Skip to main content

Improving Projections of Hydrology in the Pacific Northwest

Toward Next Generation Downscaling for Hydrologic Prediction in the Pacific Northwest (Using Multivariate Adaptive Constructed Analogs – Variable Infiltration)

Dates

Start Date
2011-08-24
End Date
2013-07-31
Release Date
2011

Summary

Resource managers, policymakers, and scientists require tools to inform water resource management and planning. Information on hydrologic factors – such as streamflow, snowpack, and soil moisture – is important for understanding and predicting wildfire risk, flood activity, and agricultural and rangeland productivity, among others. Existing tools for modeling hydrologic conditions rely on information on temperature and precipitation. This project sought to evaluate different methods for downscaling global climate models – that is, taking information produced at a global scale and making it useable at a regional scale, in order to produce more accurate projections of temperature and precipitation for the Pacific Northwest. The downscaled [...]

Child Items (4)

Contacts

Attached Files

Click on title to download individual files attached to this item.

NW-2011-10_ColumbiaRiver_AlanCressler.jpg
“Columbia River gorge - Credit: Alan Cressler”
thumbnail 239.99 KB image/jpeg

Purpose

A wide range of resource managers, policymakers, and scientists require tools to provide information relevant for water resource management and planning. One such tool is the Variable Infiltration Capacity model, which can be used to simulate water flows throughout the Columbia River Basin in the Pacific Northwest. Previously this model used just three numbers as inputs for each day of the simulation: the high and low temperatures and the daily total precipitation. This project investigated several other approaches to providing additional information, three of which consist of different statistical ways of mapping temperature and precipitation onto the mountainous landscape ("downscaling"), and one that uses fine-scale regional climate modeling. Our findings help advance the next generation of climate-hydrology simulations that will provide guidance for studies of climate change impacts on the hydrology of the Pacific Northwest.

Project Extension

projectStatusCompleted

Budget Extension

annualBudgets
year2011
totalFunds75232.0
totalFunds75232.0

Columbia River gorge - Credit: Alan Cressler
Columbia River gorge - Credit: Alan Cressler

Map

Spatial Services

ScienceBase WMS

Communities

  • National and Regional Climate Adaptation Science Centers
  • Northwest CASC

Tags

Provenance

Additional Information

Expando Extension

object
agendas
themes
number1
nameClimate Science & Modeling
options
atrue
btrue
number2
nameResponse of Physical Systems to Climate Change
options
atrue
number3
nameResponse of Biological Systems to Climate Change
options
number4
nameVulnerability and Adaptation
options
number5
nameMonitoring and Observation Systems
options
number6
nameData, Infrastructure, Analysis, and Modeling
options
btrue
number7
nameCommunication of Science Findings
options
atrue
btrue
nameNorthwest CSC Agenda
urlhttp://www.doi.gov/csc/northwest/upload/NW-CSC-Science-Agenda-2012-2015.pdf

Item Actions

View Item as ...

Save Item as ...

View Item...