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Table of Contents
Abstract
Introduction
Geography
Physiography
Geology
Geologic History
Ground Water
Records of Typical Wells
Logs of Test Holes
References
Plates
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Table 9
Table 9--Analyses of water from typical wells in Stafford County, Kansas. Analyses by H.A. Stoltenberg. Dissolved constituents given in parts per million (a), and in equivalents per million (b) (in italics)
| Well Number |
Location |
Depth (feet) |
Geologic source |
Date of collection |
Temperature (deg. F) |
Dissolved Solids |
Silica (SiO2) |
Iron (Fe) |
Calcium (Ca) |
Magnesium (Mg) |
Sodium and Potassium (Na + K) |
Bicarbonate (HCO3) |
Sulfate (SO4) |
Chloride (Cl) |
Fluoride (F) |
Nitrate (NO3) |
Hardness (calculated as CaCO3) |
| Total |
Carbonate |
Non-carbonate |
| |
T. 21 S., R. 11 W. |
| 21-11-20ab |
NW NW sec. 20 |
25 |
Meade formation |
26-Oct-42 |
|
|
|
|
|
|
|
|
|
8 |
|
|
|
|
|
| 21-11-25ad |
SE NE sec. 25 |
36 |
Meade formation |
26-Oct-42 |
60 |
460 |
|
0.3 |
42
2.1 |
10
0.82 |
119
5.16 |
259
4.25 |
28
0.58 |
91
2.57 |
0.7
0.04 |
40
0.64 |
146 |
146 |
0 |
| 21-11-27aa |
NE NE sec. 27 |
32 |
Meade formation |
26-Oct-42 |
59 |
2,150 |
|
0.11 |
131
6.54 |
10
0.82 |
664
28.89 |
382
6.26 |
116
2.41 |
895
25.24 |
1
0.05 |
142
2.29 |
368 |
313 |
55 |
| 21-11-30bc |
SW NW sec. 30 |
53 |
Meade formation |
15-Jun-44 |
59 |
261 |
|
0.08 |
73
3.64 |
6.4
0.53 |
17
0.74 |
243
3.98 |
2.5
0.05 |
18
0.51 |
0.3
0.02 |
22
0.35 |
208 |
199 |
9 |
| |
T. 21 S., R. 12 W. |
| 21-12-28bb |
NW NW sec. 28 |
85 |
Meade formation |
15-Jun-44 |
58 |
214 |
|
0.06 |
59
2.94 |
4.2
0.34 |
20
0.88 |
223
3.66 |
2.7
0.06 |
14
0.39 |
0.3
0.02 |
2
0.03 |
164 |
164 |
0 |
| |
T. 21 S., R. 13 W. |
| 21-13-3cc |
SW SW sec. 3 |
40 |
Meade formation |
26-Oct-42 |
58 |
323 |
|
0.06 |
74
3.69 |
7.6
0.62 |
42
1.85 |
296
4.85 |
14
0.29 |
33
0.93 |
0.3
0.02 |
4.2
0.07 |
216 |
216 |
0 |
| 21-13-26bb |
NW NW sec. 26 |
50 |
Meade formation |
15-Jun-44 |
58 |
297 |
|
0.02 |
70
3.49 |
7.2
0.59 |
37
1.62 |
285
4.67 |
14
0.29 |
25
0.7 |
0.4
0.02 |
1.3
0.02 |
204 |
204 |
0 |
| 21-13-31cd |
SE SW sec. 31 |
58 |
Meade formation |
26-Oct-42 |
59 |
247 |
|
0.07 |
69
3.44 |
8.5
0.7 |
14
0.62 |
244
4 |
8.2
0.17 |
14
0.39 |
0.4
0.02 |
11
0.18 |
207 |
200 |
7 |
| |
T. 21 S., R. 14 W. |
| 21-14-15cc |
SW SW sec. 15 |
40 |
Meade formation |
26-Oct-42 |
58 |
203 |
|
0.31 |
50
2.5 |
7.2
0.59 |
14
0.6 |
163
2.67 |
9.5
0.2 |
13
0.37 |
0.4
0.02 |
27
0.43 |
154 |
134 |
20 |
| |
T. 22 S., R. 11 W. |
| 21-11-2cd1 |
SE SW sec. 2 |
100 |
Meade formation |
15-Jun-44 |
58 |
1,959 |
|
0.48 |
86
4.29 |
22
1.81 |
631
27.44 |
362
5.94 |
159
3.31 |
835
23.55 |
0.5
0.03 |
44
0.71 |
305 |
297 |
8 |
| 22-11-2cd2 |
SE SW sec. 2 |
100 |
Meade formation |
21-Oct-42 |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
| 22-11-9bb |
NW NW sec. 9 |
400 |
Meade formation |
26-Oct-42 |
57 |
154 |
|
0.1 |
42
2.1 |
5.8
0.48 |
10
0.44 |
166
2.72 |
2.1
0.04 |
6.5
0.18 |
0.2
0.01 |
4.4
0.07 |
129 |
129 |
0 |
| 22-11-10bb |
NW NW sec. 10 |
18 |
Meade formation |
15-Jun-44 |
57 |
252 |
|
0.06 |
48
2.4 |
7.6
0.62 |
39
1.7 |
206
3.38 |
8.8
0.18 |
34
0.96 |
0.4
0.02 |
11
0.18 |
151 |
151 |
0 |
| 22-11-19dd |
SE SE sec. 19 |
46.5 |
Meade formation |
26-Oct-42 |
59 |
170 |
|
0.18 |
48
2.4 |
6.2
0.51 |
9.2
0.4 |
177
2.9 |
7.2
0.15 |
6.5
0.18 |
0.3
0.02 |
3.5
0.06 |
146 |
145 |
1 |
| 22-11-35ab |
NW NE sec. 35 |
75 |
Meade formation |
26-Oct-42 |
57 |
676 |
|
0 |
50
2.5 |
9.8
0.8 |
198
8.6 |
211
3.46 |
24
0.5 |
272
7.67 |
0.2
0.01 |
16
0.26 |
165 |
165 |
0 |
| |
T. 22 S., R. 12 W. |
| 22-12-1ad |
SE NE sec. 1 |
35 |
Meade formation |
21-Oct-42 |
|
|
|
|
|
|
|
|
|
1145 |
|
|
|
|
|
| 22-12-9bc |
SW NW sec. 9 |
116 |
Meade formation |
25-Oct-42 |
58 |
236 |
|
0.03 |
70
3.49 |
4.5
0.37 |
16
0.72 |
242
3.97 |
8.8
0.18 |
13
0.37 |
0.4
0.02 |
2.3
0.04 |
193 |
193 |
0 |
| |
T. 22 S., R. 14 W. |
| 22-14-32ab |
NW NE sec. 32 |
38 |
Meade formation |
26-Oct-42 |
58 |
274 |
|
0.14 |
78
3.89 |
7.5
0.59 |
17
0.75 |
259
4.25 |
13
0.27 |
18
0.51 |
0.4
0.02 |
11
0.18 |
224 |
212 |
12 |
| |
T. 23 S., R. 12 W. |
| 23-12-7ad |
SE NE sec. 7 |
22.6 |
Meade formation |
25-Oct-42 |
59 |
272 |
|
0.22 |
59
2.94 |
8.2
0.67 |
34
1.47 |
189
3.1 |
13
0.27 |
56
1.58 |
0.3
0.02 |
7.1
0.11 |
180 |
155 |
25 |
| |
T. 24 S., R. 11 W. |
| 24-11-11cc |
SW SW sec. 11 |
50 |
Meade formation |
25-Oct-42 |
57 |
340 |
|
0 |
70
3.49 |
8.3
0.68 |
51
2.2 |
255
4.18 |
14
0.29 |
64
1.8 |
0.4
0.02 |
5.3
0.08 |
208 |
208 |
0 |
| |
T. 24 S., R. 12 W. |
| 24-12-11cd |
SE SW sec. 11 |
60 |
Meade formation |
29-Oct-45 |
|
372 |
15 |
0.05 |
68 |
5.8 |
63 |
238 |
15 |
80 |
0.3 |
8.8 |
194 |
194 |
0 |
| |
T. 24 S., R. 13 W. |
| 24-13-4b |
Center NW sec. 4 |
83 |
Meade formation |
30-Apr-45 |
|
298 |
9.6 |
0.16 |
59 |
9 |
37 |
238 |
17 |
29 |
0.4 |
13 |
184 |
184 |
0 |
| 24-13-28cc |
SW SW sec. 28 |
68 |
Meade formation |
25-Oct-42 |
58 |
183 |
|
0.03 |
49
2.44 |
3.7
0.3 |
16
0.68 |
165
2.71 |
6.4
0.13 |
12
0.34 |
0.5
0.03 |
13
0.21 |
137 |
136 |
1 |
| |
T. 24 S., R. 14 W. |
| 24-14-22bc |
SW NW sec. 22 |
45 |
Meade formation |
25-Oct-42 |
58 |
281 |
|
0.06 |
74
3.69 |
7.2
0.59 |
25
1.08 |
266
4.36 |
16
0.33 |
19
0.54 |
0.4
0.02 |
6.6
0.11 |
214 |
214 |
0 |
| |
T. 24 S., R. 15 W. |
| 24-15-15cc |
SW SW sec. 15 |
73 |
Meade formation |
Mar-47 |
|
280 |
|
0.5 |
67
3.34 |
6
0.49 |
32
1.39 |
231
3.79 |
35
0.73 |
23
0.65 |
0.5
0.03 |
1.5
0.02 |
192 |
189 |
3 |
| |
T. 25 S., R. 11 W. |
| 25-11-15dd |
SE SE sec. 15 |
41 |
Meade formation |
25-Oct-42 |
59 |
288 |
|
11 |
68
3.39 |
6
0.49 |
21
0.9 |
183
3 |
17
0.35 |
20
0.56 |
0.3
0.02 |
53
0.85 |
194 |
150 |
44 |
| |
T. 25 S., R. 12 W. |
| 25-12-11cb |
NW SW sec. 11 |
39.3 |
Meade formation |
25-Oct-42 |
58 |
367 |
|
0.14 |
85
4.24 |
7.9
0.65 |
44
1.91 |
256
4.2 |
16
0.33 |
72
2.03 |
0.4
0.02 |
14
0.22 |
244 |
210 |
34 |
| 25-12-31dc |
SW SE sec. 31 |
26.7 |
Meade formation |
25-Oct-42 |
60 |
274 |
|
0.06 |
72
3.59 |
7.1
0.58 |
22
0.97 |
237
3.89 |
11
0.23 |
26
0.73 |
0.4
0.02 |
17
0.27 |
208 |
194 |
14 |
| |
T. 25 S., R. 14 W. |
| 25-14-29ad |
SE NE sec. 29 |
47.5 |
Meade formation |
25-Oct-42 |
59 |
262 |
|
0.1 |
74
3.69 |
7.8
0.64 |
14
0.61 |
244
4 |
8.6
0.18 |
15
0.42 |
0.4
0.02 |
20
0.32 |
216 |
200 |
16 |
| |
T. 25 S., R. 15 W. |
| 25-15-8cb |
NW SW sec. 8 |
48 |
Meade formation |
25-Oct-42 |
59 |
164 |
|
0 |
54
2.69 |
6.3
0.52 |
0.46
0.02 |
176
2.89 |
3.1
0.06 |
6
0.17 |
0.4
0.02 |
5.8
0.09 |
160 |
144 |
16 |
a. One part per million is equivalent to one pound of substance per million pounds of water or 8.33 pounds per million gallons of water
b. An equivalent per million is a unit chemical equivalent weight of solute per million unit weights of solution. concentration in equivalents per million is calculated by dividing the concentration in parts per million by the chemical combining weight of the substance or ion.
c. Analysis of treated water. Sample taken from tap at city auditorium.
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Kansas Geological Survey, Barton and Stafford County Geohydrology
Comments to webadmin@kgs.ku.edu
Web version Dec. 2001. Original publication date Dec. 1950.
URL=http://www.kgs.ku.edu/General/Geology/Barton/table9.html
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