To select an appropriate group of specific streamflow locations to include in the study to meet these diverse needs, the primary funding agencies for the study and several other key water management agencies in the region (MDNR, IDWR, USBR, and USACE) were asked to submit prioritized lists of streamflow locations. Yakima River Basin Study The PRISM data for Canada were interpolated to 30 arc-second resolution data from a 2.5 arc-minute (approximately 4km) product and were statistically adjusted to remove the bias associated with the different time period (19611990 means for the 4km product). This was coordinated through the River Management Joint Operating Committee (RMJOC), a sub-committee of the Joint Operating Committee which was established through direct funding Memorandum of Agreements between BPA, Reclamation, and the USACE. Results from the study show profound changes in spring snowpack and fundamental shifts from snow to rain-dominant behaviour across most of the domain. Columbia Basin Dive Rescue has been serving the community for almost 50 years. The CBCCSP provided climate change projections of meteorological drivers and a calibrated VIC implementation in support of the study. Fig. Those who wish to do additional post-processing of the existing VIC data can access the archived model output. Model calibration and validation used a split sample approach in which calibration was performed for each of the 11 primary watersheds over a 15-year period (typically water years 19751989) and model validation was performed over a separate 15-year period (typically water years 19601974). The MOCOM-UA tool uses an objective function (defined by the user) and a shuffle complex evolution procedure to optimize model calibration parameters to create a set of Pareto (equally) optimal calibration parameters. Figures and summary tables for flood statistics and low-flow statistics. 5; Yakima River at Parker in Fig. 2013. Although studies addressing natural climate variability remain an important research focus for the group, over time research assessing the impacts of anthropogenic climate change has become an increasingly important need. Until recently, a climate-change induced shift in water supply was the story of the Columbia River Basin's future. The first nine months of the dataset were used for hydrologic model spin-up, resulting in 91 water years (OctoberSeptember) of usable historical data from the hydrologic model simulations. This diagnosis is confirmed by the R 2 values for the same sites, which are generally higher and more consistent with neighbouring values over the entire domain. For the BCSD runs (for which the ability to capture key elements of the region's climate variability is arguably even more important to the outcomes) the projections based on the seven highest ranked GCMs (Table 1) were selected for each emissions scenario. Site specific data [Data]. As a result the largest changes in snowpack are apparent in the simulations for relatively warm coastal mountain ranges, such as the Cascade Range, and at moderate elevation in the Rockies, where snowpack is most sensitive to changes in temperature of a few degrees Celsius. In other words, dry areas east of the Cascade Range have less base-flow potential to lose with increasing evapotranspiration and loss of summer precipitation because the soil moisture is already at very low levels in late summer. 2 Eleven sub-basins in the CRB used for large scale calibration (left panel). Citation2000) were selected as the basis for the study because they provide a) a wide range of plausible outcomes while also reflecting some potential GHG mitigation by the end of the twenty-first century, and b) most of the approximately 20 GCM projections associated with the CMIP3 archived runs from both emission scenarios (Mote & Salath, Citation2010). Fig. The largest changes in flood risk are simulated in mixed-rain-and-snow basins. Even with substantial cuts to greenhouse gas emissions, scientists expect our climate to continue changing over the coming decades. Changes in snowpack are a key driver of hydrologic impacts in the PNW (Elsner et al., Citation2010; Hamlet & Lettenmaier, Citation1999b). The CIG (http://cses.washington.edu/cig/; see the Table of Acronyms in the Appendix) is an interdisciplinary research group at the UW focused on climate-related research in five major sectors: atmospheric sciences, hydrology and water resources, aquatic ecosystems, forests, and coasts. The CBCCSP also included fine-scale hydrologic modelling using DHSVM (Wigmosta et al., Citation1994, Citation2002) in four pilot watersheds in the PNW. REVEL=Columbia River at Revelstoke Dam, CORRA=Kootenay River at Corra Linn Dam, WANET=Pend Oreille River at Waneta Dam, LIBBY=Kootenai (Kootenay) River at Libby Dam, DWORS=N. Fork Clearwater River at Dworshak Dam, MILNE=Snake River at Milner, ICEHA=Snake River at Ice Harbor Dam, PRIRA=Columbia River at Priest Rapids Dam, YAPAR=Yakima River at Parker, DALLE=Columbia River at The Dalles, OR, WILFA=Willamette River above falls at Oregon City. The presence of glaciers in Canada (not included in the CBCCSP simulations) may further exacerbate the discrepancies between impacts to summer flows in the United States and Canada in late summer (Werner et al., Citation2013). Right panel: Historical and projected future watershed classification (rain-dominant, transitional (mixed-rain-and-snow), snow-dominant) for 10-digit Hydrologic Unit Code watersheds, based on the long-term mean of the SWE2PR for each watershed. If neither naturalized nor modified flow is available, no bias-adjusted data were provided. Additional products such as bias-adjusted inflow sequences for specific reservoir operations models are also included. Fig. In particular, it is clear that Canada will have not only about 50% of the reservoir storage in the CRB (Hamlet, Citation2003) but also an increasingly dominant portion of the natural water storage as snowpack in the future. About 15 sites in western Washington, outside the CRB, were also included in support of the 2009 WACCIA. (2011). NWPCC (Northwest Power and Conservation Council). Daily and monthly average streamflow for all projections listed in Table 1 and, where possible, daily and monthly bias-corrected streamflow values. Monday: A chance of snow before 4 p.m., then a slight chance of rain and snow. The summary figures for water balance variables at each site have the same format, two examples of which are shown in Fig. The Climate Resilience Program helps communities in the Basin become more climate resilient by supporting large-scale, multi-year, shovel-ready climate mitigation, adaptation, and resilience projects that address sources of climate change or manage the risks of climate change impacts. 2), for which overall errors in meteorological driving data were assumed to be relatively small; then, using these model parameters, to check the results in smaller sub-catchments. 2860, 59th Legislature (WA 2006). Simulations of floods and extreme low flows increase in intensity for most of the river sites included in the study. The WDOE was also directed to incorporate climate change explicitly in these comprehensive assessment efforts. (2010). Many locations could see increases of 100% or more in the 50-year and 100-year flood magnitude, with some smaller tributaries potentially seeing increases of as much as 175%. Extreme event statistics are calculated directly from the raw (i.e., not bias-adjusted) daily streamflows at each streamflow site, applying methods developed by Hamlet and Lettenmaier (Citation2007) and Mantua et al. Changes in PET (PET3, see Table 2) and AET (see Table 2) are shown in Fig. The regional report for the National Assessment was supported by two detailed water management studies focused on the CRB by Hamlet and Lettenmaier (Citation1999b) and Miles, Snover, Hamlet, Callahan and Fluharty (Citation2000). Weather for Monday, Feb. 27. %%EOF It drains roughly 260,000 square miles and travels more than 1,240 miles from its headwaters in the Rocky Mountains to its confluence with the Pacific Ocean. By late 21st century, annual precipitation increases by 5% (8%), with an 8% (14%) winter increase and a 4% (10%) summer decrease, but because . As mentioned in the introduction, WA HB2860, which provided the bulk of the funding for the CBCCSP, also charged WDOE with identifying where US$200 million earmarked for water resources infrastructure improvements should be spent. In much of the CRB, however, summer AET is water limited (i.e., there is abundant surface energy to evaporate whatever water is available), and changes in AET are dominated by decreasing summer precipitation in the scenarios, which effectively decreases summer AET in most cases. Bias adjustment was also used in preparing the specific reservoir modelling support products discussed below. Size, however, is only one aspect of what makes the river particularly unique. Les principaux produits de ltude comprennent des donnes sommaires pour environ 300 sites fluviaux dans la rgion pacifique nordouest et des produits mensuels de Systme d'information gographique pour 21 variables hydrologiques couvrant tout le domaine ltude. A number of high-visibility studies have made use of the CBCCSP database to date, a few of which are summarized below. For example, researchers who wish to run their own hydrologic models can do so by downloading the statistically downscaled meteorological forcings from the study. Table 1 summarizes the 77 future meteorological forcing datasets that were prepared for the study. About 50 of the 80 sites evaluated show monthly NSE scores greater than or equal to approximately 0.7 (good to excellent fit). Figure 1. Lows in the upper 30s to lower 40s. These products are available for all 77 climate scenarios listed in Table 1, as well as for the historical simulation. From ecosystems, communities, and infrastructure, to our way of lifeeverything will be affected. Current weather in Queens Cup Basin and forecast for today, tomorrow, and next 14 days 6 Example of a summary plot for extreme high flows (Q20, Q50, Q100, left panels) and extreme low flows (7Q10, right panels) for the Skagit River at Mount Vernon for two emissions scenarios (A1B, B1) and three future time periods (2020s, 2040s, 2080s). A primary focus of the Assessment is to generate future climate change flow at more than 300 locations across the Columbia River Basin (Basin) and evaluated the potential impact of those flows at specific sub-basins within the Basin. Reductions in spring snowpack and summer streamflow, for example, are relatively modest in the Canadian portions of the basin because of cold winter temperatures that delay warming-related impacts to seasonal snowpack (Elsner et al., Citation2010). 5 Examples of summary plots for monthly snow water equivalent (SWE) (mm) (averaged over the upstream basin area) and raw streamflow not adjusted for bias (cubic metres per second) for the Skagit River at Mount Vernon. Daily and monthly streamflow for each streamflow site are provided in two formats: a) raw VIC simulations, and b) bias-adjusted simulations. Data from the CBCCSP are currently supporting two CIG studies funded by the LCCs and the CSC, including a study of impacts to wetlands in the PNW (funded by the North Pacific LCC and the PNWCSC) and a study assessing climatic and hydrologic extremes and their effects on ecosystems over the western United States (funded by the PNWCSC). Gridded datasets provide full spatial coverage (i.e., all grid cells in the model domain) at monthly time scales, of the key hydroclimatic variables listed in Table 2. We should note that glaciers and deep groundwater (e.g., contributions to streamflow from large confined aquifers) are not simulated by the VIC model, and impacts in areas profoundly influenced by these hydrologic features may not be well characterized in the simulations (Wenger et al., Citation2010). Adjusted and Homogenized Canadian Climate Data, British Columbia Ministry of Environment (Canada), Bias Correction and Spatial Disaggregation, Columbia Basin Climate Change Scenarios Project, Composite Delta statistical downscaling method, Climate Impacts Group, University of Washington, Coupled Model Intercomparison Project (Two)Supported the IPCC TAR, Coupled Model Intercomparison Project (Three)Supported the IPCC AR4, Coupled Model Intercomparison Project (Five)Supports the IPCC AR5, A water resources simulation model for the CRB developed by Hamlet and Lettenmaier (, A crop system simulation model developed by Stckle et al. The CBCCSP was developed to address these diverse needs. Associated shifts in streamflow timing from spring and summer to winter are also evident in basins that currently have significant snow accumulation in winter, whereas rain-dominant basins show minimal shifts in streamflow timing. Why is a 1C increase such a big deal? (*Modified flows are essentially naturalized flows with a consistent level of consumptive demand for water supply subtracted for the entire time series.). Based on these substantial differences in hydrologic impacts it is difficult to escape the conclusion that management of water resources in the Canadian portions of the basin will play a crucial role in the ability of US water managers to adapt to more substantial changes in streamflow timing and summer low flows in the United States. Cooper, R. M. (2002). Climate Adaptation. Detailed information about the study can be found under Documentation, while model results can be found under Data. Similarly, three different downscaling approaches were used in the study, each with its own advantages and limitations in the context of different natural resources management applications (Hamlet et al., 2010a). The magnitude of flooding the term used to describe flooding severity is expected to increase throughout the basin, which includes the Columbia, Willamette and Snake rivers . Other impacts, such as changes in soil moisture dynamics are also apparent in the simulations. In most basins with substantial snowpack, elevated soil moisture in winter accompanies warming in the simulations resulting from more infiltration from rain in the fall and winter months (Fig. Explore this website to learn more about the changes were expecting, and what we can do about them. In addition to creating these datasets, the RMJOC agencies worked together to adopt a set of methods for incorporating these data into those longer-term planning activities.
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