Motivation To understand how climate change may affect the North Atlantic and European regions, an understanding of the North Atlantic storm track is required.

Slides:



Advertisements
Similar presentations
What? Remote, actively researched, monitored, measured, has a huge impact on global climate and is relatively cool?
Advertisements

Global Average Barometric Pressure: January
Regional climate change over southern South America: evolution of mean climate and extreme events Silvina A. Solman CIMA (CONICET-UBA) Buenos Aires ARGENTINA.
Uganda’s climate: change and variability Prof Chris Reason, UCT & Lead Author, WG1 AR5 Regional circulation and climate Climate variability Long-term projections.
Essentials of Oceanography

Midlatitude Cyclones Equator-to-pole temperature gradient tilts pressure surfaces and produces westerly jets in midlatitudes Waves in the jet induce divergence.
The influence of the stratosphere on tropospheric circulation and implications for forecasting Nili Harnik Department of Geophysics and Planetary Sciences,
Class #7: Thursday, July 15 Global wind systems Chapter 10 1Class #7, Thursday, July 15, 2010.
Response of the Atmosphere to Climate Variability in the Tropical Atlantic By Alfredo Ruiz–Barradas 1, James A. Carton, and Sumant Nigam University of.
Zonally Averaged Wind Zonal DJFZonal JJA Meridional JJA.
Outline Further Reading: Chapter 07 of the text book - Surface Winds on an Ideal Earth - Subtropical High-Pressure Belts - Wind and Pressure Features at.
A comparison of North Atlantic storms in HiGEM, HadGEM and ERA-40 Jennifer Catto – University of Reading Supervisors: Len Shaffrey Warwick Norton Acknowledgement:
El Niño, La Niña and ENSO La NiñaEl Niño Time mean.
AOS 100: Weather and Climate Instructor: Nick Bassill Class TA: Courtney Obergfell.
Weather, Climate, Air Masses, and Global Winds
General Circulation of the Atmosphere René Garreaud
Lesson 11: El Niño Southern Oscillation (ENSO) Physical Oceanography
Seasonal outlook of the East Asian Summer in 2015 Motoaki Takekawa Tokyo Climate Center Japan Meteorological Agency May th FOCRAII 1.
Class #13 Monday, September 27, 2010 Class #13: Monday, September 27 Chapter 7 Global Winds 1.
© Imperial College LondonPage 1 Solar Influence on Stratosphere-Troposphere Dynamical Coupling Isla Simpson, Joanna D. Haigh, Space and Atmospheric Physics,
Jae-Heung Park, Soon-Il An. 1.Introduction 2.Data 3.Result 4. Discussion 5. Summary.
1 Istanbul Technical University / Civil Engineering Department Ercan Kahya Istanbul Technical University.
Diurnal Water and Energy Cycles over the Continental United States Alex Ruane John Roads Scripps Institution of Oceanography / UCSD February 27 th, 2006.
The basic ingredients of the North Atlantic storm track David Brayshaw, Brian Hoskins and Mike Blackburn Brayshaw et al. (2008)
Me: Jared Persinger Atmospheric Science. Large Scale Drought : Persistent La Nina ( Cool tropical troposphere, pole-ward shifted jet.
Paper Review R 馮培寧 Kirsten Feng.
Rossby Wave Two-layer model with rigid lid η=0, p s ≠0 The pressures for the upper and lower layers are The perturbations are 
Transport in the Subpolar and Subtropical North Atlantic
AOSC 200 Lesson 14. Oceanography The oceans plat three important roles in determining weather and climate (1) They are the major source of water vapor.
The Influence of Solar Forcing on Tropical Circulation JAE N. LEE DREW T. SHINDELL SULTAN HAMEED.
Planetary Atmospheres, the Environment and Life (ExCos2Y) Topic 6: Wind Chris Parkes Rm 455 Kelvin Building.
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.
. Is the Gulf Stream responsible for Europe's mild winters? By R. Seager et Al Q.J.R.Meteorol.Soc. (2002), 128 Presenter: Rabah Aider, November, 19 th.
C20C Workshop ICTP Trieste 2004 The Influence of the Ocean on the North Atlantic Climate Variability in C20C simulations with CSRIO AGCM Hodson.
AIR MASSES A large body of air with uniform temperature and moisture characteristics. They acquire their characteristics in source regions, because they.
Long-Term Changes in Northern and Southern Annular Modes Part I: Observations Christopher L. Castro AT 750.
Convection Regions, Global Winds, Jet Streams. Atmospheric Convection Regions Since earth is unevenly heated, climate zones occur (different convection.
How Does Air Move Around the Globe?
INTRODUCTION DATA SELECTED RESULTS HYDROLOGIC CYCLE FUTURE WORK REFERENCES Land Ice Ocean x1°, x3° Land T85,T42,T31 Atmosphere T85,T42,T x 2.8 Sea.
African Monsoon Wassila M. Thiaw NOAA/ Climate Prediction Center 21 February 2012 CPC International Desks Training Lecture Series.
Solar Energy & The Greenhouse Effect The driving energy source for heating of Earth and circulation in Earth’s atmosphere is solar energy (AKA the Sun).
Northwest European High Summer Climate Variability, the West African Monsoon and the Summer North Atlantic Oscillation Jim Hurrell, NCAR, & Chris Folland,
Chapter 3.1 Pg. 41 Factors Affecting Climate. The Sun and Latitude  Weather is the conditions of the atmosphere at a given time and place. Weather conditions.
PAPER REVIEW R Kirsten Feng. Impact of global warming on the East Asian winter monsoon revealed by nine coupled atmosphere-ocean GCMs Masatake.
Extratropical Climate. Outline Mean state Dominant extratropical modes Pacific/North American Oscillation North Atlantic Oscillation Arctic Oscillation.
El Niňo. El Nińo: A significant increase in sea surface temperature over the eastern and central equatorial Pacific that occurs at irregular intervals,
The Jet Stream and Our Weather
Salinity and Density Differences VERTICAL STRUCTURE, THERMOHALINE CIRCULATION & WATER MASSES.
Anomalous Behavior Unit 3 Climate of Change InTeGrate Module Cynthia M. Fadem Earlham College Russian River Valley, CA, USA.
Science 10 Mr. Jean May 7 th, The plan: Video clip of the day Predicting the perfect snow day –Types of storms –Timing –Public Opinion Powerful.
A. Laurian S. Drijfhout W. Hazeleger B. van den Hurk Response of the western European climate to a THC collapse Koninklijk Nederlands Meteorologisch Instituut,
Canada’s geographic regions are defined by: climate landforms natural vegetation soils wildlife human activity All these features are like pieces of a.
Class #17 Monday, February 16, Class #17: Monday, February 16 Surface pressure and winds Vertical motions Jet streams aloft.
Class #16 Monday, October 5 Class #16: Monday, October 5 Chapter 7 Global Winds 1.
The role of Atlantic ocean on the decadal- multidecadal variability of Asian summer monsoon Observational and paleoclimate evidences Observational and.
Weather Patterns and Climate Bates
Global wind circulation
Oliver Elison Timm ATM 306 Fall 2016
BFB Mid-latitude Cyclones
The General Atmospheric Circulation System
Baroclinic and barotropic annular modes
Chapter 19.3 Regional Wind Systems.
Global Ocean Conveyor Belt
Atmospheric Circulation
Time mean MSLP bias (mbar) in CCSM its atmospheric component (CAM/AMIP). CCSM4 MSLP bias is weaker than CCSM3 bias in the northern subtropical maxima.
by Stanley B. Goldenberg, Christopher W. Landsea, Alberto M
Energy / Convection 6.E.2.B.3.
Presentation transcript:

Motivation To understand how climate change may affect the North Atlantic and European regions, an understanding of the North Atlantic storm track is required. Several important factors control the position and intensity of the storm track and these include: The Rocky mountains Land-sea contrast at the eastern coast of North America Equatorial land-sea contrast associated with South America The tight SST gradients associated with the Gulf Stream The warm north eastern Atlantic ocean associated with the Atlantic thermohaline circulation (THC) The last of these is particularly important because several recent studies have shown that the THC may weaken or even stop under a changed climate. This study uses the HadAM3 global atmospheric model to investigate the effect of some of these factors on the storm track. Method The model is run with idealised lower boundary conditions, building up from a zonally uniform aquaplanet. It is run under perpetual equinox conditions and features are added to represent the forcing factors identified above, capturing the essence of the real world while maintaining simplicity. The most realistic of the runs includes all of the forcings and approximately reproduces the storm track created by the same model with realistic lower boundary conditions (see figures). Perturbations to this state are then considered. Large scale forcing of the North Atlantic storm track and its moisture transports David Brayshaw, Brian Hoskins and Mike Blackburn. Contact The University of Reading, UK Future work Investigate the effect of the East coast geometry of North America on the storm track Investigate the effect of Greenland Further diagnosis of windstress and E-P budgets for oceans The “full” idealised experiment The diagram below shows the storm track in the most realistic idealised experiment (including three landmasses, the Rocky mountains, the Gulf Stream and the North Atlantic Drift) and in a control run performed with realistic boundary conditions. The effects of removing some of these components are shown in the surrounding boxes. The colour scheme and contour lines are constant throughout all the diagrams. Realistic lower boundary conditions Removing the Gulf Stream Removing the Gulf Stream along with the (North Atlantic Drift) weakens the storm track in the mid-North Atlantic. This is consistent with reduced low level baroclinicity immediately upstream of this region. Removing the Rocky mountains The Rocky mountains strongly localise the storm track in the zonal direction. A trough forming downstream of the mountain shifts the upstream end of the track southwards, generating a SW-NE tilt. Removing the North Atlantic Drift Changes in surface ocean freshwater budget Removing the North Atlantic Drift makes the storm track stronger and more zonal, consistent with Jacob et al (GRL, 2005). This corresponds to a southward shift at the downstream end. This is consistent with a southward shift of the low level baroclinic region when the North Atlantic Drift is removed. A B C This plot shows the change in surface freshwater loss (evaporation-precipition in mm/day) when the North Atlantic Drift is removed. Reduced loss over eastern North Atlantic would act to suppress the THC. However, an opposite signal at high latitudes would strengthen the THC. The change in loss for each of the boxes is A=+0.01Sv, B=-0.07Sv and C=+0.02Sv. Removing South America The South American continent intensifies the storm track close to the North American east coast. This is likely to be linked to increased ascent over South America influencing the Hadley cell and subtropical jet. G N R S Full Idealised model Colours: The storm track defined by the 2-6 day variance in the 850mb geopotential height. Contour lines with numbers: SST (in degC). Thick lines show the modeled land masses and the 1000m line on the Rocky mountains. Key modelling features are highlighted (R=Rocky mountains, S=South America, G=Gulf Stream, N=North Atlantic Drift). Realistic experiment is for DJF track, courtesy of Mariane Coutinho.