npj Climate and Atmospheric Science (Jul 2024)

Can climate change signals be detected from the terrestrial water storage at daily timescale?

  • Fei Huo,
  • Li Xu,
  • Zhenhua Li,
  • Yanping Li,
  • James S. Famiglietti,
  • Hrishi A. Chandanpurkar

DOI
https://doi.org/10.1038/s41612-024-00646-w
Journal volume & issue
Vol. 7, no. 1
pp. 1 – 12

Abstract

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Abstract The global terrestrial water storage (TWS), the most accessible component in the hydrological cycle, is a general indicator of freshwater availability on Earth. The global TWS trend caused by climate change is harder to detect than global mean temperature due to the highly uneven hydrological responses across the globe, the brevity of global freshwater observations, and large noises of internal climate variability. To overcome the climate noise and small sample size of observations, we leverage the vast amount of observed and simulated meteorological fields at daily scales to project global TWS through its fingerprints in weather patterns. The novel method identifies the relationship between annual global mean TWS and daily surface air temperature and humidity fields using multi-model hydrological simulations. We found that globally, approximately 50% of days for most years since 2016 have climate change signals emerged above the noise of internal variability. Climate change signals in global mean TWS have been consistently increasing over the last few decades, and in the future, are expected to emerge from the natural climate variability. Our research indicates the urgency to limit carbon emission to not only avoid risks associated with warming but also sustain water security in the future.