2004-06-24 Fast Aerosol Sensing Tools for Natural Event Tracking FASTNET Project Synopsis
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Transcript of 2004-06-24 Fast Aerosol Sensing Tools for Natural Event Tracking FASTNET Project Synopsis
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Support by Inter-RPO WG - NESCAUM
Performed by
CAPITA & Sonoma Technology, Inc
Fast Aerosol Sensing Tools for Natural Event Tracking
FASTNET
Project Synopsis
Haze levels should be reduced to the ‘natural conditions’ by 2064.The space, time, composition features of natural aerosols are not knownThis long-term project goal is to better characterize the natural haze conditionsFocus is on detailed analysis of major natural events, e.g. forest fires and windblown dustFASTNET is primarily a tools development project for data access, archiving and analysis This, first year pilot project focuses on demonstrating the feasibility and utility of approach
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Regional Haze Rule: Natural Aerosol
The goal is to attain natural conditions by 2064;The baseline is established during 2000-2004The first SIP & Natural Condition estimate in 2008;SIP & Natural Condition Revisions every 10 yrs
Natural haze is due to natural windblown dust, biomass smoke and other natural processes
Man-made haze is due industrial activities AND man-perturbed smoke and dust emissions
A fraction of the man-perturbed smoke and dust is assigned to natural by policy decisions
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Significant Natural Contributions to Haze by RPO Judged qualitatively based on current surface and satellite
data
• Natural forest fires and windblown dust are judged to be the key contributors to regional haze
• The dominant natural sources include locally produced and long-range transported smoke and dust
WRAP
Local Smoke
Local Dust
Asian Dust
VISTAS
Local Smoke
Sahara Dust
MRPO
Local Smoke
Canada Smoke
Local Dust
CENRAP
Local Smoke
Mexico/Canada Smoke
Local Dust
Sahara Dust
MANE-VU
Canada Smoke
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Natural Aerosol Features and Event Analysis
• Natural Aerosol Features:– Intense – natural event concentrations can be much higher than manmade emissions
– Large – major natural events frequently have global-scale impacts
– Episodic – the main impact is on the extreme, not on the average concentrations
– Seasonal - dust and smoke events are strongly seasonal at any location
– Uncontrollable –natural events can seldom be suppressed; they may be extra-jurisdictional.
• Natural Aerosol Event Analysis:– Much understanding can be gained from the study of major natural aerosol events
– Their features are easier to quantify due to the intense aerosol signal
– Subsequently, smaller events can be evaluated utilizing the gained insights
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National Ambient Air Monitoring Strategy (NAAMS)Focus on PM & Ozone
(Slide for Scheffe)
• Insightful Measurements – Enhanced real-time data delivery to public– Increase capacity for hazardous air pollutant measurements– Increase in continuous PM measurements– Support for research grade/technology transfer sites
• Multiple pollutant monitoring must be advanced– AQ is integrated through sources, atmo. processes, health/eco effects
• Technological advances must be incorporated– Information transfer technologies– Continuous PM monitors– High sensitivity instruments– Model-monitor integration
FASTNET pursues several of the NAAMS recommendation:
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Scientific Challenge: Description of PM
• Gaseous concentration: g (X, Y, Z, T)
• Aerosol concentration: a (X, Y, Z, T, D, C, F, M)
• The ‘aerosol dimensions’ size D, composition C, shape F, and mixing M determine the impact on health, and welfare.
Dimension Abbr.
Data SourcesSpatial dimensions X, Y Satellites, dense networks
Height Z Lidar, soundings
Time T Continuous monitoring
Particle size D Size-segregated sampling
Particle Composition C Speciated analysis
Particle Shape/Form F Microscopy
Ext/Internal Mixture M Microscopy
Particulate matter is complex because of its multi-dimensionality
It takes at leas 8 independent dimensions to describe the PM concentration pattern
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Technical Challenge: Characterization
• PM characterization requires many different instruments and analysis tools.
• Each sensor/network covers only a limited fraction of the 8-D PM data space.
• Most of the 8D PM pattern is extrapolated from sparse measured data.
• Some devices (e.g. single particle electron microscopy) measure only a small subset of the PM; the challenge is extrapolation to larger space-time domains.
• Others, like satellites, integrate over height, size, composition, shape, and mixture dimensions; these data need de-convolution of the integral measures.
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Real-Time Aerosol Watch (RAW)
RAW is an open communal facility to study non-industrial (e.g. dust and smoke) aerosol events, including detection, tracking and impact on PM and haze.
RAW output will be directly applicable, to public health protection, Regional Haze rule, SIP and model development as well as toward stimulating the scientific community.
The main asset of RAW is the community of data analysts, modelers, managers and others participating in the production of actionable knowledge from observations, models
and human reasoning
The RAW community will be supported by a networking infrastructure based on open Internet standards (web services) and a set of web-tools evolving under the umbrella of
Fast Aerosol Sensing Tools for Natural Event Tracking (FASTNET).
Initially, FASTNET is composed of the Community Website for open community interaction, the Analysts Console for diverse data access and the Managers Console for
AQ management decision support.
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Data Federation Concept and the FASNET Network
Schematic representation of data sharing in a federated information system.Based on the premise that providers expose part of their data (green) to others
Schematics of the value-adding network proposed for FASTNETComponents embedded in the federated value network
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Origin of Fine Dust Events over the US
Gobi dust in springSahara in summer
Fine dust events over the US are mainly from intercontinental transport
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Daily Average Concentration over the US
Dust is seasonal with noise
Random short spikes added
Sulfate is seasonal with noiseNoise is by synoptic weather
VIEWS Aerosol Chemistry Database
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Sahara and Local Dust Apportionment: Annual and July
• The maximum annual Sahara dust contribution is about 1 g.m3
• In Florida, the local and Sahara dust contributions are about equal but at Big Bend, the Sahara contribution is < 25%.
The Sahara and Local dust was apportioned based on their respective source profiles.
• In July the Sahara dust contributions are 4-8 g.m3
• Throughout the Southeast, the Sahara dust exceeds the local source contributions by w wide margin (factor of 2-4)
AnnualJuly
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Supporting Evidence: Transport Analysis
Satellite data (e.g. SeaWiFS) show Sahara Dust reaching Gulf of Mexico and
entering the continent.
The air masses arrive to Big Bend, TX form the east (July) and from the west
(April)
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Seasonal Fine Aerosol Composition, E. USUpper Buffalo Smoky Mtn
Everglades, FLBig Bend, TX
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Sahara PM10 Events over Eastern USMuch previous work by Prospero, Cahill, Malm, Scanning the AIRS PM10 and IMPROVE chemical
databases several regional-scale PM10 episodes over the Gulf Coast (> 80 ug/m3) that can be attributed to Sahara.
June 30, 1993
The highest July, Eastern US, 90th percentile PM10 occurs over the Gulf Coast ( > 80 ug/m3)
Sahara dust is the dominant contributor to peak July PM10 levels.
July 5, 1992
June 21 1997
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MODIS Rapid Response
FASTNET Event Report: 040219TexMexDust
Texas-Mexico Dust EventFebruary 19, 2004
Contributed by the FASNET Community
Correspondence to R Poirot, R Husar
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Satellites detect dust most storms in near real time The MODIS sensor on AQUA and Terra provides 250m resolution images of the dust storm
Visual inspection reveals the dust sources at the beginning of dust streaks.
The NOAA AVHRR sensor highlights the dust by its IR sensors
In the TOMS satellite image, the dust signal is conspicuously absent – too close to the ground
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Surface met data from the 1200 station network documents the strong winds that cause the windblown dust and resulting low-visibility regions
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High Wind Speed – Dust Spatially Correspond
The spatial/temporal correspondence suggests that most visibility loss is due to locally suspended dust, rather than transported dust
Alternatively, suspended dust and ‘high winds’ travel forward at the same speed
Wind speed animation; Bext animation. (material for model validation?)
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PM10 > 10 x PM25During the passage of the dust cloud over El Paso, the PM10 concentration was more
than 10 times higher than the PM2.5
AIRNOW PM10 and Pm25 data
PM10 and PM25, El Paso, Feb. 19 2004 - AIRNOW
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February 19, Hour
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Schematic
Link to dust modelers for faster collective learning?
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Monte Carlo simulation of dust transport using surface winds (just a toy, 3D winds are essential!)
See animation Note, how sensitive the transport direction is to the source location (according to this toy)
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VIEWS Fine Mass, Sulfate, OC, Dust, 02-07-01
OCOC
Mass SO4
Dust
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SeaWiFS AOT – ASOS FBext, 02-07-01
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Pattern of Fires over N. AmericaThe number of ATSR satellite-observed fires peaks in
warm seasonFire onset and smoke amount is unpredictable
Fire Pixel Count:
Western US
North America
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July 2020 Quebec Smoke Event
Superposition of ASOS visibility data (NWS) and SeaWiFS reflectance data for July 7, 2002
–
• PM2.5 time series for New England sites. Note the high values at White Face Mtn.
• Micropulse Lidar data for July 6 and July 7, 2002 - intense smoke layer over D.C. at 2km altitude.
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2002 Quebec Smoke over the
Northeast
Smoke (Organics) and Sulfate concentration data from VIEWS integrated database
DVoy overlay of sulfate and organics during the passage of the smoke plume
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Please Visit http://datafed.net
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NCore Integration
NOAA/NASA Satellite: Global/Continental transport
Other Networks: Deposition, Ecosystems
Intensive/diagnostic Field Programs
Longer Term Goal:
Integrated Observation-modeling Complex
Similar to Meteorological Models (FDDA)
Model Adjustments Through Obs.
All in Near Real Time
Full Model Dims (x, y, z, t, chemistry, size)