![Summer temperature development 18,000–14,000 cal. BP recorded by a new chironomid record from Burgäschisee, Swiss Plateau - ScienceDirect Summer temperature development 18,000–14,000 cal. BP recorded by a new chironomid record from Burgäschisee, Swiss Plateau - ScienceDirect](https://ars.els-cdn.com/content/image/1-s2.0-S0277379120304467-gr1.jpg)
Summer temperature development 18,000–14,000 cal. BP recorded by a new chironomid record from Burgäschisee, Swiss Plateau - ScienceDirect
![Multi-criteria Evaluation of a Distributed Energy Resource System Focusing on Grid Stabilization and Carbon Emission Reduction | SpringerLink Multi-criteria Evaluation of a Distributed Energy Resource System Focusing on Grid Stabilization and Carbon Emission Reduction | SpringerLink](https://media.springernature.com/lw685/springer-static/image/chp%3A10.1007%2F978-3-031-21097-6_9/MediaObjects/534293_1_En_9_Fig8_HTML.png)
Multi-criteria Evaluation of a Distributed Energy Resource System Focusing on Grid Stabilization and Carbon Emission Reduction | SpringerLink
![Summer temperature development 18,000–14,000 cal. BP recorded by a new chironomid record from Burgäschisee, Swiss Plateau - ScienceDirect Summer temperature development 18,000–14,000 cal. BP recorded by a new chironomid record from Burgäschisee, Swiss Plateau - ScienceDirect](https://ars.els-cdn.com/content/image/1-s2.0-S0277379120304467-gr2.jpg)
Summer temperature development 18,000–14,000 cal. BP recorded by a new chironomid record from Burgäschisee, Swiss Plateau - ScienceDirect
![Summer temperature development 18,000–14,000 cal. BP recorded by a new chironomid record from Burgäschisee, Swiss Plateau - ScienceDirect Summer temperature development 18,000–14,000 cal. BP recorded by a new chironomid record from Burgäschisee, Swiss Plateau - ScienceDirect](https://ars.els-cdn.com/content/image/1-s2.0-S0277379120304467-gr5.jpg)
Summer temperature development 18,000–14,000 cal. BP recorded by a new chironomid record from Burgäschisee, Swiss Plateau - ScienceDirect
![Summer temperature development 18,000–14,000 cal. BP recorded by a new chironomid record from Burgäschisee, Swiss Plateau - ScienceDirect Summer temperature development 18,000–14,000 cal. BP recorded by a new chironomid record from Burgäschisee, Swiss Plateau - ScienceDirect](https://ars.els-cdn.com/content/image/1-s2.0-S0277379120304467-gr6.jpg)
Summer temperature development 18,000–14,000 cal. BP recorded by a new chironomid record from Burgäschisee, Swiss Plateau - ScienceDirect
![The heatwave in Europe has pushed the zero-degree limit—the altitude at which the temperature dips into the minus—to a record height of 5,298 metres in Switzerland : r/collapse The heatwave in Europe has pushed the zero-degree limit—the altitude at which the temperature dips into the minus—to a record height of 5,298 metres in Switzerland : r/collapse](https://external-preview.redd.it/the-heatwave-in-europe-has-pushed-the-zero-degree-limit-the-v0-WleZPudfhC39vpdBYzFiDS-iBpkxdlt15E852ABvCyE.jpg?auto=webp&s=c664960ca0bdddcff47cbe97731dbd4c20ec2387)
The heatwave in Europe has pushed the zero-degree limit—the altitude at which the temperature dips into the minus—to a record height of 5,298 metres in Switzerland : r/collapse
![Pollen diagram by depth showing percentages of main pollen taxa. Pollen... | Download Scientific Diagram Pollen diagram by depth showing percentages of main pollen taxa. Pollen... | Download Scientific Diagram](https://www.researchgate.net/publication/262736247/figure/fig2/AS:614136182501384@1523432884749/Pollen-diagram-by-depth-showing-percentages-of-main-pollen-taxa-Pollen-zones-are-based.png)
Pollen diagram by depth showing percentages of main pollen taxa. Pollen... | Download Scientific Diagram
![Numerical investigations of extreme winds over Switzerland during 1990–2010 winter storms with the Canadian Regional Climate Model | SpringerLink Numerical investigations of extreme winds over Switzerland during 1990–2010 winter storms with the Canadian Regional Climate Model | SpringerLink](https://media.springernature.com/lw685/springer-static/image/art%3A10.1007%2Fs00704-012-0800-1/MediaObjects/704_2012_800_Fig5_HTML.gif)