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Johnathan Kirk Northeast Regional Climate Center Cornell University

Synoptic Categorization and climate variability analysis of historical flood-inducing storms in the Northeast. Johnathan Kirk Northeast Regional Climate Center Cornell University. Introduction. Main focus:

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Johnathan Kirk Northeast Regional Climate Center Cornell University

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  1. Synoptic Categorization and climate variability analysis of historical flood-inducing storms in the Northeast Johnathan Kirk Northeast Regional Climate Center Cornell University

  2. Introduction • Main focus: • Synoptic climatology analysis of climate variation across New England and Canadian Maritimes • Given annual maximum stream flow dates at river gauges, identified primary synoptic scale weather cause • Categorized storms by type based on storm track

  3. Introduction • Assessment: • Plotted charts of storm type frequency at each river gauge site on map of the area • Sorted storms by numerous factors • Geographic variability • Time interval • Strong vs. Weak events • NAO & ENSO

  4. Objectives • Assess the potential geographic variation of synoptic causes for annual maximum stream flow dates between river gauges • Do storm type frequencies change with time? • How are potential variations influenced by climate factors? • Is there a relationship between flood intensity and storm type?

  5. Gauge Site Selection • US selected gauges reasonably represent the geographic diversity and average record length (Collins, 2009) • Basin size, topographic, lithologic, & hydroclimatic diversity • Main hydroclimatic differentiators: • Latitude, elevation, & distance from the coast • Canada gauge selection followed same criteria • No major differences in recording techniques in relationship to synoptic climatology

  6. Storm Type Categorization • Categorized storms by two factors: • Storm track • General dynamics • Assessed storm track by majority entrance zone • Distinction was made between Closed Lows and Strong Surface Lows

  7. Storm Type Categorization Scheme * Category associated with geographic tag

  8. Majority Entrance Zones Coastal = Based on (Hirsch, 2001) Great Lakes = Center of low pressure passes over Great Lake OH Valley = Region bounded by other two Canada = Center of low pressure passes over Canada “Cold Front” = Center of low pressure passes over N. Canada

  9. Reference Sources NOAA Central Library U.S. Daily Weather Maps Project NCEP/NCAR 6-Hourly Reanalysis Data Composites Sample Great Lakes Closed Low (May 3, 1972)

  10. Results

  11. Results

  12. Results

  13. Results

  14. Coastal Lows more prominent at gauges closer to coastline

  15. Canada-based storms more frequent at gauges closer to US-Canada border

  16. Great Lakes-based storms outnumber OH Valley-based storms

  17. No obvious relationship between geographic proximity and Great Lakes or OH Valley-based storms

  18. Greater diversity in storm types in later time intervals

  19. Great Lakes-based storm frequency does not significantly change with time

  20. OH Valley-based storms do change with time • Same with Coastal lows, Tropical Cyclones, etc.

  21. Climate Factors (NAO PC-Based)

  22. Climate Factors - NAO • NAO: • Coastal lows seem to shift east/west in NAO +/- • In absence of coastal lows, Great Lakes and/or OH Valley Lows increase in frequency • Inland stations were more homogeneous • Difference in NAO DJFM & Monthly may not be significant

  23. Tropical Cyclone suppression occurs in SOI - years

  24. Coastal Lows suppressed in SOI + years

  25. Overall Great Lakes/OH Valley Lows do not seem to be affected

  26. Strong Events vs. Weak Events

  27. Strong Events vs. Weak Events • Some stations look to have meaningful trends • Others do not have significant differences • Exemplifies need for more thorough statistical analysis for numerical significance • Both to defend trends and lack of significant difference • Could exaggerate variations • Z-scores: more “weak” events, less “strong” events

  28. Moving Forward • What are the relationships between storm type frequencies? • Do some storm frequencies in/decrease as a result of the lack of another? • Are these findings statistically significant? • Increasing sample size by adding 11 more stations from Canadian Maritimes • Are the findings skewed by variability? • Some stations may be outliers • Could explain contradictory findings

  29. Acknowledgments • I would like to thank the following individuals for their assistance on this project: • Dr. Art DeGaetano, NRCC/Cornell University • Matt Collins, NOAA Restoration Center/NMFS • Contributors and advisors from the NCDC • Dr. Thomas Peterson • Sam McCown • Tiffany Means

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