EGU24-7870, updated on 08 Mar 2024
https://doi.org/10.5194/egusphere-egu24-7870
EGU General Assembly 2024
© Author(s) 2024. This work is distributed under
the Creative Commons Attribution 4.0 License.

A Multi-site Hidden Markov Model-Based Synthetic Streamflow Generator to Evaluate Multisectoral Drought Vulnerability in Colorado’s West Slope Basins

David Gold1, Patrick Reed2, and Rohini Gupta3
David Gold et al.
  • 1Utrecht University, Physical Geography, Utrecht, Netherlands (d.f.gold@uu.nl)
  • 2Cornell University, Civil and Environmental Engineering, Ithaca, United States of America (patrick.reed@cornell.edu)
  • 3Cornell University, Civil and Environmental Engineering, Ithaca, United States of America (rg727@cornell.edu)

The Colorado River is a lifeline for the American Southwest, supporting over 5.5 million irrigated acres of agricultural land and a population of 40 million people. The state of Colorado’s West Slope basins - six subbasins of the Colorado River that lie on the western side of the continental divide - are critical headwaters of the Colorado River, delivering over 60% of inflows to the Colorado River Basin’s (CRB) Lower Basin in an average year. The West Slope basins also play a vital role in supporting the state of Colorado’s local economy and natural environment. Agricultural production and recreational activities supported by water resources within the West Slope basins are estimated to contribute over $6 billion annually to the state’s economy. Streamflow in the West Slope basins sustains populations of endangered fish not found outside the CRB. Balancing the multisectoral water demands in the West Slope basins is an increasing challenge for water managers. Droughts in the 20th and early 21st centuries have reduced reservoir levels, lowered environmental flows, and threatened agricultural production. Internal variability - irreducible uncertainty stemming from interactions across non-linear processes within the hydroclimate system - complicates future vulnerability assessments. The historical streamflow record in the West Slope represents a single realization of an inherently stochastic process, which does not capture the full extent of internal variability and plausible hydroclimatic extremes. Climate change further exacerbates drought vulnerability in the West Slope basins, with significant streamflow declines projected by mid-century.   

This work contributes a detailed analysis of multisectoral drought vulnerabilities in the West Slope basins that systematically accounts for both internal variability and climate change. We contribute a novel multi-site Hidden Markov Model (HMM)-based synthetic streamflow generator to create streamflow across the six West Slope basins that better characterizes the region’s hydroclimate and drought extremes. We then route an ensemble of streamflows generated by the HMM generator through StateMod, the state of Colorado’s water allocation model, to evaluate spatially compounding drought impacts across the West Slope basins. We capture the effects of climate change by perturbing the HMM to generate a climate-adjusted ensemble of streamflows that reflects plausible changes in climate. Our results show that drought events emerging from the system’s stationary internal variability in the absence of climate change can have significant impacts that exceed extreme conditions in the historical record, including unprecedented lows in deliveries to the Lower basin (e.g., Lake Powell), reduced environmental flows, low reservoir levels, and significant agricultural shortages. Our results further illustrate that even relatively modest levels of plausible climate changes can cause a major regime shift where extreme drought impacts become routine. These results can inform future Colorado River planning efforts, and our methodology can be expanded to other snow-dominated regions that face persistent droughts.

How to cite: Gold, D., Reed, P., and Gupta, R.: A Multi-site Hidden Markov Model-Based Synthetic Streamflow Generator to Evaluate Multisectoral Drought Vulnerability in Colorado’s West Slope Basins, EGU General Assembly 2024, Vienna, Austria, 14–19 Apr 2024, EGU24-7870, https://doi.org/10.5194/egusphere-egu24-7870, 2024.