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What processes control diversity in the sensitivity
of warm low clouds to aerosol perturbations?
Robert Wood Graham Feingold
Dave Turner
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Warm cloud responses to aerosols• Microphysical, structural, and dynamical properties of low,
liquid-phase clouds show sensitivity to aerosol loading, but the responses are not uniform
• Increase in aerosol concentration increases cloud droplet concentration– droplet size response may depend on LWP response
• The magnitude and even the sign of the response of various cloud-field characteristics (depth, liquid water path, cloud fraction) appear to depend upon – cloud type and meteorological regime – Precipitation– cloud field organization (itself a function of precipitation)– aerosol loading in the unperturbed clouds
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A formalism
• The response of albedo 𝛼 to a perturbation in some aerosol property (N, nominally CCN concentration) can be written
Twomey Cloud thickness Cloud coverResponse Response Response
Wx = meteorology
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Twomey• Twomey responses (at fixed LWP) are most
simple to understand– But is it an activation problem or the net effect of
all microphysical processes (at constant LWP)?• A diverse response of albedo dependent upon
– cloud albedo (susceptibility maximum at a=0.5)– Nd before perturbation– aerosol/dynamical properties affecting activation– spatial scales of aerosol and cloud variability– etc..
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Satellite remote-sensing
Critical to sort data by liquid water (Twomey)
Slope determined by: aerosol number conc., size/composition, cloud turbulence, etc.
Aerosol extinction, km-1
Dro
p ra
dius
Feingold et al. 2003
Surface remote-sensing
Aerosol Index
Dro
p ra
dius
Breon et al. 2002
Measurements of Aerosol-Cloud Interactions
Define slopes as ACI:Aerosol-Cloud-Interactions
ACI = 0.10 - 0.15Sorted by LWP
ACI=0.05 – 0.08
a = aerosol
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Beyond Twomey• All else is not equal……..
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How does precipitation respond to aerosol perturbations?
• Aerosol suppresses collision-coalescence but dynamical responses may counter – e.g. the clouds deepen allowing more precip
• What are the appropriate timescales?– Aerosol perturbations timescales vs. adjustment
timescales
• Do albedo and “lifetime” effects work in unison?• Precipitation susceptibility –dlnR/dlnN as a
means of quantifying aerosol influence on precipitation
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Marine stratocumulus: LES results
Cloud droplet concentration [cm-3]
LWP [g m-2]
P0 [mm d-1]
we [cm s-1]
• Impact of aerosols simulated by varying Nd
• Increased Nd Reduced precipitation increased TKE increased entrainment we
• Changes in we can sometimes result in cloud thinning (reduced LWP)
• Also noted by Jiang et al. (2002)
Ackerman et al. (2004)
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short timescales
long timescales
short timescales
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AIEs may reverse in sign
Cloud thinning
2nd AIE amplifies 1st AIE
2nd AIE counters 1st AIE
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Trade cumulus responses
34 h
34 h
34 h
LWP
w’w’
CA
PE
Clean (50 cm-3)Polluted (250 cm-3)
Lee, Feingold, Chuang, 2012
Clean (50 cm-3)Polluted (250 cm-3)
10 h
10 h
10 h
RICO
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Trade cumulus responses
34 h
34 h
34 h
LWP
w’w’
CA
PE
Clean (50 cm-3)Polluted (250 cm-3)
Lee, Feingold, Chuang, 2012
20 h
20 h
20 h
Clean (50 cm-3)Polluted (250 cm-3)
RICO
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Trade cumulus responses
34 h
34 h
34 h
LWP
w’w’
CA
PE
Clean (50 cm-3)Polluted (250 cm-3)
Lee, Feingold, Chuang, 2012
RICO
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Influence on cloud optical depth
Only about 75% of the Twomey increase in albedo is realizedbecause of horizontal and vertical spatial variability in microphysical properties
i.e., 3/4 x (Nd,H /Nd,C )1/3
LWP ~ constant
Clean (50 cm-3)Polluted (250 cm-3)
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Resilience, buffering and multiple timescales
• To what extent are aerosol perturbations “absorbed” by the cloud system? (“buffering”)– Feedbacks via precipitation, evaporation,
sedimentation– Aerosol perturbations imprint cloud
morphological responses (e.g. depth, fraction, inversion height)
– How do these compare with slower time scale drivers?
– How stable is the aerosol-cloud system?
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Aerosol effects on cloud dynamics
More CCN higher condensation stronger wKogan and Martin (1994)
Smaller droplets slower sedimentation more evaporative cooling at inversion more entrainment drier PBL with less LWP(Bretherton et al. 2007)
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Resilience and dynamical systems• In the beginning….
– We saw the world in terms of 1st, 2nd, nth indirect effects
– Clouds tended to be thought of in a box
• Time to shift focus from individual microphysical processes to a dynamical system view of myriad interacting dynamical/microphysical components– Systems are often characterized by self organization
– Self-organizing systems are resilient and even benefit from small perturbations (aerosol and other)
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Aerosol-driven shifts in organization
• POCs and other closed to open cell transitions– Collapsed boundary layers, ultraclean, highly
sensitive to aerosol (e.g. shiptracks)– But not all open cells are necessarily aerosol-
sensitive….
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Distinct closing of open cells by ship tracks
MODIS image courtesy NASA
Thin “anvil cloud” butcells remain open
Massive aerosol perturbation
Wang and Feingold 2009
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re [mm]
Collapsed boundary layer at the Azores
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Action planBeyond aerosol indirect effects?
• Consider the aerosol-cloud system as a whole with the following key properties– Dynamically evolving– Aerosols are an integral component and a “dynamic”
variable (cloud effects on aerosols, aerosol effects on clouds)
– Aerosols are more relevant to some systems than to others
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Action plan
Guiding subquestions:
• What factors control the susceptibility of warm rain to aerosol perturbations?
• Why do different approaches to quantifying the Twomey effect yield such diverse estimates?
• How do aerosol perturbations change the dynamics of marine and continental low clouds?
• How sensitive are cloud transitions to aerosol perturbations?
• Can we move beyond the aerosol-cloud microphysical component of the Twomey effect and make progress on the radiative forcing aspect?
What processes control diversity in the sensitivity of warm low clouds to aerosol perturbations?
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1. What factors control the susceptibility of warm rain to aerosol perturbations?
Example 2: Marine Stratocumulus (VOCALS,
aircraft data)
Terai et al. [Atmos. Chem. Phys. 2012]Sorooshian et al. (GRL, 2009)
Example 1: Parcel and LES models
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• Ideas for moving forward:– Estimate precipitation susceptibility metrics for
existing ARM low cloud datasets (e.g. Azores, MASRAD, MAGIC)
– Use high resolution and simple process models to explore key controlling factors and attempt to composite observations using these factors
• Data needs:– Improved quantification of light drizzle, cloud liquid
water path, microphysical retrievals, CCN measurements
1. What factors control the susceptibility of warm rain to aerosol perturbations?
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McComiskey and Feingold (2012)
2. Why do different approaches to quantifying the Twomey effect yield such diverse estimates?
• ACI is scale dependent. Constant LWP matters! • Averaging method matters!
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• Ideas for moving forward:– Determine ACI metrics across ARM low cloud
datasets– Systematically examine how ACI changes with cloud
dynamics, aerosol loading, spatiotemporal scale• Data needs:
– Robust cloud microphysical retrievals (re, Nd), LWP(especially for thinner clouds); vertical velocity measurements
2. Why do different approaches to quantifying the Twomey effect yield such diverse estimates?
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BOMEX (Jiang et al. 2006)
3. How do aerosol perturbations change the dynamics of marine and continental low clouds?
GoMACCS(Small et al. 2009)
Nor
mal
ized
heig
ht
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Entrainment vs Twomey
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• Ideas for moving forward:– Use existing ARM datasets to explore relationships
between aerosols and cloud dynamics (updraft speed, entrainment rates)
• Data needs– Cloud dynamical properties (updraft speed)– Entrainment properties, moisture profiling
3. How do aerosol perturbations change the dynamics of marine and continental low clouds?
RACORO (Vogelman et al.
2012)
CCN
(0.2
% S
S)
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4. How sensitive are cloud transitions to aerosol perturbations?
A = Radiatively clearB = Cloudy
Colored trajectories: transition between statesTriangle = start; square = end
A
B
Fast processes: local interactions
Slow processes: broad meteorological environment
Fast processes “slave” system to the slow manifold
Transitions are dependent on changes to the largescale environment and/or mphysics N
et s
urfa
ce lo
ngw
ave
radi
ation
, W/m
2
Surface Pressure, mb
Slow manifolds
Morrison et al. 2012
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• Ideas for moving forward:– Identify cloud organizational “states” and the
transitions between them– How different are aerosol properties within states
and between states• Data needs
– Meteorological controls on cloudiness– Microphysical data during transitions
4. How sensitive are cloud transitions to aerosol perturbations?
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5. Can we move beyond the aerosol-cloud microphysical component of the Twomey effect and make progress on the radiative forcing aspect?
1.0 1.5 2.00.00
0.05
0.10
0.15
0.20
0.0 0.5 1.00.00
0.01
0.02
0.03 SSFR 16:30LES runs 19:48
cloud+aerosol cloud only
PD
F
"GAP""CLD"
Downward Irradiance [W m-2 nm-1]
Comparison of downward irradiance measured from aircraft with irradiance calculated from LES-generated cloud fields
Schmidt et al. 2009 GRLCLD: below cloudsGAP: below gaps in clouds
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• Ideas for moving forward:– Characterize the statistical nature of the radiation
of cloud fields• Data needs
– Downward irradiance or radiance– Surface and/or airborne measurements
5. Can we move beyond the aerosol-cloud microphysical component of the Twomey effect and make progress on the
radiative forcing aspect?
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Extra slides
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Microphysical, structural, and dynamical properties of low, liquid-phase clouds all show sensitivity to aerosol loading, but the responses are not uniform. In general, an increase in aerosol concentration increases cloud droplet concentration and reduces droplet size. These changes impact cloud albedo, precipitation, and cloud dynamics, but the magnitude and even the sign of the response of various cloud-field characteristics (depth, liquid water path, cloud fraction) appear to depend upon cloud type and meteorological regime, cloud field organization (itself a function of precipitation), and upon the aerosol loading in the unperturbed clouds. Understanding which cloud regimes are more or less resilient to aerosol perturbations is fundamental to understanding the attendant radiative forcing. By applying ARM observational facilities and ASR state-of-the-art numerical modeling expertise, DOE is uniquely poised to address the challenge of understanding the diversity of warm low cloud responses to aerosol perturbations.
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Connection with Arctic systems?
• Mixed phase arctic cloud system exhibits two states: cloudy and cloud free
• Multiple internal microphysical feedbacks maintain a resilient cloud state
• Combination of large scale forcing and/or microphysical processes may shift cloudy state to clear state