- Page 1: The Determination of Minimum Flows
- Page 5 and 6: 3.5 Dissolved oxygen concentrations
- Page 8: DRAFT LIST OF TABLES Chapter 2 - Ph
- Page 11 and 12: Fig. 2-21 Temporal trend of specifi
- Page 13 and 14: Fig. 3-25 Fig. 3-26 Fig. 3-27 Fig.
- Page 15 and 16: Fig. 5-22 Average daily water level
- Page 17 and 18: DRAFT TKN TN TOC TOC TSS UF USDA US
- Page 19 and 20: DRAFT biological sampling in the sp
- Page 22: DRAFT Acknowledgments This report i
- Page 25 and 26: 1 - 2 DRAFT at which further withdr
- Page 27 and 28: 1 - 4 DRAFT Lastly, the effects of
- Page 30 and 31: DRAFT CHAPTER 2 PHYSICAL AND HYDROL
- Page 32 and 33: DRAFT Problems with high coliform b
- Page 34 and 35: DRAFT Figure 2-5. Diagram of Sulphu
- Page 36 and 37: -4 -3 -2 DRAFT A bathymetric map of
- Page 38 and 39: DRAFT Diversions from Sulphur Sprin
- Page 40 and 41: DRAFT For the evaluation of minimum
- Page 42 and 43: DRAFT The minimum flow rule for the
- Page 44 and 45: DRAFT Formation and act as a hydrol
- Page 46 and 47: DRAFT apparently declined over time
- Page 48 and 49: DRAFT There is evidence that flows
- Page 50 and 51: DRAFT Since April 1999, the USGS ha
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DRAFT Figure 2-21. Temporal trend o
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DRAFT 7000 8 6000 7 Specific Conduc
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DRAFT 8 A Gage Height (ft) Daily Pu
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DRAFT While visually compelling, th
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DRAFT The experimental withdrawals
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DRAFT In the absence of pollution,
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DRAFT Table 2-4. Results of Kruskal
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DRAFT 3.3 Tidal water level fluctua
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DRAFT Figure 3-3. Stage duration cu
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DRAFT 1999 2000 2001 2002 2003 2004
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DRAFT Table 3-1 Summary statistics
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DRAFT duration of low flows and the
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DRAFT northern shore of the upper s
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DRAFT 3.7.3.3 Results of FWC qualit
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DRAFT waters. Other species that oc
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DRAFT abundance estimates in number
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DRAFT Crustaceans also increased gr
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DRAFT and possibly even high sulfid
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DRAFT Table 3-2. Number of individu
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DRAFT 3.9 Relationships of Sulphur
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DRAFT 400 1940 1950 1960 1970 1980
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DRAFT Figure 3-11. Time series of p
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DRAFT data collection since the spr
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DRAFT Figure 3-13 HBMP & EPCHC 2000
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DRAFT The 15-minute data from the U
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DRAFT Figure 3-16 illustrates salin
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23 24 28 29 DRAFT Figure 3-18, 3-19
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DRAFT presented in this report. Dis
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DRAFT Figure 3-23 EPCHC Period of R
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4 15 DRAFT 10 11 12 13 14 15 16 17
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DRAFT underway to test the effect o
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DRAFT In general, these studies dem
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DRAFT 3.11 Thermal characteristics
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DRAFT 1991 1992 1993 1994 1995 1996
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DRAFT 3.11.2 Thermal characteristic
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DRAFT 35 35 Median Water Temperatur
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DRAFT February 2002 when there was
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DRAFT Figure 3-32 4 3 2001 2002 200
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DRAFT The effects of removing or re
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DRAFT 4.3 Consideration of seasonal
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DRAFT Lastly, the relationship betw
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DRAFT brackish waters often extend
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DRAFT brackish marsh plants such as
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CHAPTER 5 RESULTS OF THE MINIMUM FL
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DRAFT Table 5-1 includes dates and
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DRAFT Figure 5-2. Location of verti
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DRAFT Experiment Number 5 Experimen
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DRAFT The number of days of record
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DRAFT There were some flow rates ab
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DRAFT Table 5-2 Number of days and
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DRAFT the river do not penetrate th
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DRAFT occurring. The data discussed
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DRAFT Maximum Daily Stage Minimum D
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DRAFT greatest (see Section 3.3.7.4
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DRAFT prevent excessive expansions
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DRAFT Table 5-3. Volumes of water <
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DRAFT Scenarios 6 through 8 in Tabl
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10 23 17 24 25 28 29 DRAFT Figure 1
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8 10 22 22 23 25 28 29 DRAFT Figure
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23 24 25 DRAFT Figure 20 - 21 Eleva
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DRAFT The biological data collected
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DRAFT Water levels dropped below 19
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DRAFT 5.5.2 Methods and description
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DRAFT Figure 5-23. Model domain for
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DRAFT requirements of a thermal ref
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DRAFT Figure Temp 24 (C) Sulphur Sp
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DRAFT 5.5.8 Time series of water te
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DRAFT Figure 27 Temp (C) 22 Sulphur
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DRAFT toward the end of the dry sea
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CHAPTER 6 LITERATURE CITED DRAFT Al
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DRAFT Krebs, C. J. 1999. Ecological
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DRAFT Southwest Florida Water Manag
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Sulphur Springs Water Quality 1991-
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Sulphur Springs Water Quality 1991-
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Sulphur Springs Water Quality 1991-
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Sulphur Springs Water Quality 1991-
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Sulphur Springs Water Quality 1991-
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APPENDIX B (from Chapter 3) Presenc
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Appendix B. Presence of macroinvert
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Appendix B. Presence of macroinvert
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APPENDIX C (CHAPTER 3) SULPHUR SPRI
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Appendix C. Percent composition of
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Appendix C. Percent composition of
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APPENDIX D. Percent composition of
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APPENDIX D. Percent composition of
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APPENDIX D. Percent composition of
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Appendix E. Abundance of macroinver
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BARE SAND FILAMENTOUS ALGAE COMBINE
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BARE SAND FILAMENTOUS ALGAE COMBINE
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BARE SAND FILAMENTOUS ALGAE COMBINE
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APPENDIX F (from Chapter 3) Summary
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APPENDIX G (from Chapter 5) Daily v
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Experiment Number 4 RUN MEAN RUN MI
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Experiment Number 5
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APPENDIX I (from Chapter 5) Daily v
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04AUG2000 7.1 7.5 1.4 2.9 1.5 . 11.
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14MAR2001 12.0 11.0 1.4 9.3 7.9 1.6
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