Ann. d. Hydr. usw. 1936
|
A. Vor Beginn der Verankerungsperiode,
I. „Hunte*,
Fiefe Tempe! Salze | Sauerstoff- |
C pe) Salz- Ta
, ratur | gehalt Dichte gehalt
I GC Oo | ot Sem [ze ceh.|
Stat, Hi. 7. VE. 22h, = 54° 26,5 N;
- 42° 115° 0, .
3 | 2611| 7.52 | 493 | 6.73 | 829
5 | 1507! 750] 493 | 655 | 948
:0 | 13.35 | 7.66 531. 6381 | 884
15 | 10.88 1 — —_ 524. | 78.4
% | 10.07 20.63 15:80 | 457 | 64,7
3 8.67 | 24.72 | 19.04 | 2.96 | 41.9
Stat, H2. ” III 240, =. 54° 22° N;
As 11° 57 0.
0 | 2469| 7.52 | 498 | 6,35 | 91.4
5 | 1467| 750 497 | 635 | 914
0 | 14.66 7.48 / 4.95 | 529 | 76.0
5 | 13:63 | 16.08 | 11.74 | 5.73 | 848
Stat. HS 8, VTIE 2b 30m, @ = 54° 27° N3
11° 34,3 0.
15.09 | 853 | 571] 630 | 9L7
15.12 8511| 569 | 5.88 | SEE
} 15.14 8.50 5.67 | 633 | 927
15.13 851 | 569} 631 | 91.5
4 13.60 | 17.92 | 13.16 5.60 | 83.7
1 8.02 | 25.72 | 20.03 | 3.09 | 43.4
2 | 810 | 26.65 | 20.75 | 3.28 | 457
at. H4. 8. VII. Sk 30m, dp 54° 36° N:
k= 11° 9.80.
2 |] 1608| — — ) 588 —
5 | 16.54 814! 5.16 629 | 941
10 | 16.74 10:88 | 7231 | 8.15 | 93,5
15 | 1522 | 16,73 | 11.97 | 6.02 | 921
20 9.60 | 26.46 | 20.38 | 451 | 658
25 850 | 27.33 | 21.22" 279 | 545
%atı HS. ® WIIL 2m. = 84° 415° Ni
= 455 0.
d } 1660| 1017| 6.69] 5.89 | 89.1
4.9 | 18.69 | 10.15 | 6.66 | 603 | 91.4
99 | 17.62 | 15.27 | 10.37 | 497 | 79.4
{48 | 25.97 | 17.88 | 12.69 | 4.02 | 62.9
19.7 | 11.03 283,78 | 18.06 | 2.74 | 40.4
24.6 | 8.96 | 28.11 | 21.77 | 231 337
29.6 8.68 | 28.72 22.29 1 258 | 37.6
Stat. H6, <. VIIL 13 30m, gr 55° AR
| A=11° 28 0.
0 17.18] 9.25 | 5,88 | 2,95 | 58.1
44 | 17121 — |) — | 628 —
8.7 | 17.18 19.26 | 588 | 6.26 | 1125
3.1 16.27 12.04 2818| 608 925
‚7.4 8.74 | 20.64 23.00 | 5.49 | 80.4
21.8 821 30.45 | 23,70 | 5.33 | 776
26.1 8.23 | 30.52 | 28,76 | 5:48 | 79.1.
tat. H7, 8. VIIL 16% 15m, © = 55° 20,5’ N;
A=11° 23’ 0.
0 17.39 | 10.55 | 682] 6.04 | 93.0
4.7 | 17.16 | 10.64 — | 603 —
9.4 | 1497 | 1806 | 33.02 || 586 | 90.4
pr E-
Schulz, Bruno: Hydrographische Serien. im Kattegat, in der Beltsee und westlichen Ostsee unmittelbar vor und nach der Verankerungsperiode vom 10. bis 17. August 1931.
Tiefe / lrpem N Sal I | Sauerstoff: x f ‚Im a ; . TE mamma " Tem —. ] = N — AN - ’ ' — a | Vs | ———— — In a A = ni x —— 7 ; m. = an =.
d mpe-/ Salz“ | oichte | 1616/ "Tempe- Salz- | pn; | Sauerstoff- jefe | Tompe- Salz. | nun. Sauerstoff. | Tiefe I-rempe-| Sal ' Sauerstoff- Temna Salz. | | Sauerstoff“ - omine-| Salz. | ‚| Sauerstoff. {Tiefe | Tom © Salz. | || Sauerstoft- | Tiefe |Tempe-| Salz- \ ; Sauerstoff- |
n chte 7 De ' a ; Pe- Salz- | muht | Salz. pi 6: - | Di > "empe-/ Salz- |; 2 | ; shtel © f pe-, Salz- ' n; .
zn a Schalt sah gr ratur gehalt ichte‘ gehalt . ratur | gehalt nam] gehalt» X en er gehalt Dichte | gehalt vatı En gehalt Dichte: gehalt tar gehalt ‚Dichte gehalt Y nt gehalt | Dichte gehalt va ratur | gehalt Dichte | gehalt
9 4 pP 1 x a eo Ei s 5 a 7 * d A A Ü ) 3 rw nn | . f . | . ” N . | CV
Ö 700 et% eemft; | of m G. Mo N % eom/E | rel, Geh, IM. e( oe ot | cem/E ) ze, Sch, ed a@ | Mon et | con | zel Geh. | °C Dos et oemft, | FL A « m | SC | U | et | wem, |140ch] m °C ol ot wem, preh Oeh “m SC Ö | et | em (rel, eh
40 9,52 32.74 | 25.29 | — at. DM 6 WIE ve I" 5m,
50 5.12 | 32,90 | 26.02 — wu
55 | 7.90 | 32.07 | 25,71 | | — 354 102
Stat. S6. 7. VIE 12h 30, 9 = 57° 015 N; aA
19 03,5 0 A8 | 4683| — —
ı 19.20, 16.59 | 10.11 756 | 512 | — —
\7.41 | 18.31 | 12,78 105 | 536 | 5.64 | 80
Ab E- VIE 70 50m 18h
A „ 23.1 8’ N: 1= 12° 35' 0
! % . > ) AP .
al 17.55 | 2,38 | 4.37 | 6.50 | 101
1 | 8.28 | 32.90 | 25.60 | — | SR] Pf m |
50 6.38 | 33.58 | 26.41 | — BO 443 —
55 | 6.60] 33.60 | 26.39 | — Ai pasl a
MM CME AM 4,95 7.56 | 4.99" 695 | 98
Hab SEAT “8. IL 91h 20m 21h gAm,
a. $*
103
“fol 37
el hr , ZULO4
3.70 | 30.12 | 23.37 | 49 |
3,24; 30,86 | 24.01 | 5.28 77.2
791 a 5,28 | —
7.93 | 31.36 | 24.46 5.28 | 76.9
7.903 31.33 | 24.43 5.28 760
8.07 | 31.33 | 24.41 527 | 77.1
3.19. | 30.91 | 2407| 5.27 | 77.0
48, # WITT. Ah BCM 58° 46.8 Nr
m 473
6.87 13.28, 9.03] 606 , 93°
“ 6.93 13.62 | 9.25] 6.01 | 93;
37 16.94 nl 9.51 | 6.09 | 94.6
A6 | 1112 27,88 | 21.25 | 5.55 | 844
‚9.4 9.52 30.14 | 23.26 | 502 | 750
23.4 9.34 | 30.52 | 28.59 | 4.96 | 740
24.3 8.54. | 31.40 4 4.95 | 73.1
28.2 | 831 31.91 | 24.83 | 3.64 | 53.6 . .
38.1 8.31 / 31.92 2483 | 4.11 | 606 N. R. F, D. „Poseidon“.
5.1 8.30. | 3192 | 2484 5.17 | 76.38 Stat. P 1. 7. VII, 4b 31m_dh 50m,
itat, H9. 9, VIIE. 1P 30m, 9 — 58° PT = 54° 35.5 N;y Ä= 10° 26.5 0.
6 0. 5 | 27.73 | 1488 | 10.05] 6.10 | 96.8
0 17.86 | 16.15 | 10.98 | 5.87 | 94.2 5 | 17.62 | 14,97 | 10.14 6.16 976
5 18.20 | 16.60 11.26 | 587 | 95.0 10 | 17.62 | 15.765 ) 10,78 | 6.26 | 99.7
10 18.02 17.59 | 12.05 | 5.85 | 948 15 | 15.32 / 16,87 | | 6.53 | 100,2
14.9 | 1133 28,71 21.86 Ha 848 3 | 2.14 | 20.75 | 35.58 | 485 | 748
19.9 | 10.24 | 30.12 28.13 | 5.4 BE a
2,9 | 9.11] 31.36 | 24.28 | 5.42 80.0 tat P® * WITF Ru BEM, 54° SLN
29.9 | 9.08 | 31.36 | 24.30 | 5.24 | “21 | = ;
N - , © 5:4 0.291 6. E
Stat. H.10. 9. VIIL, 52 30, g==66° 24°"; 15:56 | 15:46 | 1031| 604 977
A= 11° 22“ 0, 17.70 | 16.13 | 11.00 | 6.31 | 100.8
3 f 17.27 | 16.67 ] 11.50} 5.03 | 94.4 ı , 15.93 | 18.53 | 13.19 | 5,90 | 926
5 | 17.29 | 16.67 | 11.50. | 5.94 | 94.4 20. | 11.75 | 22.50 | 17.00 | 451 654
10 | 17.27 | 17.12 | 11.85 | 5.96 | 95.2 35 8.77 | 24.65 | 19.10 | 4.00 | 566
15 | 16.98 38.10 | 1208 6,09 | 97,2 30 7,52 | 25.84 | 20.19 | 4.02 | 55,8
260 | 11.05 | 81.40 | 23.99 | 535 | 834 33 | 725 26.49 ' 20.731 245 | 34.0
%afı H11. 9. OTIL. Un 30M, @ — 56° 28.5* N; 3tar P3, 7. V7IL se LLh Om
L= 11° 39° 0 = 65° 8,3 Nı A= 9° 55,7" 0.
5 17.00 | 17.59 | 12.26 | 5.44 | 866 0 | 18.72 | 14.47 | 9.53|| 6.01 | 96,8
5 17.10 17.70 | 12.33 | 5.94 | 94.8 5 | 18.62 ' 1447 9.55| 602 96.8
6 17.11 | 18.06 | 12.60 | 5.78 | 92,5 10 | 18.70 | 14,89 | 9.84) 604 | 97.6
(4.9. | 17.33 | 18.51 | 12.90 | 5.73 | 922% 1 15 [| 18.10 | 15.88 | 10.73 | 635 | j%02.1
19.9 | 12.60 | 29.61 22.33 | 5.65 88:8 | 20 | 1252 22.04 17.19 3.90 | 58.9
49 | 11.25 | 31.89 | 24,34 | 484 | 76.1 25 9.64 | 24.72 19.08 | 2.32 33.4
9.9 ]} 7.04 938.129 92%5.96 | 3.98 | 57,5 | 27.5 | 7.62 | 25.59 | 19.99 | 247 | 343
u A, = 56° 38 Ne Stat. PA 19h “Om 13b, == 55° 15.2’ N:
53* 0. = 9° 48.5 0.
{7.56 19.09 | 13.28 | 5.74 934 18.45 | 16.00 | 10.75 | 6.08 984
17.68 | 19.16 | 13.31 584 95.1 18.32 | 16.02 | 10.79 | 6.11 98
{7.65 | 19.22 | 13.36 | 573 98.4 18.31 16.02 | 10.79 | 5.98 D6.E
17,37 | 19.60 | 13.71 | 6.65 | 107.8 ww 1782 | 16.49 | 11.25 | 6.08 97.4
14.39 | 25.66 18.94 | 5.09 © 81.2 0 15.80 | 18.95 | 13.54 | 5.26 32€
10.62 | 32,16 | 24.66 5,34 | 82.6 25 | 413 | 21.36 | 15.71 | 406 62.6
‚ 687 38.12 %.98 445 | 642 30.5 | :2.80 | 24.09 | 18.03 | 3.53 54.0
at. H 13. 9. VIIL 108 50m, @ = 56° 38° N; 3tat. PS. 7. VIIL 4b 36m 14h 47m.
Ä=12° 12 0. = 55° MM Ni 19° 44.8 0.
j | 1677 | 18.37 | 12.01 | 5.89 | 98,9 | 18,49 [| 16.18 | 10,87 | 6.16 | 99.8
5 17.34 | 18.37 | 12.78 | 5.89 94.7 18.40 | 16.15 | 10,86 | 6.31 102.2
39 | 17.32 | 18.46 | 12.85 | 5.79 | 91 | 18.39 | 16.18 | 10.89 | 5.23 100.£
40 | 16.99 19.24. 281 QR QLA 782 6 la © AA
A 20.0, 13,90
HE
18.45 | 416.49 | 4110 | 6.15 | 99,5 5 15.62] 27.32 19.971 %
18:50 | 16.47 | 1109 | 6.07 | 98.5 zU | 15.18 | 31.36 23.16 = ,
18:48 | 16.49 | 1110 | 53.94 96.4 | 25 | 15.21 32,38 23.02 | 5.03 | 851
17.71 1727 | 1186 | 6.87 944 | 30 | 1425 33.51 | 25.01 | 4.060 | 83.1
15.30 | 20.35 | 1471 | 485 76.0 | %0 | 13.12 | 33.89 | 26.53 | 3.45 | 804
14.28 21.96 1613 472 33 | 50 | 1812 3422| 26.16 | 502 | 846
11.23 | 27.07 | 2060 4,52 68.4 | %0 | 9.74 | 3441 26,55 | 5.40 | 83.6
| 108 27.54 | 21.06 | 4.44 | 66.6 1 75 | 8.04 | 34.60 | 26,97 } 542 | 8LO
10.59 | 27.70 2120| 442 | 6638 | Km HN
10.54 | 27.70 | 2120 | 433 | 648 tat. PI3. SID BON
PT. 7. VIIL, Th 5m 17m 55m.
„58° 38.9° N, A4=9° 18.8 0.
17.50 | 18.04 | 12.50) 577 | 929
| 16.50 19.96 | 14.16 | 5.90 | 94.4
15.73 | 20.94 | 15.07 587 | 932
| 10.75 | 28.08 | 2147| 491 | 74,1
Stat. P8. 7. VIII. 20h 2m 20h 44m,
P = 55° 41,8 N; A4= 10° 19.7 0.
‚| 17.48 | 21.38 [ 15.4 | 591 | 971
5 | 17.42 | 21.46 | 15.0 | 6.22 102.1
0 | 17,30 | 21.55 | 15.20 6.25 | 102.56
5 | 13.12 | 26.06 | 20.10 | 6.24 | 97.8
0 9.25 | 29.81 23.06 | 497 | 73,6
4 881.| 20.88 | 23.18 | 4.97 | 73.0
“as. P9, 3. VIIL 11h 35m. Jıh Flr
= 57° 20.1’ N; 4= 10° 444 0.
0 | 16.95 | 25.58 | 18.5 | 61 ] 937
5 | 16.67 | 25.48 | 18% / 5.65 | 93.7
10 | 16.38 | 27.30 | 19.79 | 5.59 | 93.5
15 | 13.61 | 32.07 246 5.22 | 85.6
20 | 11,39 | 32.75 248% | 5.03 705
31 10.07 | 33.03 | 25.8 | 5.00 | 77.4
Stat. P-10. 8, VIII 13h 17m__13h 38m,
9 =57°31.1' Ni 2-1 08 0.
17.62 | 20.77 ] 1452] 568 | 98.1
17.43 | 20.73 14551 — | —
17.50 | 20.77 14,57] 5,50 | 90.0
14:74 | 28.76 21.248 5,29 | 86.6
13.97 | 81.44 | 23.47 — | —
13.73 | 33.86 | 25.37) 5.29 | 87.8
2.49 2800 | 5.40% 470 | 77
7ILL 14h 57m— 15h RUM,
Y U A=1U 17 ©
14.80 | 20.49 | 14.29] 5,69
[7.90 | 20.47 | 14.26] 5.79
[7.88 | 20.48 | 14.27) 5.74
‚6.01 | 26.90 | 19.57 5.34
(6.38 30.66 22351 5.22 .
3.90 | 3131 | 2274| 5.24
708 | — DO _
5.61 | 32.52 23.95 4.84 2.4
‘4,83 33.17 2462 486 32.1
3.50 | 33.78 | 25,37 5.46 30.4
] 12.80 | 38.91 | 25.61 | 5.21 | 853
Stat. P12. 8, VIIL 168—16h 55m,
= 57° 32.7 Ni = 10° 30 0.
D | 18.20 | 20.08 | 13.89 | 5.60 ! 92
x 18:19 | 9007 18.80 Kal ai
iM, = 56° 23,5 Ni
; 18.15 | 18.4. | 226
E 38.17 | 18.46 | 12.67
€ 18.17 | 18.46 | 12.67
33 ] 17,94 | 18.78 | 12.93
20 10.50 | 31.67 | 24.30
25 6.41 | 33.28 | 26.17
30 5.29 33.75 | 26.67
34 | 5.20] 33,78 | 26.72 |
V. „Japetus Steenstrup“
Stat: 1. 7. VIIL 9% 48m__100 07m
# = 56° 04° N A= 11° 28° 0,
‚ ] 10.10 | 1364| 881] 595 | 983
35 | 18.92 | 1423 | 9.30 | 5.98 99.0
„| 17.32 | 18.43 | 1284| 6.10 1003
E 14.52 27.17 | 20.08 | 566 | 91.1
6 13.16 | 26.49 | 1881 | — | —
8 7.91 32.92.) 25.67) — | — |
20 6.70 | 33:34 | 26.17 5.25 | 768
„7. VIEL, II 81m—I1h 42m,
2- 8° 08 N; de=11° 43° 9%.
| 19.05 | 15.46 | 10.13 | 587 98.0
3 18.97 | 15,52 | 10.25 | 5.89 | 98.3
0 17.47 18.60 | 12.92 6.06 | 992
‘5 | 16:54 | 19.65 | 13,93 | 5.96 | 97.5
% 12.51 | 28.60 | 21.57 | 5.70 | 91.2
» | 747 3286 | 25.68" %16 | 164
i. *, VIIL 130 02m. 30 26m,
ya = 31° 58 0,
; 19.64 | 16.08 | 10.63 | 5.90 | 99.0
19.21 | 16.08 | 10.63 | 588 | 98.7
17.31 | 19.00 | 13.26 |) 6.02 | 993
® | 16.86 | 19.89 | 14.02 | 5.95 98.0
8 14.47 | 25.28 | 18.68 | — =
% | 11577 29,85 | 22.69 | 570 | 9021
22 9.25 | 31.83 | 24.64 | — —
25 706 | 33.06 | 24.92 ! 4.91 #21
4b 48. — 15h 4m,
=1° 125 ©
19.45) 14.78 | 9.60 | 5.85 |* 98.0
19.45 | 14.78 | 9,60 | 5.85 | 980
"90,74 | 18.81 12.59 | 584 | 100.5
19.52 | 19.18 | 12.91 — I
17.12 | 19.74 | 13.88 | 6.01 | 995
15.92 | 22.01 | 15.85 | — | =—
13.58 | 28.10 | 20.97 | — —
12.52 | 29.83 | 2251 5,68 | 916
10.22 ° 32.05 24.64 — —
“96 3008 2570 708 74,3 1
Gh
89 0.
6.16 | 99.8
6.16 * 99.8
627 | 101.4
zZ
572 | 91.8
9 39
= LO
A Cd ‘105.97 971
I7.4° 20.4 A111 597 97.1
{7.20 20.53 14.47 | 5.99 97.4
14.70 | 27.94 | 20.63 | 5.87 | 954
15.31 | 32,59 | 24.07 | 5.50 | 934
13.34 | 32.65 | 24,52 | 533 | 812
14.19 233.24 | 24,81 | 5.64 | 942
12.15 | 33.71 | 25.58 | 5.27 | 85.0
‚| 11.833 | 33.91 | 25.89 | 5.31 | 844
C 9.13 | 33.91 | 26.27 5.14 | 78.2
6 9.04 34.34 | 26.62 | BIT | 787
Ita *' 1 Y "IIL 27 nn Ay 1A
FR
' 4
N 2 BC
Bi u AL
‚7.22 8.08 | 4C,
14.32 18.86 | 13.75
12.65 | 21.40 15.98
9.91 | 28,96 | 22.29
7.25. 30.81 24.11 —
*77 32.38 8538 — —
32 5.35 14.09 | 60
ws 0m. 22 3064,
12° 55 0.
4.55 85,54 | 104
„402 .
1) 495 — —
„1 \ 18,88 vi
2.01 25.01 &
2.94 | 25.89 — —
2.70 | 25.78 158 66
‚II. 92h 35m 23B däm,
1=15 YO
48° 6,39 | 102
LO RU —
5; 6 N
1 | 182. — | —
7105 22.07 5.49 | 86
33.C8 26.02 km
321 26.14 — —
2.06 | 26.02 | 499 | 72
"II. 16 5m Jh 20m
= 12° 3 0,
901 814 MM
Q .
„3.05
56
ala
An IV
, @= 58° 58 Ni
x C
9.11 20.03 | 13.65 —
16.68 | 24.69 17,83 —
" 16.90 | 81.15 | 22.60 =
15.21 | 32.63 | 24.13 ı _
14.60 | 33.39 | 24.84 | =
13.98 | 33.57 25.10 sc
10.20 | 34.61 | 26.64 —
7.00 | 84.70 | 27.21
6.50 | 34.92 | 27.44
6.05 | 35.01 | 28.08
Yan,
Ar 070 0455 095.08 TE
AL W068 A 2.0 36.
32 20.68 A562 5.9 36.
481 | 30,53 ı 22.60 576 95.
All 31.74. | 283.67 457 Il.
3.73 32.30 | 24.18 | 5.25 86.
[3.02 | 32.52 | 24.49 | 5.28 | 85.“
'0.00) 32.79 | 25.25 5.25 | 80"
3.49 33.10 25.73 | 5.40 | B0F
7,45 | 33,24 | 26.00 | 5.22 | 76.
3.99 | 33.35 | 26.14 ) 541 | 780
6.51 33.48 | 26.30 | 521 | 746
6.31 | 33.64 | 26.46 || 5.20 | 74.2
A138 833.71 26.54 1.92 71
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IV. „Nautilus“:
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10.21 | 7921] 592 — | —
o | 1185| 866 | 630 | —=— | —
J 12,33 9.96 7.23 — —
5} 12.20 | 10,39 | 758 — in
ü 204° 1089 | 7551 458 | 650
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12° 0.
6.42 1 100.0
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19.42 | 19.20 | 13.02
19.00 19.49 | 13.26 |
16.70 | 23.96 17.18 |
15.64 29.40 | 21.61
15,39 | 32.25 | 23.75
| 14.49 | 33.04 | 24.59
y 11.50 | 34.22 ! 27.09
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17,30 22,68 | 16.07 -
16.10 | 31.64 | 23.18 | —
15.01 3263 | 24.17 | -
14.09 | 33.75 | 25.22 _
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