Remote sensing-based detection of resilience loss in the terrestrial water cycle

Summary

In the face of Anthropogenic change, ecosystems globally have shown evidence of resilience loss in the past several decades. By governing key processes in terrestrial ecosystems, the hydrological cycle is critical for Earth system stability. A resilient system is able to retain its function and structure in the face of external perturbations. Changes to driving hydrological variables, i.e., precipitation, evaporation, and soil moisture, are thought to be important drivers of terrestrial ecosystem resilience, and vice-versa through land-atmosphere feedbacks. Resilience has been estimated through time series analysis, where an increase in metrics of system recovery time can signal a loss of system resilience. To date, such methods of resilience analysis have not yet been applied to hydrological variables. As a result, there is limited quantification of the role of the water cycle in Earth system resilience.

Information

Publication info: Romi Lotcheris, Lan Wang-Erlandsson, Juan Rocha. 2024. Remote sensing-based detection of resilience loss in the terrestrial water cycle. EGU. https://doi.org/10.5194/egusphere-egu24-17019

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