NSF EPSCoR - Simulation and Observation of Land-Precipitation INteractions Simulation and Observation of Land- Precipitation Interactions (SOLPIN) Bart.

Slides:

Advertisements

Similar presentations

Africa Group paper session, Monday 18 February 2008 Charlie Williams Climate modelling in AMMA Ruti, P. M., Hourding, F. & Cook, K. H. CLIVAR Exchanges,

Advertisements

What is weather? Weather consists of the conditions of the atmosphere at a particular time and place.

Weather Review. The water cycle needs energy in order to work. This energy comes from: the earth. the sun the clouds. water.

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.

Geophysical Fluid Dynamics Laboratory Review June 30 - July 2, 2009 Geophysical Fluid Dynamics Laboratory Review June 30 - July 2, 2009.

UNIT THREE: Matter, Energy, and Earth  Chapter 8 Matter and Temperature  Chapter 9 Heat  Chapter 10 Properties of Matter  Chapter 11 Earth’s Atmosphere.

Last time… Key questions 1.Why does air move? 2.Are movements of winds random across Earth’s surface, or do they follow regular patterns? 3.Implications.

Focus on the Terrestrial Cryosphere Cold land areas where water is either seasonally or permanently frozen. Terrestrial Cryosphere 0.25 m Frost Penetration.

THORPEX-Pacific Workshop Kauai, Hawaii Polar Meteorology Group, Byrd Polar Research Center, The Ohio State University, Columbus, Ohio David H. Bromwich.

Impact of surface interaction and cloud seeding on orographic snowfall A downlooking airborne cloud radar view Bart Geerts University of Wyoming Gabor.

NASA Satellites Help Lift Cloud of Uncertainty on Climate Change 2007 American Geophysical Union Fall Meeting Panelists Dr. Graeme Stephens, principal.

Chapter 16 – Understanding Weather

Climate science in a world with global change David Noone Program in Atmospheric and Oceanic Sciences Cooperative Institute for Research in Environmental.

Essential Principles Challenge

8.1/8.2 Climate Change Weather and Climate. Weather Atmospheric conditions in a particular location over a short period of time Includes: temperature,

Potential Predictability of Drought and Pluvial Conditions over the Central United States on Interannual to Decadal Time Scales Siegfried Schubert, Max.

What is the Difference Between Weather and Climate?

Clouds, Aerosols and Precipitation GRP Meeting August 2011 Susan C van den Heever Department of Atmospheric Science Colorado State University Fort Collins,

Report on March Crystal City Workshop to Identify Grand Challenges in Climate Change Science By its cochair- Robert Dickinson For the 5 Sept

Project Title: High Performance Simulation using NASA Model and Observation Products for the Study of Land Atmosphere Coupling and its Impact on Water.

Water Cycle Breakout Session Attendees: June Wang, Julie Haggerty, Tammy Weckwerth, Steve Nesbitt, Carlos Welsh, Vivek, Kathy Sharpe, Brad Small Two objectives:

Modelling of climate and climate change Čedo Branković Croatian Meteorological and Hydrological Service (DHMZ) Zagreb

Coupling of the Common Land Model (CLM) to RegCM in a Simulation over East Asia Allison Steiner, Bill Chameides, Bob Dickinson Georgia Institute of Technology.

Advanced Hydrology Lecture 1: Water Balance 1:30 pm, May 12, 2011 Lecture: Pat YEH Special-appointed Associate Professor, OKI Lab., IIS (Institute of Industrial.

Reducing Canada's vulnerability to climate change - ESS J28 Earth Science for National Action on Climate Change Canada Water Accounts AET estimates for.

CPPA Past/Ongoing Activities - Ocean-Atmosphere Interactions - Address systematic ocean-atmosphere model biases - Eastern Pacific Investigation of Climate.

Modern Era Retrospective-analysis for Research and Applications: Introduction to NASA’s Modern Era Retrospective-analysis for Research and Applications:

Canada’s Physical Geography Climate and Weather Part I Unit 2 Chapter 2.

Seasons – A season is a repeating pattern of changes over time Talk with your friends… – How many seasons can you name?

The Atmosphere: Energy Transfer & Properties Weather Unit Science 10.

Sun Controls Earth’s Climate System Earth has a global climate system that includes air, land, liquid water, ice, and living things.climate system The.

Weather The amount that air presses on the earth is called… Air pressure.

Weather vs. Climate Notes/Vocabulary pgs. D34 & D84 Chapter 10 Lesson 3 & Chapter 11 Lesson 9.

Unit 4 Lesson 2 pg Big Idea How Do the Oceans and the Water Cycle Affect Weather?

Boundary Layer Clouds.

Trends in Tropical Water Vapor ( ): Satellite and GCM Comparison Satellite Observed ---- Model Simulated __ Held and Soden 2006: Robust Responses.

What is Weather? Wind Temperature Humidity (moisture in the air) Air Pressure The condition of the atmosphere in a certain place.

Monitoring and Modeling Climate Change Are oceans getting warmer? Are sea levels rising? To answer questions such as these, scientists need to collect.

Boundary-layer turbulence, surface processes, and orographic precipitation growth in cold clouds or: The importance of the lower boundary Qun Miao Ningbo.

National Aeronautics and Space Administration Jet Propulsion Laboratory California Institute of Technology Pasadena, California Soil Moisture Active and.

The Global Learning and Observation to Benefit the Environment (GLOBE) program is a worldwide hands-on, primary and secondary school-based science and.

Entrainment Ratio, A R -  R = c p  i / c p  s  sfc  ent c p  i c p  s PBL Schemes  = YSU  = MYJ  = MRF 12Z 00Z  adv Science issue: Assess.

Earth’s climate and how it changes

Lesson 1-1 Weather is the atmospheric conditions, along with short-term changes, of a certain place at a certain time.Weather Weather can change quickly.

Weather and Climate Vocabulary 3-5 Grade. Rain Gauge An Instrument Used To Measure The Amount of Rainfall.

Arctic System Synthesis: Is the Arctic Headed Toward a New State? Jonathan Overpeck, ARCSS Committee*, ARCSS Synthesis retreat participants* * See abstract.

The Multidisciplinary drifting Observatory

Guided Notes on Moisture in the Atmosphere Chapter 11, Section 3.

NAME SWG th Annual NOAA Climate Diagnostics and Prediction Workshop State College, Pennsylvania Oct. 28, 2005.

UNIVERSITY OF BASILICATA CNR-IMAA (Consiglio Nazionale delle Ricerche Istituto di Metodologie per l’Analisi Ambientale) Tito Scalo (PZ) Analysis and interpretation.

Global Warming The heat is on!. What do you know about global warming? Did you know: Did you know: –the earth on average has warmed up? –some places have.

© Crown copyright Met Office How will we COPE in Summer 2013? - The COnvective Precipitation Experiment Phil Brown.

Water in the Atmosphere. Earth’s surface is covered mainly by water. Oceans cover about 70% of our planet’s surface.

Factors that Affect Climate What is Climate? Weather conditions of an area including any variations from the norm. Exchange of energy and moisture.

The Study of the Weather and Climate

Chapter 3 Weather.

14.8 NOTES Greenhouse Gases

Powering Earth’s Climate

Weather Chapter 16 Notes.

Agenda: Tues Opening Activity: Rocks and Glaciers Review

The Water Cycle Daily Starter Get Your Textbook (Open to Page 23-25)

Hydrologic Forecasting

Water in the Hydrosphere

Weather and The Water Cycle

Weather and Weather Factors

Chapter 3 Weather.

Earth's Dynamic Climate

What is Weather? The condition of the atmosphere in a

CHAPTER 3 LESSON 2 SYSTEM INTERACTIONS.

Presentation transcript:

NSF EPSCoR - Simulation and Observation of Land-Precipitation INteractions Simulation and Observation of Land- Precipitation Interactions (SOLPIN) Bart Geerts, Jeff Snider, Zhien Wang, Jeff French, Perry Wechsler, Al Rodi, Bob Kelly … Dept. of Atmospheric Science

NSF EPSCoR - Simulation and Observation of Land-Precipitation INteractions SOLPIN - Motivation Cloudiness and precipitation in the Western USA are strongly modulated by the land surface –… at the same time clouds and precip exert much control on the surface energy balance and vegetation types

NSF EPSCoR - Simulation and Observation of Land-Precipitation INteractions Koster et al., Science 305, (2004) Koster et al. (Science, 2004) shows that summertime land- atmosphere coupling is strong in the interior West Shown is the {Omega} difference, a dimensionless diagnostic that describes the impact of soil moisture on precipitation, averaged across the 12 climate models participating in GLACE

NSF EPSCoR - Simulation and Observation of Land-Precipitation INteractions Wintertime precipitation trend over the next 100 years remains highly uncertain

NSF EPSCoR - Simulation and Observation of Land-Precipitation INteractions SOLPIN motivation: biosphere-precip coupling examples In summer certain ecosystems may release primary organic aerosols that can nucleate ice at unusually warm temperatures, and this can affect the dynamics and the precipitation efficiency of cumulus convection. Winter orographic precip appears to be strongly coupled with PBL turbulence, and possibly with surface vegetation. Also, the timing of the springtime snow melt-off and soil moisture spike relative to the onset of summertime quiescent conditions aloft may affect monsoon strength. The mean precip intensity may increase in a changing climate scale dependency of water cycle in climate models current climate future climate

NSF EPSCoR - Simulation and Observation of Land-Precipitation INteractions SOLPIN Motivation A better understanding of these processes is essential to –their incorporation in climate models –to the prediction of water resources in the West in a warmer global climate Complexity of land surface – atmosphere interactions exceeds the capacity of a single discipline. Both focused observations and coupled numerical simulations are needed to move forward.

NSF EPSCoR - Simulation and Observation of Land-Precipitation INteractions SOLPIN focus cloud and precipitation interactions, over timescales ranging from hours to decades. dual approach: –new measurement techniques –the improvement of cloud-resolving, coupled land-atmosphere weather and climate models Geographic focus: Western USA

NSF EPSCoR - Simulation and Observation of Land-Precipitation INteractions SOLPIN building blocks 1.UW King Air –95 GHz cloud radar (WCR) –cloud lidar (WCL) –PMS probes, PCASP, CCN/CN …

NSF EPSCoR - Simulation and Observation of Land-Precipitation INteractions SOLPIN building blocks 1.UWKA: proposed new capabilities –water vapor / temperature Raman lidar (Zhien Wang) - temperature and water (Dx~1 km, Dz~100 m) - cloud / aerosol backscatter coefficient, extinction, and depolarization ratio ARM Raman lidar, 22 December 2005

NSF EPSCoR - Simulation and Observation of Land-Precipitation INteractions SOLPIN building blocks 1.UWKA: proposed new capabilities –in situ measurements : temperature, water vapor, cloud and precipitation particles (Jeff French) ice water content riming intensity in-cloud temperature and humidity larger sample sizes for large particles –better probe characterization and siting requires airframe flow modelling (Rodi, Mavriplis)

NSF EPSCoR - Simulation and Observation of Land-Precipitation INteractions SOLPIN building blocks 2.Aerosol measurements New aerosol probes needed for super-  m particles (primary biogenics and dust particles). For an existing technique (PCASP), the sample volume rate is orders of magnitude too small for useful super-  m measurement. New Aerosol Instruments:  Super-  m aerosol lidar (infrared)  Bio-APS (Aerodynamic Particle Sizer)

NSF EPSCoR - Simulation and Observation of Land-Precipitation INteractions SOLPIN building blocks 3.Two new decade-long initiatives at NCAR: 4.NCAR Supercomputing Center 5.The new Earth System Science (ESS) undergraduate degree program at UW Colorado Headwaters Research Program (Gochis & Rasmussen) BEACHON (Guenther)

NSF EPSCoR - Simulation and Observation of Land-Precipitation INteractions SOLPIN human infrastructure faculty position in cloud and precipitation modelling –work closely with UW observationalists and with NCAR –assimilate/ compare field campaign data SOLPIN links with other proposed faculty positions –Boundary-layer meteorologist –Dynamic-vegetation modeler SOLPIN links with the new WY Excellence Chair in Atmosphere-Biosphere Interaction

NSF EPSCoR - Simulation and Observation of Land-Precipitation INteractions SOLPIN observational efforts: field campaigns wintertime campaign –focused on orographic precipitation processes BEACHON campaign –during the growing season ? Colorado Headwaters campaign –early summer? continuous monitoring (with FoSTER)