Event Title

A 576-year Weber River streamflow reconstruction from tree rings for water resource risk assessment in the Wasatch Front

Location

Eccles Conference Center

Event Website

http://water.usu.edu

Start Date

4-1-2014 5:05 PM

End Date

4-1-2014 5:10 PM

Description

We present a 576-year tree-ring based reconstruction of streamflow for northern Utah’s Weber River that exhibits considerable interannual and decadal-scale variability. While the 20th century instrumental period includes several extreme individual dry years, it was the century with the fewest such years of the entire reconstruction. Extended droughts were more severe in duration, magnitude, and intensity prior to the instrumental record, including the most protracted drought of the record, which spanned 16 years from 1703-1718. Extreme wet years and periods are also a regular feature of the reconstruction. A strong early 17th century pluvial exceeds the early 20th century pluvial in magnitude, duration, and intensity, and dwarfs the 1980s wet period that caused significant flooding along the Wasatch Front. The long-term hydroclimatology of northern Utah is marked by considerable uncertainty, hence our reconstruction provides water managers with a more complete record of water resource variability for assessment of the risk of droughts and floods for one of the largest and most rapidly growing population centers in the Intermountain West.

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Apr 1st, 5:05 PM Apr 1st, 5:10 PM

A 576-year Weber River streamflow reconstruction from tree rings for water resource risk assessment in the Wasatch Front

Eccles Conference Center

We present a 576-year tree-ring based reconstruction of streamflow for northern Utah’s Weber River that exhibits considerable interannual and decadal-scale variability. While the 20th century instrumental period includes several extreme individual dry years, it was the century with the fewest such years of the entire reconstruction. Extended droughts were more severe in duration, magnitude, and intensity prior to the instrumental record, including the most protracted drought of the record, which spanned 16 years from 1703-1718. Extreme wet years and periods are also a regular feature of the reconstruction. A strong early 17th century pluvial exceeds the early 20th century pluvial in magnitude, duration, and intensity, and dwarfs the 1980s wet period that caused significant flooding along the Wasatch Front. The long-term hydroclimatology of northern Utah is marked by considerable uncertainty, hence our reconstruction provides water managers with a more complete record of water resource variability for assessment of the risk of droughts and floods for one of the largest and most rapidly growing population centers in the Intermountain West.

https://digitalcommons.usu.edu/runoff/2014/2014Posters/25