TPWD 1974 F-6-R-21 #1595: Fisheries Investigations - Region 2-C: Fisheries Management, Federal Aid Project F-6-R-21

--- Page 1 --- PERFORMANCE REPORT As Required By FEDERAL AID IN FISHERIES RESTORATION ACT TEXAS Federal Aid Project F-6-R-21 Region 2-C Fisheries Studies Objective 9; Fisheries Management Project Leader: Roger L. McCabe Assistant Project Leader: Kenneth K. Sellers Clayton T. Garrison Executive Director Texas Parks and Wildlife Department Austin, Texas Lonnie J. Peters Robert J. Kemp Chief, Inland Fisheries Director, Fish and Wildlife December 31, 1973 --- Page 2 --- ABSTRACT Annual fisheries management surveys are necessary for obtaining data whereby management needs are identified and techniques selected. Lake Whitney (Bosque and Hill counties), Lake Brownwood (Brown County), Lake Granbury (Hood County), Lake Creek (McLennan County), and Lake Stillhouse Hollow (Bell County) were surveyed. Survey results were compiled and tabulated for assessing management needs. Harvest limits and means and methods, as set forth in the Regulatory Authority Proclamation, were reviewed and amended according to management survey findings. A single inci- dent of pollution, affecting the Nolan River, was investigated and was attributed to an oil line breakage. Stockings of predator and/or forage species are recommended for Lakes Whitney, Waco, and Stillhouse Hollow. --- Page 3 --- PERFORMANCE REPORT State: Texas Project Number: F-6-R-21 Project Title: Fisheries Investigations - Region 2-C Project Section: Research and Surveys Study Title: Fisheries Management Contract Period: From_ January 1, 1973 To __ December 31, 1973 Program Narrative Objective No.: GQ Objective: To situate fisheries management practices in waters of Region 2-C. I. Segment Objectives: 1. To recommend fish harvest regulations to the Texas Parks and Wildlife Commission. ine) To recommend stocking ratios for newly constructed or renovated waters having established fish populations but insufficient reproduction. 3. To recommend control of overabundant rough and/or game fish species. 4. To investigate incidents of pollution and/or fish die-offs. 5. To determine vegetation control needs. 6. To determine public access needs. Il. Summary of progress: Biologists and game wardens met in February to formulate changes in fish harvest regulations. Proposed changes were presented to the public at hearings in each county under regulatory authority. Tape recordings of each hearing were submitted to the Texas Parks and Wildlife Commission for consideration before the changed regulatory proclamation was approved. Hearings attended by Project F-6-R personnel are shown in Table l. No existing public reservoirs were renovated by Project F-6-R, and no pub- lic reservoirs were constructed during the segment. Data pertaining to objec- tives 2 through6 were obtained from spring and fall fisheries management sur- veys. Semi-annual surveys were conducted on Lake Creek (McLennan County), Lake Whitney (Bosque and Hill counties), Lake Brownwood (Brown County}, Lake Granbury (Hood County), and Lake Stillhouse Hollow (Bell County). In addition to these surveys, marginal seining was implemented on Lake Waco (McLennan County) to assess game fish reproduction, and night seining was conducted on Lake Belton (Bell County) to determine survival and growth of predator game fish in‘roductions. Permanent netting, seining, and water sampling stations were established on each of the five reservoirs surveyed. The number of sampling stations selected --- Page 4 --- on each water was based on the size of the impoundment. Lakes of 5,000 sur- face acres or less had five netting and seining stations and one water sampl- ing station. Lakes from 5,000 to 10,000 surface acres had 10 netting and seininy stations and two water sampling stations. Lakes larver than 10,000 surface acres had 15 netting and seininey stations and three water samplinzs stations. Seining areas were in close proximity to netting stations. Jn some areas, seining was not conducted due tu the physical characteristics of the shoreline. One standard experimental gill net (150 feet long and 8 feet deep with l-inch to 34-inch graduated mesh) was set at each netting station over night during each survey. Marginal seining consisted of one 100-foot drag (or two 50-foot drags) at each sampling station using a 26-foot bag seine with %-inch mesh. A Kemmerer Model 1200 water sampler was used to take profile samples at 10-tfoot intervals from surface to bottom at each sampling station. ; A Hach DR-EL Portable Engineers Laboratory was used for analyses of water samples. Dissolved oxygen and water temperatures were measured with a YST Model 51-A Oxygen-Temperature meter. An electroshocking boat was used on Brownwood and Stillhouse Hollow Reservoirs. The shocking device was equipped with a Mc- Cullcugh Model 300 110/220 volt, 3,000 watt, A/C generator and a Model VVP- 3E variable voltage pulsator. Gill net samples were separated by species, counted, and bulk weighed. Data recorded on popular sports fishes included weight, length, sexual deve- lopment, stomach contents, and occurrance of parasites. Lengths and weights were recorded on a representative sample of all other fishes captured. Data were compiled in the laboratory to show species composition, relative abun- dance, average weight, and catch per unit effort of all species netted. In addition, coefficient of condition (K factor) was calculated on species common- ly sought by sports fishermen. Seining collections were separated by station, preserved in 10% formalin, and identified in the laboratory. Catches from gill nets were separated by species, divided into size groups (juvenile, intermediate, and adult), and measured and counted. Catch per unit effort was computed to compare tne rela- tive catch of all species by station. Specimens captured during electorshock- ing operations were weighed, measured, and released. Data were tabulated to show the relative catch during each shocking effort. Relative abundance ot predominant vegetation was noted during each :anage- ment survey. All water samples were tested for temperature, dissolved oxygen, chlorides, phenolphthalein alkalinity, methyl-orange alkalinity, pH, turbidity, total hardness, and carbon dioxide. Data were tabulated for comparisors of stations, surveys, and lakes. Incidences of pollution or fish die-otfs were investigated when requested by the regional chemist. Efforts were made to determine the nature, source, and effects of the pollutant on the fishery involved. A species checklist (Table 2) shows all species encuuntered in Regicu 2-C during the segment. Common and scientific names are in accordance with Special Publication No. 6, A List of Common and Scientific Names of Fishes from the United Scates and Canada (Third Edition), a publication of the American Fish- eries Society. Abbreviations were assigned to each species in order to con- serve space in the data records. --- Page 5 --- -3- No changes were made in fish harvest regulations affecting Region 2-C; however, for clarification purposes, the following definitions were included in the Statewide Hunting, Fishing and Trapping Proclamation No. A-1, 1973-74: 1. "The term 'trotline' when used in this proclamation includes a sail line or rubber band line and shall be constructed of nonmetallic materials." 2. "For the purpose of this Act a trotline shall be defined as a main Fishing line with more than five hooks attached at a minimum inter- val of three horizontal feet." 3. "For the purpose of this Act a throwline shall be defined as a main fishing line with five or less hooks attached at a minimum of three horizontal feet, with one end permanently attached to a permanent fixture." oa "For the purpose of this Act a jug line shall be defined as a free floating main fishing line with five or less hooks attached at a minimum of three horizontal feet with the main line tied to a free floating device." The Proclamation, including additions, was approved by the Texas Parks and Wildlife Commission on April 26, 1973. Lake Belton was stocked with 360,000 walleye fry on April 30, 1973, and an additional 133,000 fry were stocked on May 10, 1973. Fry ranged from 3/4 inch to l-inch in size, and stocking mortality was estimated at less than 5%. In an effort to determine survival of the fry after stocking, nighttime seining was implemented on May 22. Twelve 100-foot drags, using a 26-foot bag seine, were made at different locations, but no walleye were captured. The lake was seined again on the night of August 2 and four walleye were caught during 925 feet of seine drags. Two were caught on a submerged concrete boat ramp and two were caught on an old sand and gravel road bed. Stomach analyses revealed that three of the four fish had consumed Mississippi silversides. The specimens ranged from 131 mm. to 170 mm. T.L. On September 16, a walleye (239 mm. T.L.) was caught on hook and line by a local fisherman. Information obtained to date indicates that walleye stocking was successful and that the fish are experiencing rapid growth. Supplemental stockings of this predator game fish species are planned for 1974 and 1975. More extensive sampling techniques will be applied in evaluating this species during future segments. Marginal seining was conducted at Lake Waco (McLennan County) in May. Eight 100-foot drags were made with a 26-foot bag seine in various parts of the lake. Only four juvenile largemouth bass were captured. Numbers of forage fishes appeared adequate. The most abundant species in the seine catch were blacktail shiners, red shiners, and bullhead minnows. Assistance was given to the regional chemist in the investigation of an oil spill on the Nolan River (Johnson County) in February, 1973. A break in an AMOCO Oil Company oil line occurred on February 5, 1973, and approximately 11,000 barrels of oil were lost before pumping was stopped. An estimated four river miles were affected by the spill. When the break was discovered, the oil company erected barriers on the river. The oil was pumped into tank trucks and hauled from the site. Due to heavy rains and flooding, a small portion of the oil over- --- Page 6 --- tlowed the barriers and escaped into « }ew smail coves at the upper end of Lake Pat Cleburne. The remaining oil was burned from the surface of the water. A three day fish count was conducted on the area affected by the spill. Dead and dying fishes included 217 catfish, 79 white crappie, 26 minnows (bullhead minnows and golden shiners), 276 sunfish, 15 largemouth bass, and 12 spotted bass. An investigation report was completed by regional chemist Tom Chandler and remedial action was taken by the Environmental Protection Agency which also investigated the incident. Project personnel met with U. S. Fish and Wildlife Service biologist Glen Stanley and planned public access sites for the proposed Aquilla Creek Reservoir (Hill County). The proposed site was visited and areas were select- ed for boat ramps and sampling sites. Plans were formulated for clearing of these areas before impoundment. Fisheries Management Surveys A comparison of fish species collected in each reservoir during fisheries management surveys are presented in Table 3. Lake characteristics and survey results are discussec below. Lake Whitney Lake Whitney is located on the Brazos River in Hill and Bosque counties. The lake was impounded in 1951 and originally covered 15,760 surface acres. The water level was raised 3 feet in 1969 and an additional 10 feet in 1972, which increased the volume of the lake trom 379,190 to 627,100 acre-feet. The lake now covers 23,560 surface acres and has approximately 300 miles of shore- line. The southern third of the lake is characteristically deep and almost en- tirely bordered by solid rock bluffs. A few sandy beaches and areas with inun- dated grasses and trees are present. Shallow sandy areas are more frequent in the middle portion of the lake; however, rock bluffs dominate most of the margin. Large, relatively shallow coves with sand and gravel banks and vast areas of inundated grasses and trees are present in the northern end of the lake. The reservoir has a history of good white bass and crappie fishing. Since the water level was raised, increased interest in largemouth bass fish- ing has been observed. Striped bass were stocked in the lake in 1973 and supplemental stockings are scheduled for future years. This introduction pro- vides another predator sports species and adds to the species diversity of the lake. A total of 30 gill nets were set during sampling surveys and results are presented in Table 4. The number of each species caught at each station during Spring and fall surveys is shown in Table 5. The 1973 gill netting catch per unit effort was compared with catch per unit effort from past surveys. A sub- stantial increase in numbers of gizzard shad per net was revealed. Only two largemouth bass were caught in the gill nets, but a large number of juveniles were captured during spring marginal seining activities. The majority of largemouth bass seined were taken at stations 12, 14, and 15 (Table 6). These stations are located at the north end of the lake (Figure 1) where favorable largemouth bass spawning habitat was abundant during the spring survey. --- Page 7 --- Physical and vegetative characteristics of these areas are shown in Table 7. Numbers of forage species collected were good during both surveys. Blacktail shiners, red shiners, and Mississippi silversides were abundant and widely distributed in the lake. Problems with vegetation and public access were not encountered during the segment. Water quality data from all three sampling stations were con- sidered normal for the lake (Table 8). Unusually high turbidity readings were obtained from bottom water samples taken at all stations during the fall survey. These high readings were probably the result of bottom sediment trapped in the sampling device. Stillhouse Hollow Reservoir Lake Stillhouse Hollow in Bell County is supplied by water from the Lampasas River. The lake was impounded in 1968 and covers approximately 6,430 surface acres. It has 58 miles of shoreline and a mean depth of 37 feet. Hugh boulders and limestone bluffs line most of the shoreline with occasional small coves and sandy gravel beaches. Sand and silt deposits are found in upper limits of the lake. Twenty gill nets were set during the year and catches were considered poor at all stations (Table 9). White bass (averaging 1.4 pounds each), channel cat- fish and largemouth bass were well represented in net returns (Table 10). A total of 698 fish was collected during marginal seining activities (Table 11). Descriptions of seining stations can be found in Table 12, and a map show- ing locations is presented in Figure 2. Station 3 could not be seined during the fail survey due to lack of suitable shoreline area. Young-of-the year largemouth bass were caught in fair numbers. Golden shiners, red shiners, and Mississippi silversides were well represented in the seine sample. During the fall survey, nighttime electroshocking was implemented to supplement netting and seining data. ‘The predominant species captured were gizzard shad, carp, largemouth bass, and bluegill. Results of the shocking effort are given in Table 13. No calculations of catch per unit effort were made due to unfamiliarity of project members with the operation of the shocking unit, and due to a malfunc- tion of the generator. Analyses of water profiles failed to reveal a thermocline even though some chemical stratification was indicated in the data (Table 14). Water test results were considered normal for the reservoir and no problems were encountered during the segment. Lake Brownwood Lake Brownwood (Brown County) was impounded in 1933 and covers 7,300 surface acres, The lake has a volume of 143,400 acre-feet and has approximately 100 miles of shoreline. It is bordered by large rock cliffs with only a few sandy beaches. Shallow coves which are silty and turbid can be found in both arms of the lake (Stations | and 10, Figure 3). --- Page 8 --- The yield from 20 pill nets set during management surveys is shown in Table 15. Good numbers |! channel catiish, white crappie, and largemouth bass were netted. Also, 13 flathead catfish, averawing &.5 pounds, were caupht. Netting success at each sampling station is shown in Table 16. Catch per unit effort and species diversity were compared with 1970 survey data and no signi- ficant differences were found. Marginal seining was productive during both the spring and fall surveys. As is shown in Table 17, rapidly sloping rock bluffs prohibited seininy at stations 5 and 7. Slacktail shiners, red shiners, bullead minnows, Mississippi Silversides and juvenile gizzard shad were captured in large numbers. A small number of young-of-year largemouth bass were taken at various locations on the lake (Table 18). Nighttime electroshockiny was conducted during the fall survey. Results of electroshocking operations can be found in Table 13. Largemouth bass and channel catfish composed a large majority of the catch. This information supports netting and seining data which also showed a predominance of these fishes. Thermal stratification was noted at 27 to 34 feet at station 1 during the spring survey. No thermocline was evident in the fall survey data. High tur- bidity readings were noticed in the fail bottom water sample at station 1 and in. the spring bottom water sample at station 2. These high readings were probably due to bottom sediments accidentally trapped in the water sampler. All water analyses results are shown in Table 19. Lake Granbury Lake Granbury is located on the Brazos River in Hood County. The lake is long and narrow with approximately 160 miles of shoreline. Tt covers 8,500 sur- face acres and has a volume of 153,000 acre-feet. The reservoir is bordered by rock bluffs along its entire length, but shallow beaches, with abundant aquatic vegetation growths, are found in many areas. JInundated trees are common and a silt bottom exists in most shallow areas in the upper end of the lake. Figure 4 is a map showing ali netting, seining, and water sampling stations. os A total of 33° fish were caught in the 20 gill nets set during the year (Table 20). The catch per unit effort showed channel catfish to be the predomi- nant game fish in the net vield (Table 21). Marked increases in the catch per unit effort of gizzard shad, smallmouth buffalo, and carp were revealed in a comparison of 1971, 1972, and 1973 netting data. Marginal seininy resulted in catehes of young-of-year largemouth bass at all stations during the year (Table 22). The catch per unit effort was boos: ed by good numbers of threadfin shad, blacktail shiners, red shiners, bullhead minnows, and Mississippi silversides. Ar extreme increase in vegetation types and abundance was noted at most seining stations during the fall survey in com- parison to what was observed during the spring survey (Table 23). These increases were attributed to warm water temperatures and water clarity (Table 24). The abundance of vegetation in these shallow water areas is expected to decrease as a result of winter water temperatures. Therman stratification was apparent at 35 to 45 feet at station 1 during the spring survey. Water quality appears normal. with no unusual conditions observed in the data. --- Page 9 --- 1It. Lake Creek Reservoir Lake Creek is a 590 surface acre impoundment located in McLennan County. It is used as a cooling reservoir for an electric power plant; therefore, no water is released and water, to compensate for evaporation, is pumped from the nearby Brazos River. Only a small amount of water enters the lake from surface runoff from surrounding terrain. The lake is relatively shallow with a maximum depth of 35 feet and an estimated mean depth of 14.4 feet. Fishing in the lake is allowed only during daylight hours and is open to the general public only on a permit basis. A total of 266 fish were taken in 10 gill nets set during the year. Table 25 shows the number of fish caught at each station during surveys. The catch per unit effort was favorable and relative abundance of species netted was con- sidered normal for the lake (Table 26). The seining catch was relatively poor at all stations during both the fall and spring surveys (Table 27). Only three younzg-of-year largemouth bass were caught during seining activities. Fair numbers of forage fishes were captured; blacktail shiners and Mississippi silversides were relatively abundant and taken at most sampling stations. Locations of sampling stations are shown in Figure 5 and descriptive in- formation is given in Table 28. Vegetation was sparse at most sampling stations during the spring survey and more abundant during the fall. Water temperatures were slightly higher than those found in other lakes at the same time of year due to the heated erfluent from the power plant. Other analyses were considered normal (Table 29). Significant Deviation: There was no significant deviation from outlined segment objectives. Conclusions, Evaluations, and Recommendations: Water levels were increased at Lakes Whitney and Belton in 1972 which re- sulted in improved bass fishing and renewed public interest in both reservoirs. No departmental creel surveys have been conducted on these reservoirs but fisher- man interviews and public opinion, particularly the largemouth bass enthusiast, indicate a marked improvement in the fisheries since water level increases were initiated. Joint coordination of planned water level fluctuation by controlling agencies and the Texas Parks and Wildlife Department is needed to make this a more effective management technique. Striped bass were introduced into Lake Granbury in 1972 and Lake Whitney in 1975. These lakes exhibit characteristics favorable for reproduction and survi- val of this species. Introductions were made to increase species diversity, in- crease utilization of existing forage, and provide fishermen with another sports fish for their creel. Supplemental stocking of Lake Granbury was implemented in 1973 and additional stockings are recommended for 1974 and 1975 at a rate of 10 fingerlings per sur- face acre. These stockings should provide adequate year classes until expected reproduction occurs. --- Page 10 --- VI. ~8- Additional stockings are recommended for Lake Whitney annually through 1976. A stocking rate of ten fingerlings per surface acre is recommended. These stockings will establish year classes until predicted reproduction occurs. Walleye were introduced into Lake Belton in 1973 to improve species diver- sity and to improve utilization of forage. A stocking rate of ten fingerlings per surface acre should be made in 1974 and 1975 to provide year classes until natural reproduction can occur. Although no creel surveys have been conducted on Lake Waco, past survey data and fisherman interviews indicate a gradual decline in largemouth bass and white crappie populations. Increasing numbers of gizzard shad were also reveal- ed in netting data. Walleye would provide another species for the sports fisher- man and would occupy the niche of a large open water predator capable of utiliz- ing the gizzard shad population. An initial stocking (20 fingerlings per surface acre) is recommended with additional stocking the following two years (ten finger- lings per surface acre). The supplemental stockings should provide adequate year classes until fish from the original releases become sexually mature. Physical features of Lake Stillhouse Hollow are conducive to both walleye and smallmouth bass. A poor catch per unit effort of all species was noted during fisheries management surveys. In addition, fisherman yields have been low since the lake was impounded in 1968. Introductions of walleye and small- mouth bass are recommended to increase species diversity and to provide two additional game fish species. Hopefully, these species would occupy vacant ecological niches and provide additional utilization of existing forage species. An initial stocking of walleye is recommended at a rate of 20 fingerlings per surface acre. Two years of additional stocking should be implemented (at a rate of 10 fingerlings per surface acre) to provide adequate year classes until repro- duction occurs. Smallmouth bass stocking is recommended at a rate of ten finger- lings per surface acre. Supplemental stockings are recommended until individuals of the original stocking are sexually mature. Introductions of threadfin shad are recommended at a rate of 20 per surface acre. Due to the limited maximum size of adults, these fish would provide forage which could be utilized by a majority of game fish predator species. Costs: Approximately $22,700.00 Prepared by: Kenneth K. Sellers Assistant Project Leader Date: January 4, 1974 Robert L. Bounds y /Region 2 Inland Fisheries Director Approved by: ht Ke ele hart. L/ Dingell-Johnson a Dasrd ch | iets --- Page 11 --- Table Ll, Regulatory hearings attended by project personnel during the 1973 segment. _ Possum Kingdom Regulatory District Date ee Location County 3-27-63 Granbury Hood 3-26-73 Meridian Bosque 3227=/3 Stephenville Erath 3-27-73 Comanche Comanche 3-27-73 Hamilton Hamilton 3-28-73 Hillsboro Hill 3-28-73 Brownwood Brown 3-28-73 Coleman Coleman 3-29=73 East land Eastland 3-29-73 Baird Callahan 3-29-73 Cleburne Johnson 3-29-73 Waco McLennan 4-02-73 Glen Rose Somervell 4-02-73 Goldthwaite Mills Trinity-Brazos Regulatory District Date Location County 3-26-73 Georgetown Williamson 3-26-73 Gatesville Coryell 3-26-73 Belton Bell 3-27-73 Cameron Milam 3-27-73 Marlin Falls --- Page 12 --- Table 2. Checklist of all fish species encountered during the 1973 segment. Scientilic Name Lepisosteus oculatus Lepisosteus osseus Dorosoma_ cepedianum Doresoma petenense Campostoma_anomalum Cyprinus carpio Notemigonus crysoleucas Notropis amabilis Notropis fumeus Notropis lutrensus Notropis venustus Pimephales vigilax Carpiodes carpio Ictiobus bubalus Moxostoma congestum Ictalurus punctatus Pylodictis olivaris Strongylura marina Fundulus notatus Gambusia attinis Labidesthes sicculus Menidia audens Morone chrysops Morone saxatilis Lepomis auritus Lepomis cyanellus Lepomis gulosus Lepomis humilis Lepomis marcrochirus Lepomis megalotis Lepomis microlophus Micropterus punctulatus Miccopterus salmoides Pomoxis annularis Etheostoma gracile Stizostedion vitreum Percina caprodes Aplodinotus grunniens Tilapia sp. -10~ Common Name Spotted gar Longnose gar Gizzard shad Threadfin shad Stoneroller Carp Golden shiner Texas shiner Ribbon shiner Red shiner Blacktail shiner Bullhead minnow River carpsucker Smallmouth buffalo Grey redhorse Channel catfish Flathead catfish Atlantic needlefish Blackstripe topminnow Mosquitofish Brook silverside Mississippi silverside White bass Striped bass Redbreast sunfish Green sunfish Warmouth Orangespotted sunfish Bluegill Longear sunfish Redear sunfish Spotted bass Largemouth bass White crappie Slough darter Walleye Log perch Freshwater drum fouthbrooder Abbreviation SG LNG GS TFS SR CRP GDS TS RS RDS BTS BHM RCS SMB GRH CCF FCF ANF BST BSS MSS WB STB RBS GSF WAM OSF BG LES RES SB LMB WC SD WP LP TP --- Page 13 --- -ll- Table 3. A comparison of fish species collected in each reservoir surveyed during 1973. Reservoir Species Whitney Brownwood Stillhouse Granbury Lake Hollow Creek x Lepisosteus oculatus s x Lepisosteus osseus Derosoma cepedianum Dorosoma petenense Campostoma_anomalum Cyprinus carpio Notemigonus crysoleucas Notropis amabilis Notropis fumeus Notropis lutrensis Notropis venustus a mM Mm KM OM * i aa) mo xxx x ™ * * “ Carpiodes carpio [etiobus bubalus Moxostoma_ congestum Ictalurus punctatus Pylodictis olivaris trey ihe bs ie or feb) a im n < | He bs. re le % aw MMM OM * x x MM es x mo “ a x mM x On pero = Gambusia atfinis Labidesthes sicculus Morone ¢ * * x x xX mM * ™ * * a mx MX ba ™ a * Lepomis cyanellus Lepomis gulosus Lepomis macrochirus Lepomis microlophus Micropterus punctulatus Micropterus salmoides Laris ina caprodes Aplodinoius grunniens ilapia sp. wm me MM i OXis annu x mM MMM KM OM mm OM xm mM MM OM OM a a A ta x Mm OM * None were taken during fisheries management surveys; however, this species was taken from Lake Whitney during other project activities. --- Page 14 --- =] 3s FIGURE 1. LAKE WHITNEY 23,560 SURFACE ACRES LEGEND Netting Stations........ a Seining Stations........ ° w Water Sample Stations... 4A 22 3 See fam SCALE (7 - 4 mites —4 3/8-inch - approximately 1, =? --- Page 15 --- -13- 0¢2°0 09°0O €0°O 40°O 9T°O GOO 10°0 c0°O 90°0 TO°O 08°0O cS "1 99°T 61°? C8" 7 L6°TT 99°? 91°21 SqT)ION 50 “35 OST/*4M L£7°0 ecol 0¢*O OT*O 06°0 90°0 €0°0O €0°0 90°0O €0°0 L£8°0O L1°O £6°0 09°0O O8'T LevT Ly? €6°€ JeN FO “35 OST/*ON 87°Z 6°0 tC? €°O 19°? 6°0 86°T 16 06° T L°T - 9°0 ia they aselaay aselaay "eqep Burgqeu AauaTyM ayer L S* LOTT 0°9 6° LT 8°0 e'l 6°% 9°0 c°0 9°0 LT €°0 6° ES 8° 6% £°S9 9° HYT O°6SE 8° 6L 6° 79€ cue oH (sqt) 3M TeqOL 61S TeIOL, v1 wnip tazemysely LE atddeio 33TYyM 9 ystjyuns aeasu07 € ystjuns jJseaiqpey 1Z ystjuns [[tTsen,g ¢ ystjuns iaeapey T ystjuns usaei9 T yNouUreM Z sseq yqnowssiey T sseq poqjods 9¢ sseq 92TUM S ysty3zeo peayqelg 6¢ ystg2eo Teuuey) 81 die9 S aayonsdazes raATY ey) opTeysnq yNnowy,Teus VET peyus przezzty Sil ae3 asousuo7y "Oh Satoods TeROL €16[ JO Aazewunsg “*y aTgGePT L --- Page 16 --- Table 5. Spring and fall gill netting results by station, from Lake Whitney, 1973. Species Sta. |LNG|GS |SMB|RCS|CRP|CCF|FCF|WB |LMB]SB |WAM|GSF|BG |LES|RES|RBS|WC | FWD! Total S 511 4}aida 1 16 1 of 5 3 di 2 2 l 25 S 4 {1 1 l 9 2 pF 1316 3] 143 i 1 20 s 2 1 1 4 3 pla ]1]4 1/1 2 | 2 3 18 s|4]9 2 | 2 1 20 4 F | 2 2 1 5 gs | all 4 5 2 FF | 3 1 2 el 2 13 1 8 | 12) 12 1 2 29 6 pila2t4 1 1 10 s |6 3 1 i| 4]3 i} 213 26 7 plaid? 1 i|1 4 18 2s fiji 1 3 1/1 8 F 1 5 5 2 1 18 ; 3 | lo} 2 1 a8 Fi2{3 1 3 9 io 8 | 19} 3 1 1 2 29 10 * | a 1 3 13 ns fe}? 7 a , , 7 1 § | 9 | 20 1/1 Lk @ 30 4pf[5]5]3 1 3 1 27 | 1, 5 | O75 | 3 1 i 18 ‘Spp}adi2ta4 1 1 11 s 2,1 4 | 4 12 4p lata {2 2 1 2 18 15 5 | 4 | 16] 6 1 2 l 33 2pilzg 4345 2 3 t 5 29 --- Page 17 --- wi b= Table 6. Spring and fall seining results by station, Lake Whitney, 1973. Sta. |ss |TFs|cps|ars|Rps|Rs BST|MF_|MSS|BSS|LMBISB LES|RES|LP| Total Stas F RES {LP | 7 94} 29 6 198 F 49 1 341 86 , Ss 62] 11 271 2 8 242 F 3 2 7 S 19 1 22 3 F , 8 1 10 F 56 10] 6 87 g 8 Fil 32 313 105 5 8 1 | 541 26 38 126 F l 1 S ) F a: | 241 43 14] 1 91 e | 3 | 52 214 2/1 70 o 8 12] 162 31 217 "OF 1 5 | 2 19 | 10 2 | | 4 7 t 1a 8 10! 32 42 99 F | 40 7 {12 59 5 | 6 6 | 87 139 380 1 626 12° i 1 4 4S oan | 10 1 i 14 un 8 3 53 59 F iss 1] 43 6 512 567 2p 2 7 10 --- Page 18 --- 16+ -sBLE 7. General descriptions and relative abundan.. of predominant vegetation characterizing spring and fall sampling stations at Lake Whitney, 1973. a ae non ww Vv a) w «8 nm wn 4 oo . vo on WV ce [avy ° oO oF wm £4 is0] n [ory a 48 jw YW n v ° v 30 > n c . a no =) ° Qa n Oo WN DW Wh Ut (e) ° . pS) n ° 4 xo o oo oO wv [ow fal) ic}) [avy u a, non = Db ¢ n no (09) no oo oO sos 8s ao ec 73 8 ° is) a fe) ) ue) 3 us) ae) od fou) oO = isu) (3) u > uv ~ mm sD a a fe) wo u o 3 4 a e) ae} « € w a @ 3 3 > a « . u “A ra v Mi eo « Hi a ra fl a a we ° a) a Sta. M2 OF NHN DO BM OO HB HY A Fy oO Zz Ay wn al fx] S F S F S F S S 6; x x x SC 7 X xX x 8 | xX X X xX xX S 9 | xX xX X Xx xX s s | 10 xX X xX X xX s A ll Xx xX X 4 Cc | { 12 | X xX X xX xX | A Ss \ 13 | X xX xX Xx | S | 14 X Xx X xX X 15 X »:4 ».4 xX Xx | A X = Characteristic present at time of sampling > i) Abundant, C = Common, S = Sparse Salix sp. --- Page 19 --- -l7- O° OE” 6° L 0° 209 0°09 0" Sot J S°? o°S O° eZ tt O° OE c°8 O°St7 O° ST O°STI 0 G*? 0°8 O°?L €¢ O° OEE c°8 O° LOW O°ST O° Set 0 G°? c°8 O° el eT O° OSE C78 O° ST 0" OI 0" O€T 0) G*Z? vane! O° es asorying €2/8T/O1 0° 00S I'L O°SLS 0°s 0°O09T 0 c°? OrL 0°04 8e Tit 0°09% T°L O° SLS 0°S 0°O09T 0 c°S O°L O°?cL 8é O° O09€ O°L 0°O% 0°S O° S7T 0 S°? orl O° FZ 8T O° OSE Lt 0°00% 0°S 0°OvT 0 S°? ohara O° 7L 8 O° OSE Td O°SLE o°S 0° OvT 0 S*Z 0°8 O° 7L aoBFANS €L/01/S O° OSE 9° L O° thy O°SsTT 0°OvT 0 S*? 0°9 O° el 09 O° OSE c°8 0°077 O°OT 0° OT 0 G°? 0°9 o°el OS O° OSE O's O°SEer 0°OT O° OT 0 G°? 0°9 O° el Ov O° OSE 6°24 O° LEV 0°OI 0°OvT 0 S°? 0°9 O° el Of O° O09€ €°8 O°Ler 0°S 0° O¥I 0 c°? 0°9 o°el 0g O°O9E T’8 = O°SEY 0°OT 0° OT 0 G*? 9° L O°SL OT O° OSE c°8 0°04 0°Or 0° O4vT 0 GS‘? B°L O°SL aoeRjans €L/81/0T 0° O8€ cL 0° Sc? 0° ?r 0° OST 0 G°? o°L O° EL 09 It O°OE 9° 4 O°S9E O° ¢l O°OET 0 S°t O°L O° 7 OS O° O9€ £°9 0°01 0°01 0° S71 0 S*? OrL O°tL Ov O°OTE 8°9 O°OLE 0°OT O°SzeT 0 S*? OrL O°TL O€ O°OTE O°L O°STE 0°8 O° OT 0 S°? 0°8 O° FL 0¢ O° O00E ool O°OTE 0°S O°S?T 0 c°? 0°6 O° vL OT O°OTE Ee" O° Sve 0°S 0°02 0 S*z 0°6 O°Sé BoeFANS €2/6/S 0° 004 TL 0° Ot 0°09 0° OST 0 c°? 0°? O°?cL O0OT O° O9E G*L 0°StY 0°S O°CET 0 G°? Ss"? O° es 06 O° OE €°S 0° OEY 0°s O°OeT 0 c°? L£°9 O° v7 08 O° OSE 6°L 0°0€% O°s O°SZT 0 c°? L°9 O° 7L OL O'SvE c°8 O° eer 0°OT 0° OCT 0 G°7z 8°9 O° 09 O° OSE c°8) (0° CCH O°OE 0°O7T 0 S°? 9°9 O°SL OS O° SE O'S O°?ly O°s 0°O?T 0 G°? 9°9 O°SZ Ov O°SvE e778 O° STYH 0°s 0° OeT 0 c*? 9 O° vl Of O° OSE f°8 (0° 024 0°S O° OET 0 S°? L£°9 O° vZ 0c O° OVE c°S8 (0° 07% 0°S 0° OT 0 G°? L£°9 0° 7L OT O° OSE e783 O° ZT 0°s 0° O7T 0 G°2 £°9 O°SL g0eFans €EL/ST/01 O°O£” c°9 0° 06% O°ST 0° OCT 0 o°s¢ 0°s 0°99 G& ZL 0° 0¢4 O°L O°SLY O°ST 0° 071 0 0°S 0°9 0°89 cL O° aT? Ord 0°09 o°¢ 0° 02T 0 0°sS 0°9 0°89 G9 COT? ord 0°S9¥% 0°sS 0°SZt 0 O°s 0°9 0°39 SS 0° 0¢% UL 0° S94 O°s O°SZT 0 0°s O°L 0°69 SY 0° 007 T°L 0°09% 0°S O0°OcT 0 c°? Ore 0°OL ct O° 06£ Ted 0°094% 0°sS 0°OCT 0 Gc’? Ord O°OL SZ = c°l 0° SS 0°s 0°02T 0 c*? ord O°?L Gi - 9° L 0°0z24 0°S 0°07 0 G*? O°4 O° 7 B9eTANS €L/8/S (add) * paey (udd) (ALL)G2n1, (add) * ty (add) *yTy (add) (add) (4) * dwo (° 35) uadeg °ON T B70] Hd id "yoer ‘OH ya-ad ele) oe) 193 eM apt dues a3 eq "BIS "9/767 ‘AOURTUM ayo i fsaskyeue aj;tjzoid aaqzem PJ pue Suiads jo sqqi.e "9 FTIGVI Ge sow bea t : 2 : + b am --- Page 20 --- -18- FIGURE 2. LAKE STILLHOUSE HOLLOW 6,430 SURFACE ACRES LEGEND Netting Stations........ Seining Stations........ Water Sample Stations... a SCALE je—— 2 miles ——4 13/16-inch - approximately 1 mile --- Page 21 --- -|9- Table 9. Spring and fall gill netting results by station, from Lake Stillhouse Hollow, 1973. —_ _ S ecies _ _ - Stao LNG]|SG |GS | SMB} RCS| CRP] GRH} CCF] FCF] WB LMB} SB |} BG | LES] RES WC, Total i 8 3 3 F 1 1 2 > S|7]1 3} 2471 14 F 1 1} adauya1 1 9 5 8 ]l 1] ol 2 9 14 F 1 1 1 1 5 4 8 19 1 2 2 i 15 F 1 3 1 9 5 8 2 1 5 F [il 1 1 1 1l 6 Ss | 9 9 F 2 2 1 12 7 § 1 2 Fl2]1] 3 1 10 g § 1 1 F 1 ul 1 3 g9 § 1 F | 3 3 1 9 10 § L 1 Flu 2 1 12 --- Page 22 --- -I0- Spotted gar Longnose gar Gizzard shad Smallmouth buffalo River carpsucker Grey redhorse Carp Channel catfish Flathead catfish White bass Spotted bass Largemouth bass Redear sunfish Bluegill sunfish Longear sunfish White crappie Total Table 10. Summary of 1973 Lake Stillhouse Hollow netting data. Total No. 33 10 10 10 12 25 49.8 2.4 LT.9 26.9 3.3 19.4 26.4 1.8 35a 0.6 19.4 02 213.4 Average 1.1 1.9 2.2 1.8 1.4 0.6 2s2 0.2 Ou2 0.1 Average 1.90 1.82 2.96 2.43 2.68 2449 No./150 ft. of Net 0.10 1.65 0.50 0.20 0.50 0.15 0.50 0.60 0.05 1.25 0.05 0.45 0.05 0.85 0.15 0.30 Wt./150 ft. of Net(Lbs 0.11 2.49 0.12 0 8° 1.34 0.17 0.97 1.. 32 0.09 1.78 0.03 0.97 0.01 O.&5 0.01 0.20 --- Page 23 --- Table 11. Spring and fall seining results by station, from Lake Stillhouse Hollow, 1973. Species _|GS_|CRP|GDS|BTS| RDS] BHM] SR | BST] MF vss| a0 | se GSF | BG ces lees LP} Total [wm Ct 500) ° te 1 5 1 18 2 1 22 F 10 10 2 § Lod, 3 14 F 18 1 19 3 § 3 1 1 5 “FF 4, 8 12] ] 1 5 LO; 17} 59 7 65{ 10} 9 196 F l 2 1 4 5 8 L L 1 1 1 1 1 7 F 6 6 6 2 | 2 ll 6 19 F 2 2 7 § 14 14 F 6 22 5 us 1 35 g § 1 1 1 1 30 1 35 F 1 1 1 3 g § 35 1 LL 7 2 56 F 1, 10} 22) 5 19} 4 17 78 io 5 | 29 1 4 1lj 1 3 13) 52 ll} 1 126 _*F 7 20 3 2 13 47 698 --- Page 24 --- Surtdues Jo owt} Je quesoeiad OTASTAeQoORAeYD = X + Gl Lag | n ae) Zz hy 0 i, aad @ w Qa n Q Q ° © land @ =} 5 ny 9 a i) Kn o -. cr \* m < c G fo ~ > =] > ° aD ia} iy & i) ° 3 =) jon BeOS au < Q f& 3 n F th Qa Qu 7 Qu (0) > i= [e} ies > f iy _ ~ n n n 3 cr ct er w La} ~ oO SS ct o} o (v) e ps ° i?) ct e {o) rh Qa Q n fe) wn ue] io} G ~ ~ ° 3 or) < aq ct is) o) n @ 8 Le] ~ ~ w vy aq cy o oO ° ~ - @ wn (o) ® oQ ct n n fo po @ 0) ct n | end {eo} =} “C/61 SMOTTOH @SNOYTITIS se] 7e suoT JERS Butitdues [{,ey pue Zujids Zurztrzeqoezeyo uotqejadeA queutuopeid jo aouepunqe aATJeTel pue suotqdtzo9sap [er1eue,y yoorpeg “CT 8TdeL --- Page 25 --- 23a Table 13, Electroshocking results from Lakes Brownwood and Stillhouse Hollow, 1973. Species Brownwood Stillhouse Hollow No. Wt. No. Wt. Lepisosteus oculatus 2 0.9 Dorosoma cepedianum 2 1.5 36 a49 Carpiodes carpio 2 1.6 1 2.6 Cyprinus carpio 4 5.4 10 14.1 Ictiobus bubalus 1 5.2 Ictalurus punctatus ll 7.4 Morone chrysops 5 1.1 Lepomis cyanellus 2 0.5 4 0.3 Lepomis macrochirus 9 1.0 22 0.9 Lepomis megalotus 2 0.2 4 0.2 Lepomis microlophus “ 0.7 Micropterus punctulatus 1 1.9 Micropterus salmoides 20 12 14 19.4 Pomoxis annularis 1 0.5 2 1.2 Aplodinotus grunniens 5 Led 68 34.0 96 47.4 Total --- Page 26 --- a Ddys 0° 002 o°L 0°89 O'°ST O°OLT 0 S°? LE 0°02 L¢ 0° 06T LoL 0°89 O°sS O°OLT 0 S°% 7°8 0°04 LT 0° 061 1°8 0°89 O'S O°O8T 0 co’? 0°6 O°TL Z 0° S61 8.2 0°89 O'S 0° 081 0 Sas 0°6 O'CL aoeFANS €L/8/1T 0° 061 18 O°S# O°s 0°071 0 c°Z o°s 0°08 9¢ II 0° 061 €°8 0°'SS O'S O°OLT 0 Ss"? O'l 0°78 91 0° 061 €'8 0°SS O'S 0°08 0 S'¢ O°L 0°?8 9 0° 061 7°8 0°SS o's 0° 081 0 S°?¢ m4 0° €8 aoeyans §=€21/17/9 0° 0072 L’L O°SL o’sS 0°00¢ 0 S°?é (am 0°79 ool 0° 002 e°L O°Sd O°OT O°OT? 0 G°?é Tt 0°79 06 O° OT? Gil O°SL O°OT 0° 002 0 S°? €'1 0°99 08 0°00¢ 6°L O'SZ o°s 0° 06T 0 GS"? ct 0°89 OL O° OT? 8° L O°SL O°OT 0°08T 0 S°?é cL 0°89 09 O°OT? Br 2 0°89 o°s 0°08 0 c°S G°L 0°89 Os O° OT? Bil O'SL o°s 0°O81 0 S°? aL 0°89 Ov 0° 002 9°8 O°SL O'S o°Ost 0 c's? evL 0°02 O€ 0°00¢ 0°8 0°89 O'S 0°O8T 0 G°?@ el 0°04 0c 0° 002 0°8 O°SL o's 0° O8T 0 G°? e°L 0°OL OT 0° O8T T'8 O°SL O'S O°OLT 0 c"z va O°IL soeyains €L/8/Ti 0°00¢ OvL O'SZ O'S O°OST 0 0°S 0°9 0° €9 Oot I 0° 002 O°L O'SZ O°S 0°O09T 0) 0°S 0°9 0°S9 06 0° 002 OL O°Sd O'S 0°09T 0 Cc"? o°l 0°L9 08 0° 002 O°L 0°OL O'S 0°O9T 0 S°? o°l 0°89 OL 0° 007d O'L O°OL O's 0°091 0 a4 OL O°?L 09 0° 002 O'L 0°02 o°s O°OLT 0 S°% O'L O'CL OS 0'Sél O'l 0°S9 O'S O°OLT 0 c°? 0°6 O°9L Ov 0°Sé6l Ltd 0°S9 O'S 0°O9T 0 G*? 0°Or 0°82 OF 0° 061 TZ 0°S9 O’S 0°O9T 0 S°é O°lt 0° SZ 02 0°06! eZ 0°99 O'S o'09T 0 S°? O°lt O°8L Ot 0°061 tL 0°S9 o°s 0°091 0 c'? O°Tl 0°08 eoezins €L/1¢/9 (udd) - prey (add) (nif): qanz (add) -41V (udd) -3aILVv (add) (udd) (dg) dueL (33) qadaqg “ON [BIOL Hd 19 “yore “OW qa-yd CQ £0 LOVeM at dues 978d “B35 “€/61 ‘MO[TOH eSnoutT {13S aye] {sasky,eue attjoad Atajem [ley pue Butads jo sqjnsey “yy eTqeL --- Page 27 --- 60°T €€°O c0°O oT’O 90°0 TO0*0 TO’0O TO°T CooL OL°LT 69°C BS" 4 Sq1 JON JO “AZ OST" "IM 07° T ST°T Sc°0 08°0 o0€*O TO*O S0°0 09°0 ce°0 $9°0 00°T Get*o G6°C SB°e GS°L S7°T JON FO “AF OST/*ON 99°C TES 07"? ragiear4 99°T uli “SAV 6°0 €°0 T‘0 z°0 z°0 T°0 T*0 T°O 9°0 "8 L°0 7°E 27°C 9°47 7°0 cre SqT “aM “SAV 8° eT8 6°T? 9°9 7°0 eT z°0 T°0 6°9 9°47 6°€6 Tel c°02 S°77T 6° EGE L°es G*T6 sql “aM yTeqOL coy 9¢ €¢ 9T cl €T 0¢ 6S iL TST 6¢ TeIOL unip 2a,eMYysety ogddezs a3T4M ystyuns aeesuo'] ystzuns [[T3en Td ystyuns ievapey ystjuns usei9 yqnouzeM sseq YyNoues1e 7 sseq o3TUM ystzzeo peeyzeTa ysty eo Teuuey) die) zoyonsdies AaATY oTeJJNq YyINowy[eUS peys paezzi1y 1e3 asousu0, Sotoeds * ON TeqOL *ya0JJe Jun aod yo eo BUTpNToUT ‘poomumoarg eye] wor peTtTdwoos ejep Burtq}eU TITS E€/6T JO Aaeumng “CT eTqPL --- Page 28 --- Hwy. 279 -26= FIGURE 3. LAKE BR OWNWOOD F.M. 2125 =a LEGEND Netting Stations.....cccce Seining StationBb...ccccce- Water Sample Stations..... a SCALE -b-——— 2.3 miles ——+| deinch - approximately 1,500 feet --- Page 29 --- =2] = Table 16. Spring and fall gill netting results by station, from Lake Brownwood, 1973. Species 1 8 9] 1 1] 1 : 17 F/il}5]1]1 1 3 12 > Ss 10] 3 | 4 a 1 2] 1 23 F}2]/i10j)3;4]/1]}1]1 1 1 3 27 3 8 6 1{2]2 1 12) 24 F 6 | 9 1] 1 2 2 21 4, Stilt 4a]1]s 2 1 1 2 17 F 12} 1 | 3 16 5 Silt 5s] 7] 7 2 1} iu}. 2 1 28 F/1l{9]4] 11 2 1 28 6 s 2)4]4]1]2]2 2] 1 2 20 F |} 5] 71] 17] 6 2 1]. 39 7 Sil] o]3}4]2].1 1 18 F | 2 l 1 2 7 g s | 1] lo] 1] 2 2} 3]1]1 2/4] 1;2]1]4 35 F | 7] 12] 4] 4 2 1 2 5 37 g S|1l] 21,5] 1 1 2) 3 l 35 F{5| 2] 4 1] 1 1] 1 1 16 10 S 1 1 H 3 F | 2] 15] 6] 2 1 3 29 --- Page 30 --- -9- asaeds = ¢g ‘uoumog = 9 ‘quepunqy ZuT[duUes Jo wT] Je Quasead oTAZSTAaqQOeTeYHD rg 4 Q hy 0 tH oe Q 2) Q W Q ° a hs oO f=) =) ie) cy ~ KR e ~ re < G c % ae) fo =} ~o i" 4 » ° 3 3 Qu | a < © © 3 — a A. Cc a (0) e) ® Qu ry ro rt) e 5 2] n 3 ct ct - n ¢ ae) ~ ct ° © o = 3 ° ° ° Fh a Qu ) fo) G me ~ o 7) < aq ct ° © Ao) @ Rn 4 no) e ~o gq ~ oO @O e @ wn oO ite] ct n n fo i) o @ cr n re ° 3 °C/61 ‘poomumoig eye] 3e SUOT ERS Buttdues [Tey pue Butads Burz{TrzszoPzeyo uoT}e}a8aA JUeUTMOpeId Jo BsoUEpUNGe sATRRTEA pue suUOoT IdTA1ISep [erT9UAD Ve X * ul yoorpeg “ZT 8TqPL --- Page 31 --- Table 18. Spring and fall seining results by station, from Lake Brownwood, 1973. Species 73; 3 1140 341 9 52 18 --- Page 32 --- -30- 0°O8T @°8 0°86 O'SS O°OIT 0 G°? 1°83 0°€9 O€ 0°O8T 7° 8 0° 86 0°02 O°OTI 6) c°? €°8 0°79 0c 0°O8T 7°8 0°86 O°Oor O'OTI 0 G°? 8°8 0°79 OT 0°061 7°38 0°86 0°02 O'OIT 0 c°7 8°8 0°79 soesansg = =€L/T/TI 0° 06T ia 0°S6 0°O0T 0°OcT 0 G°? 0°9 0°62 Gc II 0° 061 c°S 0°S6 O'S 0° O€T 0 G°Z o°L 0°62 GT 0°O8T S°8 0°S6 O°O€ O°OEl 0 G°? 0°s 0°08 G 0° O8T G*8 0°S6 0's? 0° OET 0 G*? 0°8 0°08 aoeFians €L/L7/9 0° O8T €°8 0° 86 0°S6T 0°OcT 0 G°? L°l 0°99 09 0°O8I t'8 0° 86 0°02 O°SéT 0 S°? B°L 0°99 OS 0°O8T €°8 0°86 0°02 0°O7T 6) aarA BrL 0°99 Ov 0°O8sT €°8 0° 86 O°OT O°SZT 0 G°? Bil 0°99 O€ 0°O8T €°8 0° 86 O°ST O°'OcT 6) $°? BrZ 0°99 02 0°O8T €°8 0° 86 0°02 0°Od!I 0 G°Z Brl 0°99 OT O°OLT €°8 0°86 Q°ST 0°SZT 0 G*? Br L 0°99 goeFins €Z/1T/1T 0° O06T 0's 0°S6 O°ST 0°O2T 0 S°7@ O°? O°SL 19 I 0°06T 8°L 8 60°S6 0°ST 0°02T 0 S°Z 0°72 O'Sss LS 0° 06T €°8 0°S6 0°OT 0°O7cI 0 S°Z 0°? o°Se LY 0°O8I €°8 0°S6 0°OT 0°02T 0 G°? O’e 0°94 LE 0°O8T 0°83 0°S6 o°s O°OTT 0 S°Z Ove O°LL 1749 O°C8T 7°8 0°S6 O°OT O°OcI 6) Gc’? 0°8 o°sZ £C 0°O8T 9°L = §=6—0°S6 0°OT O°OIT 0 o°7 0°8 0°64 LT 0°O8T c°8 0°S6 o°s O°OrT 0 G°Z 0°8 0°62 L 0°O8T 0°8 0°S6 o°s O°OlT 0 G°?Z 0°8 0°62 soesans €L/97/9 (udd) * prey qudd) (nir)*qany (add) *31V (udd)-41V (udd) (add) (4_)* daz, (33) q3deq “ON [e201 Hd _19 "yore ‘O'W qa-yd “00 Zo °xaaeM at dues 27e¢ "23S °€/61 ‘poomumoig eyeyT fsaskyTeue aTtjoid rzaqem [[ey pue Butads jo sqrnsoy’6l FTaeL --- Page 33 --- -31- FIGURE 4. L AKE GRANBURY 8,500 SURFACE ACRES fo LEGEND S.H. Netting Stations........ # Seining Stations..... eos I Y/ Water Sample Stations... A SCALE p——~ 3.5 miles — 7/8-inch - approximately 8,000 feet --- Page 34 --- Table 20. Spring and fall gill netting results by station from Lake Granbury, 1973. _ _ Species Stao wel se les SMB | RCS | CRP cce| rer WB_|STB|LMBISB | BCG |LES|RES Total 1 8 1) 4 3 1 9 F 2 | 8 1 1 1 13 9 § | 5 6 | 2 5 18 F | 4 Ly, ae2yih L 2 12 3 8 12 6} 1 2 1] 2 24 BR 2 3 3 2) 1 11 4 8 8 1 1 3 1 1 15 F 18] 9 4 5 1 1 38 5 S { 10 5 13 33, 1 | 2 22) 1 1 90 fF 6 1 1 jl 1 1 11 6 ° 8} 3 | 3 11} 18) 3 i 1 48 F 11} 10} 4 | 9 | 2 1 {5 1 | 3 Lj 2 49 7 § 7 1 1 2 2 1] 1 15 F jl 1 | 27} 10} 9 7 2 1 4 62 g 8 1 1 1 3 B Lo 2 2 4 1 2 30 g § S| 2 1 2 3 11 Foyi 5 1 2 1 3 | 3 16 105 |° 4 1,4 ] 2 | 2 1 2 1] il 1 23 FS 6,4 ]6 44 1 3 7], 1 37 535 --- Page 35 --- -33~ c° L847 GES TeIOL 9€°0O 09°0 - 9°0 ZL 71 wnip re,eMyselg 97°0 Gc°T 88°C 4°O Z°6 GZ atddezo a314uM c0°O GT°O - T°o b°O is ystyuns zeasuoT TE°O 09°? - T°0 z°9 ZS ystyuns [[ Tent TO°O o} eae) = T°0 z°0 4 ystyuns aespey cT"O GéZ°0 LOG S°0 4°72 ¢ sseq yjnowesie7, €0°0 S0°0 TES L°0 L°O0 T sseq poeqjods 97°0 0€°0 €2°2 G*T Z°6 9 sseq pedtzqs 6S°0 S8°0 87°C L°0 8° TT LT sseq 937T4M 80°T Se°O0 €0°? T°€e 8°? L ystzqeo peoyweyT a L£S°T $9°T 88° T O°T WTE cE ystyieo Teuuey) LY°€ 08° - L°0 7°69 96 die9 €7°C GG*T - 9°T G° 8H Te Jeyonsdies AJsATY ote o7't - T°? c°evT 69 oT es FNq YINouyT T eus Oe*T O7°L = z°0 0°92 Vaal peys paez2t) TLZ°% GS*T - O°e €°6 ITE 1e8 ssousuoy L£e°0 S0°0 < €°S €°s I te peqjods 3eN FO FON FO rrp: iy “aM “aM “ON "33 OST/"3M °33 OST/*ON “SAV “SAV TPIOL TeIqOL *}2a0FFO YIun aod yoJeo Butpn{ouT ‘Aanqueszg aye] WOLF patidwoo eqep Burqqeu [{13 ¢/6T Jo AaBwUNS “TZ eTGRL --- Page 36 --- -34- Table 22. Spring and fall seining results by station from Lake Granbury, 1973. Species Sta. i BHM|CCF|MF |MSS |BSS|LMB|SB_ |GSF|BG == LP 1 5 140 1 F 156 172 1 | 2 2 2 § 429 3 F 1 al 3 8 290 2 2 F 112 4 1 1 4 § 101 3 F 9 7 6 1 5 § 41] 2 | 62 1 | 31] 9 1 F 66 7 1 6 °° 79) 35 6 F 5. 3 8 3 7 5 23 1 6 l F 20 1 iL g § 1 | 6 17 4 a 1 3 16 9 § 1 12 1 F 9 1 12 10 § 1 | 39 8 10 F 1 28 Total 188 197 497 289 333 127 129 24 162 75 L3d 20 53 39 36 90 45 71 68 94 2668 --- Page 37 --- aszeds = § Suowmo0) = 9 SjUepUNqY = V xx But, dwes jo owiq 4e quasoad oT4stTaAsqoereYy) = X x YS Sy Ss X xX XK XxX X OT VS Vv Vv VS X xX xX X XX 6 ) VS i) Vv s Ss ! X xX xX XxX 8 | S$ § vo x X l | z \ Ss S§ VV Vos VS is) S| xX Xx X xX X 9 a) s $s vVeV VoO Vv 8) s S$ X xX xX X xX G S vs fv Vv S X xX xX 7 j m vosiv¥ v | Xx x xX € VoeV Vv Vv 8) xX xX Z VoeYV 30 X ¥X I — Gs iS £8 G5 G5 25 431... = nl — no on 5) ee fe) ed é S h ® 5 5 n ® om 4 a} 0) B45 ce Sf * ie) fo 3 ° a i) A - & A&A ¢€ «@ © ° n 5 n a os n wn =} o a a an on ~ es an) R ao) © a) ae] ct o 2 — r ct e . . ° rh a ion a ° a ° re c te 42) 5 E a < og +r OQ Ks E>] @ 8 aS) ae) a Sy ga » Oo ~ nO ~ o n @ ‘ ue) aq ct n na : iy pb © tr Ee ° 5 "€/61 ‘Aanqueiry aye] 3e suoTjeqs BuT{dwes [j[ejz pue Sutids Surztiaqoeieyo uotAeVasen YUueUTWOpeId Jo voUepUNGe DsATIeTOI pue suoTzdIaosep [eaeusey “EZ FTG --- Page 38 --- Table 24. Results of spring and fall water profile analyses; Lake Granbury, 1973. ~36- Sta. Date Sample Water, 05 C05 ph-th M.O. Jack. ci” Total No. Depth (ft) Temp.( F) (ppm) (ppm) Alk.(ppm) Alk.(ppm) Turb.(JTU) (ppm) Hard. (ppm) 6/6/73 Surface 82.0 8.0 2.5 0 120.0 5.0 650.0 420.0 5 79.0 8.0 2.5 0 120.0 5.0 650.0 470.0 15 78.0 8.0 2.5 0 120.0 5.0 650.0 470.0 25 77.0 8.0 245 0 120.0 5.0 650.0 480.0 35: 75.0 7.0 2.5 0 120.0 5.0 660.0 490.0 45 68.0 2.0 209 0 140.0 5.0 720.0 510.0 55 67.0 220 2.5 0 140.0 10.0 760.0 540.0 I 65 64.0 10 2 3 Q 140.0 10.0 835.0 . 590.0 10/24/73 Surface 72.0 7.6 2.5 0 105.0 10.0 700.0 470.0 5 72.0 7.6 2.5 0 105.0 5.0 715.0 480.0 15 72 <0 7.5 2.5 0 105.0 5.9 705.0 480.0 25 72.0 725 2.5 0 100.0 5.0 705.0 480.0 35 72.0 7,5 2.95 0 110.0 5.0 715.0 480.0 45 72.0 7.4 2.45 0 100.0 5.0 700.0 480.0 55 72.0 7.3 2.5 0 100.0 5.0 685.0 480.0 65 7260 13 2.5 0 100.0 20.0* 690.0 480.0 6/6/73 Surface 80.0 8.0 29 0 120.0 5.0 620.0 510.0 12 78.0 7.0 2.5 0 120.0 5.0 700.0 520.0 22 77.0 6.0 2.5 0 130.0 10.0 710.0 520.0 32 76.0 4.0 2.5 0 130.0 10.0 710.0 520.9 II 42 75.0 3.0 265 0 140.0 10.0 730.0 530.0 10/24/73 Surface 72.0 8.6 2.5 0 100.0 20.0 394 .0 280.0 10 72.0 125 2.5 0 100.0 25 «0 364.0 260.0 20 72.0 736 2.3 0 100.0 20.0 364.0 210.20 30 72.0 6.2 2.5 0 100.0 30.0 394.0 290.0 40 72.0 3.6 2.5 0 105.0 30.0 545.0 370.0 I --- Page 39 --- -37- FIGURE 5. LAKE CREEK 990 SURFACE ACRES LEGEND Netting Stations....... Seining Stations....... Water Sample Station... --- Page 40 --- -38- Table 25. Spring and fall gill netting results by station, from Lake Creek, 1973. Species 1 ) aE 10 5 | 4 4 14 1 1 40 F 1 1. 5 1 L 9 2 S 1 9 11] 6 4 1 32 F i! 9 414 1 2 3 1 1 4 30 3 S 7 12| 3 1 1 1 25 F 5 2 2 5 3 17 4 S) 5 2 3 2 ib 1 4 1 19 F 2 3 8 1 i 1 1 2 19 5 S 1 10 1 2 2 1 2 18 1 1 6 45 F 1 10 3 Z 2 3 5 1 3 30 --- Page 41 --- -39- L°ele 997 TeqoL 1S’ 09°T = 6°0 T°ST OT etdeqtL LT°O os’°O ~ €°O E°T C unip teqemMysety 09°0 O1'T 88°Z 9°0 0°9 Il atddeazs 93T4M 10°0O OT°O - T°0 T’°0 I ystjuns iresuo0, z8°0 00°S = z°0 z°8 Os ystjuns [[T3enTd S0°O olomae) = Z°0 G°0 € ystjyuns izeepey L£0°0 02°0 - 26 1°0 Z ystjuns ueei9 c0°O (oy ae) - Z°O Z°O I yqnowseMm OTT 00°T 07°C 7°T 9° TT Ol sseq yRnowes1e7 81°0 o€°Oo VEC 9°0 8°T € sseq peqjods s0°0 0z°0 - Z°0 c‘0 z ystyeTpeeu oTqUeTIV €6°O OT*O 00°¢ €°6 €°6 T ystyqeo peoyweya 91°? OT*e 9L°T ert 7°14 Te ystyqeo Touuey) OL°TT OTS = €°? O° LTT TS die9 ¢9°0 O£°O - 7°72 c°9 € aeyonsdies A9ATY 89°0 Oc*- - c°? £°9 € oTeygnq YQNouyTTeUsS LY°€ 08°9 = ¢°0 L°ve 89 peys prezzo 09°0 07°0 = oO°E 0°9 Z 123 ssousu0t £S°0 O€°O - 6°T L°S € ae3 poaqjods s (sq1 3eN Jo ION FO aly “aM "aM “ON “33 OST/°3M "33 OST/*ON "SAV "SAV [eqOL [eIOL *yz0JJe YTUN aed yoReD BuLpNToUT ‘yeeI9 oye] wWory pattdwod ejep But} aU TITS E76] Jo ArweuMUNg “97 ET GPL --- Page 42 --- =O Table 27. Spring and fall seining results by station, from Lake Creek, 1973. Species 1 NS) 8 7 1 1 17 F 3 5) 1 1 2 12 9 S | 42] 3] 14 59 F 14 20 2 26 3 8 1 1 1 1 4 F 1 2 3 4 8 1 7 8 i 17 F 1 1 2 5 § 7 1 1 28] 2 3 42 F 11 10 1 1 23 205 --- Page 43 --- ty 1 = But,dues jo aut} We quosead oTystazaqoezreyp = % adojts prdey Keio pues TeaeIy yooripeg Q 8 fo Pu G iy) po n ry ie} ~ @ $901} po .epunuy eds xXTTeS ‘ds sndatos *ds Uoj}os0MeI0 aes[e snoquswe[ Ty soessei3 poqepunuy UOT}zeIaZVA JO pToAsgq “€/61 ‘yaeI9 Bye] 7e suoT ERS Suttdwes [[ey pue ButTads BuTztTrsejoPreYyO uoT}e1930A JUeUTMOpeId Jo soUepUNge ZATIeTOr pue suotjdtiosep [eisuey gz ST Qey --- Page 44 --- ~42- A 0°02 cL O°SLT 0°0SZ 0° 022 0) c*z BT 0°18 ce 0°002 €°8 =O'SLT 0'OT 0° 071 0 c°Z 84 0°18 SZ 0° 002 E'S -O'SLT 0°01 0°0ZI 0 G*Z 9°sS 0°28 0z 0°002 9°8 O0°O8I 0°01 0…