Presentation is loading. Please wait.

Presentation is loading. Please wait.

Brittany Konradi 1 Mentors: Melinda Beerends 2 and Dr. Kristie Franz 1 Iowa State University 1, NWS Des Moines 2 A Comparison of Iowa Flash Flood Events.

Published byEverett McCoy Modified over 8 years ago

Similar presentations

Presentation on theme: "Brittany Konradi 1 Mentors: Melinda Beerends 2 and Dr. Kristie Franz 1 Iowa State University 1, NWS Des Moines 2 A Comparison of Iowa Flash Flood Events."— Presentation transcript:

1 Brittany Konradi 1 Mentors: Melinda Beerends 2 and Dr. Kristie Franz 1 Iowa State University 1, NWS Des Moines 2 A Comparison of Iowa Flash Flood Events and Eight Common Features of Excessive Rainfall for 2006- 2011

2 Outline  Background Information  Methodology  Analysis and Results  Conclusions  Future Work

3 Background  Flash flood occurs within 6 hours of a causative event  Flood forecasts  Flash flood guidance (FFG) software from local river forecast center (RFC)  Soil conditions, estimated precipitation, river levels, and terrain  Current variable checklist is small  Improve checklist

4 Motivation  Second-most deadly weather event in the United States  First is heat-related events  Damages and fatalities are increasing  Antecedent environmental conditions and location

5 Hypothesis  When environmental and antecedent conditions meet the criteria of Maddox et al. (1979), a flash flood event will occur in Iowa.

6 Data  Archived data  Iowa Environmental Mesonet  Storm Prediction Center  NCDC (National Climatic Data Center) StormData  Wunderground  University of Wyoming soundings  AWIPS (Advanced Weather Interactive Processing System)

7 Case Selection  Watches, Warnings, and LSRs  Ice jams  1. Watch and warning issued, and flash flood reported  2. Watch issued, and no flash flood reported  3. No watch issued, and flash flood reported

8 Cases CaseStart (UTC)End (UTC)Flood Event Watch 110/14/2007 21:00 10/15/2007 8:48Yes 24/25/2008 2:004/25/2008 16:53Yes 35/11/2008 0:005/11/2008 8:57NoYes 47/7/2010 8:007/7/2010 18:00YesNo 58/9/2010 3:008/10/2010 15:00YesNo 65/25/2011 8:005/26/2011 2:20NoYes

9 Maddox et al. (1979)  Eight criteria 1. Associated with convective storms. 2. Surface dew points are high. 3. High moisture content is present throughout the layer 4. Weak to moderate vertical wind shear throughout the layer 5. Repeatedly move over the same area 6. Weak, mid-tropospheric, meso- α scale trough  Meso- α scale = 200-2000 km (squall lines, MCSs, tropical cyclones) 7. Very near the mid-tropospheric, large-scale ridge position 8. Occurs during the nighttime hours

10 Results: Convective (#1) and Motion (#5)  Lightning strikes and slow motion  Case 1 (10/14/2007)  Case 3 (5/10/2008)

11 Results: Dew Point (#2)  Threshold: Climatological average CaseT d Climate Avg (˚F) 14 Oct 2007 42.6 25 Apr 2008 41.5 10 May 2008 46.1 7 Jul 2010 64.3 9 Aug 2010 64.2 25 May 2011 52.0

12 Results: Moisture (#3)  High moisture throughout layer  Moisture transport vectors, Θ e, and precipitable water  Equivalent potential temperature = total moisture and heat  Case 1  Case 3

13 Results: Precipitable Water (#3)  Threshold: Climatological average CasePwat Climate Avg (in.) 14 Oct 2007 0.53 25 Apr 2008 0.75 10 May 2008 0.93 7 Jul 20101.22 9 Aug 2010 1.1 25 May 2011 1.06

14 Results: Shear (#4)  Threshold: Weak to Moderate shear  Slower storm motion CriteriaThreshold 0-1 km shear < 12 kts 0-6 km shear < 35 kts Effective shear < 25 kts

15 Results: Shear (#4)  Threshold:  Veering near surface  Uni-directional aloft  Increasing in magnitude with height  Case 1 (left)  Ideal Maddox (middle)  Case 3 (right)

16 Results: Set-up (#6, #7)  Thresholds:  Weak, mid-tropospheric, meso- α scale trough  500 mb analysis  Mid-tropospheric, large-scale ridge position  Maddox et al (1979) ideal set-up  Double jet streaks  Strong moisture axis at all levels  Developing cyclone

17 Results: Set-up  Case 1  SW trough  Large-scale ridge 300 mb 500 mb Surface 850 mb

18 Results: Set-up  Case 3  Short-wave trough  Large-scale trough 850 mb Surface 500 mb 300 mb

19 Results: Nighttime event (#8)  Nighttime event  3Z to 12 Z  Low-level jet

20 Results: Antecedent Precipitation

21 Results: Criteria Comparison CaseFlood EventConvectiveDew PointMoisture Content 1YesXXX 2 XXX 3NoX 4YesXXX 5 XXX 6NoXX CaseVertical shearSame AreaSW Trough RidgeNight 1XXXX 2XX X 3 X X 4XX X 5XX XX 6 X

22 Conclusion  Moisture and forcing  Cyclone maturity and weak to moderate shear  Flood events meet more criteria CaseFlood Event Watch Criteria Met 1Yes 7 2 6 3NoYes 3 4 No 6 5YesNo 7 6 Yes 3

23 Future Work  More cases  Only spring and fall events  Freezing level  Winds increase with height in radiosonde  LLJ influence

24 References  Ashley, S. T. and W. S. Ashley, 2008: Flood Fatalities in the United States. J. Appl. Meteor. Climatol., 47, 805–818.  Ashley, W. S., 2007: Spatial and Temporal Analysis of Tornado Fatalities in the United States: 1880–2005. Wea. Forecasting, 22, 1214–1228.  Doswell, C. A., H. E. Brooks, and R. A.  Maddox, 1996: Flash Flood Forecasting: An Ingredients-Based Methodology. Wea. Forecasting, 11, 560–581.  European Space Agency, cited 2009: SMOS Scientific Objectives. [Available online at http://www.esa.int/esaLP/ESAS7C2VMOC_LPsmos_0.html.]  Funk, Theodore W., 1991: Forecasting Techniques Utilized by the Forecast Branch of the National Meteorological Center During a Major Convective Rainfall Event. Wea. Forecasting, 6, 548–564.  Junker, N. W., R. S. Schneider, and S. L. Fauver, 1999: A Study of Heavy Rainfall Events during the Great Midwest Flood of 1993. Wea. Forecasting, 14, 701–712.  Maddox, R. A., C. F. Chappell, and L. R. Hoxit, 1979: Synoptic and Meso- α Scale Aspects of Flash Flood Events 1. Bull. Amer. Meteor. Soc., 60, 115–123.  Morss, Rebecca E., 2010: Interactions among Flood Predictions, Decisions, and Outcomes: Synthesis of Three Cases. Natural Hazards Review, 11, 3, 83.  WFO DMX Station Duty Manual, Vol. 1, Section 5.2, 2011.  Roebber, P. J., and J. Eise, 2001: The 21 June 1997 Flood: Storm-Scale Simulations and Implications for Operational Forecasting. Wea. Forecasting, 16, 197–218

25 Acknowledgements  Mindy Beerends  Kristie Franz

26 Questions? Vortex Insurance Agency cited 2009. [Available online at http://www.vortexinsuranceagency.com/AboutUs/InsuranceOrDerivative.aspx.] http://www.vortexinsuranceagency.com/AboutUs/InsuranceOrDerivative.aspx

Download ppt "Brittany Konradi 1 Mentors: Melinda Beerends 2 and Dr. Kristie Franz 1 Iowa State University 1, NWS Des Moines 2 A Comparison of Iowa Flash Flood Events."

Similar presentations

Tropical Cyclone Hazards in the Pacific

Tropical Cyclone Hazards in the Pacific
Synoptic-Scale Conditions Leading to Flooding in South Carolina: A Case Study of October 22-23, 1990 (www.treehugger.com) Erik D. Kabela Joanne Stevenson.

Synoptic-Scale Conditions Leading to Flooding in South Carolina: A Case Study of October 22-23, 1990 ( Erik D. Kabela Joanne Stevenson.
Northwest Flow – Watch Out: Experience with a Dangerous Canadian Export David Zaff Science and Operations Officer Buffalo, NY Weather Forecast Office Oct.

Northwest Flow – Watch Out: Experience with a Dangerous Canadian Export David Zaff Science and Operations Officer Buffalo, NY Weather Forecast Office Oct.
Learning the flood types via Synoptic and Meso-  Scale Aspects of Flash Flood Events R.A. Maddox, C.F. Chappell and L. R. Hoxit BAMS, 1979, 115-123 Meteorology.

Learning the flood types via Synoptic and Meso-  Scale Aspects of Flash Flood Events R.A. Maddox, C.F. Chappell and L. R. Hoxit BAMS, 1979, Meteorology.
Louisville, KY August 4, 2009 Flash Flood Frank Pereira NOAA/NWS/NCEP/Hydrometeorological Prediction Center.

Louisville, KY August 4, 2009 Flash Flood Frank Pereira NOAA/NWS/NCEP/Hydrometeorological Prediction Center.
Flash Flood Composite Analysis in Vermont and Northern New York John M. Goff Gregory A. Hanson NWS Burlington, VT.

Flash Flood Composite Analysis in Vermont and Northern New York John M. Goff Gregory A. Hanson NWS Burlington, VT.
Analysis of Rare Northeast Flow Events By Joshua Beilman and Stephanie Acito.

Analysis of Rare Northeast Flow Events By Joshua Beilman and Stephanie Acito.
 The main focus is investigating the dynamics resulting in synoptically forced training convective rainfall  Synoptic conditions necessary for the generation.

 The main focus is investigating the dynamics resulting in synoptically forced training convective rainfall  Synoptic conditions necessary for the generation.
Part 5. Human Activities Chapter 13 Weather Forecasting and Analysis.

Part 5. Human Activities Chapter 13 Weather Forecasting and Analysis.
Aspects of 6 June 2007: A Null “Moderate Risk” of Severe Weather Jonathan Kurtz Department of Geosciences University of Nebraska at Lincoln NOAA/NWS Omaha/Valley,

Aspects of 6 June 2007: A Null “Moderate Risk” of Severe Weather Jonathan Kurtz Department of Geosciences University of Nebraska at Lincoln NOAA/NWS Omaha/Valley,
Forecasting extreme rainfall Iand getting people to listen to watches or warnings Can be difficult!! Wes Junker Wes Because…….

Forecasting extreme rainfall Iand getting people to listen to watches or warnings Can be difficult!! Wes Junker Wes Because…….
Characteristics of Isolated Convective Storms

Characteristics of Isolated Convective Storms
1 GOES Users’ Conference October 1, 2002 GOES Users’ Conference October 1, 2002 John (Jack) J. Kelly, Jr. National Weather Service Infusion of Satellite.

1 GOES Users’ Conference October 1, 2002 GOES Users’ Conference October 1, 2002 John (Jack) J. Kelly, Jr. National Weather Service Infusion of Satellite.
Northeast Convective Flash Floods: Helping Forecasters Stay Ahead of Rising Water Joe Villani - National Weather Service, Albany, NY Derek Mallia - University.

Northeast Convective Flash Floods: Helping Forecasters Stay Ahead of Rising Water Joe Villani - National Weather Service, Albany, NY Derek Mallia - University.
Charles A. Doswell III, Harold E. Brooks, and Robert A. Maddox.

Charles A. Doswell III, Harold E. Brooks, and Robert A. Maddox.
By Christopher Gitro NWS Binghamton, NY.  Flash flooding remains the number 1 weather killer across the US  29 flash flood related fatalities in BGM’s.

By Christopher Gitro NWS Binghamton, NY.  Flash flooding remains the number 1 weather killer across the US  29 flash flood related fatalities in BGM’s.
Tornadoes, MCSs and Downbursts. Review of last lecture 1.The general size and lifetime of mesoscale convective systems, thunderstorms and tornadoes. 3.

Tornadoes, MCSs and Downbursts. Review of last lecture 1.The general size and lifetime of mesoscale convective systems, thunderstorms and tornadoes. 3.
More Thunderstorms. Today Homework in Wind shear More multicellular storms.

More Thunderstorms. Today Homework in Wind shear More multicellular storms.
Upper-level Mesoscale Disturbances on the Periphery of Closed Anticyclones Thomas J. Galarneau, Jr. and Lance F. Bosart University at Albany, State University.

Upper-level Mesoscale Disturbances on the Periphery of Closed Anticyclones Thomas J. Galarneau, Jr. and Lance F. Bosart University at Albany, State University.
Characteristics of an Anomalous, Long-Lived Convective Snowstorm Rebecca L. Ebert Department of Soil, Environmental, and Atmospheric Sciences University.

Characteristics of an Anomalous, Long-Lived Convective Snowstorm Rebecca L. Ebert Department of Soil, Environmental, and Atmospheric Sciences University.

Similar presentations

Ads by Google