "readOnlySettings": true, "required": true } }, "blocks_layout": { "items": [ "ddde07aa-4e48-4475-94bd-e1a517d26eab", "1c31c956-5086-476a-8694-9936cfa6c240", "3cccc2bb-471a-44c7-b006-5595c4713ff2" ] } }, "disableInnerButtons": true, "disableNewBlocks": true, "fixed": true, "fixedLayout": true, "ignoreSpaces": true, "instructions": { "content-type": "text/html", "data": "<p>The summary tells the reader about the indicator trend over the examined period and whether or not it helps to achieve the associated policy objective, which can be either quantitative or directional.</p><p>In the absence of a policy objective, it explains whether the trend is in the right or wrong direction in relation to the issue examined.</p><p>If there has been an important change over the most recent period of the time series, e.g. over the last year, this is indicated too.</p><p>Furthermore, if there is a quantitative target, it also indicates whether we are on track to meet it and if not what are the reasons preventing that, e.g. socio-economic drivers, implementation gap etc.</p>", "encoding": "utf8" }, "maxChars": "500", "readOnlySettings": true, "required": true, "styles": { "style_name": "environment-theme-bg" }, "title": "Content header" }, "aa723da1-4465-47d5-9b9e-5a404b1cc9fb": { "@layout": "d060487d-88fc-4f7b-8ea4-003f14e0fb0c", "@type": "group", "allowedBlocks": [ "slate" ], "as": "section", "block": "d505f77f-bea4-4fe5-a4bb-9fc4892d4f0e", "data": { "blocks": { "02ba4a04-fcfe-4968-806f-1dac3119cfef": { "@type": "embed_content", "disableNewBlocks": true, "fixed": true, "instructions": { "content-type": "text/html", "data": "<p><br/></p>", "encoding": "utf8" }, "readOnlySettings": true, "required": true, "url": "../../../../resolveuid/3f5fe6a8e6f04531af182d105bb01a02" }, "1d231dba-ee7a-4c4d-a3ab-12ab7c146414": { "@type": "slate", "plaintext": "The frequency of mild ice winters (defined as having a maximum ice cover of less than 130,000km 2 ) has increased from seven occurances in 30 years during the period 1950-1979 to 16 years during the period 1996-2025. However, the frequency of severe ice winters (at least 270,000km 2 of ice) has decreased from six to one year during the same time periods.", "value": [ { "children": [ { "text": "The frequency of " }, { "children": [ { "text": "mild ice winters" } ], "type": "strong" }, { "text": " (defined as having a maximum ice cover of less than 130,000km" }, { "children": [ { "text": "2" } ], "type": "sup" }, { "text": ") has increased from seven occurances in 30 years during the period 1950-1979 to 16 years during the period 1996-2025. However, the frequency of " }, { "children": [ { "text": "severe ice winters" } ], "type": "strong" }, { "text": " (at least 270,000km" }, { "children": [ { "text": "2" } ], "type": "sup" }, { "text": " of ice) has decreased from six to one year during the same time periods." } ], "type": "p" } ] }, "3a296c65-e1c4-4f7a-b8ea-f0826bdfd99c": { "@type": "slate", "plaintext": "The maximum winter sea ice extent in the Baltic Sea has mostly displayed a decreasing trend since about 1800. It reached a record low level in winter 2019/2020 (Figure 2). Furthermore, the decrease in sea ice extent appears to have accelerated since the 1980s .", "value": [ { "children": [ { "text": "The maximum winter sea ice extent in the Baltic Sea has mostly displayed a decreasing trend since about 1800. It reached a " }, { "children": [ { "text": "record low" } ], "type": "strong" }, { "text": " level in winter 2019/2020 (Figure 2). Furthermore, the decrease in sea ice extent appears to have accelerated since the 1980s" }, { "children": [ { "text": "" } ], "data": { "extra": [ { "footnote": "<?xml version=\"1.0\"?>\n<div class=\"csl-bib-body\" style=\"line-height: 1.35; \">\n <div class=\"csl-entry\">Meier, H. E. M., Kniebusch, M., Dieterich, C., Gröger, M., Zorita, E., Elmgren, R., Myrberg, K., Ahola, M. P., Bartosova, A., Bonsdorff, E., Börgel, F., Capell, R., Carlén, I., Carlund, T., Carstensen, J., Christensen, O. B., Dierschke, V., Frauen, C., Frederiksen, M. et al., 2022, 'Climate change in the Baltic Sea region: a summary', <i>Earth System Dynamics</i> 13(1), pp. 457–593 (https://esd.copernicus.org/articles/13/457/2022/) accessed October 21, 2025.</div>\n</div>\n", "footnoteTitle": "Meier, H. E. Markus, 2022-03-15, Climate change in the Baltic Sea region:, Earth System Dynamics", "zoteroId": "YM25HH6S" } ], "footnote": "<?xml version=\"1.0\"?>\n<div class=\"csl-bib-body\" style=\"line-height: 1.35; \">\n <div class=\"csl-entry\">Haapala, J. J., Ronkainen, I., Schmelzer, N. and Sztobryn, M., 2015, 'Recent change — Sea ice', in: The BACC II Author Team (ed), <i>Second assessment of climate change for the Baltic Sea basin</i>, Springer International Publishing, Cham, Switzerland, pp. 145–153.</div>\n</div>\n", "footnoteTitle": "The BACC II Author Team, 2015, Recent change \u2014 Sea ice, Cham, Switzerland", "uid": "fr6MK", "zoteroId": "G6A6JEFV" }, "type": "zotero" }, { "text": ". " } ], "type": "p" } ] }, "43df8fab-b278-4b0e-a62c-ce6b8e0a881e": { "@type": "dividerBlock", "disableNewBlocks": true, "fitted": false, "fixed": true, "hidden": true, "readOnly": true, "readOnlySettings": true, "required": true, "section": false, "short": true, "spacing": "m", "styles": {} }, "8b79f915-bb44-4ec2-a4ac-a326827dfd12": { "@type": "slate", "plaintext": "Baltic sea ice extent and thickness are projected to continue to shrink significantly . The best estimate of the decrease in maximum ice extent over the 21st century is 640km 2 /year for a medium emissions scenario (RCP4.5) and 1,090km 2 /year for a high emissions scenario (RCP8.5). For the latter scenario, largely ice-free winters are projected by the end of the century .", "value": [ { "children": [ { "text": "Baltic sea ice extent and thickness are projected to continue to " }, { "children": [ { "text": "shrink significantly" } ], "type": "strong" }, { "text": ". The best estimate of the decrease in maximum ice extent over the 21st century is 640km" }, { "children": [ { "text": "2" } ], "type": "sup" }, { "text": "/year for a medium emissions scenario (RCP4.5) and 1,090km" }, { "children": [ { "text": "2" } ], "type": "sup" }, { "text": "/year for a high emissions scenario (RCP8.5). For the latter scenario, largely ice-free winters are projected by the end of the century" }, { "children": [ { "text": "" } ], "data": { "footnote": "<?xml version=\"1.0\"?>\n<div class=\"csl-bib-body\" style=\"line-height: 1.35; \">\n <div class=\"csl-entry\">Luomaranta, A., Ruosteenoja, K., Jylhä, K., Gregow, H., Haapala, J. and Laaksonen, A., 2014, 'Multimodel estimates of the changes in the Baltic Sea ice cover during the present century', <i>Tellus A</i> 66(22617) (http://www.tellusa.net/index.php/tellusa/article/view/22617) accessed June 12, 2015.</div>\n</div>\n", "footnoteTitle": "Luomaranta, Anna, 2014-4-4, Multimodel estimates of the changes in t, Tellus A", "uid": "_uP6z", "zoteroId": "C4NQNMMJ" }, "type": "zotero" }, { "text": "." } ], "styleName": "text-justify", "type": "p" } ] }, "d3d49723-14e5-4663-b346-37ee3572f28d": { "@type": "slate", "fixed": true, "instructions": { "content-type": "text/html", "data": "<p><br/></p>", "encoding": "utf8" }, "plaintext": "", "readOnlySettings": true, "required": true, "value": [ { "children": [ { "text": "" } ], "type": "p" } ] }, "fde91f15-4486-4818-bf2e-b3858fa52af0": { "@type": "group", "className": "figure-metadata", "data": { "blocks": { "d1d90fc6-0b42-4875-82c7-015c4d699826": { "@type": "slate", "plaintext": "Figure 2. Maximum extent of ice cover in the Baltic Sea in the winter and 15 year moving average", "value": [ { "children": [ { "text": "Figure 2. Maximum extent of ice cover in the Baltic Sea in the winter and 15 year moving average" } ], "type": "h3-light" } ] } }, "blocks_layout": { "items": [ "d1d90fc6-0b42-4875-82c7-015c4d699826" ] } }, "id": "figure-metadata-02ba4a04-fcfe-4968-806f-1dac3119cfef", "styles": {} } }, "blocks_layout": { "items": [ "fde91f15-4486-4818-bf2e-b3858fa52af0", "02ba4a04-fcfe-4968-806f-1dac3119cfef", "43df8fab-b278-4b0e-a62c-ce6b8e0a881e", "3a296c65-e1c4-4f7a-b8ea-f0826bdfd99c", "1d231dba-ee7a-4c4d-a3ab-12ab7c146414", "8b79f915-bb44-4ec2-a4ac-a326827dfd12" ] } }, "disableInnerButtons": true, "disableNewBlocks": false, "fixed": true, "ignoreSpaces": true, "instructions": { "content-type": "text/html", "data": "<ol keys=\"9bbul,b1sa2,171og,1c1t5\" depth=\"0\"><li>Depending on the indicator context, this text can provide information at country level or, if this is not relevant, at some other level, e.g. sectoral, regional level.</li><li>This text interprets the data represented in the chart, rather than describing results, i.e. it provides explanations for some of the results.</li><li>The text related to progress at this level does not have to be comprehensive.</li><li>If there is no information that adds value to what is already visible there is no need to have any text.</li></ol>", "encoding": "utf8" }, "maxChars": "1000", "placeholder": "Disaggregate level assessment e.g. country, sectoral, regional level assessment", "readOnly": false, "readOnlySettings": true, "required": true, "title": "Disaggregate level assessment" }, "ccaa2129-a88d-4c94-b09a-0e846da9b7b9": { "@layout": "1bc4379d-cddb-4120-84ad-5ab025533b12", "@type": "group", "allowedBlocks": [ "slate" ], "as": "section", "block": "21bed0f8-70fc-407e-b9b5-ba11d70135cc", "data": { "blocks": { "19d1b2f7-1062-4709-a6bb-2bd769190f27": { "@type": "group", "className": "figure-metadata", "data": { "blocks": { "05eee2be-4fee-42cd-9eb5-cd7838bc1b0c": { "@type": "slate", "plaintext": "Figure 1. Observed and projected decline in Arctic sea ice area", "value": [ { "children": [ { "text": "Figure 1. Observed and projected decline in Arctic sea ice area" } ], "type": "h3-light" } ] } }, "blocks_layout": { "items": [ "05eee2be-4fee-42cd-9eb5-cd7838bc1b0c" ] } }, "id": "figure-metadata-b0279dde-1ceb-4137-a7f1-5ab7b46a782c", "styles": {} }, "28ea6588-f81b-42a0-8468-28ccee090d67": { "@type": "slate", "plaintext": "Over the period 1979-2025, the Arctic sea ice area decreased by 31,000km 2 per year in winter, measured in March and 71,000km 2 per year in summer, measured in September (see Figure 1). The decrease in summer sea ice is almost 12.4% per decade. Summer sea ice cover in each of the last 19 years (2007-2025) was lower than any previous year since satellite measurements began in 1979. The winter of 2024/25 was the first year on record where the sea ice area remained below 13,000km 2 , setting a record low .", "value": [ { "children": [ { "text": "Over the period 1979-2025, the Arctic sea ice area decreased by 31,000km" }, { "children": [ { "text": "2" } ], "type": "sup" }, { "text": " per year in winter, measured in March and 71,000km" }, { "children": [ { "text": "2" } ], "type": "sup" }, { "text": " per year in summer, measured in September (see Figure 1). The decrease in summer sea ice is almost 12.4% per decade. Summer sea ice cover in each of the last 19 years (2007-2025) was lower than any previous year since satellite measurements began in 1979. The winter of 2024/25 was the first year on record where the sea ice area remained below 13,000km" }, { "children": [ { "text": "2" } ], "type": "sup" }, { "text": ", setting a " }, { "children": [ { "text": "record low" } ], "type": "strong" }, { "text": "." } ], "styleName": "text-justify", "type": "p" } ] }, "43df8fab-b278-4b0e-a62c-ce6b8e0a881d": { "@type": "dividerBlock", "disableNewBlocks": true, "fitted": false, "fixed": true, "hidden": true, "readOnly": true, "readOnlySettings": true, "required": true, "section": false, "short": true, "spacing": "m", "styles": {} }, "844c9f8f-336d-46cb-816b-8666d2751d95": { "@type": "slate", "plaintext": "The decline in Arctic sea ice is unprecedented in the last 1,000 years, based on historical reconstructions and paleoclimate evidence. At least half of the observed loss in summer sea ice area can be attributed to anthropogenic greenhouse gas emissions . Rapid changes in Arctic sea ice can trigger complex feedback processes in the global climate system, which also affects climate and weather extremes in Europe .", "value": [ { "children": [ { "text": "The decline in Arctic sea ice is unprecedented in the last 1,000 years, based on historical reconstructions and paleoclimate evidence. At least half of the observed loss in summer sea ice area can be attributed to " }, { "children": [ { "text": "anthropogenic greenhouse gas emissions" } ], "type": "strong" }, { "text": "" }, { "children": [ { "text": "" } ], "data": { "extra": [ { "footnote": "<?xml version=\"1.0\"?>\n<div class=\"csl-bib-body\" style=\"line-height: 1.35; \">\n <div class=\"csl-entry\">Fox-Kemper, B., Hewitt, H. T., Xiao, C., Aðalgeirsdóttir, G., Drijfhout, S. S., Edwards, T. L., Golledge, N. R., Hemer, M., Kopp, R. E., Krinner, G., Mix, A., Notz, D., Nowicki, S., Nurhati, I. S., Ruiz, L., Sallée, J.-B., Slangen, A. B. A. and Yu, Y., 2021, 'Ocean, cryosphere, and sea level change', in: Masson-Delmotte, V., Zhai, P., Pirani, A., et al. (eds), <i>Climate Change 2021: The Physical Science Basis. Contribution of Working Group I to the Sixth Assessment Report of the Intergovernmental Panel on Climate Change</i>, Cambridge University Press.</div>\n</div>\n", "footnoteTitle": "Fox-Kemper, Baylor, 2021, Ocean, cryosphere, and sea level change", "zoteroId": "6X8IBLZX" } ], "footnote": "<?xml version=\"1.0\"?>\n<div class=\"csl-bib-body\" style=\"line-height: 1.35; \">\n <div class=\"csl-entry\">Walsh, J. E., Fetterer, F., Scott Stewart, J. and Chapman, W. L., 2017, 'A database for depicting Arctic sea ice variations back to 1850', <i>Geographical Review</i> 107(1), pp. 89–107 (http://onlinelibrary.wiley.com/doi/10.1111/j.1931-0846.2016.12195.x/abstract) accessed April 6, 2017.</div>\n</div>\n", "footnoteTitle": "Walsh, John E., 2017, A database for depicting Arctic sea ice , Geographical Review", "uid": "kT0o9", "zoteroId": "GST4AVW5" }, "type": "zotero" }, { "text": ". Rapid changes in Arctic sea ice can trigger complex feedback processes in the global climate system, which also affects climate and weather extremes in Europe" }, { "children": [ { "text": "" } ], "data": { "extra": [ { "footnote": "<?xml version=\"1.0\"?>\n<div class=\"csl-bib-body\" style=\"line-height: 1.35; \">\n <div class=\"csl-entry\">Forster, P., Storelvmo, T., Armour, K., Collins, W., Dufresne, J.-L., Frame, D., Lunt, D. J., Mauritsen, T., Palmer, M. D., Watanabe, M., Wild, M. and Zhang, X., 2021, 'The Earth’s energy budget, climate feedbacks, and climate sensitivity', in: Masson-Delmotte, V., Zhai, P., Pirani, A., et al. (eds), <i>Climate Change 2021: The Physical Science Basis. Contribution of Working Group I to the Sixth Assessment Report of the Intergovernmental Panel on Climate Change</i>, Cambridge University Press.</div>\n</div>\n", "footnoteTitle": "Forster, Piers, 2021, The Earth's energy budget, climate feedb", "zoteroId": "S66JQSIK" }, { "footnote": "<?xml version=\"1.0\"?>\n<div class=\"csl-bib-body\" style=\"line-height: 1.35; \">\n <div class=\"csl-entry\">Liu, J., Song, M., Zhu, Z., Horton, R. M., Hu, Y. and Xie, S.-P., 2022, 'Arctic sea-ice loss is projected to lead to more frequent strong El Niño events', <i>Nature Communications</i> 13(1), pp. 4952 (https://www.nature.com/articles/s41467-022-32705-2) accessed November 7, 2023.</div>\n</div>\n", "footnoteTitle": "Liu, Jiping, 2022-08-23, Arctic sea-ice loss is projected to lead, Nature Communications", "zoteroId": "7CZCBP4R" } ], "footnote": "<?xml version=\"1.0\"?>\n<div class=\"csl-bib-body\" style=\"line-height: 1.35; \">\n <div class=\"csl-entry\">Coumou, D., et al., 'The influence of Arctic amplification on mid-latitude summer circulation', <i>Nature Communications</i> 9(1), pp. 2959.</div>\n</div>\n", "footnoteTitle": "Coumou, D., et al., The influence of Arctic amplification on, Nature Communications", "uid": "E6Nbs", "zoteroId": "2WGA9DBD" }, "type": "zotero" }, { "text": " ." } ], "styleName": "text-justify", "type": "p" } ] }, "9673b1be-a174-46b4-9dc1-17c20e8cb50b": { "@type": "slate", "plaintext": "The projected loss of sea ice may offer new economic opportunities for oil and gas exploration, shipping, tourism and some types of fisheries in the Arctic . Most of these activities would increase the pressure on, and the risks to, the Arctic environment.", "value": [ { "children": [ { "text": "The projected loss of sea ice may offer new economic opportunities for oil and gas exploration, shipping, tourism and some types of fisheries in the Arctic" }, { "children": [ { "text": " " } ], "data": { "footnote": "<?xml version=\"1.0\"?>\n<div class=\"csl-bib-body\" style=\"line-height: 1.35; \">\n <div class=\"csl-entry\">Mosoni, C., Hildén, M., Fronzek, S., Reyer, C. P. O. and Carter, T. R., 2024, 'Cross‐border dimensions of Arctic climate change impacts and implications for Europe', <i>WIREs Climate Change</i> 15(5), pp. e905 (https://wires.onlinelibrary.wiley.com/doi/10.1002/wcc.905) accessed October 21, 2025.</div>\n</div>\n", "footnoteTitle": "Mosoni, Claire, 09/2024, Cross\u2010border dimensions of Arctic climat, WIREs Climate Change", "uid": "qC6B4", "zoteroId": "CCJHRF5R" }, "type": "zotero" }, { "text": ". Most of these activities would " }, { "children": [ { "text": "increase the pressure" } ], "type": "strong" }, { "text": " on, and the risks to, the Arctic environment.\u00a0 " } ], "type": "p" } ] }, "9b626c56-7ed0-4503-b331-3409e6ff4137": { "@type": "slate", "plaintext": "Climate models agree that Arctic sea ice will continue to shrink and thin (Figure 1, coloured lines). Projections from the most recent global modelling exercise (CMIP6) suggest that a nearly ice-free Arctic Sea will likely be experienced at least once before 2050. This will also be the case in low emissions scenarios , although evidence shows that ice-free conditions could be reached sooner .", "value": [ { "children": [ { "text": "Climate models agree that Arctic sea ice will continue to shrink and thin (Figure 1, coloured lines). Projections from the most recent global modelling exercise (CMIP6) suggest that a nearly " }, { "children": [ { "text": "ice-free" } ], "type": "strong" }, { "text": " Arctic Sea will likely be experienced at least once before 2050. This will also be the case in low emissions scenarios" }, { "children": [ { "text": "" } ], "data": { "footnote": "<?xml version=\"1.0\"?>\n<div class=\"csl-bib-body\" style=\"line-height: 1.35; \">\n <div class=\"csl-entry\">Fox-Kemper, B., Hewitt, H. T., Xiao, C., Aðalgeirsdóttir, G., Drijfhout, S. S., Edwards, T. L., Golledge, N. R., Hemer, M., Kopp, R. E., Krinner, G., Mix, A., Notz, D., Nowicki, S., Nurhati, I. S., Ruiz, L., Sallée, J.-B., Slangen, A. B. A. and Yu, Y., 2021, 'Ocean, cryosphere, and sea level change', in: Masson-Delmotte, V., Zhai, P., Pirani, A., et al. (eds), <i>Climate Change 2021: The Physical Science Basis. Contribution of Working Group I to the Sixth Assessment Report of the Intergovernmental Panel on Climate Change</i>, Cambridge University Press.</div>\n</div>\n", "footnoteTitle": "Fox-Kemper, Baylor, 2021, Ocean, cryosphere, and sea level change", "uid": "sbiq_", "zoteroId": "6X8IBLZX" }, "type": "zotero" }, { "text": ", although evidence shows that ice-free conditions could be reached sooner" }, { "children": [ { "text": "" } ], "data": { "extra": [ { "footnote": "<?xml version=\"1.0\"?>\n<div class=\"csl-bib-body\" style=\"line-height: 1.35; \">\n <div class=\"csl-entry\">Selivanova, J., Iovino, D. and Cocetta, F., 2024, 'Past and future of the Arctic sea ice in High-Resolution Model Intercomparison Project (HighResMIP) climate models', <i>The Cryosphere</i> 18(6), pp. 2739–2763 (https://tc.copernicus.org/articles/18/2739/2024/) accessed December 6, 2024.</div>\n</div>\n", "footnoteTitle": "Selivanova, Julia, 2024-06-18, Past and future of the Arctic sea ice in, The Cryosphere", "zoteroId": "NI3ARHCR" } ], "footnote": "<?xml version=\"1.0\"?>\n<div class=\"csl-bib-body\" style=\"line-height: 1.35; \">\n <div class=\"csl-entry\">Kim, Y.-H., Min, S.-K., Gillett, N. P., Notz, D. and Malinina, E., 2023, 'Observationally-constrained projections of an ice-free Arctic even under a low emission scenario', <i>Nature Communications</i> 14(1), pp. 3139 (https://www.nature.com/articles/s41467-023-38511-8) accessed October 26, 2023.</div>\n</div>\n", "footnoteTitle": "Kim, Yeon-Hee, 2023-06-06, Observationally-constrained projections , Nature Communications", "uid": "Hymfc", "zoteroId": "MLMCFQKH" }, "type": "zotero" }, { "text": ". " } ], "type": "p" } ] }, "9f98262d-0266-45ff-9409-5a87298d7f54": { "@type": "slate", "plaintext": "An ice-free Arctic in late summer is expected to be a rare event for 1.5\u00b0C of global warming (relative to pre-industrial levels), a frequent event for 2\u00b0C warming, and a permanent feature for warming above 2.5\u00b0C . These details are not apparent from Figure\u00a01, as the multi-model mean shown reduces the interannual variability compared to individual model runs. Longer-term simulations suggest that the Arctic could become nearly ice-free year-round during the 22nd century for high emissions scenarios .", "value": [ { "children": [ { "text": "An ice-free Arctic in late summer is expected to be a rare event for 1.5\u00b0C of global warming (relative to pre-industrial levels), a frequent event for 2\u00b0C warming, and a permanent feature for warming above 2.5\u00b0C" }, { "children": [ { "text": "" } ], "data": { "extra": [ { "footnote": "<?xml version=\"1.0\"?>\n<div class=\"csl-bib-body\" style=\"line-height: 1.35; \">\n <div class=\"csl-entry\">Sigmond, M., Fyfe, J. C. and Swart, N. C., 2018, 'Ice-free Arctic projections under the Paris Agreement', <i>Nature Climate Change</i> 8(5), pp. 404–408 (http://www.nature.com/articles/s41558-018-0124-y) accessed November 6, 2018.</div>\n</div>\n", "footnoteTitle": "Sigmond, Michael, 5/2018, Ice-free Arctic projections under the Pa, Nature Climate Change", "zoteroId": "QMUMWS66" }, { "footnote": "<?xml version=\"1.0\"?>\n<div class=\"csl-bib-body\" style=\"line-height: 1.35; \">\n <div class=\"csl-entry\">SIMIP Community, 2020, 'Arctic sea ice in CMIP6', <i>Geophysical Research Letters</i> 47(10).</div>\n</div>\n", "footnoteTitle": "SIMIP Community, 2020, Arctic sea ice in CMIP6, Geophysical Research Letters", "zoteroId": "ZMEKQHKQ" }, { "footnote": "<?xml version=\"1.0\"?>\n<div class=\"csl-bib-body\" style=\"line-height: 1.35; \">\n <div class=\"csl-entry\">Fox-Kemper, B., Hewitt, H. T., Xiao, C., Aðalgeirsdóttir, G., Drijfhout, S. S., Edwards, T. L., Golledge, N. R., Hemer, M., Kopp, R. E., Krinner, G., Mix, A., Notz, D., Nowicki, S., Nurhati, I. S., Ruiz, L., Sallée, J.-B., Slangen, A. B. A. and Yu, Y., 2021, 'Ocean, cryosphere, and sea level change', in: Masson-Delmotte, V., Zhai, P., Pirani, A., et al. (eds), <i>Climate Change 2021: The Physical Science Basis. Contribution of Working Group I to the Sixth Assessment Report of the Intergovernmental Panel on Climate Change</i>, Cambridge University Press.</div>\n</div>\n", "footnoteTitle": "Fox-Kemper, Baylor, 2021, Ocean, cryosphere, and sea level change", "zoteroId": "6X8IBLZX" } ], "footnote": "<?xml version=\"1.0\"?>\n<div class=\"csl-bib-body\" style=\"line-height: 1.35; \">\n <div class=\"csl-entry\">Jahn, A., 2018, 'Reduced probability of ice-free summers for 1.5 °C compared to 2 °C warming', <i>Nature Climate Change</i> 8(5), pp. 409–413 (http://www.nature.com/articles/s41558-018-0127-8) accessed November 6, 2018.</div>\n</div>\n", "footnoteTitle": "Jahn, Alexandra, 5/2018, Reduced probability of ice-free summers , Nature Climate Change", "uid": "1puIh", "zoteroId": "PR4TKJZA" }, "type": "zotero" }, { "text": ". These details are not apparent from Figure\u00a01, as the multi-model mean shown reduces the interannual variability compared to individual model runs. Longer-term simulations suggest that the Arctic could become nearly " }, { "children": [ { "text": "ice-free year-round" } ], "type": "strong" }, { "text": " during the 22nd century for high emissions scenarios" }, { "children": [ { "text": "" } ], "data": { "extra": [ { "footnote": "<?xml version=\"1.0\"?>\n<div class=\"csl-bib-body\" style=\"line-height: 1.35; \">\n <div class=\"csl-entry\">Bathiany, S., Notz, D., Mauritsen, T., Raedel, G. and Brovkin, V., 2016, 'On the Potential for Abrupt Arctic Winter Sea Ice Loss', <i>Journal of Climate</i> 29(7), pp. 2703–2719 (https://journals.ametsoc.org/view/journals/clim/29/7/jcli-d-15-0466.1.xml) accessed December 1, 2021.</div>\n</div>\n", "footnoteTitle": "Bathiany, S., 2016/04/01, On the Potential for Abrupt Arctic Winte, Journal of Climate", "zoteroId": "423ID6LH" } ], "footnote": "<?xml version=\"1.0\"?>\n<div class=\"csl-bib-body\" style=\"line-height: 1.35; \">\n <div class=\"csl-entry\">Hezel, P. J., Fichefet, T. and Massonnet, F., 2014, 'Modeled Arctic sea ice evolution through 2300 in CMIP5 extended RCPs', <i>The Cryosphere</i> 8(4), pp. 1195–1204 (http://www.the-cryosphere.net/8/1195/2014/) accessed August 11, 2015.</div>\n</div>\n", "footnoteTitle": "Hezel, P. J., 2014, Modeled Arctic sea ice evolution through, The Cryosphere", "uid": "N6El9", "zoteroId": "586JX4JM" }, "type": "zotero" }, { "text": ". " } ], "type": "p" } ] }, "b0279dde-1ceb-4137-a7f1-5ab7b46a782c": { "@type": "embed_content", "disableNewBlocks": true, "fixed": true, "instructions": { "content-type": "text/html", "data": "<p>figure instructions goes here</p>", "encoding": "utf8" }, "readOnlySettings": true, "required": true, "url": "../../../../resolveuid/9704725ebb1b4c488474f28faedc0c8e" }, "ceb28504-8645-4714-a3c3-671b582feb38": { "@type": "slate", "plaintext": "Europe is the fastest warming continent , partly due to the proportion of European land in the Arctic, which is warming even faster. The loss of ice and snow cover largely contributes to this.", "value": [ { "children": [ { "text": "Europe is the " }, { "children": [ { "text": "fastest warming continent" } ], "data": { "url": "https://www.eea.europa.eu/publications/european-climate-risk-assessment" }, "type": "link" }, { "text": ", partly due to the proportion of European land in the Arctic, which is warming even faster. The loss of ice and snow cover largely contributes to this." } ], "styleName": "text-justify", "type": "p" } ] }, "d46bf99f-d748-4205-9149-574c8df8f1ec": { "@type": "slate", "plaintext": "Arctic sea ice is also getting much thinner and younger as less sea ice survives the summer to grow into thicker, multi-year floes. Ice that is at least four years old was still widespread in the mid-1980s, comprising about one third of total ice area in March. However, the share of old ice has declined to about 5% since 2011 .", "value": [ { "children": [ { "text": "Arctic sea ice is also getting much thinner and younger as less sea ice survives the summer to grow into thicker, multi-year floes. Ice that is at least four years old was still widespread in the mid-1980s, comprising about one third of total ice area in March. However, the " }, { "children": [ { "text": "share of old ice has declined" } ], "type": "strong" }, { "text": " to about 5% since 2011" }, { "children": [ { "text": "" } ], "data": { "extra": [ { "footnote": "<?xml version=\"1.0\"?>\n<div class=\"csl-bib-body\" style=\"line-height: 1.35; \">\n <div class=\"csl-entry\">Druckenmiller et al_2021_The Arctic.pdf, (https://journals.ametsoc.org/downloadpdf/journals/bams/102/8/BAMS-D-21-0086.1.pdf) accessed December 1, 2021.</div>\n</div>\n", "footnoteTitle": " Druckenmiller et al_2021_The Arctic.pdf", "zoteroId": "L9SQ55ZE" }, { "footnote": "<?xml version=\"1.0\"?>\n<div class=\"csl-bib-body\" style=\"line-height: 1.35; \">\n <div class=\"csl-entry\">Fox-Kemper, B., Hewitt, H. T., Xiao, C., Aðalgeirsdóttir, G., Drijfhout, S. S., Edwards, T. L., Golledge, N. R., Hemer, M., Kopp, R. E., Krinner, G., Mix, A., Notz, D., Nowicki, S., Nurhati, I. S., Ruiz, L., Sallée, J.-B., Slangen, A. B. A. and Yu, Y., 2021, 'Ocean, cryosphere, and sea level change', in: Masson-Delmotte, V., Zhai, P., Pirani, A., et al. (eds), <i>Climate Change 2021: The Physical Science Basis. Contribution of Working Group I to the Sixth Assessment Report of the Intergovernmental Panel on Climate Change</i>, Cambridge University Press.</div>\n</div>\n", "footnoteTitle": "Fox-Kemper, Baylor, 2021, Ocean, cryosphere, and sea level change", "zoteroId": "6X8IBLZX" } ], "footnote": "<?xml version=\"1.0\"?>\n<div class=\"csl-bib-body\" style=\"line-height: 1.35; \">\n <div class=\"csl-entry\">Schweiger, A. J. et al., 'Arctic sea ice volume variability over 1901-2010: a model-based reconstruction', <i>Journal of Climate</i> 32(15), pp. 4731–4752.</div>\n</div>\n", "footnoteTitle": "Schweiger, A. J., et al., Arctic sea ice volume variability over 1, Journal of Climate", "uid": "8PyCH", "zoteroId": "EWGN8PYN" }, "type": "zotero" }, { "text": "." } ], "styleName": "text-justify", "type": "p" } ] }, "deb7e84d-d2c8-4491-90fa-3dc65fe02143": { "@type": "slate", "fixed": true, "instructions": { "content-type": "text/html", "data": "<p><br/></p>", "encoding": "utf8" }, "plaintext": "", "readOnlySettings": true, "required": true, "value": [ { "children": [ { "text": "" } ], "type": "p" } ] } }, "blocks_layout": { "items": [ "19d1b2f7-1062-4709-a6bb-2bd769190f27", "b0279dde-1ceb-4137-a7f1-5ab7b46a782c", "43df8fab-b278-4b0e-a62c-ce6b8e0a881d", "ceb28504-8645-4714-a3c3-671b582feb38", "28ea6588-f81b-42a0-8468-28ccee090d67", "d46bf99f-d748-4205-9149-574c8df8f1ec", "844c9f8f-336d-46cb-816b-8666d2751d95", "9b626c56-7ed0-4503-b331-3409e6ff4137", "9f98262d-0266-45ff-9409-5a87298d7f54", "9673b1be-a174-46b4-9dc1-17c20e8cb50b" ] } }, "disableInnerButtons": true, "disableNewBlocks": false, "fixed": true, "ignoreSpaces": true, "instructions": { "content-type": "text/html", "data": "<p><strong>Assessment text remains at</strong> <strong>the relevant</strong> <strong>aggregate level</strong> <strong>(i.e.</strong> <strong>global, EU, sectoral)</strong> <strong>and addresses the following: </strong></p><ol keys=\"dkvn8,e367c,f4lpb,9j981,7ai6k,3g3pd\" depth=\"0\"><li>Explains in one or two sentences on the environmental rationale of the indicator, i.e. why it matters to the environment that we see an increase/decrease in the value measured.</li><li>Explains in one or two sentences the associated policy objective, which can be either quantitative or directional. More information on the policy objective and related references will be included in the supporting information section. Where there is no policy objective associated with the indicator, i.e. where the indicator addresses an issue that is important for future policy formulation, this text should explain instead why this issue is important.</li><li>IF NECESSARY - Explains any mismatch between what the indicator tracks and what the policy objective/issue is.</li><li>Qualifies the historical trend (e.g. steady increase) and explains the key reasons (e.g. policies) behind it. If there is a quantitative target it explains if we are on track to meet it.</li><li>IF NECESSARY - Explains any recent changes to the trend and why.</li><li>IF NECESSARY - Describes what needs to happen to see adequate progress in future, for instance in order to remain on track to meet targets.</li></ol><p><strong>Please cite your work if</strong> <strong>necessary</strong> <strong>using the EEA citation style (i.e.</strong> <strong>EEA, 2020). A full reference list appears in the supporting information section.</strong></p>", "encoding": "utf8" }, "maxChars": "2000", "placeholder": "Aggregate level assessment e.g. progress at global, EU level..", "readOnlySettings": true, "required": true, "title": "Aggregate level assessment" }, "e9736b7c-4902-48aa-aecd-b706409a576d": { "@type": "dividerBlock", "disableNewBlocks": true, "fixed": true, "hidden": true, "readOnly": true, "required": true, "section": false, "spacing": "m", "styles": {} } }

Supporting information

[ { "children": [ { "text": "Methodology for indicator calculation" } ], "type": "h4" }, { "children": [ { "text": "Observations of Arctic sea ice were available from the EUMETSAT OSI SAF reanalysis project, in which a consistent time series of daily, gridded data for sea ice concentration is made from the passive microwave sensors " }, { "type": "link", "data": { "url": "https://nsidc.org/data/smmr_ssmi" }, "children": [ { "text": "JAXA Advanced Microwave Scanning Radiometer 2 (AMSR2) " } ] }, { "text": "data. Monthly aggregated sea ice products are provided by the " }, { "type": "link", "data": { "url": "https://osisaf-hl.met.no/" }, "children": [ { "text": "EUMETSAT OSI SAF" } ] }, { "text": " " }, { "type": "link", "data": { "url": "https://osisaf-hl.met.no/sites/osisaf-hl/files/user_manuals/osisaf_pum_sea-ice-index_v1p3.pdf" }, "children": [ { "text": "v2.3" } ] }, { "text": ".\u00a0Projections for Arctic sea ice area were derived from the CMIP6 ensemble experiment." } ], "type": "p" }, { "children": [ { "text": "" } ], "type": "p" }, { "children": [ { "text": "The annual maximum ice extent in the Baltic Sea was estimated based on three sources. Ice extent for the winters of 1720-1940 is based on a construction from various sources, including observations at lighthouses, old newspapers, records of travel on ice, scientific articles, and air temperature data from Stockholm and Helsinki. Data for 1945-1995 stems from the Finnish operational ice service. Data since 1995 are based on satellite observations." } ], "type": "p" }, { "children": [ { "text": "" } ], "type": "p" }, { "children": [ { "text": "The graphs show the data as delivered; linear trend lines and moving averages were added." } ], "type": "p" }, { "children": [ { "text": "" } ], "type": "p" }, { "children": [ { "text": "Methodology for gap filling" } ], "type": "h4" }, { "children": [ { "text": "Not applicable." } ], "type": "p" }, { "children": [ { "text": "" } ], "type": "p" }, { "children": [ { "text": "Methodology references" } ], "type": "h4" }, { "children": [ { "text": "No methodology references available." } ], "type": "p" } ]

{ "readOnly": true, "data": [ { "@id": "ad5e4ed8-bbb9-4f2d-91d9-12df689b955d", "title": "Time series of Baltic sea ice", "link": "https://en.ilmatieteenlaitos.fi/baltic-sea-ice-winters", "organisation": "Finnish Meteorological Institute" }, { "@id": "b9fd7056-49c6-4287-b8b8-710f7989eea5", "title": "Baltic Sea - Sea Ice Concentration and Thickness Charts", "link": "https://resources.marine.copernicus.eu/product-detail/SEAICE_BAL_SEAICE_L4_NRT_OBSERVATIONS_011_004/INFORMATION", "organisation": "Copernicus Marine Service" }, { "@id": "45cf07f8-6e30-4694-b189-4ac4005a06fe", "title": "Arctic monthly mean sea ice area", "link": "https://osisaf-hl.met.no/", "organisation": "EUMETSAT OSI SAF" }, { "@id": "2f79badb-6fdf-4459-9b6d-28f129c9d213", "title": "Arctic sea ice area from CMIP6 simulations", "link": "https://agupubs.onlinelibrary.wiley.com/doi/10.1029/2019GL086749" } ] }

[ { "children": [ { "text": "This indicator shows trends in the area of Arctic sea ice in March (annual ice maximum) and September (annual ice minimum). Satellite observations cover the period from 1979 until now. Projections until 2100 are based on an ensemble of climate models from the CMIP6 exercise, which informed the Intergovernmental Panel on " }, { "type": "link", "data": { "url": "https://www.ipcc.ch/assessment-report/ar6/" }, "children": [ { "text": "Climate Change Sixth Assessment Report" } ] }, { "text": ". Note that earlier versions of this indicator have shown the extent rather than the area of Artic sea ice, which is closely related, but can lead to somewhat different numbers." } ], "type": "p" }, { "children": [ { "text": "" } ], "type": "p" }, { "children": [ { "text": "The indicator also shows observations of maximum annual ice extent in the Baltic Sea, reaching back to 1719." } ], "type": "p" } ]

[ { "children": [ { "text": "Observed changes in the extent of sea ice provide evidence of global warming. Reduced Arctic sea ice will accelerate global warming through the ice-albedo feedback. Several studies have also suggested causal links between Arctic sea ice decline and summer precipitation in Europe and the Mediterranean. Reduced Arctic ice cover may also lead to increases in heavy snowfall in Europe during early winter." } ], "type": "p", "styleName": "text-justify" }, { "children": [ { "text": "" } ], "type": "p" }, { "children": [ { "text": "The projected loss of sea ice may offer new economic opportunities for oil and gas exploration, shipping, tourism and some types of fisheries in the Arctic. Most of these activities would increase the pressure on, and the risks to, the Arctic environment." } ], "type": "p", "styleName": "text-justify" }, { "children": [ { "text": "" } ], "type": "h4" }, { "children": [ { "text": "Targets" } ], "type": "h4" }, { "children": [ { "text": "No targets have been specified." } ], "type": "p" }, { "children": [ { "text": "" } ], "type": "p" }, { "children": [ { "text": "Related policy documents" } ], "type": "h4" }, { "children": [ { "text": "No related policy documents have been specified." } ], "type": "p" } ]

[ { "children": [ { "text": "Methodology uncertainty" } ], "type": "h4" }, { "children": [ { "text": "Not applicable." } ], "type": "p" }, { "children": [ { "text": "" } ], "type": "p" }, { "children": [ { "text": "Data sets uncertainty" } ], "type": "h4" }, { "children": [ { "text": "No uncertainty has been specified." } ], "type": "p" }, { "children": [ { "text": "" } ], "type": "p" }, { "children": [ { "text": "Rationale uncertainty" } ], "type": "h4" }, { "children": [ { "text": "No uncertainty has been specified." } ], "type": "p" } ]

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Contents

Maximum extent of ice cover in the Baltic Sea in the winter and 15 year moving average

Maximum extent of ice cover in the Baltic Sea in the winters 1719/20 – 2024/25 (blue bars) and 15 year moving average (red line). Source: Jouni Vainio, Finnish Meteorological Institute (updated from Seinä and Palosuo 1996; Seinä et al. 2001).

Observed and projected decline in Arctic sea ice area

This figure combines two data sources. The left part shows the observed change in Arctic sea ice area (individual observations and trend lines) over the period 1979 to 2025 for March (maximum ice cover) and September (minimum ice cover). The right part shows projections of Arctic sea ice area in March and September from CMIP6 simulations for three emissions scenarios. The thick lines denote the multimodel ensemble mean (24-27 models, depending on the scenario), and the shading shows the likely uncertainty interval (one standard deviation around the multimodel mean). The dashed line indicates a threshold for near ice-free conditions.

Cryosphere Climate change Arctic sea ice CLIM010 Sea ice extent Arctic