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Oznaka: physical oceanography

Terhaar J, Vogt L, Foukal NP (2025) Atlantic overturning inferred from air-sea heat fluxes indicates no decline since the 1960s. nature Communications 16, 222.

15. januarja, 2025
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| Revija/članki - Journal/Articles

Terhaar J, Vogt L, Foukal NP (2025) Atlantic overturning inferred from air-sea heat fluxes indicates no decline since the 1960s. Nature Communications 16, 222 – https://doi.org/10.1038/s41467-024-55297-5 – open access article pdf – CC BY-NC-ND 4.0 Abstract (povzetek): Atlantsko meridionalno prevračanje (angl. Atlantic meridional overturning circulation – AMOC) je ključnega pomena za sprejem ogljika in toplote […]

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Posted in <a href="https://sustainability.unesco-floods.eu/category/revije-journals/" rel="category tag">Revija/članki - Journal/Articles</a> Tagged <a href="https://sustainability.unesco-floods.eu/tag/amoc/" rel="tag">AMOC</a>, <a href="https://sustainability.unesco-floods.eu/tag/atlantic-meridional-overturning-circulation/" rel="tag">Atlantic meridional overturning circulation</a>, <a href="https://sustainability.unesco-floods.eu/tag/climate-system-modelling/" rel="tag">climate system modelling</a>, <a href="https://sustainability.unesco-floods.eu/tag/earth-system-modelling/" rel="tag">Earth system modelling</a>, <a href="https://sustainability.unesco-floods.eu/tag/physical-oceanography/" rel="tag">physical oceanography</a>

Drijfhout S et al. (2024) Atlantic overturning collapses in global warming projections after 2100. Research Square – preprint

25. septembra, 2024
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| Revija/članki - Journal/Articles

Drijfhout S, Angevaare J, Mecking J, Rahmstorf S (2024) Atlantic overturning collapses in global warming projections after 2100. Research Square preprint – https://doi.org/10.21203/rs.3.rs-5077014/v1 – open access document pdf – CC BY 4.0 Abstract (povzetek): Atlantsko meridionalno prevračanje (AMOC) močno vpliva na podnebje, zlasti (vendar ne izključno) v severnem Atlantiku, njegove nestabilnosti pa pojasnjujejo nekatere največje […]

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Posted in <a href="https://sustainability.unesco-floods.eu/category/revije-journals/" rel="category tag">Revija/članki - Journal/Articles</a> Tagged <a href="https://sustainability.unesco-floods.eu/tag/amoc/" rel="tag">AMOC</a>, <a href="https://sustainability.unesco-floods.eu/tag/atlantic-meridional-overturning-circulation/" rel="tag">Atlantic meridional overturning circulation</a>, <a href="https://sustainability.unesco-floods.eu/tag/climate-change/" rel="tag">climate change</a>, <a href="https://sustainability.unesco-floods.eu/tag/climate-science/" rel="tag">climate science</a>, <a href="https://sustainability.unesco-floods.eu/tag/earth-system-modelling/" rel="tag">Earth system modelling</a>, <a href="https://sustainability.unesco-floods.eu/tag/physical-oceanography/" rel="tag">physical oceanography</a>

Wharton et al. (2024) Deeper and stronger North Atlantic Gyre during the Last Glacial Maximum. Nature 632, 95-100.

10. julija, 2024
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| Revija/članki - Journal/Articles

Wharton JH, Renoult M, Gebbie G et al. (2024) Deeper and stronger North Atlantic Gyre during the Last Glacial Maximum. Nature 632, 95–100 – https://doi.org/10.1038/s41586-024-07655-y – open access document pdf – CC BY 4.0 Abstract (povzetek): Globino in moč subtropskega krožnega toka (angl. Subtropical gyre – STG) nadzorujeta striženje vetra in vzgon na površju. Sodobni hidrografski podatki kažejo, da […]

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Posted in <a href="https://sustainability.unesco-floods.eu/category/revije-journals/" rel="category tag">Revija/članki - Journal/Articles</a> Tagged <a href="https://sustainability.unesco-floods.eu/tag/paleoceanography/" rel="tag">paleoceanography</a>, <a href="https://sustainability.unesco-floods.eu/tag/paleoclimate/" rel="tag">paleoclimate</a>, <a href="https://sustainability.unesco-floods.eu/tag/physical-oceanography/" rel="tag">physical oceanography</a>

Millan R et al. (2023) Rapid disintegration and weakening of ice shelves in North Greenland. Nature Communications 14, 6914.

7. novembra, 2023
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| Revija/članki - Journal/Articles

Millan R, Jager E, Mouginot J et al. (2023) Rapid disintegration and weakening of ice shelves in North Greenland. Nature Communications 14, 6914 – https://doi.org/10.1038/s41467-023-42198-2 – open access article pdf – CC BY 4.0 Abstract (povzetek): Na ledenikih severne Grenlandije je dovolj ledu, da bi se morska gladina dvignila za 2,1 m, in dolgo so veljali za stabilne. Ta […]

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Posted in <a href="https://sustainability.unesco-floods.eu/category/revije-journals/" rel="category tag">Revija/članki - Journal/Articles</a> Tagged <a href="https://sustainability.unesco-floods.eu/tag/cryospheric-science/" rel="tag">cryospheric science</a>, <a href="https://sustainability.unesco-floods.eu/tag/greenland/" rel="tag">Greenland</a>, <a href="https://sustainability.unesco-floods.eu/tag/greenland-glaciers/" rel="tag">Greenland glaciers</a>, <a href="https://sustainability.unesco-floods.eu/tag/ice-sheet/" rel="tag">ice sheet</a>, <a href="https://sustainability.unesco-floods.eu/tag/ice-shelf/" rel="tag">ice shelf</a>, <a href="https://sustainability.unesco-floods.eu/tag/physical-oceanography/" rel="tag">physical oceanography</a>

Poročilo ugotavlja, da se najhladnejše in najslanejše oceanske vode na planetu segrevajo in krčijo (CNN World – 13. junij 2023)

13. junija, 2023
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| CNN

Globoka oceanska voda na Antarktiki se segreva in krči, kar ima lahko daljnosežne posledice za podnebne spremembe in globokomorske ekosisteme, je razvidno iz poročila. “Antarktična pridnena voda – voda on dnu oceana” je najhladnejša in najbolj slana voda na planetu. Te vode imajo ključno vlogo pri sposobnosti oceanov, da delujejo kot varovalo pred podnebnimi spremembami, […]

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Posted in <a href="https://sustainability.unesco-floods.eu/category/splet/spletni-viri/cnn/" rel="category tag">CNN</a> Tagged <a href="https://sustainability.unesco-floods.eu/tag/antarctica/" rel="tag">Antarctica</a>, <a href="https://sustainability.unesco-floods.eu/tag/attribution/" rel="tag">attribution</a>, <a href="https://sustainability.unesco-floods.eu/tag/climate-change/" rel="tag">climate change</a>, <a href="https://sustainability.unesco-floods.eu/tag/cryospheric-science/" rel="tag">cryospheric science</a>, <a href="https://sustainability.unesco-floods.eu/tag/oceans/" rel="tag">oceans</a>, <a href="https://sustainability.unesco-floods.eu/tag/physical-oceanography/" rel="tag">physical oceanography</a>, <a href="https://sustainability.unesco-floods.eu/tag/weddell-sea/" rel="tag">Weddell Sea</a>

Li et al. (2023) Abyssal ocean overturning slowdown and warming driven by Antarctic meltwater. Nature 615, 841-847

29. marca, 2023
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| Revija/članki - Journal/Articles

Li Q, England MH, Hogg AM et al. (2023) Abyssal ocean overturning slowdown and warming driven by Antarctic meltwater. Nature 615, 841–847. https://doi.org/10.1038/s41586-023-05762-w Abstract (povzetek): Globinska oceanska cirkulacija je ključna sestavina globalne meridionalne cirkulacije, ki kroži s toploto, ogljikom, kisikom in hranilnimi snovmi po vsem svetovnem oceanu. Najmočnejši zgodovinski trend, opažen v globokem oceanu, je […]

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Posted in <a href="https://sustainability.unesco-floods.eu/category/revije-journals/" rel="category tag">Revija/članki - Journal/Articles</a> Tagged <a href="https://sustainability.unesco-floods.eu/tag/antarctica/" rel="tag">Antarctica</a>, <a href="https://sustainability.unesco-floods.eu/tag/ocean-circulation/" rel="tag">ocean circulation</a>, <a href="https://sustainability.unesco-floods.eu/tag/oceans/" rel="tag">oceans</a>, <a href="https://sustainability.unesco-floods.eu/tag/physical-oceanography/" rel="tag">physical oceanography</a>

Orihuela-Pinto B, England MH, Taschetto AS (2022) Interbasin and interhemispheric impacts of a collapsed Atlantic Overturning Circulation. Nature Climate Change 12, 558-565.

6. junija, 2022
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| Revija/članki - Journal/Articles

Orihuela-Pinto, B., England, M.H. & Taschetto, A.S. Interbasin and interhemispheric impacts of a collapsed Atlantic Overturning Circulation. Nature Climate Change 12, 558–565 – https://doi.org/10.1038/s41558-022-01380-y – CTK access article pdf Abstract (povzetek): Podnebne napovedi kažejo na oslabitev ali kolaps atlantske meridionalne prevratne cirkulacije (angl. Atlantic meridional overturning circulation – AMOC) ob globalnem segrevanju, pri čemer obstajajo […]

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Posted in <a href="https://sustainability.unesco-floods.eu/category/revije-journals/" rel="category tag">Revija/članki - Journal/Articles</a> Tagged <a href="https://sustainability.unesco-floods.eu/tag/amoc/" rel="tag">AMOC</a>, <a href="https://sustainability.unesco-floods.eu/tag/atlantic-meridional-overturning-circulation/" rel="tag">Atlantic meridional overturning circulation</a>, <a href="https://sustainability.unesco-floods.eu/tag/atmospheric-dynamics/" rel="tag">atmospheric dynamics</a>, <a href="https://sustainability.unesco-floods.eu/tag/climate-system-modelling/" rel="tag">climate system modelling</a>, <a href="https://sustainability.unesco-floods.eu/tag/earth-system-modelling/" rel="tag">Earth system modelling</a>, <a href="https://sustainability.unesco-floods.eu/tag/physical-oceanography/" rel="tag">physical oceanography</a>
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AMOC (20) Antarctica (23) artifical intelligence (30) artificial intelligence (22) Atlantic meridional overturning circulation (19) attribution (24) ChatGPT (17) China (17) climate change (169) drought (16) Earth (35) El Niño (21) energy (19) energy transition (19) Europe (34) European Union (19) Evropa (17) Evropska unija (19) extreme event attribution (27) extreme events (16) extreme weather (19) floods (28) globalno segrevanje (16) global outlook (36) global warming (82) greenhouse gas emissions (18) higher education (16) hydrology (21) innovation (21) inovacije (17) Kitajska (28) large language models (25) natural hazards (22) oceans (17) planetary boundaries (18) podnebne spremembe (38) poplave (20) renewable energy (22) Slovenija (50) sustainability (33) sustainable development (17) technology (22) trajnostni razvoj (18) umetna inteligenca (44) United States of America (18)
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