Identification of Seasonal Streamflow Regimes and Streamflow Drivers for Daily and Peak Flows in Alaska

Curran, Janet H.; Biles, Frances E.

doi:10.1029/2020wr028425

Cited by 23 publications

(37 citation statements)

References 68 publications

(97 reference statements)

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“…We defined four hydroclimatic periods that represent time‐varying hydrologic process common to most glacierized catchments and therefore can be widely transferrable (e.g., Curran & Biles, 2021; Fountain & Tangborn, 1985, see Sections 2.3 and 4.2). Here the divisions between periods were manually determined, leveraging the stark differences between periods; however, a machine learning‐based approach can be developed and is the subject of ongoing work.…”

Section: Discussionmentioning

confidence: 99%

“…Hydrograph classification has been used extensively to determine characteristic responses to hydroclimatic forcing and to better determine the mechanisms behind complex hydrologic process and flow paths (Olden et al., 2012). Specifically, it has been applied to glacierized watersheds using a range of methods, at various spatial and temporal scales (Curran & Biles, 2021; Hannah et al., 2000; Sergeant et al., 2020; Swift et al., 2005). Similarly, concentration discharge relationships have been used to determine watershed hydrologic function and water sources (Evans & Davies, 1998; Godsey et al., 2009; Maher, 2011; McGlynn & McDonnell, 2003).…”

Section: Introductionmentioning

confidence: 99%

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Seasonality of Solute Flux and Water Source Chemistry in a Coastal Glacierized Watershed Undergoing Rapid Change: Wolverine Glacier Watershed, Alaska

Bergstrom

Koch

O’Neel

et al. 2021

Water Resources Research

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Seasonality of Solute Flux and Water Source Chemistry in a Coastal Glacierized Watershed Undergoing Rapid Change: Wolverine Glacier Watershed, Alaska

Bergstrom

Koch

O’Neel

et al. 2021

Water Resources Research

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“…To explore concentration‐discharge relationships we chose stream sites that have at least 12 paired concentration and discharge measurements for

{\text{HCO}}_{3}^{-}

, Ca 2+ , Mg 2+ , Na * (Cl‐corrected; Ibarra et al., 2016; Moon et al., 2014), K + ,

{\text{SO}}_{4}^{2-}

, SiO 2 , and TSS resulting in 34 stream sites total that fit our criteria. For watershed boundaries of the 34 stream sites with requisite C ‐ Q data, we use the watersheds delineated by Curran and Biles (2021).…”

Section: Study Area and Methodsmentioning

confidence: 99%

Concentration‐Discharge Patterns Across the Gulf of Alaska Reveal Geomorphological and Glacierization Controls on Stream Water Solute Generation and Export

Jenckes

Ibarra

Munk

2021

Geophysical Research Letters

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High-latitude regions are warming at rates of two to three times the global average (IPCC, 2007). Precipitation regime changes associated with the increasing temperatures will result in increased precipitation, primarily in the form of autumn and winter rain (Beamer et al., 2017). Associated with these changes, global glacier volume will decline 29-41% by 2100 compared to 2006 accompanied by a projected 20% decline in global glacier runoff (Radić et al., 2014). Ice fields and glaciers cover 18% of the 420,230 km 2 Gulf of Alaska (GoA) region and supply 47% of the freshwater water runoff (Neal et al., 2010). Looking to the future it is predicted that Alaska will experience a 30% decline in runoff by the end of the 21st century (Bliss et al., 2014) accompanied by a forecasted decrease of glacier volume between 32 ± 11 and 58 ± 14% for RCP2.6 and RCP8.5, respectively (Huss & Hock, 2015). As such, the climate change predicted for the 21st century will significantly alter the amount of freshwater discharging to the GoA along with changes in precipitation regimes. Currently, glacial fed streams have increased discharge compared to nonglacial precipitation fed streams. This paradigm will shift as coastal glacier coverage declines into the 21st century. Today, glaciers act as a control on seasonal runoff variation within a catchment. Stream discharge within a glacierized basin varies little year to year and peak runoff is generally predictable. Precipitation fed streams, conversely, have higher interannual variations in discharge due to their susceptibility to interannual climate variability. For example, Fountain and Tangborn (1985) suggest that basins with glacial coverage around 36% have the lowest year-to-year variation in discharge. Streams with less than 10% glacier cover, however, show large year to year variability in stream flow when compared to streams within watersheds with greater percentages of glacier coverage (Fountain & Tangborn, 1985).

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“…Relevant and recent discussion of the hydrology of Alaska rivers is provided by Curran and Biles (2021). They categorize rivers into three broad classes, based upon the timing of peak flow and also the main drivers of flow.…”

Section: Usgs Gauge Datamentioning

confidence: 99%

“…Finally, highelevation melt watersheds (category 3) see a broad peak that spans summer months and is due to high-elevation snow melt and also ice-melt from glacier surfaces. Curran and Biles (2021) go on to subdivide (A, B, C, etc.) these classes based upon finer-scale details of the timing and magnitudes of hydrographs within each category.…”

Section: Usgs Gauge Datamentioning

confidence: 99%

Stuck in the Wild—The Hydrology of the Teklanika River (Alaska) in the Summer of 1992

Hill

Aragon

2022

Front. Earth Sci.

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In late spring of 1992, Christopher McCandless crossed the Teklanika River, west of Healy, Alaska (United States). His summer has been well documented both in the book and the movie ‘Into the Wild.’ In early summer of 1992, he attempted to cross back over the river, but was stopped by high waters and he died later that summer. This paper investigates the hydrologic conditions of the Teklanika River watershed. We consider both climatological conditions and also conditions during the summer of 1992. We run process-based snowpack and runoff models in order to estimate the river hydrograph at the point of Mr. McCandless’ attempted crossing. Our results demonstrate that the Teklanika river is very flashy during the summer, responding rapidly to strong episodic rainfall events. The main snowmelt signal occurred in mid-to-late May, after Mr. McCandless’ first crossing and before his second attempt. The specific day of his attempted re-crossing corresponded to a large runoff event, driven by rainfall. We conclude that Mr. McCandless had unfortunate timing and that, had he tried to cross a day or two earlier or later, the outcome may have been different. This paper is also an opportunity to explore the hydrologic compromises that must be made when trying to study ungauged, or poorly gauged, areas. There is a spectrum of choices regarding input datasets and methodological simplifications and the correct location on that spectrum will depend on the particular watershed the objectives and expectations of the study.

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Identification of Seasonal Streamflow Regimes and Streamflow Drivers for Daily and Peak Flows in Alaska

Cited by 23 publications

References 68 publications

Seasonality of Solute Flux and Water Source Chemistry in a Coastal Glacierized Watershed Undergoing Rapid Change: Wolverine Glacier Watershed, Alaska

Seasonality of Solute Flux and Water Source Chemistry in a Coastal Glacierized Watershed Undergoing Rapid Change: Wolverine Glacier Watershed, Alaska

Concentration‐Discharge Patterns Across the Gulf of Alaska Reveal Geomorphological and Glacierization Controls on Stream Water Solute Generation and Export

Stuck in the Wild—The Hydrology of the Teklanika River (Alaska) in the Summer of 1992

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