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Floods in the Guadalupe and San Antonio River Basins in Texas, October 1998

Severe flooding in parts of south-central Texas resulted from a major storm during October 17-18, 1998. The flooding occurred in parts of the major streams and tributaries of the San Jacinto, San Benard, Colorado, Lavaca, Guadalupe, and San Antonio River Basins. Peak gage height, peak streamflow, and documentation of the significance of the peaks were compiled for the streamflow-gaging stations where the storm caused substantial flooding. This information is available on the U.S. Geological Survey (USGS) world-wide web site at http://nwis.waterdata.usgs.gov/tx/nwis/peak.

Most of the substantial rainfall and flooding occurred in the Guadalupe and San Antonio River Basins. This report summarizes rainfall and flood peaks in these two basins during October 1998.

Meteorology of the Storm

According to the National Weather Service (NWS) (John Patton, written commun., 1999), the meteorologic conditions that produced the storm rainfall were dominated by Hurricane Madeline in the Eastern Pacific near the tip of Baja California, and Hurricane Lester in the Eastern Pacific near Acapulco, Mexico. The hurricanes, coupled with an atmospheric trough of low pressure over the western United States, forced a very deep layer of air with high water-vapor content across Mexico and into Texas. Meanwhile, an atmospheric ridge of high pressure to the east, extending from the North Atlantic to the Yucatan Peninsula of Mexico, confined the surface and mid-level water-vapor plumes to south-central Texas.

During the morning of October 17, 1998, a strong low-level inflow of moist air traveling 23 to 35 miles per hour flowed from the Gulf of Mexico across Texas into Bexar County (fig. 1). An upper-level divergent wind pattern over south-central Texas lifted the extremely moist air mass from lower levels. Early thunderstorms slowly pushed eastward throughout the day into the prevailing moisture-rich flow.

In the early morning hours of October 17, extreme atmospheric instability over western Bexar County extending northward to Kendall County caused rapid uplift of low-level moisture, forming heavy thunderstorms. By 6 a.m., the area from western Comal County to eastern Medina County had received 4 to 6 inches of rain. By 8 a.m., 6 to 10 inches had fallen; and by late morning, this area had received about 15 inches.

By late morning on October 17, the rains extended into Hays and Travis Counties. The NWS rain gage at Wimberley (Hays County) indicated that intense rainfall began by 8 a.m. and recorded 4.5 inches by 11 a.m., 6 inches by 1 p.m., 9 inches by 4 p.m., and 11.25 inches by 8 p.m. At 11:30 p.m., the 12-inch rain collector overflowed.

Finally, by mid-day October 18, the tropical plume and intense rainfall shifted eastward to the upper Texas Coastal Plain and extended into Louisiana.

Storm Rainfall

A map of the total rainfall for the storm (fig. 1) was prepared by the NWS (John Patton, written commun., 1999). The lines of equal rainfall (isohyetals) are based on total rainfall recorded at NWS rain gages and totals determined from a bucket survey coordinated by the NWS. The bucket survey identified total rainfall from privately owned rain gages and rainfall from other collectors. Rainfall totals less than 8 inches were documented outside the area encompassed by the 8-inch isohyetal (fig. 1) but are not discussed in this report.

   

View of structures inundated by the Guadalupe River at Victoria, Tex. (From video by M.W. Sunvison, D.S. Brown, and B.L. Petri, U.S. Geological Survey.)

 

USGS personnel measuring streamflow discharge for flood at streamflow-gaging station 08188500 San Antonio River at Goliad. (From video by M.W. Sunvison, D.S. Brown, and B.L. Petri, U.S. Geological Survey.)

The rainfall shown (fig. 1) represents total rainfall for October 17-18. However, as indicated previously, most of the rain fell in less than 24 hours. The isohyetals show two main centers of rainfall. The largest documented rainfall was in southern Hays County just south of San Marcos, where at least 30 inches was recorded. A second center, with about 22 inches of rain, was documented at a site in western Comal County. The isohyetals indicate that about 2,300 square miles in 12 counties received at least 12 inches of rain, and about 5,000 square miles in 19 counties received at least 8 inches of rain. The NWS operates and sponsors many recording rain gages in the area; however, many of the gages overflowed during the storm, thus, incremental rainfall totals are not available for much of the area with the greatest rainfall.

The available incremental rainfall data and the rainfall indicated by NEXRAD radar operated by the NWS indicate that the storm was moving from northwest to southeast, the same direction as the course of the streams in the area (John Patton, National Weather Service, oral commun., 1999). This movement most likely caused the flood peaks for some sites to be higher than if the storm had been stationary or had moved in another direction. The largest rainfall occurred in the Guadalupe River Basin, and most of the basin received 8 or more inches of rainfall.

Peak Gage Heights and Streamflow

Substantial flood peaks were documented for 27 streamflow-gaging stations operated by the USGS in the Guadalupe and San Antonio River Basins (table 1). Table 1 lists the period of record, peak gage height, and peak streamflow for the maximum known flood prior to the October 1998 flood. Also included are the peak gage height and streamflow for the October 1998 flood, along with the ratio of the October 1998 peak streamflow to the maximum known peak streamflow prior to October 1998. Eleven stations have ratios equal to or exceeding 1.0, indicating that the October 1998 flood produced the highest known peak streamflow for those stations.

The largest ratio (6.5) is for site 8, Guadalupe River at Gonzales; however, only 20 years of data are available for that station (1978-present). Perhaps the most historically significant peaks occurred at site 10, Guadalupe River at Cuero, and site 11, Guadalupe River at Victoria. The October 1998 peak streamflow was 2.6 times the previous maximum streamflow at the Victoria station. The previous maximum streamflow had been the highest since before 1833.

Figure 1.  Total rainfall depths for October 17-18, 1998, storm in Guadalupe and San Antonio River Basins.

 

The recurrence period, in years, is indicated for those stations where peak-flow frequency has been estimated (Asquith and Slade, 1997). For other stations, the October 1998 peak is indicated as greater than the 100-year recurrence period where the large magnitude of the peak makes exceedance of the 100-year recurrence period obvious (table 1). The recurrence period is not estimated for the remaining stations because the peak streamflow might have been affected by reservoirs or flood-retarding structures. The October 1998 peak streamflow equals or exceeds the 100-year recurrence period for 13 stations in the two basins.

Table 1.  Peak gage heights and streamflows during October 17-20, 1998, for selected stations in the Guadalupe and San Antonio River Basins, Texas

[mi2, square miles; ft, feet; ft3/s, cubic feet per second; (ft3/s)/mi2, cubic feet per second per square mile; --, no data; >, greater than] 

Site
no.
(fig. 1)

Station
no.

Station
name

Total
drain-
age
area
(mi2)

Previous known maximum peak data


 

October 17-20, 1998, maximum peak data


Period
of  record
for peak
data

Date

Gage
height
(ft)

Stream-
flow
(ft
3/s)

Date
(month/
day)

Time

Gage
height
(ft)

Stream-
flow
(ft
3/s)

Ratio to
 previous
maximum
peak
 stream-
flow

Peak
basin
yield
[(ft
3/s)/
mi
2]

RP1
(years)

Ratio
to 100-
year 
peak 
stream-
flow
2


Guadalupe River Basin

1

08168500

Guadalupe River above Comal River at New Braunfels 

  1,518

1845-present

07/08/1869

12/1913

338

338

--

--

 

10/17

--

1745

--

35.57

--

142,000

--

--

--

93.5

--

100

--

--

--

2

08169500

Guadalupe River at New Braunfels 

  1,652

1915-1927

1974-present

09/10/1921

28.60

56,600

10/17

--

38.54

222,000

3.9

134 

>100

--

3

08170500

San Marcos River at 
San Marcos 

  47

1996-present

06/21/1997

7.73

787

10/17

1600

21.29

21,500

--

457

--

--

4

08171000

Blanco River at Wimberley 

  355

1869-present

05/28/1929

33.30

113,000

10/17

1415

28.50

116,000

1.0

327

100

1.06

5

08171300

Blanco River near Kyle 

  412

1882-present

05/1929

340

139,000

10/17

1700

35.82

105,000

.8

255

50

--

6

08172000

San Marcos River at Luling 

  838

1859-present

1869 or 1870

340.4

--

10/18

0615

41.85

206,000

--

246

>100

2.09

7

08172400

Plum Creek at Lockhart 

  112

1905-present

06/1936

322

--

10/18

0330

23.09

47,200

--

421

>100

--

8

08173900

Guadalupe River at Gonzales 

  3,490

1978-present

06/05/1987

(4--)

52,000

10/18

2100

50.44

340,000

6.5

97.4

>100

3–4

9

08175000

Sandies Creek near Westhoff 

  549

1864-present

07/02/1936

33.1

92,700

10/19

2000

28.80

36,200

.4

65.9

15

--

10

08175800

Guadalupe River at Cuero 

  4,934

1900-present

07/02/1936

344.33

--

10/20

0030

50.35

473,000

--

95.9

>100

3–4

11

08176500

Guadalupe River at Victoria 

  5,198

1833-present

07/03/1936

31.22

179,000

10/20

1400

34.04

466,000

2.6

89.6

>100

3–4

San Antonio River Basin

12

08177700

Olmos Creek at Dresden Dr., San Antonio

  21.2

1935-present

04/05/1991

14.38

19,700

 

10/17

0930

14.01

18,600

.9

877

--

--

13

08178050

San Antonio River at Mitchell St., San Antonio

  42.4

1993-present

10/08/1994

7.98

5,090

 

10/17

1015

12.94

14,300

2.8

337

--

--

14

08178565

San Antonio River at Loop 410 at San Antonio

  125

1987-present

07/15/1990

32.20

64,300

 

10/17

1600

32.57

79,400

1.2

635

--

--

15

08178700

Salado Creek (upper station), at San Antonio

  137

1853-present

10/1913

323–24

--

 

10/17

1600

22.40

64,400

--

470

--

--

16

08178800

Salado Creek (lower station), 
at San Antonio

  189

1941-present

09/27/1973

28.83

13,100

 

10/17

1300

34.07

47,800

3.6

253

--

--

17

08180640

Medina 
River at 
La Coste 

  805

1987-present

05/30/1987

24.05

24,600

 

10/18

1300

21.30

13,400

.5

16.6

--

--

18

08180700

Medina River near Macdona 

  885

1982-present

05/30/1987

20.58

36,800

 

10/18

1945

17.39

16,300

.4

18.4

--

--

19

08180800

Medina River near Somerset 

  967

1971-present

07/17/1973

29.39

30,500

10/18

1515

22.70

13,500

.4

14.0

--

--

20

08181400

Helotes Creek at Helotes 

  15

1923-present

1927

313.7

--

10/18

0115

15.21

12,600

--

840

40

--

21

08181480

Leon Creek 
at IH-35, 
at San Antonio 

  219

1985-present

06/22/1997

24.60

27,900

 

10/18

1715

29.31

93,300

3.3

426

>100

--

22

08181500

Medina River at San Antonio 

  1,317

1913-present

1913

355

--

 

10/18

1600

49.45

30,000

--

22.8

--

--

23

08181800

San Antonio River near Elmendorf 

  1,743

1900-present

1946

361

--

 

10/18

1200

64.20

75,000

--

43.0

>100

--

24

08183500

San Antonio River near Falls City 

  2,113

1875-present

09/29/1946

33.80

47,400

 

10/20

0600

33.60

70,000

1.5

33.1

>100

--

25

08185000

Cibolo Creek at Selma 

  274

1869-present

06/22/1997

29.73

69,600

 

10/17

1345

35.37

98,100

1.4

358

>100

1.15

26

08186000

Cibolo Creek near Falls City 

  827

1890-present

10/1913

335

35,000

 

10/19

0700

39.86

47,500

1.4

57.4

>100

1.09

27 08188500

San Antonio
  River at
   Goliad 

  3,921 1800-present 1869 3>53.0

--

10/22 1230 51.78 59,200

--

14.0 -- --

 

1 Recurrence period for peak streamflow from Asquith and Slade (1997).

2 100-year peak streamflow from Asquith and Slade (1997). Ratios not computed for peaks exceeding 100-year recurrence period for stations where peak streamflow frequency unknown, however, magnitude of peak large enough to indicate peak greater than that of 100-year recurrence period.

3 Historical peak data from land-owner account before systematic data collection.

4 Station at different location 1.2 miles upstream with different gage-height datum in 1987.

 

Flood Volume in Guadalupe River Basin

The volume of runoff for site 10, Guadalupe River at Cuero, was computed for the period October 17-31, 1998, at about 1,840,000 acre-feet. Most of the runoff from the October 17-18 storm occurred at the station by the end of October. The total outflow from Canyon Lake during October 18-31 was only about 2,600 acre-feet (Tommy Hill, Guadalupe-Blanco River Authority, oral commun., 1999); thus, almost all runoff at the Cuero station originated from the basin downstream of the reservoir.

The volume of rainfall associated with the runoff at the Cuero station also was computed on the basis of the total rainfall (fig. 1). The rainfall volume in the drainage basin upstream of the Cuero station and downstream of Canyon Lake is about 2,580,000 acre-feet, which represents a mean depth of about 15.0 inches in that area. The runoff accounts for about 10.7 inches or about 71 percent of the rainfall--most of the remaining 4.3 inches of rainfall thus is attributed to depression storage (such as ponds and valleys) and infiltration.

From October 17 to 31, the change in storage in Canyon Lake was about 134,000 acre-feet, which, when added to the 2,600 acre-feet of outflow, approximates the runoff during that period from the 1,432-square-mile basin upstream of the reservoir. The maximum water elevation at Canyon Lake was about 923 feet, which is about 20 feet lower than the spillway crest at the reservoir.

Flooding in San Antonio River Basin

The largest rainfall in the San Antonio River Basin was in the upstream areas (fig. 1). However, the flood peaks at the stations on lower Cibolo Creek and the lower San Antonio River exceeded the 100-year recurrence period (table 1). Flood losses in the San Antonio River Basin were less than in the Guadalupe River Basin mostly because fewer urban areas were inundated.

Flood Losses

According to the Texas Department of Public Safety (written commun., 1999), 31 people drowned during the floods, and total property damage was estimated to be about $750 million. Forty-three counties in Texas received Presidential Disaster Declarations and thus were eligible for compensation for financial losses from the floods. Total compensation of about $188 million was provided for small businesses, individual-family grants, temporary housing, public assistance, and unemployment assistance.

Reports on Major Storms and Floods in Texas

Many storms with rainfall depths similar to and even exceeding those documented in this report have occurred throughout much of Texas--some of these storms have produced world-record rainfall rates. The USGS and other Federal and State agencies have prepared many reports documenting specific storms and floods in Texas. Two recent reports documented the June 1997 floods in south-central Texas (Raines and others, 1998) and the October 1994 floods in southeast Texas (Liscum and East, 1995). Lanning-Rush and others (1998) present references for reports documenting major storms and floods in Texas. That report also presents narratives for all known major storms and includes analyses of the areal extent of extreme rainfall depths for regions of Texas. A method to estimate rainfall depths for durations of 15 minutes to 7 days in Texas was prepared by Asquith (1998).

Many flood peaks that greatly exceed the 100-year recurrence period have occurred throughout Texas. A report presenting the greatest documented peak streamflow at many sites in Texas was prepared by Asquith and Slade (1995). That report also presents a method to estimate the maximum peak streamflow for various sizes of drainage areas for 11 regions in Texas. Asquith and Slade (1997) present a method to estimate peak streamflows for recurrence periods of 2 to 100 years for basins in Texas that are not affected by urbanization or reservoirs.

Selected abstracts and references for some of these and other USGS reports are presented on-line at http://tx.usgs.gov. The site also includes current and historic streamflow data and information for gaging stations across the State (Water Data).

References

Asquith, W.H., 1998, Depth-duration frequency of precipitation for Texas: U.S. Geological Survey Water-Resources Investigations Report 98-4044, 107 p.

Asquith, W.H., and Slade, R.M., Jr., 1995, Documented and potential extreme peak discharges and relation between potential extreme peak discharges and probable maximum flood peak discharges in Texas: U.S. Geological Survey Water-Resources Investigations Report 95-4249, 58 p.

______1997, Regional equations for estimation of peak-streamflow frequency for natural basins in Texas: U.S. Geological Survey Water-Resources Investigations Report 96-4307, 68 p.

Lanning-Rush, Jennifer, Asquith, W.H., and Slade, R.M., Jr., 1998, Extreme precipitation depths for Texas, excluding the Trans-Pecos region: U.S. Geological Survey Water-Resources Investigations Report 98-4099, 38 p.

Liscum, Fred, and East, J.W., 1995, Floods in southeast Texas, October 1994: U.S. Geological Survey Fact Sheet FS-94-073, 2 p.

Raines, T.H., Asquith, W.H., and Brown, D.S., 1998, Floods in south-central Texas, June 1997: U.S. Geological Survey Fact Sheet FS-053-98, 6 p.

R.M. Slade, Jr. and Kristie Persky

Any use of trade, product, or firm names is for descriptive purposes only and does not imply endorsement by the U.S. Government.

For more information, please contact:

District Surface-Water Specialist
U.S. Geological Survey
8027 Exchange Dr.
Austin, TX 78754-4733

Phone: (512) 927-3500
FAX: (512) 927-3590
World Wide Web: http://tx.usgs.gov/



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