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Showing 1–5 of 5 results
Advanced filters: Author: Nico Wunderling Clear advanced filters

  • The polar ice sheets are key contributors to the uncertainty of future climate change projection, according to an analysis using an Earth system network model to assess the contribution of six Earth system components at 1.5 and 4.0 °C of warming.

    • Jonathan P. Rosser
    • Ricarda Winkelmann
    • Nico Wunderling
    ResearchOpen Access
    Communications Earth & Environment
    Volume: 5, P: 1-11

  • Temporarily exceeding temperature targets could increase risk of crossing tipping-element thresholds. This study considers a range of overshoot scenarios in a stylized network model and shows that overshoots increase tipping risks by up to 72% compared with remaining within targets.

    • Nico Wunderling
    • Ricarda Winkelmann
    • Jonathan F. Donges
    Research
    Nature Climate Change
    Volume: 13, P: 75-82

  • By using network motifs, a new view of the global hydrological cycle is offered. With them, it is revealed that the Amazon rainforest is a one-of-a-kind moisture recycling hub, which shows that the ecosystem may be subject to increased vulnerability

    • Nico Wunderling
    • Frederik Wolf
    • Arie Staal
    ResearchOpen Access
    Nature Communications
    Volume: 13, P: 1-8

  • Temporarily overshooting the 1.5 °C limit risks triggering climate tipping elements. This study finds that every 0.1 °C of warming increases risk, with a strong acceleration above +2.0 °C. Achieving net-zero emissions by 2100 is crucial to minimise long-term risks.

    • Tessa Möller
    • Annika Ernest Högner
    • Nico Wunderling
    ResearchOpen Access
    Nature Communications
    Volume: 15, P: 1-11

  • The disintegration of cryosphere elements such as the Arctic summer sea ice, mountain glaciers, Greenland and West Antarctica is associated with temperature and radiative feedbacks. In this work, the authors quantify these feedbacks and find an additional global warming of 0.43°C.

    • Nico Wunderling
    • Matteo Willeit
    • Ricarda Winkelmann
    ResearchOpen Access
    Nature Communications
    Volume: 11, P: 1-8