1. Exploring the Possibility of Using Tropical Cyclone Numbers to Project Taiwan Summer Precipitation Patterns Mong-Ming Lu and Ru-Jun May Research and Development Center Central Weather Bureau

2. Motivation Taiwan summer rainfall prediction beyond one month has no skill. Tropical cyclone numbers show promising predictability.  Can we use tropical cyclone numbers to project Taiwan rainfall patterns?

3. Available Information NW Pacific tropical cyclone activity FORCASTS The IRI Typhoon Activity Forecast (http://iri.columbia.edu/forecast/typhoon/)http://iri.columbia.edu/forecast/typhoon/ Korean Meteorological Agency’s Forecast Johnny Chan’s Forecast (http://aposf02.cityu.edu.hk)http://aposf02.cityu.edu.hk Prof. Joe Kwon’s Forecast NW Pacific tropical cyclone activity MONITORING * Total TC number in January-May

4. Analysis Procedure  Predictors TC numbers in January - May January - December July - October June – August  Regional Difference Group the stations into 5 groups – North (7 stations), Central (4), South (3), East (6) and All (20)

5.  Contingency Table Method Categorize Data TC numbers  (More, Normal, Less) as close to tercile as possible, the members in “Normal” must be more than in “More” and “Less” Precipitation  (More, Normal, Less) - Tercile Significance Test - Mason and Goddard (2001) Identify which months of precipitation with statistically significant signals at 85%, 90% levels of confidence Limitations: * Significance criterion is sensitive to the category member numbers. * Satisfactory test is difficult to do when stations are too few.

6. Identification Procedure and Criteria: Data length: 1959-2001 The contingency tables are made for each station. Signal Identification : The 20 stations are grouped into 5 groups. The signal magnitude is represented by the percentage number of stations showing the signal of satisfying the significance criterion of any category. The uncertainty is represented by the percentage number of stations showing no signal. If the signal magnitude is less than the uncertainty, we decide that this group has no signal. The relative signal magnitude is defined as the difference between the signal magnitude and uncertainty. Significant signal is identified only when the relative signal magnitude is larger than 33%. **The signal in south Taiwan should be treated with extreme caution because there are only 3 stations in that group. The signal can be identified if one station satisfies the signal magnitude and two stations are uncertain.

9. http://e-service.cwb.gov.tw/docs/V3.0/knowledge/typhone/ch2/005.htm Typhoon Invading Paths (1960-1999)

10. DATA Tropical Cyclone - JTWC best track data final v., 1959-2002 Precipitation - CWB 20 stations

11. RESULTS Predictor: Annual Total Number of TCs MoreNormalLess

12. Predictor: January-May Total Number of TCs MoreNormalLess

13. Predictor: July-October Total Number of TCs MoreNormalLess

14. RAINFALL PROJECTIONS What did we know in June 2003 ? 1. Jan-May total number (6) - above normal. What can we project ? High possibility for North Taiwan to have a DRY summer (June-October). 2. Dr. Johnny Chan’s Forecast: Annual total TC number will be normal / slightly below normal (26  3). What can we project ? None. 3. IRI’s Forecast: July-October total (named) TC number will be normal / slightly above normal. (reference Normal: 17-20) Dr. Joe-H. Kwon’s Forecast: JJA total number will be below normal. (6.3±1) KMA: JJA total number below normal (?) What can we project ? normal / slightly above normal  ? (Normal  Wet; Above Normal  Dry) below normal  High possibility for East Taiwan to be DRY.

15. June 2003 IRI Typhoon Activity Forecast There is a slightly enhanced probability (approximately 40%) that the number of named tropical cyclones in the western North Pacific during the 2003 peak season (July to October) will be in the normal category, and also a 40% that the number of cyclones will be in the above normal category. The normal category is defined as between 17 and 20 named tropical cyclones. These probabilities are slightly greater than the long-term average probability of 33%. The accumulated cyclone energy (ACE*) index during these months also has an enhanced (approximately 45%) probability of being in the above normal range. Furthermore, a slight shift in the average longitude (westward) and latitude (nortward) of tropical cyclone tracks is predicted. This forecast is consistent with the possible onset of La Niña sea surface temperature anomalies that could develop, with a region of above normal SST in the central and western North Pacific. Normally, La Niña conditions would result in below normal SSTs in both the eastern and central tropical Pacific. Our SST forecast, however limits the below normal SST to east of the date line.SST forecast

16. TC NUMBER VERIFICATION  Jan-May total number (6) of the Western North Pacific TCs this year is above normal.  Annual total TC number will be normal / slightly below normal (26  3). up-to-now 19 named x IRI’s Forecast: July-October total TC number will be normal / slightly above normal. actually 13 named  Dr. Joe-H. Kwon’s Forecast: JJA total number will be below normal (6.3±1). actually 8 named

17. Taiwan Precipitation Percentile Rank

18. Jan-May TC MORE SLP Ano. Composite - June 2003 June SLP Anomalies

19. JASO TC LESS SLP Ano. Composite – July 2003 July SLP Anomalies

20. SUMMARY TC numbers may be useful for projecting Taiwan summer precipitation patterns. January-May total number of TCs shows most consistent signals in the precipitation of northern Taiwan. More  Dry Normal  Wet Less  signals are weak Peak season (July-October) total number of TCs also show consistent signals in the precipitation of eastern Taiwan. More, Less  Dry Normal  Wet No Taiwan precipitation signals can be extracted based on the annual total number of TCs.

21. Questions Where does the predictability of TC numbers come from? How have the TC number predictions been used? (Who are your customers?)