Modeling and Analysis of Snowpack over the Western United States Jiming Jin Departments of Watershed Sciences and Plants, Soils, and Climate.

Slides:

Advertisements

Similar presentations

Improved CanSIPS Initialization from Offline CLASS Simulation and Data Assimilation Aaron Berg CanSISE Workshop.

Advertisements

– Winter Ecology. Introduction  Global Climate Change  How microbs may be affected by snowpack depth  Temperature/precipitation trends.

Climate Change: Science and Modeling John Paul Gonzales Project GUTS Teacher PD 6 January 2011.

Climate Change in the Columbia Basin. Sediment coring in alpine environments.

The Climate and the Human Activities The Climate and the Human Activities Natural Variations of the Water Cycle Natural Variations of the Water Cycle Water.

MODIS satellite image of Sierra Nevada snowcover Big data and mountain water supplies Roger Bales SNRI, UC Merced & CITRIS.

1 Climate change and the cryosphere. 2 Outline Background, climatology & variability Role of snow in the global climate system Contemporary observations.

Assessment of CFSv2 hindcast (seasonal mean) CPC/NCEP/NOAA Jan 2011.

The Role Of The Pacific North American Pattern On The Pace Of Future Winter Warming Across Western North America.

California and Nevada Drought is extreme to exceptional.

Recent Climate Change Modeling Results Eric Salathé Climate Impacts Group University of Washington.

Contemporaneous and Antecedent Links of Atlantic and Pacific Circulation Features with North American Hydroclimate: Structure and Interannual Variability.

Regional Impacts of day-to-day changes in the large scale Pacific North America (PNA) pattern: observations and prospects for skillful 7-14 day lead-time.

Impacts of Climate Change on Physical Systems PPT

Outline Background, climatology & variability Role of snow in the global climate system Indicators of climate change Future projections & implications.

Recent Climate Change Modeling Results Eric Salathé Climate Impacts Group University of Washington.

Recent Climate Change Modeling Results Climate Impacts Group University of Washington With: Patrick Zahn, Cliff Mass, Rick Steed Eric SlathéEric Salathé.

Global Warming: Potential Effects on National Parks in the Pacific Northwest Cliff Mass, Department of Atmospheric Sciences University of Washington.

Planetary Scale Weather Regimes: ENSO (El Niño Southern Oscillation): A global teleconnection, strongest in the Pacific, between the tropical oceans and.

Protecting our Health from Climate Change: a Training Course for Public Health Professionals Chapter 2: Weather, Climate, Climate Variability, and Climate.

Winter Outlook ( ) Winter Weather Forecast Conference OMSI / Oregon Chapter of the AMS 29 October 2011 Winter Weather Forecast Conference OMSI.

Kristie J. Franz Department of Geological & Atmospheric Sciences Iowa State University

Understanding Change in the Climate and Hydrology of the Arctic Land Region: Synthesizing the Results of the ARCSS Fresh Water Initiative Projects Eric.

Spatial and Temporal Variation in Snow-Water Equivalent Using NOAA’s Historical Airborne Gamma Data to Assess Snow Trends from 1980 – 2008 Patrick Didier,

The Science of Climate Change: Global and Local Perspectives Jim Steenburgh Department of Atmospheric Sciences University of Utah

Simulation of the second half of the 20th Century using the MGO AGCM P.V. Sporyshev, V.P. Meleshko, T.V. Pavlova Voeikov Main Geophysical Observatory,

The speaker took this picture on 11 December, 2012 over the ocean near Japan. 2014/07/29 AOGS 11th Annual Meeting in Sapporo.

1. Introduction 3. Global-Scale Results 2. Methods and Data Early spring SWE for historic ( ) and future ( ) periods were simulated. Early.

Michael Dettinger US Geological Scripps Institution of Oceanography, La Jolla, CA Dan Cayan, USGS/SIO Iris Stewart, SIO Noah Knowles, USGS Recent.

Guo-Yue Niu and Zong-Liang Yang The Department of Geological Sciences The University of Texas at Austin Evaluation of snow simulations from CAM2/CLM2.0.

Speaker/ Pei-Ning Kirsten Feng Advisor/ Yu-Heng Tseng

Improvements of WRF Simulation Skills of Southeast United States Summer Rainfall: Focus on Physical Parameterization and Horizontal Resolution Laifang.

By studying the layers of snowpack we can improve our predictions of when and where avalanches are likely to occur. Note that precipitation amounts seem.

Enhancing the Value of GRACE for Hydrology

Dynamical downscaling of historical and projected winter precipitation in the Wasatch Range (for the CI-WATER project) Court Strong, Jim Steenburgh, Trevor.

Climate of North America 101 What are the major controls on North American climate? What is the dominant flow pattern across North America in winter? How.

Connectivity between Eurasian snow extent and Canadian snow mass and river discharge S. J. Déry, J. Sheffield, and E. F. Wood, Princeton.

2 SMAP Applications in NOAA - Numerical Weather & Seasonal Climate Forecasting 24-Hours Ahead Atmospheric Model Forecasts Observed Rainfall 0000Z to 0400Z.

Towards development of a Regional Arctic Climate System Model --- Coupling WRF with the Variable Infiltration Capacity land model via a flux coupler Chunmei.

Mechanisms of drought in present and future climate Gerald A. Meehl and Aixue Hu.

1 National HIC/RH/HQ Meeting ● January 27, 2006 version: FOCUSFOCUS FOCUSFOCUS FOCUS FOCUSFOCUS FOCUSFOCUS FOCUSFOCUS FOCUSFOCUS FOCUSFOCUS FOCUSFOCUS.

2010/ 11/ 16 Speaker/ Pei-Ning Kirsten Feng Advisor/ Yu-Heng Tseng

Figure 1. Map of study area. Heavy solid polygon defines “Cascade Mountains” for the purposes of this study. The thin solid line divides the Cascade Mountains.

The lower boundary condition of the atmosphere, such as SST, soil moisture and snow cover often have a longer memory than weather itself. Land surface.

Tropical Moisture Exports and Extreme Rainfall Mengqian Lu and Upmanu Lall Earth and Environmental Engineering, Columbia University, NY, NY, United States.

John Mejia and K.C. King, Darko Koracin Desert Research Institute, Reno, NV 4th NARCCAP Workshop, Boulder, CO, April,

Assessing the Influence of Decadal Climate Variability and Climate Change on Snowpacks in the Pacific Northwest JISAO/SMA Climate Impacts Group and the.

Tropical Oceanic Influences on Global Climate Prashant. D. noaa.gov Climate Diagnostics Center, CIRES, University of Colorado and Physical.

Hydrologic Forecasting Alan F. Hamlet Dennis P. Lettenmaier JISAO/CSES Climate Impacts Group Dept. of Civil and Environmental Engineering University of.

Changes in Sea Ice Alison Liou Meghan Goodwin. Arctic Oscillation (Northern Annular Mode) Antarctic Oscillation (Southern Annular Mode) Zonal = movement.

M ETEOROLOGICAL C ONDITIONS A SSOCIATED WITH THE 2008 MIDWEST FLOOD Ray Wolf NOAA / National Weather Service Davenport, Iowa University of Iowa – Learning.

UBC/UW 2011 Hydrology and Water Resources Symposium Friday, September 30, 2011 DIAGNOSIS OF CHANGING COOL SEASON PRECIPITATION STATISTICS IN THE WESTERN.

Understanding and constraining snow albedo feedback Alex Hall and Xin Qu UCLA Department of Atmospheric and Oceanic Sciences 2nd International Conference.

Regional Climate Change in the Pacific Northwest Eric Salathé Climate Impacts Group University of Washington With: Cliff Mass, Patrick Zahn, Rick Steed.

Climate Change & India’s Monsoons

Leah Birch Timothy Cronin, and Eli Tziperman

Hydrologic implications of 20th century warming in the western U.S.

Anthony R. Lupo, Professor

The Pacific Decadal Oscillation, or PDO, is a long-lived El Niño-like pattern of Pacific climate variability. The PDO pattern [is] marked by widespread.

Recent Climate Change Modeling Results

Introduction to Land Information System (LIS)

Performance of the VIC land surface model in coupled simulations

Recent Climate Change Modeling Results

Hydrologic Forecasting

University of Washington Center for Science in the Earth System

Weather vs. Climate What’s the Difference?.

What is the percentage of global precipitation falling on the land?

THIS IS Jeopardy.

What is the percentage of global precipitation falling on the land?

Instrumental Surface Temperature Record

Presentation transcript:

Modeling and Analysis of Snowpack over the Western United States Jiming Jin Departments of Watershed Sciences and Plants, Soils, and Climate

Trends of Snow Depth over the Western U.S. ( )

Mount Hood, Oregon

Barnett et al., 2008 Computerized projections of western United States snowfall levels in 2050 compared to present day

Cannon et al., 2006 Computerized snow-water amounts between now (top) and the century's end (bottom)

The Pacific/North America Pattern (Positive) PNA = 0.25[Z (20 o N, 160 o W) -Z(45 o N, 165 o W) + Z(55 o N, 115 o W) –Z(30 o N, 85 o W)]

The Pacific/North America Pattern (negative) PNA = 0.25[Z (20 o N, 160 o W) -Z(45 o N, 165 o W) + Z(55 o N, 115 o W) –Z(30 o N, 85 o W)]

Snow Anomalies Over the western U.S.

EOF = Empirical Orthogonal Functions

Precipitation and Temperature Anomalies Over the western U.S.

500 mb Geopotential Height Anomalies

Precipitation and Temperature Anomalies Over the western U.S.

500 mb Geopotential Height Anomalies

Snotel Stations Over the Sierra Nevada

Snow Simulations from a Regional Climate Model The Fifth Generation Mesoscale Model (MM5)/ Noah Land Surface Model

Temperature Simulations from a Regional Climate Model

Precipitation Simulations from a Regional Climate Model

Snow Depth simulations from the Weather Research Forecasting (WRF) Model for the Columbia River Basin

Summary 1) The snowpack in the western U.S. is significantly affected by global warming. 1) The interanuual variability of the atmosphere is closely correlated with the snow depth in the western U.S. 2) Our improved version of a regional climate model can realistically simulate the snow depth, and this model can be further used to predict the amount of snow mass.