Atlantic Tropical Studies and airborne sampling strategies.

Slides:

Advertisements

Similar presentations

R. Forbes, 17 Nov 09 ECMWF Clouds and Radiation University of Reading ECMWF Cloud and Radiation Parametrization: Recent Activities Richard Forbes, Maike.

Advertisements

Robin Hogan Julien Delanoe University of Reading Remote sensing of ice clouds from space.

Global Average Barometric Pressure: January

PROPOSED FLIGHT PATTERNS. Flow pattern and area of flight operations.

Prentice Hall EARTH SCIENCE

Watch the video below. Describe your observations and possible causes of such events. /watch?v=SZcBlAjf2NE Activating Strategy:

Climate and Climate Change 17 January How and Why Does Climate Change? Climate changes over a broad range of time scales – Years, decades, centuries,

Weather and Severe Storms

HURRICANE DEVELOPMENT What conditions are required? Water temperatures > 26.5°C Convergence of surface winds Upper air divergence Organized mass of thunderstorms.

2 pt 3 pt 4 pt 5pt 1 pt 2 pt 3 pt 4 pt 5 pt 1 pt 2pt 3 pt 4pt 5 pt 1pt 2pt 3 pt 4 pt 5 pt 1 pt 2 pt 3 pt 4pt 5 pt 1pt Air Severe weather Weather Forecasts.

Chapter 16 – Understanding Weather

Chapter 25 Weather. Weather is largely controlled by the AIR MASSES that are prevalent.

Convective Weather Thunderstorms Lightning Tornadoes… …and more.

Cirrus Production by Tropical Mesoscale Convective Systems Jasmine Cetrone and Robert Houze 8 February 2008.

What is the Saharan Air Layer? The Saharan Air Layer (SAL) is a layer of warm, dry, dusty air which normally overlays the cooler more humid surface air.

Principal Rainband of Hurricane Katrina as observed in RAINEX Anthony C. Didlake, Jr. 28 th Conference on Hurricanes and Tropical Meteorology April 29,

Observational and Modeling Study of Hurricane Rainbands and Intensity Changes aka Rainband and Intensity Change Experiment “RAINEX” Shuyi S. Chen and Robert.

FRONTS Chapter 12. This week onwards Air masses What are fronts Different types of front Weather associated with fronts Mid-latitude Cyclones –Weather.

Ecozones An Ecozone is made up of different characteristics that make this part of Canada different and unique.

UNDERSTANDING TYPHOONS

Weather Patterns and Severe Storms Chapter 20

Weather: The state of the atmosphere at a given time and place, with respect to variables such as temperature, moisture, wind velocity and direction,

Climate. Weather: Refers to the current, day-to-day, short term conditions of the atmosphere.

Atmospheric Circulation. 1. Global Convection Currents Equator = warm  rising air Poles = cold  sinking air.

Hurricane Cloud Physics

Chapter 3 The Changing Weather. Chapter 3 Terms Condensation Condensation Orographic Condensation Orographic Condensation Convectional Condensation Convectional.

Chapter 19.  Result of intense convection  Associated with heating Earth’s surface ◦ During spring, summer, and fall  Three-stage life cycle: ◦ Beginning.

Case Study Example 29 August 2008 From the Cloud Radar Perspective 1)Low-level mixed- phase stratocumulus (ice falling from liquid cloud layer) 2)Brief.

Chapter 5 Weather. 5.1 A. What is weather? The state of the atmosphere at a specific time and place.

Supercell Rotating thunderstorm with updrafts and downdrafts structured so it can maintain itself for several hours What makes a supercell different from.

Chatper 24 Review. Question # 1 What happens to air as the lower layers are warmed? The air rises.

An Ecozone is made up of different characteristics that make this part of Canada different and unique. Fill in the figure below. Ecozones.

Air-Sea Exchange in Hurricanes by Peter G. Black & Hurricane Intensity and Eyewall Replacement by Robert A. Houze Jr. Lynsie M. Schwerer Atmospheric Science.

Page 1 Chap. 18- The Atmosphere Chap. 19- Weather Elements Chap. 20- Aviation Weather Part 4 Air Environment.

Nature of Storms Chapter 13.

Climate Factors that affect our Climate. Weather The day-to-day characteristics of temperature, rain, cloud cover and wind Why is it important to know/inquire.

Cloud Science Goals for SEAC 4 RS Cirrus Microphysical Composition, Remote Sensing (ACE), Radiative Properties & Fluxes => Aged and fresh cirrus anvils.

African Dust and Its Impact on Climate Xiaoyu Liu MPO.

Weather & Climate Chapter 6. Weather & Climate Weather:  Refers to the current, day-to-day, short term conditions of the atmosphere.

SEAC4RS Hurricane Study Brief Description of SEAC4RS Science Objectives of SEAC4RS Hurricane Component How both experiments can benefit Sample flight plans.

ER-2 Doppler Radar (EDOP) ER-2 Doppler Radar (EDOP) Cloud Radar System (CRS) MODIS Airborne Simulator (MAS) Advanced Microwave Precipitation Radiometer.

GEOG 1112: Weather and Climate Violent Weather. Midlatitude Cyclone Well-organized low pressure system that migrates across a region as it spins Develops.

Air Masses and Weather 17 Air Masses  Air Masses An air mass is an immense body of air that is characterized by similar temperatures and amounts of moisture.

Distribution of Liquid Water in Orographic Mixed-Phase Clouds Diana Thatcher Mentor: Linnea Avallone LASP REU 2011.

Theory West African dust outbreaks and the relationship with North Atlantic hurricanes Amato T. Evan, Christopher S. Velden, Andrew K. Heidinger & Jason.

“It's tough to make predictions, especially about the future” HO fail all WEVER… HO fail all WEVER… “You can see a lot by looking” Yogi Berra High Pressure.

Chapter 11 Hurricanes Maritime Tropical air-masses (mT) air Streamlines are used to analyze and track weather Tropical waves  Clusters of thunderstorms.

Final Jeopardy Question Atmos- phere #1 Sun/ Seasons #2 500 Predict Weather/ Climate #6 Water in Atmos- phere #4 Wind/ Solar Energy #3 Weather Patterns.

WEATHER Heating the Earth Air pressure Winds Moisture in the Air Clouds Weather Instruments Weather Patterns Predicting the Weather.

A new look at – Tropical Mid-Troposphere Clouds P. Zuidema, B. Mapes, J. Lin, C. Fairall P. Zuidema, B. Mapes, J. Lin, C. Fairall CIRES/CDC NOAA/ETL Boulder,

COMPLETE: C-Notes and Outline!. Weather and Climate Storms ** ** Predicting Weather Ocean Currents Winds Air Masses Fronts …Cats and Dogs

Severe Weather Weather Dynamics Science 10. Today we will learn about: Thunderstorms Updrafts Downdrafts Tornados Hurricanes Typhoons Tropical Cyclones.

Weather Patterns. Weather Changes Because of the movement of air and moisture in the atmosphere weather constantly changes.

The Tropical Transition of Cyclones: Science Issues and Critical Observations or TC Genesis: A Global Problem Chris Davis (NCAR) Collaborators: Lance Bosart.

Severe Weather 1.Thunderstorms 2.Tornadoes 3.Hurricanes.

IN p 133 Explain the difference between the vocabulary words in each of the following sets: 1.air mass, front 2.Humidity, relative humidity 3.Relative.

Microphysical-dynamical interactions in an idealized tropical cyclone simulation Stephen R. Herbener and William R. Cotton Colorado State University, Fort.

Predictability and forecast evaluation of ensemble simulations of long-lived Hurricane Nadine (2012)

NOAA Intensity Forecasting Experiment (IFEX)

Weather properties.

Climate and Weather Weather: Climate:

Earth Science Review Book Pages

Weather Patterns and Severe Storms

Air Masses and Severe Storms

Hurricanes This chapter discusses:

Weather properties.

Dual-Aircraft Investigation of the Inner Core of Hurricane Nobert

Weather Patterns and Severe Storms

Chapter 17 Review and Retake!

Presentation transcript:

Atlantic Tropical Studies and airborne sampling strategies

Advantages of Caribbean Location for Studying Clouds and their interactions with Dust Tropical maritime convective clouds are less complex to study than convective clouds found over mid latitudes and the continents. They have less day-to-day variations in stability, wind shear, cloud base height, etc. The Caribbean is subject to regular episodic incursions of dust from Africa, which provides an injection of suspected ice nuclei—an ideal natural experiment to test the effects of dust on the development of precipitation. The Caribbean provides access to a wide range of tropical clouds of different sizes, including tropical cyclones, an important class of storms for which ice formation is of interest. The maritime environment of the Caribbean, during non dust events, is similar to many other tropical maritime regions, so the results will have application to our understanding of maritime tropical storms, which are of particular interest to understanding climate. Tropical convection is less of a concern for aircraft safety. Tropical convection in the temperatures of interest (+5 to -30) is less likely to contain hail or hazardous updrafts and downdrafts that are a major concern for aircraft safety, compared to storms found in mid latitude continental locations. The RICO project (December—Januray ) will have provided logistic experience in this area (Antigua).

Monthly mean dust aerosol concentrations at Miami, From Prospero, J.M., 1999: Long-term measurements of the transport of African mineral dust to the southeastern United States: Implications for regional air quality. JGR Vol 104, No D13, Dust Climatology from Africa is pretty well documented.

Some objectives of an ice study in the tropical-subtropical Atlantic Document microphysical structure of clouds in dusty and non dusty conditions Follow ice development in tops of growing cu. Document profiles of liquid water and examine relationship with updraft, entrainment, ice characteristics, temperature, etc. Evaluate the importance of Rime- Splintering vs primary ice Fill in missing gaps in Hurricane microphysics

Example of possible individual cloud sampling strategy

Radar+Lidar Leg In cloud leg Radar+Lidar Leg One-aircraft, example of Radar+ in situ sampling.

Hurricane Penetrations Strong storms: Sample outer rainbands at various altitudes (-5 to -25 C), working part way towards core Sample weaker, organized regions associated with easterly waves, below hurricane strength.

Possibilities Share same set of airborne instruments for Atlantic or Pacific Dust/Cloud study Region of interest is within 1 day of Boulder (e.g. Boulder to Hawaii, or Boulder to Antigua) –Need plume mapping strategy –Tie airborne sampling in with model predictions 24 hrs in advance (flight guidance and model validation) –Possible cross region flight (e.g. Antigua to Cape Verde) with 1 to 3 hours sampling deviation (depending on altitude). Use endpoints or midpoints (e.g. Midway) as possible regions of interest in certain plume conditions.