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Surface and Boundary-Layer Fluxes during the DYNAMO Field Program C. Fairall, S. DeSzoeke, J. Edson,...

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Surface and Boundary-Layer Fluxes during the DYNAMO Field Program C. Fairall, S. DeSzoeke, J. Edson, + Surface cloud radiative forcing (CF) Diurnal cycles Surface flux product Radar turbulence and microphysics retrievals Convective mass flux parameterization
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Page 1: Surface and Boundary-Layer Fluxes during the DYNAMO Field Program C. Fairall, S. DeSzoeke, J. Edson, + Surface cloud radiative forcing (CF) Diurnal cycles.

Surface and Boundary-Layer Fluxes during the DYNAMO Field ProgramC. Fairall, S. DeSzoeke, J. Edson, +

• Surface cloud radiative forcing (CF)• Diurnal cycles• Surface flux product• Radar turbulence and microphysics retrievals• Convective mass flux parameterization

Page 2: Surface and Boundary-Layer Fluxes during the DYNAMO Field Program C. Fairall, S. DeSzoeke, J. Edson, + Surface cloud radiative forcing (CF) Diurnal cycles.

Cloud Forcing

• Cloud forcing is the difference in the observed mean radiative flux versus what the flux would be in the absence of clouds

0xxx RRCF

Page 3: Surface and Boundary-Layer Fluxes during the DYNAMO Field Program C. Fairall, S. DeSzoeke, J. Edson, + Surface cloud radiative forcing (CF) Diurnal cycles.

Time Series Flux Components and SFCDaily Averages

Page 4: Surface and Boundary-Layer Fluxes during the DYNAMO Field Program C. Fairall, S. DeSzoeke, J. Edson, + Surface cloud radiative forcing (CF) Diurnal cycles.

Average to week-month Scales

Page 5: Surface and Boundary-Layer Fluxes during the DYNAMO Field Program C. Fairall, S. DeSzoeke, J. Edson, + Surface cloud radiative forcing (CF) Diurnal cycles.

Mean Tropical Surface Energy Budget TermsTable 1. Tropical Surface Energy Budgets from Fairall et al. 2008

Experiment Solar LW SENSIBLE LATENT RAIN NET

TOGA COARE PILOT 197 -43 -12 -116 -3 22

TC-1 222 -58 -7 -89 -1 65

TC-2 166 -46 -11 -117 -4 -12TC-3 190 -51 -10 -112 -3 13

TC Undisturbed 247 -57 -5 -84 -1 99

TC Disturbed 158 -43 -11 -150 -5 -51

JASMINE-2 205 -43 -9 -125 -2 27

JASMINE STAR 1 (UND) 260 -49 -5 -115 0 92

JASMINE STAR 2 (DIS) 128 -31 -17 -162 -7 -89

TC all 198 -49 -8 -105 -3 34

JASMINE all 217 -42 -6 -109 -2 62

EPIC (East Pacific UND) 224 -33 -8 -80 0 102

EPIC (East Pacific ITCZ) 163 -42 -19 -128 -7 -33

DYNAMO leg2 216 -42 -10 -126 -2 30

DYNAMO leg3 214 -41 -11 -122 -2 38

DYNAMO Undisturbed 256 -59 -6 -102 0 90

DYNAMO disturbed 206 -50 -9 -95 -2 50

DYNAMO mjo 140 -45 -18 -135 -6 -62

TOGA COARE – a 3 month study of MJO and surface fluxes in the equatorial W. Pacific. JASMINE – a 40-day study of pre-monsoon and monsoon convection In the Bay of Bengal. EPIC – A multi-year set of 1-month cruises in the equatorial E. Pacific and the ITCZ.

DYNAMO – a 3-4 month studyOf MJO and surface fluxes in the equatorial Indian Ocean

Page 6: Surface and Boundary-Layer Fluxes during the DYNAMO Field Program C. Fairall, S. DeSzoeke, J. Edson, + Surface cloud radiative forcing (CF) Diurnal cycles.

Tropical Energy Budget Correlations

Page 7: Surface and Boundary-Layer Fluxes during the DYNAMO Field Program C. Fairall, S. DeSzoeke, J. Edson, + Surface cloud radiative forcing (CF) Diurnal cycles.

Diurnal

• Jim Edson produced updated code for coare warm layer

• Also interested in diurnal variations in cloud properties.

Page 8: Surface and Boundary-Layer Fluxes during the DYNAMO Field Program C. Fairall, S. DeSzoeke, J. Edson, + Surface cloud radiative forcing (CF) Diurnal cycles.

Diurnal SST Averages in Wind Speed/Forcing Ranges:Snake and TSG: Measured and Modeled

Wind speed bins: upper – strong; middle – med; bottom - light

Forcing: upper – suppressed; middle – disturbed; Lower - MJO

Page 9: Surface and Boundary-Layer Fluxes during the DYNAMO Field Program C. Fairall, S. DeSzoeke, J. Edson, + Surface cloud radiative forcing (CF) Diurnal cycles.

Correcting the TSG to the Surface

Mean diurnal cycle of TSG, Snake, and model estimate of Snake based on TSD

Individual diurnal time series of Snake – Tx. Upper – Tx=TSG, observed; lower Tx=Tsnake model using TSG

Page 10: Surface and Boundary-Layer Fluxes during the DYNAMO Field Program C. Fairall, S. DeSzoeke, J. Edson, + Surface cloud radiative forcing (CF) Diurnal cycles.

Surface Flux Product

• Spatial grid in IO region. Daily and/or 6 hr• Turbulent, radiative, precip: Blended from various products• Use in situ to evaluated accuracy.

High-resolution (0.1250) radiative fluxes for one day as generated from METEOSAT-5.

Page 11: Surface and Boundary-Layer Fluxes during the DYNAMO Field Program C. Fairall, S. DeSzoeke, J. Edson, + Surface cloud radiative forcing (CF) Diurnal cycles.

Turbulence/Microphysics

Page 12: Surface and Boundary-Layer Fluxes during the DYNAMO Field Program C. Fairall, S. DeSzoeke, J. Edson, + Surface cloud radiative forcing (CF) Diurnal cycles.

Microphysic vs Turbulence• W=Wfall+Wturb

• Frisch et al - 3 radar moments to 3 moments of gaussian drop distribution. Means

• Pinsky – separate Vg and Wturb time series assuming variations uncorrelated– Keys on <W(dBZ)>– Wturb=a0/sig(Z)*(W-<W(dBZ)>)

• Shupe et al – Relate true air motion to left side of Doppler spectrum

Page 13: Surface and Boundary-Layer Fluxes during the DYNAMO Field Program C. Fairall, S. DeSzoeke, J. Edson, + Surface cloud radiative forcing (CF) Diurnal cycles.

VOCALS Grand Average

Page 14: Surface and Boundary-Layer Fluxes during the DYNAMO Field Program C. Fairall, S. DeSzoeke, J. Edson, + Surface cloud radiative forcing (CF) Diurnal cycles.
Page 15: Surface and Boundary-Layer Fluxes during the DYNAMO Field Program C. Fairall, S. DeSzoeke, J. Edson, + Surface cloud radiative forcing (CF) Diurnal cycles.

Pinsky Separation

Page 16: Surface and Boundary-Layer Fluxes during the DYNAMO Field Program C. Fairall, S. DeSzoeke, J. Edson, + Surface cloud radiative forcing (CF) Diurnal cycles.

Sample Separation 1 hr

Page 17: Surface and Boundary-Layer Fluxes during the DYNAMO Field Program C. Fairall, S. DeSzoeke, J. Edson, + Surface cloud radiative forcing (CF) Diurnal cycles.

Application to BL Turbulence Parameterization

• Local vs Non-local Turbulence closures

rHigherOrdez

XKxw

''

)('' * du XXMxw

))(1(* dnup wwM

Local gradient

Non local convective mass flux

Sigma is updraft area fraction

2/12 ]4[22

1

w

w

S

S

Updraft fraction related to velocity skewness

2/1

2

2

* 4

'

wS

wM

2/12*

)1(lse

MK diss

Eddy diffusion coefficient related

thru dissipation time scale

Mass flux related to vertical velocity moments

)('' * du XXMz

XKxw

Hybrid

Page 18: Surface and Boundary-Layer Fluxes during the DYNAMO Field Program C. Fairall, S. DeSzoeke, J. Edson, + Surface cloud radiative forcing (CF) Diurnal cycles.

VOCALS 1 Day

Page 19: Surface and Boundary-Layer Fluxes during the DYNAMO Field Program C. Fairall, S. DeSzoeke, J. Edson, + Surface cloud radiative forcing (CF) Diurnal cycles.

Trade Wind Q and Shallow Convection

Page 20: Surface and Boundary-Layer Fluxes during the DYNAMO Field Program C. Fairall, S. DeSzoeke, J. Edson, + Surface cloud radiative forcing (CF) Diurnal cycles.

Concept: Use Wband for incloud and Lidar for subcloud and between cloud


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