An Evaluation of Red Flag Warnings and Numerical Trend Forecasts
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An Evaluation of Red Flag Warnings and Numerical Trend Forecasts in the Northwest Geographic Area during the 2003 Fire Season B and B Complex, August 21, 2003 Prepared by: The Fire Weather Working Team Pacific Northwest Wildfire Coordinating Group This page intentionally left blank. -2- Executive Summary The Memorandum of Understanding (MOU) between the Pacific Northwest Wildfire Coordinating Group (PNECG) and the National Weather Service (NWS) establishes the framework for cooperation and commitment by these parties to improve fire weather in the Northwest and to document standards for forecasts and services. The National Weather Service has agreed to maintain staffing and services for the fire weather program until it has the advanced operational technology in place and demonstrates its ability to provide fire weather services equal to those prior to the implementation of Modernization and Restructuring (MAR). Forecast accuracy standards set in place within the MOU were determined from those achieved by the NWS in the 1980s and 90s, prior to MAR. Evaluation and verification of fire weather products must: be based upon a quantifiable process be consistent from year to year be viewed with respect to trends over a number of years, and identify solutions to improve accuracy. Evaluation’s ultimate goal is to improve the quality and accuracy of fire weather products and services used in the Pacific Northwest that affect fire management decisions with respect to resource allocation, firefighter and public safety. The following document is an evaluation of Red Flag Warnings and Numerical Trend Forecasts issued by the six NWS offices (Seattle, Spokane, Portland, Pendleton, Medford and Boise) within the Northwest Geographic Area during the 2003 fire season with comparisons to previous years. The evaluation was performed in accordance with Section V, paragraph five of the MOU between PNWCG as defined in EXHIBIT C, Forecast and Service Standards. The initial results of the evaluation were presented to the NWS in November, 2003 with modifications for the final report based upon input provided by individual NWS offices. Red Flag Warnings were verified using the published criteria in the NWS Annual Operating Plan (AOP) for 2003, lightning data, Remote Automatic Weather Station (RAWS) data, National Fire Danger Rating (NFDRS) indices, fuel moisture values, and fire information. Red Flag Warnings are issued by the NWS to notify wildland fire agencies of weather conditions that, in conjunction with critically dry fuels, could lead to a dramatic increase in fire danger or wildfire activity. Timely and accurate warnings enable wildland fire fighting agencies to manage critical resources and prepare appropriate suppression responses for protecting life and property. The combination of critical weather events (i.e. strong wind, low relative humidity and/or dry lightning) and low fuel moisture is defined as a “Red Flag” event. Fire Weather Watches are used to alert land management agencies in advance of possible Red Flag events. Numerical Trend Forecasts were evaluated by comparing observed and forecast weather data archived in the Weather Information Management System (WIMS). NWS forecasts are compared against the persistence error for particular weather stations. The persistence error refers to the numeric difference (or the change) from one day to the next for a particular weather element at approximately 1400 LDT. For example, if the observed temperature is 75 degrees F one day and 78 degrees F the next, the persistence error is 3 degrees F. The elements verified are temperature, relative humidity, and wind speed. Changes in wind speed and relative humidity have a much greater impact on fire behavior and fire danger than temperature. -3- In summary, the evaluation produced the following results: In general, Red Flag Warnings issued in the Pacific Northwest failed to match the accuracy results published by the NWS Western Region in 1999. The 1999 results are used as benchmark values because this was the last year of dedicated fire weather forecasters and prior to full compliance of NWS’s Modernization and Restructuring (MAR). Spokane, Seattle, Medford and Portland had False Alarm Rates (FAR) greater than .50, which means the majority of warnings issued by those offices did not verify. These offices had a tendency to over-warn for the situation. The majority of actual Red Flag events were forecast, however the probability that these events are correctly forecast has worsened since 2000. Procedural errors in issuing and canceling Red Flag Warnings were less frequent this year, but still continue at a few offices. No problems were noted in the coordination of Red Flag Warnings among NWS offices this year. This was due to the creation of “seamless” red flag criteria among adjacent NWS offices and daily conference calls with NWS and NWCC meteorologists. Portland was the only office to achieve the 60% goal of warnings preceded by a watch established in the PNWCG/NWS MOU. The other five NWS offices were all under 40% as most warnings were issued with little or no advance notification. In general, Numerical Trend Forecasts do not achieve the accuracy standards established in the MOU, those attained by the NWS in the 1980s and 1990s. The one exception is Pendleton’s temperature forecasts which exceed the standard. Temperature is the weather element most accurately forecast by the NWS, followed by relative humidity and wind speed. Boise is the only NWS office to produce wind speed forecasts better than persistence. Pendleton is the only NWS office to have shown consistent improvement in their temperature, relative humidity and wind speed forecasts over the last four years. A concerted effort should be made by the NWS to ensure the issuance of timely and accurate Red Flag Warnings that enhance fire management decisions and safety concerns for both the public and firefighters. Weather conditions must be monitored (i.e. radar, RAWS observations) and updated forecasts and warnings issued when necessary. A quantifiable measure of fuel dryness needs to be determined by the fire agencies to assist the NWS when conditions are favorable for large fires. Numerical Trend Forecasts, used in narrative fire weather and fire danger forecasts, could be improved by using forecast guidance that has been developed by Predictive Services using RAWS observations. The Fire Weather Working Team is willing to assist the NWS with any endeavor to improve Red Flag Warning and Numerical Trend forecast accuracy. -4- The Evaluation of 2003 Red Flag Warnings and Numerical Trend Forecasts Red Flag Warning Evaluation: Red Flag Warnings are issued by the National Weather Service (NWS) to notify wildland fire agencies of weather conditions that, in conjunction with critically dry fuels, could lead to a dramatic increase in fire danger or wildfire activity. Timely and accurate warnings enable wildland fire fighting agencies to manage critical resources and prepare appropriate suppression responses for protecting life and property. The combination of critical weather events (i.e. strong wind, low relative humidity and/or dry lightning) and low fuel moisture is defined as a “Red Flag” event. Fire Weather Watches are used to alert land management agencies in advance of possible Red Flag events. The following details the evaluation of Red Flag Warnings issued by the six NWS offices (Seattle, Spokane, Portland, Pendleton, Medford and Boise) within the Northwest Geographic Area during the 2003 fire season. The evaluation was performed in accordance with the Memorandum of Understanding (EXHIBIT C Forecast and Service Standards, Section E) between the Pacific Northwest Wildfire Coordinating Group (PNWCG) and the NWS. Red Flag Warnings were verified using the published criteria in the NWS Annual Operating Plan (AOP) for 2003, lightning data, Remote Automatic Weather Station (RAWS) data, National Fire Danger Rating (NFDRS) indices, fuel moisture values, and fire information. An examination of these Red Flag Warnings follows. (See Appendix A for specifics) Findings 1. False Alarm Rate (FAR) The False Alarm Rate (FAR) is the percentage of Red Flag warnings that do not verify. The FAR can vary from 1.00 (no warnings correct) to .00 (all warnings correct). The more often events are forecast and do not occur, the higher (worse) the score. Thus, the FAR is a measure of Red Flag Warning accuracy. The closer the FAR is to .00, the more accurate the warnings. The False Alarm Rate for all warnings varied between .45 to .87, depending upon the office. Spokane, Seattle, Medford and Portland had False Alarm Rates greater than .50, which means the majority of warnings issued by those offices did not verify. None of the NWS offices matched the FAR of .36 published as the NWS Western Region average in 1999. Listed below are the dry lightning, wind/low RH and all warning False Alarm Rates for the six NWS offices. Office Spokane Seattle Portland Pendleton Medford Boise FAR FAR FAR Dry lightning Wind/Low RH All Warnings .44 .68 .95 .36 1.00 .50 .65 .50 .72 .57 .29 .33 .56 .65 .87 .46 .57 .45 -5- 2. Probability of Detection (POD) The Probability of Detection (POD) is the percentage of actual Red Flag events that are correctly forecast. The more often events are accurately forecast, the better the score. The POD can vary from 1.00 (all Red Flag events are correctly forecast) to .00 (all Red Flag events are not forecast). The Probability of Detection ranged from 1.00 at Seattle to .44 at Portland and .45 at Medford. Except for Portland and Medford, the majority of Red Flag events were correctly forecast. Listed below are the dry lightning, wind/low RH and all warning Probability of Detection values for the six NWS offices. Office Spokane Seattle Portland Pendleton Medford Boise POD POD POD Dry lightning Wind/Low RH All Warnings .91 1.00 1.00 1.00 N/A 1.00 .67 1.00 .38 .75 .45 .40 .56 1.00 .44 .88 .45 .67 3. Critical Success Index (CSI) The Critical Success Index (CSI) is a combination of FAR and POD. It is the ratio of correct forecasts to the number of actual Red Flag events plus the number of incorrect forecasts. The best score is 1.00, the worst is 0. Critical Success Index values ranged from .50 at Pendleton to .11 at Portland. None of the offices matched or exceeded the 1999 NWS Western Region CSI average of .58. Listed below are the dry lightning, wind/low RH and all warning Critical Success Index values for the six NWS offices. Office Spokane Seattle Portland Pendleton Medford Boise CSI CSI CSI Dry lightning Wind/Low RH All Warnings .53 .33 .05 .64 .00 .50 .30 .50 .19 .38 .38 .33 .39 .35 .11 .50 .29 .43 -6- 4. Number of Red Flag Warnings There were 153 Red Flag Warnings issued in the Northwest Geographic Area in 2003. This compares to 214 in 2002, 100 in 2001 and 183 in 2000. This is fewer than last year due to much less fire activity in southern Oregon this summer. The number of warnings issued by office are as follows: Medford 23, Spokane 41, Pendleton 28, Portland 30, Boise 11 and Seattle 20. 5. Coordination of Red Flag warnings/criteria among National Weather Service offices No problems were noted with the coordination of Red Flag Warnings this year. This was due to the daily telephone conference call between the Geographic Area Coordination Center and NWS meteorologists, and the creation of “seamless” red flag criteria among adjacent Weather Service offices with similar fire weather patterns, fuels and topography. 6. Missed Red Flag events An evaluation of “missed” Red Flag events compared each office’s published Red Flag criteria to hourly RAWS data. The Predictive Services Branch of the Northwest Area Coordination Center daily archives hourly observations from approximately 200 RAWS. A data base query for each weather station produced a list of the hours during the day in which the criteria was either met or exceeded. Isolated occurrences were discarded. Only those instances with multiple hours and stations were counted as “missed” warnings. The vast majority of missed warnings were due to strong wind and low relative humidity, and not dry lightning. There were a total of 27 missed warnings, most of which occurred in eastern Oregon and north-central Washington. 7. Procedural errors in the issuance of Red Flag Warnings Procedural errors are those in conflict with National Weather Service (National Weather Service Instruction 10-401) or NFDRS directives. There were relatively few errors noted this year compared to past fire seasons. Most of the errors involved format, improper cancellation, or inconsistent statements between the general forecast (FWF) and the warning statement (RFW). 8. Percentage of Red Flag Warnings preceded by a Fire Weather Watch The PNWCG and NWS Memorandum of Understanding (MOU) in Exhibit C states that, “at least 60% of all Red Flag Warnings will be preceded by a Fire Weather Watch.” This is to ensure that there is sufficient advance notification of Red Flag events to properly prepare firefighting resources. Of the six NWS offices, only Portland achieved the 60% goal. The following is the percentage of time watches preceded warnings by office: Portland 70%, Pendleton 36%, Medford 39%, Boise 27%, Seattle 5%, and Spokane 34%. -7- Fire Weather Numerical Trend Forecast Evaluation An evaluation of Numerical Trend Forecasts produced by six National Weather Service (NWS) offices as input into the National Fire Danger Rating System (NFDRS) were evaluated at the conclusion of the 2003 fire season by the Predictive Services Section at the Northwest Interagency Coordination Center. This was the fourth year in which a detailed assessment was performed in accordance with Section V, paragraph five of the Memorandum of Understanding between the Pacific Northwest Wildfire Coordinating Group (PNWCG) and the NWS. The purpose of monitoring and evaluating in the Pacific Northwest is to improve the quality and accuracy of all fire weather products and services used in fire management decisions that affect resource allocation and firefighter and public safety. Trend forecasts are evaluated by comparing observed and forecast weather data archived in the Weather Information Management System (WIMS). NWS forecasts are compared against the persistence error for a particular weather station. The persistence error refers to the numeric difference (or the change) from one day to the next for a particular weather element at approximately 1400 LDT. For example, if the observed temperature is 75 degrees F one day and 78 degrees F the next, the persistence error is 3 degrees F. The elements verified are temperature, relative humidity, and wind speed. Changes in wind speed and relative humidity have a much greater impact on fire behavior and fire danger than temperature. Since persistence forecasts can be determined without any meteorological input, NWS skill should result in forecast accuracy that consistently exceeds the persistence error. A total of 101 RAWS stations were evaluated between June 1 and September 30: 23 in the Medford fire weather district, 22 in Portland, 20 in Pendleton, 17 in Spokane, 13 in Seattle and 6 in the Boise district. A spreadsheet was constructed for each RAWS to calculate daily persistence and forecast errors for temperature, relative humidity and wind speed. Once persistence and forecaster errors were calculated for each day, the average error for each was calculated over the entire fire season. These values were then input into the following formula to calculate forecaster improvement over persistence. Forecaster improvement = (persistence error – forecaster error)/persistence error * 100 A negative value indicates a forecast worse than persistence. The higher a positive value, the better the forecast in relation to persistence. Perfect forecasts would result in a 100 percent forecaster improvement over persistence. These figures were then entered into a summary spreadsheet that divided the 101 RAWS into NWS fire weather districts and fire weather zones. Additional information, such as the beginning and ending dates of NFDRS forecasts and the number of forecasts generated during the four-month period were also included. The table below summarizes the improvement over persistence of NWS forecasts during the 2003, 2002, 2001 and 2000 fire seasons. In general, NWS forecasts are still below the accuracy standards established in the Memorandum of Understanding between the NWS and the Pacific Northwest firefighting agencies. This is especially evident in the relative humidity and wind speed forecasts. Except for Boise, the wind speed forecasts are less accurate than persistence, or what was observed the previous day. (Note: the negative red figures in the wind column indicate forecast skill less than that of persistence.) -8- Appendix B contains the verification results by NWS office and graphics showing trends since 2000 compared to the MOU Accuracy standards. Office Seattle 2003 2002 2001 2000 Improvement over Persistence Temperature Relative Hum. Wind 23.39 25.89 23.24 22.42 18.35 20.59 21.17 19.10 -4.15 5.23 -11.18 -18.12 26.25 25.56 20.69 19.43 8.67 14.52 17.89 8.64 -16.20 -6.86 -13.94 -17.59 30.40 27.36 26.71 29.54 23.09 22.45 18.53 18.72 -12.39 -7.94 -11.09 -11.69 36.81 35.12 31.26 28.76 22.13 22.45 20.62 19.06 -1.82 -1.49 -6.94 -15.88 29.77 31.75 28.80 25.75 17.58 18.15 14.92 14.54 -5.51 -11.83 -2.53 -6.29 2003 2002 2001 2000 28.19 29.28 32.25 N/A 18.01 20.51 23.54 N/A 5.37 7.31 0.37 N/A MOU Fcst Standards 35.00 25.00 10.00 Spokane 2003 2002 2001 2000 Portland 2003 2002 2001 2000 Pendleton 2003 2002 2001 2000 Medford 2003 2002 2001 2000 Boise -9- This page intentionally left blank. - 10 - Appendix A - 11 - This page intentionally left blank. - 12 - Seattle 2003 Red Flag Warnings Reason Large Fire Potential Date Zones June 29 649, 650, 651, 652, 661, 653, 654, 655, 656, 657, 658, 659 Dry Lightning High June 29 662 Wind/Low RH High July 30 662 Low RH/Haines 6 High Sept 3 651, 654, 658, 655, 657, 659 Dry Lightning High Total Warnings: 20 Dry Lightning: 18 Correct warnings: 7 Incorrect warnings: 13 Warnings Preceded with a Watch: 1 of 20 or 5% Verification Yes – 652, 653, 654, 656, 658, 659 No – 649,650,651,661,655,657 (no lightning observed) Not preceded with a watch. No (criteria not met) Not preceded with a watch. Yes Not preceded with a watch. No – 651, 655, 657, 659, 654, 658 (no observed lightning strikes) (canceled 0730 am Sept 4) Not preceded with a watch except for zone 658. Wind/low RH: 2 Missed warnings: 0 False Alarm Rate: Dry Lightning . 67 Wind/low RH . 50 Probability of Detection: Dry Lightning 1. 00 Wind/low RH 1.00 All 1.00 Critical Success Index: Dry Lightning . 33 Wind/low RH .50 All . 65 All .35 Note: For highest accuracy, False Alarm Rate should approach .00 and Critical Success Index and Probability of Detection 1.00 Calculations: a = correct warnings b = incorrect warnings c = missed warnings False Alarm Rate: All 1 – (a/a + b) = 1 – (7/7 + 13) = 1 – (7/20) = 1 - .35 = . 65 Dry Ltng 1 – (a/a + b) = 1 – ( 6/6 + 12) = 1 – (6/18) = 1 - .33 = . 67 Wind/Low RH 1 – (a/a + b) = 1 – (1/1 +1) = 1 – (1/2) = 1 - .50 = . 50 Probability of Detection: All a/a + c = 7/7 + 1 = 7/7= 1.00 Dry Ltng a/a + c = 6/6 + 0 = 1/1 = 1.00 Wind/Low RH a/a + c = 1/1 + 1 = 1/1 = 1.00 Critical Success Index: All a/a + b + c = 7/7 + 13 = 7/20 = .35 Dry Ltng a/a + b + c = 6/6 + 12 + 0 = 6/18 = . 33 Wind/Low RH a/a + b + c = 1/1 + 1 = 1/2 = .50 - 13 - Spokane 2003 Red Flag Warnings Date Zones Reason Large Fire Potential June 29 673, 676, 677, 684 Wind/Low RH High July 16 684, 685 Wind/Low RH High July 23 673, 676, 677, 680, 682, 684, 685, 686, 687 Wind/Low RH High Low RH/Haines High Dry lightning High July 30 Aug 5 676, 677, 680, 682, 684, 685, 687 676, 677, 680, 682, 684, 685, 687 Verification No – 673, 676, 677, 684 (criteria not met) Preceded with a watch No – 684, 685 (criteria not met at 2 stations) Not preceded with a watch No – 673, 680, 684 (criteria not met at 2 stations) No – 676, 677, 682, 685, 686, 687 (criteria not met) Preceded with a watch Yes – 676, 677, 680, 682, 684, 685, 687 Not preceded with a watch Yes – 676, 677, 682, 684, 685 No – 687 (no lightning) 680 (wet lightning) Not preceded with a watch Yes – 686 Preceded with a watch Yes – 673, 684, 685, 686, 687 No – 676, 677, 680, 682 (no lightning) Not preceded with a watch No – 686, 687 (no lightning) Not preceded with a watch Missed 684 Aug 15 686 Low RH/Haines High Aug 15 673,676, 677, 680, 682, 684, 685, 686, 687 Dry lightning/Low RH/ Haines High Sept 6 686, 687 Dry lightning/Wind High July 12 684 Wind/Low RH High Missed 684 (3 stations multiple hours) Aug 26 684 Wind/Low RH High Missed 684 (2 stations multiple hours) Sept 1 684 Wind/Low RH High Missed 684 (2 stations multiple hours) Sept 26 684 Wind/Low RH High Missed 684 (2 stations multiple hours) Total Warnings: 41 Dry Lightning: 18 Correct Warnings: 18 Incorrect Warnings: 23 Warnings Preceded with a Watch: 14 or 34% Wind/low RH/Haines: 23 Missed Warnings: 5 False Alarm Rate: Dry Lightning . 44 Wind/low RH/Haines . 65 Probability of Detection: Dry Lightning . 91 Wind/low RH/Haines . 67 All . 78 Critical Success Index: Dry Lightning . 53 Wind/low RH/Haines . 30 Note: All . 56 All . 39 For highest accuracy, False Alarm Rate should approach .00 and Critical Success Index and Probability of Detection 1.00 - 14 - Calculations: a = correct warnings b = incorrect warnings c = missed warnings False Alarm Rate: All 1 – (a/a + b) = 1 – (18/18 + 23) = 1 – (18/41) = 1 - .44 = . 56 Dry Ltng 1 – (a/a + b) = 1 – ( 10/10 + 8) = 1 – (10/18) = 1 - .56 = . 44 Wind/Low RH 1 – (a/a + b) = 1 – (8/8 +15) = 1 – (8/23) = 1 - .35 = . 65 Probability of Detection: All a/a + c = 18/18 + 5 = 18/23 = . 78 Dry Ltng a/a + c = 10/10 + 1 = 10/11 = . 91 Wind/Low RH a/a + c = 8/8 + 4 = 8/12 = . 67 Critical Success Index: All a/a + b + c = 18/18 + 23 + 5 = 18/46 = . 39 Dry Ltng a/a + b + c = 10/10 + 8 + 1 = 10/19 = . 53 Wind/Low RH a/a + b + c = 8/8 + 15 + 4 = 8/27 = . 30 - 15 - Portland 2003 Red Flag Warnings Date Zones Reason Large Fire Potential July 21 607, 608, 609, 610, 611 Dry Lightning High July 22 607, 608, 609, 610, 611 Dry Lightning/Low RH/Gusty Thunderstorm wind High Dry Lightning/ Low RH/Haines High Wind/Low RH Mod - W2 High - W3 Sept 3-4 Sept 26-27 603, 604, 605, 606, 607, 608, 609, 610, 611, 660 601, 602, 603, 604, 605, 606, 607, 608 612, 660 Verification Yes – 611 No – 607, 608, 609, 610 (no lightning observed) Preceded with a watch in 608, 611 Yes – 610 for wind and low RH No – 607, 608 609, 611 (no lightning observed) Not preceded with a watch No – (no lightning observed) Canceled 0930 am Sept 4 Preceded with a watch in all zones but 660 Yes - 602, 660 No – 601, 603, 604, 605, 606, 607, 608, 612 Preceded with a watch all zones June 27-29 610 Wind/Low RH High Missed (2 stations met criteria) June 29 611 Wind/Low RH High Missed (3 stations met criteria) July 22-24 610 Wind/Low RH High Missed (3 stations met criteria) July 30 611 Wind/Low RH High Missed (2 stations met criteria) Sept 1 610 Wind/Low RH High Missed (2 stations met criteria) Total Warnings: 30 Dry Lightning: 20 Correct Warnings: 4 Incorrect Warnings: 26 Warnings Preceded with a Watch: 21 or 70% Wind/low RH/Haines: 10 Missed Warnings: 5 False Alarm Rate: Dry Lightning . 95 Wind/low RH . 72 All . 87 Probability of Detection: Dry Lightning 1. 00 Wind/low RH . 38 All . 44 Critical Success Index: Dry Lightning . 05 All . 11 Note: Wind/low RH . 19 For highest accuracy, False Alarm Rate should approach .00 and Critical Success Index and Probability of Detection 1.00 - 16 - Calculations: a = correct warnings b = incorrect warnings c = missed warnings False Alarm Rate: All 1 – (a/a + b) = 1 – (4/4 + 26) = 1 – (4/30) = 1 - .13 = . 87 Dry Ltng 1 – (a/a + b) = 1 – ( 1/1 + 18) = 1 – (1/19) = 1 - .05 = . 95 Wind/Low RH 1 – (a/a + b) = 1 – (3/3 +8) = 1 – (3/11) = 1 - .27 = . 72 Probability of Detection: All a/a + c = 4/4 + 5 = 4/9 = . 44 Dry Ltng a/a + c = 1/1 + 0 = 1/1 = 1. 00 Wind/Low RH a/a + c = 3/3 + 5 = 3/8 = . 38 Critical Success Index: All a/a + b + c = 4/4 + 26 + 5 = 4/35 = . 11 Dry Ltng a/a + b + c = 1/1 + 18 + 0 = 1/19 = . 05 Wind/Low RH a/a + b + c = 3/3 + 8 + 5 = 3/16 = . 19 - 17 - Pendleton 2003 Red Flag Warnings Date Zones Reason Large Fire Potential June 29 631, 675 Wind/Low RH High July 7 630,632, 633, 634, 635, 638 Lightning after an extended dry period High July 22-23 630, 632, 633, 634, 635, 638 Lightning after a dry period High July 30 630, 631, 632, 681 Low RH/Haines 6 High July 31 630, 631, 632, 638 Wind/Low RH High Aug 10 638 Wind/Low RH/Haines High Aug 15-16 630, 631,675 Wind/Low RH High Sept 3-4 630, 632 Dry Lightning High July 12 631 Wind/Low RH High July 23 631 Wind/Low RH High Total Warnings: 28 Dry Lightning: 14 Correct warnings: 15 Incorrect warnings: 13 Warnings Preceded with a Watch: 10 or 36% Verification No – 675, 631 (only 1 station met the criteria) Preceded with a watch. Yes – 630, 632, 633, 634, 635, 638 (canceled 1008 am July 8) Not preceded with a watch. Yes- 630, 632, 638 No – 633, 634, 635, (no lightning observed) (canceled 1057 pm July 23) Preceded with a watch in 633, 634 and 635 but not in 630, 632 and 638 Yes – 630, 631, 632, 681 (wind criteria also met in 630 and 631) Not preceded with a watch. Yes – 631 No – 630, 632, 638 (criteria not met) Preceded with a watch. Yes – 638 Not preceded with a watch. No – 630, 675, 631 (only 1 station met the criteria) Expired 1100 am Aug 16 Not preceded with a watch. No – 630, 632 (no lightning observed) (canceled 0940 am Sept 4) Preceded with a watch in 630 but not in 632. Missed (criteria met by 1 station for 3 hours and a second station for 6 hours) Missed (criteria met by 1 station for 4 hours and a second station for 7 hours) Wind/low RH/Haines: 14 Missed warnings: 2 False Alarm Rate: Dry Lightning . 36 Wind/low RH . 57 All . 46 Probability of Detection: Dry Lightning 1. 00 Wind/low RH .75 All . 88 Critical Success Index: Dry Lightning . 64 All . 50 Note: Wind/low RH . 38 For highest accuracy, False Alarm Rate should approach .00 and Critical Success Index and Probability of Detection 1.00 - 18 - Calculations: a = correct warnings b = incorrect warnings c = missed warnings False Alarm Rate: All 1 – (a/a + b) = 1 – (15/15 + 13) = 1 – (15/28) = 1 - .54 = . 46 Dry Ltng 1 – (a/a + b) = 1 – (9/9 + 5) = 1 – (9/14) = 1 - .64 = . 36 Wind/Low RH 1 – (a/a + b) = 1 – (6/6 +8) = 1 – (6/14) = 1 - .43 = . 57 Probability of Detection: All a/a + c = 15/15 + 2 = 15/17 = . 88 Dry Ltng a/a + c = 9/9 + 0 = 6/6 = 1. 00 Wind/Low RH a/a + c = 6/6 + 2 = 6/8 = . 75 Critical Success Index: All a/a + b + c = 15/15 + 13 + 2 = 15/30 = . 50 Dry Ltng a/a + b + c = 9/9 + 5 + 0 = 9/14 = . 64 Wind/Low RH a/a + b + c = 6/6 + 8 + 2 = 6/16 = . 38 - 19 - Medford 2003 Red Flag Warnings Date Zones Reason Large Fire Potential July 30 617 HI 6 High Sept 3 615, 616, 617, 618, 619, 620, 621, 622, 623 Dry Lightning High Sept 12-14 618, 619 Wind/Low RH Low Sept 21-23 618, 619 Wind/Low RH High Sept 25 618 Wind/Low RH High Sept 26-27 620, 621, 623 Wind/Low RH High Oct 24-25 618, 619, 620, 621, 622 Wind/Low RH N/A June 29 617, 622, 623, 624, 625 Wind/Low RH High Missed (criteria met at multiple stations) Aug 9 625 Wind/Low RH High Missed (criteria met) Sept 2 620, 622 Wind/Low RH High Missed (criteria met and 3 stations) Sept 6 624, 625 Wind/Low RH High Missed (criteria met) Total Warnings: 23 Dry Lightning: 9 Correct Warnings: 10 Incorrect Warnings: 13 Warnings Preceded with a Watch: 9 or 39% Verification Yes – 617 Not preceded with a watch No - (no lightning observed until after the warning was canceled at 0845 am Sept 4) All but 618, 620, 621, 622, 623 preceded with a watch No – Fuel moisture high due to recent rains of up to 2 inches Preceded with a watch Yes – 618, 619 Not preceded with a watch Missed 623 Yes – 618 Not preceded with a watch Yes – 620, 623 (no lead time) No – 621 Not preceded with a watch Yes – 618, 619, 620, 622 No – 621 Zones 618, 619, 620 preceded with a watch Missed 623 Wind/low RH/HI: 14 Missed Warnings: 12 False Alarm Rate: Dry Lightning 1.00 Wind/low RH . 29 All . 57 Probability of Detection: Dry Lightning N/A Wind/low RH .45 All . 45 Critical Success Index: Dry Lightning . 00 All . 29 Note: Wind/low RH . 38 For highest accuracy, False Alarm Rate should approach .00 and Critical Success Index and Probability of Detection 1.00 - 20 - Calculations: a = correct warnings b = incorrect warnings c = missed warnings False Alarm Rate: All 1 – (a/a + b) = 1 – (10/10 + 13) = 1 – (10/23) = 1 - .43 = . 57 Dry Ltng 1 – (a/a + b) = 1 – (0/0 + 9) = 1 – (0/9) = 1 - 0 = 1. 00 Wind/Low RH 1 – (a/a + b) = 1 – (10/10 +4) = 1 – (10/14) = 1 - .71 = . 29 Probability of Detection: All a/a + c = 10/10 + 12 = 10/22 = . 45 Dry Ltng a/a + c = 0/0 + 0 = 0/0 = N/A Wind/Low RH a/a + c = 10/10 + 12 = 10/22 = . 45 Critical Success Index: All a/a + b + c = 10/10 + 13 + 12 = 10/35 = . 29 Dry Ltng a/a + b + c = 0/0 + 9 + 0 = 0/9 = . 00 Wind/Low RH a/a + b + c = 10/10 + 4 + 12 = 10/26 = . 38 - 21 - Boise 2003 Red Flag Warnings Date Zones Reason Large Fire Potential June 18 637 Dry lightning/Wind High June 30 – July 1 637 Wind/Low RH High July 7 636, 637 Dry lightning/Wind High July 22 636 Lightning after a dry period High July 23 636, 637 Dry lightning High Aug 10 636, 637 Wind/Low RH/Haines High Aug 26 636, 637 Dry lightning/Wind High June 29 636, 637 Wind/Low RH High Aug 9 636 Wind/Low RH High Missed 636 (criteria met) Aug 15 636 Wind/Low RH High Missed 636 (criteria met) Sept 6 636 Wind/Low RH High Missed 636 (criteria met) Total Warnings: 11 Dry Lightning: 8 Correct warnings: 6 Incorrect warnings: 5 Warnings Preceded with a Watch: 3 of 11 or 27% Verification Yes Not preceded with a watch. No – 637 (criteria not met) Not preceded with a watch. Yes – 637 No – 636 (only isolated strikes) Preceded with a watch. No Not preceded with a watch. Yes Zone 636 preceded with a watch. Yes Not preceded with a watch. No (no lightning observed) Not preceded with a watch. Missed 636, 637 (multiple stations, multiple hours) (local users did not want a warning issued) Wind/low RH/Haines: 3 Missed warnings: 3 False Alarm Rate: Dry Lightning . 50 Wind/low RH . 33 All . 45 Probability of Detection: Dry Lightning 1. 00 Wind/low RH . 40 All . 67 Critical Success Index: Dry Lightning . 50 All . 43 Note: Wind/low RH . 33 For highest accuracy, False Alarm Rate should approach .00 and Critical Success Index and Probability of Detection 1.00 - 22 - Calculations: a = correct warnings b = incorrect warnings c = missed warnings False Alarm Rate: All 1 – (a/a + b) = 1 – (6/6 + 5) = 1 – (6/11) = 1 - .55 = . 45 Dry Ltng 1 – (a/a + b) = 1 – ( 4/4 + 4) = 1 – (4/8) = 1 - .50 = . 50 Wind/Low RH 1 – (a/a + b) = 1 – (2/2 +1) = 1 – (2/3) = 1 - .67 = . 33 Probability of Detection: All a/a + c = 6/6 + 3 = 6/9 = . 67 Dry Ltng a/a + c = 4/4 + 0 = 1/1 = 1. 00 Wind/Low RH a/a + c = 2/2 + 3 = 2/5 = . 40 Critical Success Index: All a/a + b + c = 6/6 + 5 + 3 = 6/14 = . 43 Dry Ltng a/a + b + c = 4/4 + 4 + 0 = 4/8 = . 50 Wind/Low RH a/a + b + c = 2/2 + 1 + 3 = 2/6 = . 33 - 23 - 2000 Red Flag Warning Verification NWS Office POD FAR CSI # Wrngs Seattle Spokane Portland Pendleton Medford Boise N/A .86 N/A .84 .78 .90 N/A .62 1.00 .76 .63 .18 N/A .36 N/A .23 .33 .75 0 65 1 88 19 10 1999 NWS WR Average .83 .36 .58 2001 Red Flag Warning Verification NWS Office POD FAR CSI # Wrngs Seattle Spokane Portland Pendleton Medford Boise N/A N/A N/A N/A N/A N/A 1.00 .52 .21 .30 .56 .29 N/A N/A N/A N/A N/A N/A 3 33 14 27 16 7 1999 NWS WR Average .83 .36 .58 2002 Red Flag Warning Verification NWS Office POD FAR CSI # Wrngs Seattle Spokane Portland Pendleton Medford Boise 1.00 .75 .50 .67 .54 .85 .80 .62 .55 .36 .42 .15 .20 .33 .31 .48 .39 .73 5 56 22 50 54 13 1999 NWS WR Average .83 .36 .58 - 24 - 2003 Red Flag Warning Verification NWS Office POD FAR CSI # Wrngs Seattle Spokane Portland Pendleton Medford Boise 1.00 .78 .44 .88 .45 .67 .65 .56 .87 .46 .57 .45 .35 .39 .11 .50 .29 .43 20 41 30 28 23 11 Note: Figures in red indicate less accuracy than 1999 NWS Western Region average 1999 NWS WR Average .83 .36 .58 POD = Probability of Detection which is the percentage of Red Flag events correctly forecast. The best possible score is 1.00 and the worst .00 FAR = False Alarm Rate which is the percentage of forecasts which were incorrect. The more often a Red Flag event is forecast and does not occur, the worse the score. The best possible score is .00 and the worst 1.00 CSI = Critical Success Index which is the percentage of correct Red Flag Warnings to the number of events plus the number of incorrect forecasts. The best possible score is 1.00 and the worst .00 - 25 - 2003 False Alarm Rate (FAR) 1 0.9 0.8 Percentage 0.7 0.6 0.5 0.4 1999 NWS Western Region Average 0.3 0.2 0.1 0 Highest Accuracy SEA PDX MFR GEG PDT BOI NWS Office FAR by Office 2003 Probability of Detection (POD) 1.00 Highest Accuracy 0.90 1999 NWS Western Region Average 0.80 Percentage 0.70 0.60 0.50 0.40 0.30 0.20 0.10 0.00 SEA PDX MFR GEG NWS Office POD by Office - 26 - PDT BOI 2003 Critical Success Index (CSI) 1 Highest Accuracy 0.9 0.8 Percentage 0.7 0.6 1999 NWS Western Region Average 0.5 0.4 0.3 0.2 0.1 0 SEA PDX MFR GEG NWS Office CSI by Office - 27 - PDT BOI This page intentionally left blank. - 28 - Appendix B - 29 - This page intentionally left blank. - 30 - 2003 Forecaster Improvement over Persistence (NFDRS weather trends) June 1 through Sept 30, 2003 (Forecaster Improvement over Persistence) Relative Temperature Hum. Wind Portland NWS Zone Sta. # Fcst Dates Number Days Fcst % Days Fcst 601 350215 Cedar Creek 27.57 21.43 -1.90 6/06-9/30 89 72 602 350216 South Fork 28.68 12.48 7.14 8/07-9/30 46 37 451209 Abernathy Mtn 29.18 22.00 -35.45 6/05-9/30 98 80 603 352547 Village Creek 25.14 21.66 -1.63 6/05-9/30 107 87 351710 Rockhouse 21.80 21.88 3.63 6/06-9/30 59 48 606 352024 Yellowstone 39.37 34.82 -1.67 6/05-9/30 64 52 352552 Trout Creek 37.89 30.61 -17.47 6/05-9/30 104 85 607 350604 Log Creek 29.07 25.15 -36.17 6/07-9/30 95 77 350718 Red Box 42.22 29.63 -37.17 6/07-9/30 101 82 350726 Wanderer's Pk 26.76 34.90 -2.78 8/06-9/30 45 37 608 352554 Pebble 40.40 35.70 -11.76 6/05-9/30 102 83 352558 Emigrant Creek 31.30 20.33 -2.75 6/05-9/30 102 83 609 350912 Polliwog 26.77 14.96 -19.28 6/07-9/30 100 81 350913 Wamic Mill 28.76 5.31 -10.42 6/05-9/30 97 79 610 350917 Mutton Mountain 34.57 31.93 6.91 6/07-9/30 88 72 350920 HeHe #1 31.81 23.89 6.64 6/05-9/30 90 73 352620 Colgate 33.22 21.21 6.67 6/05-9/30 103 84 611 353402 Cabin Lake 24.15 15.04 -24.49 6/06-9/30 108 88 352618 Lava Butte 21.92 20.51 1.22 6/05-9/30 109 89 612 352545 Goodwin Peak 18.14 13.96 -64.62 6/05-9/30 73 59 660 451921 Canyon Creek 32.48 26.31 -11.54 6/06-9/30 89 72 451208 Elk Rock 37.65 24.18 -25.71 6/06-9/30 96 78 AVG 30.40 23.09 -12.39 89 73 MEDIAN 29.13 21.94 -6.60 MAX 42.22 35.70 7.14 MIN 18.14 5.31 -64.62 TOTAL FCSTS Pendleton NWS Zone Sta. # 630 631 632 633 1965 (Forecaster Improvement over Persistence) Relative Temperature Hum. Wind Fcst Dates Number Days Fcst % Days Fcst 352107 Haystack 43.08 19.93 -2.22 6/10-9/30 97 79 352712 Salt Creek 39.48 28.99 3.48 6/11-9/30 97 79 352207 Slide Mountain 42.10 29.70 -29.58 6/10-9/30 102 83 352701 Cold Spring 38.04 26.52 -5.69 6/10-9/30 102 83 453201 Juniper Dunes 32.30 18.62 11.52 6/10-9/30 87 71 351001 Patjens 41.57 24.02 5.94 6/11-9/30 99 81 350915 North Pole Ridge 42.33 23.12 15.18 6/11-9/30 100 81 352329 Case 36.33 13.17 6.29 6/10-9/30 100 81 352327 Fall Mountain 34.46 17.00 -18.26 6/10-9/30 100 81 353424 Antelope 36.75 20.32 6.27 6/11-9/30 105 85 351518 Eden 35.98 22.92 -6.25 6/10-9/30 99 81 - 31 - 453803 Alder 38.16 23.95 4.83 6/10-9/30 98 80 351317 Black Mountain 2 45.26 23.78 -19.74 6/11-9/30 96 78 351417 LaGrande 36.94 19.16 -4.39 6/10-9/30 89 72 634 351416 Minam Lodge 35.74 20.00 -11.47 6/10-9/30 95 77 635 351502 Harle Butte 29.48 20.71 -2.68 6/11-9/30 89 72 351520 Roberts Butte 31.47 24.90 -7.09 6/11-9/30 88 72 638 352416 Blue Canyon 37.48 18.69 4.23 6/10-9/30 95 77 352418 Sparta Butte 34.70 26.50 -6.64 6/11-9/30 95 77 681 452404 Greyback 39.05 23.72 19.63 6/13-9/30 60 49 AVG 37.54 22.29 -1.83 95 77 MEDIAN 36.94 22.92 -2.68 MAX 45.26 29.70 19.63 MIN 29.48 13.17 -29.58 TOTAL FCSTS (Forecaster Improvement over Persistence) Relative Temperature Hum. Wind Boise NWS Zone Sta. # 636 637 1893 Fcst % Days Dates Number Days Fcst 12.47 6/11-9/30 91 74 Fcst 353520 Basque Hills 32.51 15.03 353526 Moon Hill 27.98 25.71 -2.47 6/11-9/30 92 75 353512 Wagontire 30.29 13.56 13.86 6/11-9/30 92 75 353612 Grassy Mountain 30.00 22.26 5.48 6/11-9/30 97 79 353613 Kelsey Butte 29.98 23.60 0.67 6/11-9/30 100 81 353614 Owyhee Ridge 6/11-9/30 96 78 95 77 18.36 7.87 2.20 AVG 28.19 18.01 5.37 MEDIAN 29.99 18.65 3.84 MAX 32.51 25.71 13.86 MIN 18.36 7.87 -2.47 TOTAL FCSTS 568 (Forecaster Improvement over Persistence) Relative Temperature Hum. Wind Medford NWS Zone Sta. # Fcst Dates Number Days Fcst % Days Fcst 615 352814 Powers 2 17.85 22.52 -9.09 6/11-9/29 95 77 616 352816 Signal Tree 23.65 18.21 -9.09 6/11-9/29 55 45 617 352546 Sugarloaf 32.06 26.03 -38.00 8/07-9/29 50 41 353031 Cinnamon Butte 32.94 22.3 -0.61 6/11-9/29 100 81 353040 Buckeye 38.27 19.72 -14.58 6/11-9/29 100 81 618 352920 Red Mound 14.44 15.37 -6.92 6/11-9/29 65 53 619 352915 Quail Prairie 25.62 22.51 -7.66 6/11-9/29 93 76 620 352919 Calvert 28.21 -28.22 4.79 6/12-9/29 93 76 353115 Illinois Valley 32.60 18.06 3.79 6/12-9/29 93 76 353114 Onion Mtn 33.75 19.79 4.76 6/11-9/29 94 76 353120 Provolt 16.19 -5.13 -10.23 6/12-9/29 93 76 621 353214 Star R.S. 32.48 12.14 -30.58 6/11-9/29 106 86 622 353228 Evans Creek 39.83 31.89 3.85 6/11-9/29 102 83 353230 Buckhorn 32.11 10.73 -13.97 6/11-9/29 100 81 623 353345 Rover insufficient observations 353227 Zim 36.18 -15.53 6/11-9/29 106 86 26.89 - 32 - 624 625 353339 Seldom 33.40 23.08 353307 Calimus Butte 31.48 353328 Gerber 33.27 353337 Timothy 35.94 353422 Coffee Pot 32.79 353406 Fort Rock 353424 Rock Creek -0.67 6/11-9/29 101 82 22.10 9.28 6/11-9/29 103 84 23.34 -3.80 6/11-9/29 106 86 26.72 7.20 6/11-9/29 108 88 22.9 -2.67 6/11-9/29 107 87 38.41 19.86 5.28 6/11-9/29 105 85 36.75 20.32 6.27 6/11-9/29 105 85 AVG 30.83 17.78 -5.37 95 77 MEDIAN 32.70 21.21 -3.24 MAX 39.83 31.89 9.28 MIN 14.44 -28.22 -38.00 TOTAL FCSTS 2080 (Forecaster Improvement over Persistence) Relative Temperature Hum. Wind Seattle NWS Zone Sta. # Fcst Dates Number Days Fcst % Days Fcst 650 450130 Ellis Mtn 12.44 16.14 1.86 6/11-9/30 69 56 651 450306 Minot 18.85 16.21 -7.19 6/11-9/30 76 62 652 450211 Owl Mtn 22.57 25.47 -6.22 6/11-9/30 85 69 658 451415 Sumas 35.82 32.20 -19.01 7/05-9/30 67 55 451613 Gold Mountain 22.61 28.05 Bad Data 6/06-9/30 99 81 659 661 662 451611 Johnson 26.48 12.51 Bad Data 6/10-9/30 92 75 451509 Finney 23.63 26.57 Bad Data 6/06-9/30 99 81 451919 Orr Creek 29.37 11.53 -8.60 6/13-9/30 91 74 451105 Kosmos 21.71 12.89 -2.48 8/08-9/30 71 58 451718 Greenwater 26.54 20.95 -10.83 6/06-9/30 99 81 450117 Cougar 20.56 21.98 -5.59 6/06-9/30 99 81 450911 Jefferson 23.42 19.68 0.41 6/06-9/30 98 80 452121 Stehekin 6/12-9/30 96 78 88 72 20.08 -5.65 16.19 AVG 23.39 18.35 -4.15 MEDIAN 22.61 19.68 -5.91 MAX 35.82 32.20 16.19 MIN 12.44 -5.65 -19.01 TOTAL FCSTS (Forecaster Improvement over Persistence) Relative Temperature Hum. Wind Spokane NWS Zone Sta. # 673 677 680 682 684 685 1141 Fcst % Days Dates Number Days Fcst -3.47 6/12-9/30 59 48 57 46 Fcst 452601 Douglas 453601 Escure 38.70 10.31 10.75 6/12-9/30 452136 Entiat 30.98 3.07 -0.36 6/12-9/30 90 73 452132 Camp Four 27.01 11.05 -19.35 6/12-9/30 91 74 86 70 37.54 19.41 452134 Dry Creek 19.70 8.46 14.78 6/12-9/30 452206 Peoh Point 26.69 17.27 -17.05 6/12-9/30 90 73 59 48 452601 Sedge Ridge 37.54 19.41 -3.47 6/12-9/30 452219 Swuak 30.96 11.25 -64.00 6/12-9/30 91 74 -20.89 6/12-9/30 89 73 6/12-9/30 89 72 452030 NCSB 452040 Kramer 452006 First Butte 25.06 -7.95 insufficient observations and forecasts 18.32 -6.67 - 33 - -37.75 452036 686 687 83 Monument 16.58 11.46 -42.42 6/12-9/30 90 73 81 66 453412 Deer Mountain 23.79 8.31 -9.66 6/13-9/30 452916 Kettle Falls 17.93 3.67 -9.04 6/13-9/30 77 63 452510 Gold Mountain 452514 Brown Mountain Bad Data 6/13-9/30 81 66 6/12-9/30 89 72 81 66 452029 insufficient observations and forecasts Lost Lake 22.88 10.40 20.03 10.66 -24.84 AVG 26.25 8.67 -16.20 MEDIAN 25.06 10.40 -13.36 MAX 38.70 19.41 14.78 MIN 16.58 -7.95 -64.00 TOTAL FCSTS 1219 Forecaster Improvement over Persistence Temperature 40.00 Percentage of Improvement MOU Accuracy Standard 35.00 30.00 25.00 20.00 15.00 10.00 2000 Seattle 2001 Spokane Year Portland - 34 - 2002 Pendleton 2003 Medford Boise Forecaster Improvement over Persistence Relative Humidity Percentage of Improvement 35.00 30.00 MOU Accuracy Standard 25.00 20.00 15.00 10.00 5.00 0.00 2000 2001 Seattle Spokane Year Portland 2002 Pendleton 2003 Medford Boise Forecaster Improvement over Persistence Wind Speed 15.00 Percentage of Improvement MOU Accuracy Standard 10.00 5.00 0.00 -5.00 -10.00 -15.00 -20.00 2000 Seattle 2001 Spokane Year Portland - 35 - 2002 Pendleton 2003 Medford Boise
