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Oznaka: environmental impact

He G et al. (2026) Impacts of microplastics on terrestrial soil carbon dynamics. Nature Geoscience 19.

26. februarja, 2026
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| Revija/članki - Journal/Articles

He G, Lu M, Yang Y. et al. (2026) Impacts of microplastics on terrestrial soil carbon dynamics. Nature Geoscience 19, 384–389 – https://doi.org/10.1038/s41561-026-01935-0 – University of Ljubljana access article pdf Abstract (povzetek): Vse večja zaskrbljenost zaradi onesnaževanja s plastiko in podnebnih sprememb po vsem svetu spodbuja raziskave vpliva mikroplastike na kroženje ogljika. Čeprav so bili vplivi mikroplastike na vsebnost […]

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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/carbon-cycle/" rel="tag">carbon cycle</a>, <a href="https://sustainability.unesco-floods.eu/tag/environmental-impact/" rel="tag">environmental impact</a>, <a href="https://sustainability.unesco-floods.eu/tag/microplastics/" rel="tag">microplastics</a>, <a href="https://sustainability.unesco-floods.eu/tag/terrestrial-soil-carbon-dynamics/" rel="tag">terrestrial soil carbon dynamics</a>

Hafez H et al. (2026) Low-carbon concrete has the potential to meet global urban housing needs by 2050. Communications Sustainability 1.

2. februarja, 2026
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| Revija/članki - Journal/Articles

Hafez H, Marsh ATM, Flegar M et al. (2026) Low-carbon concrete has the potential to meet global urban housing needs by 2050. Communications Sustainability 1, 28 – https://doi.org/10.1038/s44458-025-00027-1 – open access article pdf – CC BY 4.0 Abstract (povzetek): Zadovoljevanje naraščajočega povpraševanja po mestnih stanovanjih predstavlja globalni izziv na področju trajnosti. Številne študije so ugotovile, […]

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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/civil-engineering/" rel="tag">civil engineering</a>, <a href="https://sustainability.unesco-floods.eu/tag/environmental-impact/" rel="tag">environmental impact</a>, <a href="https://sustainability.unesco-floods.eu/tag/low-carbon-concrete/" rel="tag">low-carbon concrete</a>, <a href="https://sustainability.unesco-floods.eu/tag/nizkoogljicni-beton/" rel="tag">nizkoogljični beton</a>, <a href="https://sustainability.unesco-floods.eu/tag/zeleni-beton/" rel="tag">zeleni beton</a>

Sharma K et al. (2026) Estimating methane emissions from global sewer networks. Nature Water.

2. februarja, 2026
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| Revija/članki - Journal/Articles

Sharma K, Li J, Liu T et al. (2026) Estimating methane emissions from global sewer networks. Nat Water – https://doi.org/10.1038/s44221-025-00574-w Abstract (povzetek): Pojavili so se prepričljivi dokazi, ki kažejo na znatne emisije metana (CH4) iz kanalizacijskih sistemov, kar je v nasprotju s predpostavko o „ničelnih emisijah“, ki jo je oblikovala Medvladna skupina za podnebne spremembe. […]

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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/chemical-engineering/" rel="tag">chemical engineering</a>, <a href="https://sustainability.unesco-floods.eu/tag/environmental-impact/" rel="tag">environmental impact</a>, <a href="https://sustainability.unesco-floods.eu/tag/global-outlook/" rel="tag">global outlook</a>, <a href="https://sustainability.unesco-floods.eu/tag/methane-emissions/" rel="tag">methane emissions</a>, <a href="https://sustainability.unesco-floods.eu/tag/sewage-system/" rel="tag">sewage system</a>, <a href="https://sustainability.unesco-floods.eu/tag/sewer-ch4-emissions/" rel="tag">sewer CH4 emissions</a>, <a href="https://sustainability.unesco-floods.eu/tag/wastewater/" rel="tag">wastewater</a>

Christiansen N et al. (2026) Cumulative hydrodynamic impacts of offshore wind farms on North Sea currents and surface temperatures. Communications Earth & Environment 7.

13. januarja, 2026
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| Nekategorizirano

Christiansen N, Daewel U & Schrum C (2026) Cumulative hydrodynamic impacts of offshore wind farms on North Sea currents and surface temperatures. Commun Earth Environ 7, 164 – https://doi.org/10.1038/s43247-026-03186-8 – open access article pdf Abstract (povzetek): Morske vetrne elektrarne vse bolj vplivajo na dinamiko obalnih oceanov, vendar njihovi kumulativni fizični vplivi ostajajo slabo količinsko opredeljeni. […]

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Posted in <a href="https://sustainability.unesco-floods.eu/category/nekategorizirano/" rel="category tag">Nekategorizirano</a> Tagged <a href="https://sustainability.unesco-floods.eu/tag/environmental-impact/" rel="tag">environmental impact</a>, <a href="https://sustainability.unesco-floods.eu/tag/morske-vetrne-elektrarne/" rel="tag">morske vetrne elektrarne</a>, <a href="https://sustainability.unesco-floods.eu/tag/physical-oceanography/" rel="tag">physical oceanography</a>, <a href="https://sustainability.unesco-floods.eu/tag/severno-morje/" rel="tag">Severno morje</a>

Raziskave o rudarjenju v globokem morju kažejo, da to vpliva na več kot tretjino živali na morskem dnu – znanstveniki (BBC News – 5. december 2025)

5. decembra, 2025
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| BBC

Prispevek na spletnem portalu medija BBC v rubriki News o najnovejši raziskavi, ki razkriva, da globokomorsko rudarjenje povzroča resno škodo ekosistemom na morskem dnu, saj se je število živali na testnih območjih zmanjšalo za več kot tretjino. Znanstveniki so v Tihem oceanu dokumentirali tisoče bitij, med katerimi je večina novih vrst, ki jih uničevanje sedimentov neposredno ogroža. Čeprav […]

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Posted in <a href="https://sustainability.unesco-floods.eu/category/splet/spletni-viri/bbc/" rel="category tag">BBC</a> Tagged <a href="https://sustainability.unesco-floods.eu/tag/deep-sea-mining/" rel="tag">deep-sea mining</a>, <a href="https://sustainability.unesco-floods.eu/tag/environmental-impact/" rel="tag">environmental impact</a>, <a href="https://sustainability.unesco-floods.eu/tag/globokomorsko-rudarjenje/" rel="tag">globokomorsko rudarjenje</a>, <a href="https://sustainability.unesco-floods.eu/tag/morski-ekosistemi/" rel="tag">morski ekosistemi</a>, <a href="https://sustainability.unesco-floods.eu/tag/obnovljivi-viri/" rel="tag">obnovljivi viri</a>, <a href="https://sustainability.unesco-floods.eu/tag/tihi-ocean/" rel="tag">Tihi ocean</a>, <a href="https://sustainability.unesco-floods.eu/tag/zeleni-prehod/" rel="tag">zeleni prehod</a>

van Hamel A. et al. (2025) Riverrine heatwaves are an emergent climate change risk. Nature Water

1. decembra, 2025
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| Revija/članki - Journal/Articles

van Hamel A, Bruno G, Chartier-Rescan C. et al. (2025) Riverine heatwaves are an emergent climate change risk. Nat Water 3, 1356–1364 – https://doi.org/10.1038/s44221-025-00541-5 – Abstract (povzetek): Daljša obdobja nenavadno visokih temperatur rečne vode, znana kot rečne vročinske valove, lahko negativno vplivajo na rečne ekosisteme in družbeno-gospodarske dejavnosti. Zaradi podnebnih sprememb bodo ti vročinski valovi […]

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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/climate-change/" rel="tag">climate change</a>, <a href="https://sustainability.unesco-floods.eu/tag/environmental-impact/" rel="tag">environmental impact</a>, <a href="https://sustainability.unesco-floods.eu/tag/freshwater-ecology/" rel="tag">freshwater ecology</a>, <a href="https://sustainability.unesco-floods.eu/tag/hydrology/" rel="tag">hydrology</a>, <a href="https://sustainability.unesco-floods.eu/tag/river-ecosystems/" rel="tag">river ecosystems</a>, <a href="https://sustainability.unesco-floods.eu/tag/riverine-heatwaves/" rel="tag">riverine heatwaves</a>

Li C et al (2025) Carbon footprint of the construction sector is projected to double by 2050 globally. Communications Earth & Environment 6.

27. oktobra, 2025
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| Revija/članki - Journal/Articles

Li C, Pradhan P, Chen G et al. (2025) Carbon footprint of the construction sector is projected to double by 2050 globally. Communications Earth Environment 6, 831 – https://doi.org/10.1038/s43247-025-02840-x – open access article pdf – CC BY 4.0 Abstract (povzetek): Za uresničitev ciljev Pariškega sporazuma, da se globalno zvišanje temperature ohrani precej pod 2 °C, pri […]

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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/beton/" rel="tag">beton</a>, <a href="https://sustainability.unesco-floods.eu/tag/environmental-impact/" rel="tag">environmental impact</a>, <a href="https://sustainability.unesco-floods.eu/tag/environmental-studies/" rel="tag">environmental studies</a>, <a href="https://sustainability.unesco-floods.eu/tag/gradbeni-materiali/" rel="tag">gradbeni materiali</a>, <a href="https://sustainability.unesco-floods.eu/tag/gradbenistvo/" rel="tag">gradbeništvo</a>, <a href="https://sustainability.unesco-floods.eu/tag/jeklo/" rel="tag">jeklo</a>, <a href="https://sustainability.unesco-floods.eu/tag/napredni-materiali/" rel="tag">napredni materiali</a>, <a href="https://sustainability.unesco-floods.eu/tag/ogljicni-odtis-gradbenistva/" rel="tag">ogljični odtis gradbeništva</a>

Abram NJ et al. (2025) Emerging evidence of abrupt changes in the Antarctic environment. Nature 644.

20. avgusta, 2025
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| Revija/članki - Journal/Articles

Abram NJ, Purich A, England MH et al. (2025) Emerging evidence of abrupt changes in the Antarctic environment. Nature 644, 621–633 – https://doi.org/10.1038/s41586-025-09349-5 – University of Ljubljana access article pdf Abstract (povzetek): Podnebne spremembe, ki jih povzroča človek, se s vsakim dodatnim segrevanjem poslabšujejo, čeprav se nekateri vplivi lahko pojavijo nenadoma. Možnost nenadnih sprememb 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/climate-change-impacts-2/" rel="tag">climate-change impacts</a>, <a href="https://sustainability.unesco-floods.eu/tag/cryospheric-science/" rel="tag">cryospheric science</a>, <a href="https://sustainability.unesco-floods.eu/tag/environmental-impact/" rel="tag">environmental impact</a>

Parasiewicz et al. (2023) Over 200,000 kilometers of free-flowing river habitat in Europe is altered due to impoundments. Nature Communications 14, 6289

9. oktobra, 2023
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| Revija/članki - Journal/Articles

Parasiewicz P, Belka K, Łapińska M et al. (2023) Over 200,000 kilometers of free-flowing river habitat in Europe is altered due to impoundments. Nat Commun 14, 6289 – https://doi.org/10.1038/s41467-023-40922-6 – open access pdf Abstract (povzetek): Evropske reke ločuje več kot milijon umetnih pregrad, ki fizično omejujejo selitev vodnih vrst in prispevajo k spreminjanju sladkovodnih habitatov. […]

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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/ekologija-sladkih-voda/" rel="tag">ekologija sladkih voda</a>, <a href="https://sustainability.unesco-floods.eu/tag/environmental-impact/" rel="tag">environmental impact</a>, <a href="https://sustainability.unesco-floods.eu/tag/european-rivers/" rel="tag">European rivers</a>, <a href="https://sustainability.unesco-floods.eu/tag/evropske-reke/" rel="tag">Evropske reke</a>, <a href="https://sustainability.unesco-floods.eu/tag/freshwater-ecology/" rel="tag">freshwater ecology</a>, <a href="https://sustainability.unesco-floods.eu/tag/hidrologija/" rel="tag">hidrologija</a>, <a href="https://sustainability.unesco-floods.eu/tag/hydrology/" rel="tag">hydrology</a>, <a href="https://sustainability.unesco-floods.eu/tag/okoljski-vpliv/" rel="tag">okoljski vpliv</a>

Qin et al. (2023) Global assessment of the carbon–water tradeoff of dry cooling for thermal power generation. Nature Water 1, 682-693

7. avgusta, 2023
| Ni komentarjev
| Revija/članki - Journal/Articles

Qin Y, Wang Y, Li S et al. (2023) Global assessment of the carbon–water tradeoff of dry cooling for thermal power generation. Nature Water 1, 682-693. https://doi.org/10.1038/s44221-023-00120-6 Abstract (povzetek): Pomanjkanje vode in podnebne spremembe so dvojni izzivi, ki bi lahko ogrozili zanesljivo oskrbo z energijo. Vendar pa so integrirani okviri za upravljanje vode in ogljika, […]

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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/climate-change/" rel="tag">climate change</a>, <a href="https://sustainability.unesco-floods.eu/tag/environmental-impact/" rel="tag">environmental impact</a>, <a href="https://sustainability.unesco-floods.eu/tag/okoljski-vplivi/" rel="tag">okoljski vplivi</a>, <a href="https://sustainability.unesco-floods.eu/tag/podnebne-spremembe/" rel="tag">podnebne spremembe</a>, <a href="https://sustainability.unesco-floods.eu/tag/termoelektrarne/" rel="tag">termoelektrarne</a>, <a href="https://sustainability.unesco-floods.eu/tag/thermal-power-stations/" rel="tag">thermal power stations</a>
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