Future work on the project will likely focus on expanding the number of streamflow sites for which products are available (e.g., inclusion of additional sites in coastal Oregon in the site-specific products) and providing a comprehensive suite of products associated with CMIP5 results (Taylor, Stouffer, & Meehl, Citation2012) associated with IPCC AR5. These hydrologic studies support detailed assessment of the economic impacts of climate change on irrigation and important crops in WA (Yorgey et al., Citation2011), which in turn will inform decisions regarding best use of funding to improve water supply benefits in WA under climate change. Retrieved from, Climate change and resource management in the Columbia River Basin. Lows in the upper 30s to lower 40s. Atmosphere Ocean 51. Climate Resilience - Columbia Basin Trust Northeast wind 5 to 10 mph. Yorgey, G. G., Rajagopalan, K., Chinnayakanahalli, K., Brady, M., Barber, M. E., Nelson, R., Stockle, C. S., Kruger, C. E., Dinesh, S., Malek, K., Yoder, J., & Adam, J. C. (2011). The CBCCSP also provided a more thorough assessment of hydrologic extremes via the HD scenarios, providing ranges of these values that were more geographically specific as opposed to an estimate of the central tendency from the CD approaches used in the WACCIA. %%EOF
In this case only modified flows (2000-level modified flows obtained from the BPA (Crook, Citation1993)) were used to train the bias-correction procedure, even if naturalized flows were also available. The Assessment was initiated in June 2013 and is expected to completed in December 2015. Snover, A. K., Hamlet, A. F., Lee, S.-Y., Mantua, N. J., Salath, E. P. Jr, Steed, R., & Tohver, I. (Citation2010). A primary motivation for the study was to support planning at geographic scales ranging from relatively small river basins (e.g., planning studies in individual sub-basins, such as the Yakima or Okanagan basins) to main-stem planning studies for the CRB as a whole (e.g., planning studies for the Columbia River hydro system). Subsetted from the, Averaged periodic drought condition ranking by basin for 2015-2020 from the, Mapped extent of wildfires from 1950-2020 from, Air quality monitoring stations within the study area. Simulations of floods and extreme low flows increase in intensity for most of the river sites included in the study. Southwest wind 5 to 15 mph with gusts to around 25 mph. Climate Resilience Program - Columbia Basin Trust These include the following: Columbia River Basin Impact Assessment: Reclamation conducted the Columbia River Basin Impact Assessment to evaluate the potential effects of future climate change on river flows at 158 locations across the basin. Results from the study show profound changes in spring snowpack and fundamental shifts from snow and mixed-rain-and-snow to rain-dominant behaviour across most of the domain. unpublished manuscript). A key design element of the CBCCSP from the outset of the project was to produce a well-organized and well-documented end-to-end (i.e., GCM to hydrologic products) data processing sequence and a web-accessible data archive that would greatly reduce the cost of producing updates in response to each subsequent CMIP/IPCC cycle. Communities across the region and around the world are demonstrating that its possible to adapt, to reduce greenhouse gas emissions, and continue to thrive. 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). Other climate change studies on the Columbia River and its sub-basins followed (Cohen, Miller, Hamlet, & Avis, Citation2000; Elsner et al., Citation2010; Hamlet, Citation2003, Citation2011; Hamlet, Lee, Mickelson, & Elsner, Citation2010b; Lee, Fitzgerald, Hamlet, & Burges, Citation2011; Lee, Hamlet, Fitzgerald, & Burges, Citation2009; NWPCC, Citation2005; Payne, Wood, Hamlet, Palmer, & Lettenmaier, Citation2004; Snover, Hamlet, & Lettenmaier, Citation2003; Vano et al., Citation2010). A number of sub-basins are nested within each other, as shown in the right panel along with their relative sizes. It is important to acknowledge that opinions differ on the utility or even possibility of improving ensembles of future projections based on the ability to simulate the past climate (e.g., Gleckler, Taylor, & Doutriaux, Citation2008). The CBCCSP was developed to address these diverse needs. Incidence of Bactericera cockerelli (Hemiptera: Triozidae) under different pesticide regimes in the lower Columbia basin. Climate change impacts on water management and irrigated agriculture in the Yakima River basin, Washington, USA, Potential implications of PCM climate change scenarios for California hydrology and water resources, The role of climate forecasts in western U.S. power planning, Flow regime, temperature and biotic interactions determine winners and losers among trout species under climate change, Macroscale hydrologic modeling of ecologically relevant flow metrics, Projected changes in climate, snowpack, evapotranspiration and streamflow in the Canadian portion of the Columbia River basin, The distributed hydrology soil vegetation model, A distributed hydrology-vegetation model for complex terrain, Hydrologic implications of dynamical and statistical approaches to downscaling climate model outputs, Long range experimental hydrologic forecasting for the eastern U.S, Multi-objective global optimization for hydrological models. To support ecosystem research and impacts assessment, CIG extended the project to include specific meteorological and hydrological variables needed to support ecological studies (see discussion in Section 3). 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. 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. To request a reprint or corporate permissions for this article, please click on the relevant link below: Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content? Either naturalized or modified flows (Crook, Citation1993) are used for bias correction of data provided in the site-specific products discussed below, with naturalized data taking precedence if available. 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%. (Citation2010) also updated the soil depth map using a more sophisticated approach developed for the DHSVM (Wigmosta, Nijssen, Storck, & Lettenmaier, Citation2002; Wigmosta, Vail, & Lettenmaier, Citation1994) that varies soil depth with elevation. As mentioned above, 20062007 was something of a turning point for regional stakeholders considering future actions to prepare for climate change. The choice of the A1B scenario, however, was informed by the authors viewpoint that this scenario is an instructive and plausible scenario reflecting relatively little GHG mitigation until mid-century (similar to A2 until about 2050), followed by more effective GHG mitigation efforts in the second half of the twenty-first century as impacts intensify. These products are based solely on the HD projections listed in Table 1. Monday: A chance of snow before 4 p.m., then a slight chance of rain and snow. An Overview of the Columbia Basin Climat . : From Icefield to Estuary: The Columbia Basin / Du champ de glace l'estuaire : Le bassin du Columbia, 6 Use of products and information by stakeholders, water professionals, and researchers, https://doi.org/10.1080/07055900.2013.819555, http://cses.washington.edu/cig/res/ia/waccia.shtml, doi:http://dx.doi.org/10.1175/JCLI-D-11-00417.1, http://warm.atmos.washington.edu/2860/products/sites/, doi:10.1175/1520-0450(1994)033<0140:ASTMFM>2.0.CO;2, doi:10.1175/1520-0477(1998)079<2715:IMOET>2.0.CO;2, http://warm.atmos.washington.edu/2860/report/, doi:10.1061/(ASCE)0733-9496(2002)128:2(91), doi:10.1061/(ASCE)0733-9496(1999)125:6(333), doi:10.1175/1520-0477(1996)077<0437:TNYRP>2.0.CO;2, doi:10.1061/(ASCE)0733-9496(2009)135:6(440), doi:10.1175/1520-0477(1999)080<2313:SOTEHS>2.0.CO;2, http://cses.washington.edu/picea/USFS/pub/Littell_etal_2010/Littell_etal._2011_Regional_Climatic_And_Hydrologic_Change_USFS_USFWS_JVA_17Apr11.pdf, doi:10.1175/1520-0477(1997)078<1069:APICOW>2.0.CO;2, http://www.nwcouncil.org/energy/powerplan/5/, doi:10.1175/1520-0477(1997)078<2771:TDOENO>2.0.CO;2, http://www.usbr.gov/newsroom/newsrelease/detail.cfm?RecordID=39123, http://www.usbr.gov/pn/programs/climatechange/reports/index.html, http://www.fws.gov/landscape-conservation/lcc.html, http://www.ecy.wa.gov/biblio/1112011.html, Medicine, Dentistry, Nursing & Allied Health, Simulated daily evapotranspiration from all sources, actual evaporation from all sources (canopy evaporation, evaporation from bare soil, transpiration, and snow sublimation), natural vegetation, no water limit, but no vegetation stomatal resistance, Extreme 7-day low flow value with a 10-year recurrence interval. Flooding in the Columbia River basin expected to increase under climate The study has constructed a state-of-the-art, end-to-end data processing sequence from raw climate model output to a suite of hydrologic modelling products that are served to the user community from a web-accessible database. Post-processing of the primary VIC model output (see Table 2) was carried out to produce a number of specific products discussed in the following sections. For example, researchers who wish to run their own hydrologic models can do so by downloading the statistically downscaled meteorological forcings from the study. Economic value of long-lead streamflow forecasts for Columbia River hydropower, Effects of projected climate change on energy supply and demand in the Pacific Northwest and Washington State, Columbia River streamflow forecasting based on ENSO and PDO climate signals, Effects of climate change on hydrology and water resources in the Columbia River basin, Long-range climate forecasting and its use for water management in the Pacific Northwest Region of North America, Production of temporally consistent gridded precipitation and temperature fields for the continental U.S, Effects of 20th century warming and climate variability on flood risk in the western U.S, Effects of temperature and precipitation variability on snowpack trends in the western U.S, An improved method for estimating surface humidity from daily minimum temperature, Optimized flood control in the Columbia River basin for a global warming scenario, Methodology for developing flood rule curves conditioned on El Nio-Southern Oscillation classification, Daily time step refinement of optimized flood control rule curves for a global warming scenario, Improving water resources system performance through long-range climate forecasts: The Pacific Northwest experience (Chapter 7), Water resources implications of global warming, a U.S. regional perspective, Simulations of the ENSO hydroclimate signals in the Pacific Northwest Columbia River basin, A simple hydrologically based model of land surface water and energy fluxes for general circulation models.