David J. Raymondkestrel.nmt.edu/~raymond/presentations/tropical_cyclones.pdf · Spontaneous...
Transcript of David J. Raymondkestrel.nmt.edu/~raymond/presentations/tropical_cyclones.pdf · Spontaneous...
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The Formation of Tropical Cyclones 1
David J. Raymond
Physics Department and Geophysical Research CenterNew Mexico TechSocorro, NM, USA
1Work supported by US National Science Foundation and Office ofNaval Research
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What is a tropical cyclone?
I Closed circulation at all levels
I Warm core
I Maximum wind near surface
I Strong meridional secondary circulation with convectionand rain
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Tropical cyclone tracks 1985-2005 (Wikipedia)
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Annual average sea surface temperatures (NOAA)
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Annual average atmospheric precipitable water
(NASA)
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Spontaneous formation of TCs (RCE modeling) 2
“In some cases, tropical cyclones are found to formspontaneously from random convection. Thisformation is due to a cooperative interaction betweenlarge-scale moisture, long-wave radiation, and locallyenhanced sea-surface fluxes, similar to theaggregation of convection found in previous studies.”
But it takes about two weeks ... occurs more rapidly frompre-existing disturbance
2Nolan, Rappin, and Emanuel (2007)
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Barotropic instability
absolute vorticity
latitu
de
Charney-Stern theorem
strip of relative vorticity
latitudinal vorticity gradient
changes sign
dζadt
= 0; ζa =∂vy∂x− ∂vx∂y
+ f
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Conclusion...
I Barotropic instability is a key mechanism for generatingtropical storms.
I But, why???
I Barotropic instability rearranges pattern of absolutevorticity, but does not increase it.
I The vorticity disturbances produced by baroclinicinstability generally result in regions with closedcirculations (in the moving reference frame of thedisturbance).
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Protective “pouch” in a wave3
I The closed circulation in a pouch prevents the ingestionof dry air, allowing convection to moisten the pouch.
I This is only effective if pouches at different levels arevertically aligned ⇒ low wind shear.
3Dunkerton, Montgomery, and Wang (2009)
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Where do tropical cyclones form?
I Moist tropical regions with sea surface temperatures inexcess of 26◦C.
I Away from equator – need non-zero Coriolis parameter.
I Develop out of pre-existing tropical weather disturbances,often produced by barotropic instability.
I Low wind shear.
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Convective Instability of the Second Kind (CISK) 4
convective heating
in rotating flow
warms env, lowers
surface pressure
lower surface
pressure causes
cyclonic circulation
frictional convergence forces convection
4Charney and Eliassen (1964)
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Critique of CISK 5
“... [T]he existence of a linear instability of the typeenvisioned by Charney and Eliassen (1964) wouldimply that weak tropical cyclones should beubiquitous and not confined to maritimeenvironments.”
“All numerical simulations of tropical cyclones revealthe essential importance of latent (and perhapssensible) heat flux from the sea surface, as proposedoriginally by Riehl (1954).”
5Emanuel (1986)
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Actual dynamics of spin up
surface fluxes
alter thermodynamics
radial flow may not be
in Ekman balance
downdrafts can
cause surface
divergence
Flux form of vorticity equation:
∂ζa∂t
= −∇h·(v hζa − ζhvz + k × F
)= vort conv+tilting+frict
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Ekman (im)balance
I Ekman balance in boundary layer (tilting not importantthere):
vort conv + frict = 0
I Spin up cannot occur when Ekman balance holds!
I Understanding of spin up requires independentdetermination of vorticity convergence and hence massconvergence:
vort conv ≈ vorticity ×mass conv
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Observations of tropical cyclone formation 6
I Proto-cyclones first develop a vortex at middle levels inthe troposphere.
I Only then does a smaller surface vortex form beneath themid-level vortex.
6Ritchie and Holland (1993, 1997); Harr et al. (1996a,b); Simpson etal. (1997); Bister and Emanuel (1997); Raymond, Lopez, and Lopez,1998)
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Examples from recent field programs 7
I TCS-08: August-September 2008, Guam, West Pacific
I PREDICT: August-September 2010, St. Croix, WesternAtlantic, Caribbean
I Dense array of dropsondes deployed into candidates fortropical cyclogenesis
I Area-average vorticity tendency obtained from 3-D Varanalysis for:
I Hagupit2: Non-developing wave (developed into typhoonone week later)
I Nuri1: Intensifying tropical wave.I Nuri2: Rapidly developing tropical depression (typhoon
two days later)
7Raymond, Sessions, and Lopez (2011); Gjorgjievska and Raymond(2014)
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Hagupit2: Not intensifying at this time
0.00 0.05 0.10 0.15 0.20vorticity (ks−1 )
0
2
4
6
8
10
12
14
heig
ht
(km
)
0.1 0.0 0.1 0.2 0.3vort tend (ks−1 day−1 )
0
2
4
6
8
10
12
14convergence
tilting
friction
net
0.03 0.00 0.03 0.06 0.09mass flux (kg/m2 /s)
0
2
4
6
8
10
12
14
Hagupit 2
Both convergence and frictional tendencies are negative,resulting in spin-down.
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Nuri1: Intensifying wave
0.00 0.05 0.10 0.15 0.20vorticity (ks−1 )
0
2
4
6
8
10
12
14
heig
ht
(km
)
0.1 0.0 0.1 0.2 0.3vort tend (ks−1 day−1 )
0
2
4
6
8
10
12
14convergence
tilting
friction
net
0.03 0.00 0.03 0.06 0.09mass flux (kg/m2 /s)
0
2
4
6
8
10
12
14
Nuri 1
Spin up tendency from convergence strongest at mid-levels.
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Nuri2: 24 hr later, rapidly intensifying depression
0.00 0.05 0.10 0.15 0.20vorticity (ks−1 )
0
2
4
6
8
10
12
14
heig
ht
(km
)
0.1 0.0 0.1 0.2 0.3vort tend (ks−1 day−1 )
0
2
4
6
8
10
12
14convergence
tilting
friction
net
0.03 0.00 0.03 0.06 0.09mass flux (kg/m2 /s)
0
2
4
6
8
10
12
14
Nuri 2
Spin up tendency at surface far exceeds frictional spin-downtendency.
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Mass flux profile and vorticity tendency
hei
ght
hei
ght
bottom−heavy mass flux profiletop−heavy mass flux profile
But what controls mass flux profile???
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Thermodynamic effect of a vortex
Hagupit2 Nuri2
PV anomaly
warmPV anomaly
warm
cool
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Nuri2 vs. Hagupit2
1.5 1.0 0.5 0.0 0.5 1.0temp diff (K)
0
2
4
6
8
10heig
ht
(km
)Temperature difference: nuri2 - hagupit2
z vs dtemp
z vs dtvirt
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Two key indices
Saturation fraction:
SF =
∫ trop
surf
rdp
/∫ trop
surf
r ∗dp
Instability index:
II = ∆s∗ = s∗1−3km − s∗5−7km
Saturated moist entropy:
s∗ = Cp ln θ∗e
Schematic of instability index
saturated entropy
he
igh
t (k
m)
0
2
4
6
8
10
12
instability index
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Instability index for Nuri and Hagupit
200 220 240 260 280 300 320entropy (J/K/kg)
0
2
4
6
8
10heig
ht
(km
)Entropy (dashed) and saturated entropy (solid) profiles
Hagupit2 -- II = 27, SF = 0.82
Nuri1 -- II = 17, SF = 0.81
Nuri2 -- II = 11, SF = 0.88
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Mass flux profile and vorticity tendency
hei
gh
t
hei
gh
t
bottom−heavy mass flux profiletop−heavy mass flux profile
normal SF, II larger SF, smaller II
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Instability index vs. saturation fraction8
0.65 0.70 0.75 0.80 0.85 0.90saturation fraction
10
15
20
25
30
35
40in
stabili
ty index (
J/K
/kg)
green -- TS in 0-48 hr
8Raymond, Sessions, and Lopez (2011); Gjorgjievska and Raymond(2014)
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Mid-level vorticity vs. instability index
10 15 20 25 30 35 40instability index (J/K/kg)
0.02
0.04
0.06
0.08
0.10
0.12
0.14
mid
-level vort
(ks−1)
N2
H2
green -- TS in 0-48 hr
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Low-level vorticity tendency vs. instability index
10 15 20 25 30 35 40instability index (J/K/kg)
1.0
0.5
0.0
0.5
1.0
1.5
2.0
low
-level vort
tend (
ks−
2)
N2
H2
green -- TS in 0-48 hr
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Pathway to cyclogenesis
enhanced top-heavy
tropical convection
in tropical disturbance
mid-level vortex
spins up
mid-level vorticity
results in reduced
instability index
reduced instability
index results in
increased saturation
fraction
smaller II and greater SF
result in bottom-heavy
convection and
low-level spinup
tropical cyclogenesis
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References...
I Bister, M., and K. A. Emanuel, 1997: The genesis ofhurricane Guillermo: TEXMEX analyses and a modelingstudy. Mon. Wea. Rev., 125, 2662-2682.
I Burpee, R. W., 1972: The origin and structure of easterlywaves in the lower troposphere of North Africa. J.Atmos. Sci., 29, 77-90.
I Charney, J. G. and A. Eliassen, 1964: On the growth ofthe hurricane depression. J. Atmos. Sci., 21, 68-75.
I Dunkerton, T. J., M. T. Montgomery, and Z. Wang,2009: Tropical cyclogenesis in a tropical wave criticallayer: Easterly waves. Atmos. Chem. Phys., 9,5587-5646.
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References continued...
I Emanuel, K. A., 1986: An air-sea interaction theory fortropical cyclones: Part I: Steady state maintenance. J.Atmos. Sci., 43, 585-604.
I Ferreira, R. N., and W. H. Schubert, 1997: Barotropicaspects of ITCZ breakdown. J. Atmos. Sci., 54,261-285.
I Gjorgjievska, S., and D. J. Raymond, 2014: Interactionbetween dynamics and thermodynamics during tropicalcyclogenesis. Atmos. Chem. Phys., 14, 3065-3082.
I Harr, P. A., M. S. Kalafsky, and R. L. Elsberry, 1996:Environmental conditions prior to formation of a midgettropical cyclone during TCM-93. Mon. Wea. Rev.,124, 1693-1710.
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References continued...
I Harr, P. A., R. L. Elsberry, and J. C. L. Chan, 1996:Transformation of a large monsoon depression to atropical storm during TCM-93. Mon. Wea. Rev., 124,2625-2643.
I Maloney, E. D., and D. L. Hartmann, 2001: TheMadden-Julian oscillation, barotropic dynamics, and northPacific tropical cyclone formation. Part I: Observations.J. Atmos. Sci., 58, 2545-2558.
I Molinari, J., D. Knight, M. Dickinson, D. Vollaro, and S.Skubis, 1997: Potential vorticity, easterly waves, andeastern Pacific tropical cyclogenesis. Mon. Wea. Rev.,125, 2699-2708.
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References continued...
I Nolan, D. S., E. D. Rappin, and K. A., Emanuel, 2007:Tropical cyclogenesis sensitivity to environmentalparameters in radiative-convective equilibrium. Quart. J.Roy. Meteor. Soc., 133, 2085-2107.
I Raymond, D. J., S. L. Sessions, and C. Lopez Carrillo,2011: Thermodynamics of tropical cyclogenesis in thenorthwest Pacific. J. Geophys. Res., 116, D18101,doi:10.1029/2011JD015624.
I Ritchie, E. A. and G. J. Holland, 1993: On the interactionof tropical-cyclone-scale vortices II. discrete vortexpatches. Quart. J. Roy. Meteor. Soc., 119, 1363-1379.
I Ritchie, E. A. and G. J. Holland, 1997: Scale interactionsduring the formation of Typhoon Irving. Mon. Wea.Rev., 125, 1377-1396.
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References continued...
I Simpson, J., E. Ritchie, G. J. Holland, J. Halverson, andS. Stewart, 1997: Mesoscale interactions in tropicalcyclone genesis. Mon. Wea. Rev., 125, 2643-2661.
I Wang, C.-C., and G. Magnusdottir, 2005: ITCZBreakdown in three-dimensional flows. J. Atmos. Sci.,62, 1497-1512.
I Wang, C.-C., and G. Magnusdottir, 2006: The ITCZ inthe central and eastern Pacific on synoptic time scales.Mon. Wea. Rev., 134, 1405-1421.
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Origin of African easterly waves ...
“This study shows that the African waves aredirectly related to the mid-tropospheric easterly jetthat is found within the baroclinic zone to the southof the Sahara. During the same season that thewaves are observed, the gradient of the monthlymean potential vorticity vanishes along the isentropicsurfaces. Charney and Stern have shown that this isa necessary condition for instability of the jetprovided that the amplitude of the waves is negligibleat the ground. Results show that the horizontal[south] and vertical [north] shear of the mean zonalwind are acting as nearly equal sources of energy forthe perturbations. The role of convection in theorigin of these waves has not yet been determined.”
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... and their role in TC formation 9
“From June to early October these waves propagateacross the Atlantic and occasionally reach theeastern Pacific. Although only a few of thesedisturbances actually intensify after reaching theAtlantic, they account for approximately half of thetropical cyclones that form in the Atlantic.”
9Burpee (1972)
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Barotropic instability in SW Caribbean and E
Pacific 10
Potential vorticity (0.1 PVU) on 310 K isentropic surface, 15June through 30 September, 1991.
10Molinari et al. (1997)
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ITCZ dynamics
latitude
heig
ht
vorticity increases
vorticity decreases
ITCZ
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ITCZ breakdown (low-level wind, vorticity) ...
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... and rollup 11
11Ferreira and Schubert, 1997; Wang and Magnusdottir (2005, 2006)
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MJO and East Pacific Hurricanes 12
12Maloney and Hartmann (2001)