Moisture Variability and Nocturnal Convection
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Moisture Variability and Nocturnal Convection David B. Parsons, Crystal Pettet, and Tammy Weckwerth NCAR/ATD Acknowledgements to Ed Browell et al., Cyrille Flamant et al., and Steve Koch and the bore folks
description
Moisture Variability and Nocturnal Convection. David B. Parsons, Crystal Pettet, and Tammy Weckwerth NCAR/ATD. Acknowledgements to Ed Browell et al., Cyrille Flamant et al., and Steve Koch and the bore folks. Sounding-based Schematic of Nocturnal Convection Initiation. - PowerPoint PPT Presentation
Transcript of Moisture Variability and Nocturnal Convection
Moisture Variability and Nocturnal Convection
David B. Parsons, Crystal Pettet, and Tammy Weckwerth
NCAR/ATD
Acknowledgements to Ed Browell et al., Cyrille Flamant et al., and Steve Koch andthe bore folks
Sounding-based Schematic of Nocturnal Convection Initiation
From Trier and Parsons 1993
Moisture Upstream of MCS Inflow
LLJ
2nd LLJDeeper Mixed Layer from near the dryline
Nocturnal MCS June 6th
~Frontal Position
~DC-8 Flight track1
2
3
4
MCS Inflow
Conv
Water Vapor: 20 June
Sounding Susceptible to Elevated ConvectionSounding Susceptible to PBL-Based Convection
DVN (0000 UTC 9/12/2000) GRB (0000 UTC 9/12/2000)
From Trier et al. 2002, abstract 130, Reading QPF meeting
A key factor in nocturnal convection is the depth of the moist inflow, which can be aloft
Research Goals
• How common are bores and wave train events?
• What are the characteristics of these events?
• How are they generated and in what environments?
• How strong is the lifting and does it modify the inflow thermodynamics?
Research Technique
• Identify events in S-Pol and NEXRAD composites
• Independently identify events in MAPR and ISS surface data
• Identify event characteristics
• Link to environmental characteristics
Time of Occurrence
Bore/Wave Passage at MAPR
0
1
2
3
CST (h)
# of
Eve
nts
End Time of Bore/waves Event
0
1
2
3
4
5
6
CST (h)
# of
Eve
nts
Time of Generation (S-Pol)
0
1
2
3
4
5
Local Time (h)
# of
Wav
e/B
ore
Even
ts
1 3 5 7 9
11 13 15 17 19 21 23 25 27 29 31 33 35 37 39 41 43
S1
0
2
4
6
8
10
12
14
16
IHOP Date
Max Nocturnal Wind Speed (m/s)
Max Surface Wind vs. Bore/Wave Events
S-Pol and MAPRbore/wave events
~18 bore and 8 S-Pol and MAPR wave events were observed. Bore events are observed in the later stages of LLJ periods when precipitation occurs.
BOREExample From MAPR4 June
Pre-bore height Post height
Bore Height Displacements
0
0.5
1
1.5
2
2.5
3
3.5
4
4.5
0 5 10 15 20 25 30 35 40 45 50 60 65 75
Time (mins)
LayerHeight(km)
Approximate Spatial Dimension of S-Pol Bore/Wave Events
0123456789
10
50 150 250 350 450 550Along line length (km)
# of
Eve
nts
Implications and Speculations•Undular bore-like disturbances are ubiquitous over
this region when convection and low-level jets are present. Bore lifting varies.
•These disturbances can promote intense lifting with displacements of up to ~2 km. Theyinitiate convection and help maintain existing systems by lifting their inflow (removing CIN) and by creating a deeper moist inflow.
•These disturbances surely contribute to the nocturnalprecipitation maximum over this region allowingsystems to cross over this unfavorable environment into more moist air.
