Tamara Happé
@tamarahappe.bsky.social
PhD Candidate at the Institute for Environmental Studies (IVM), at Vrije Universiteit van Amsterdam (VU) 🌍🌦 focussing on heat extremes 🔥 in the
@XaidaProject
@XaidaProject
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🌡️ Lastly, these waves are associated with strong temperature surface imprints. We find that the circulation trends can explain respectively 15% and 26% of the observed regional temperature trends in the U.S.–Atlantic and Eurasian regions.
🌡️ Lastly, these waves are associated with strong temperature surface imprints. We find that the circulation trends can explain respectively 15% and 26% of the observed regional temperature trends in the U.S.–Atlantic and Eurasian regions.
November 18, 2025 at 1:25 PM
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🌡️ Lastly, these waves are associated with strong temperature surface imprints. We find that the circulation trends can explain respectively 15% and 26% of the observed regional temperature trends in the U.S.–Atlantic and Eurasian regions.
🌡️ Lastly, these waves are associated with strong temperature surface imprints. We find that the circulation trends can explain respectively 15% and 26% of the observed regional temperature trends in the U.S.–Atlantic and Eurasian regions.
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2️⃣ We find that the upper-atmospheric circulation trendsconsist of at least two regional responses, with wave patterns over the US-Atlantic and Eurasia sectors. These waves are preceeded by distinct SST and OLR anomalies three weeks prior, yet these teleconnections are missing in CMIP6.
2️⃣ We find that the upper-atmospheric circulation trendsconsist of at least two regional responses, with wave patterns over the US-Atlantic and Eurasia sectors. These waves are preceeded by distinct SST and OLR anomalies three weeks prior, yet these teleconnections are missing in CMIP6.
November 18, 2025 at 1:24 PM
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2️⃣ We find that the upper-atmospheric circulation trendsconsist of at least two regional responses, with wave patterns over the US-Atlantic and Eurasia sectors. These waves are preceeded by distinct SST and OLR anomalies three weeks prior, yet these teleconnections are missing in CMIP6.
2️⃣ We find that the upper-atmospheric circulation trendsconsist of at least two regional responses, with wave patterns over the US-Atlantic and Eurasia sectors. These waves are preceeded by distinct SST and OLR anomalies three weeks prior, yet these teleconnections are missing in CMIP6.
[2/...]
1️⃣ Over the past decades, parts of the Northern Hemisphere midlatitudes have shown strong summertime changes in upper-atmospheric circulation and temperature extremes. Concerningly, some of these observed trends fall outside of historical CMIP6 simulations.
1️⃣ Over the past decades, parts of the Northern Hemisphere midlatitudes have shown strong summertime changes in upper-atmospheric circulation and temperature extremes. Concerningly, some of these observed trends fall outside of historical CMIP6 simulations.
November 18, 2025 at 1:22 PM
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1️⃣ Over the past decades, parts of the Northern Hemisphere midlatitudes have shown strong summertime changes in upper-atmospheric circulation and temperature extremes. Concerningly, some of these observed trends fall outside of historical CMIP6 simulations.
1️⃣ Over the past decades, parts of the Northern Hemisphere midlatitudes have shown strong summertime changes in upper-atmospheric circulation and temperature extremes. Concerningly, some of these observed trends fall outside of historical CMIP6 simulations.