Tnliiti to Val|«ra!ao— 
i:?0 THE VOYAGE OF H.M.S. CHALLENGER. 
Soe Chart 38, and Dia^iius 20 and 21. 
1 
1 = 
1 S.2 
Hate. 
Position. 
e « 
- E 
5 ® 
Temperature 
of the Sea- 
water 
(Kahr.). 
Designation and Physical Characters. 
i 
Carbonate op Calcium. i 
1 
Bottom 
Surface 
i 
Per cent. 
Foraminifera. 
Other Organisms. | 
1 
1875 
I Q 4 // 
O 
1 
1 ^ 
1 
\ 
295 
Nov. 5 
38 7 OS. 
94 4 OW. 
o 
o 
35-3 
1 58-5 
j 
Globioeuina Ooze. 
Biloculina depressa, Textularidse, 
Uvigerina, Globigerinidae, 
Rotalidoj. 
Cephalopod beaks, Ptoropods,' 
Ostracode valves, Eohiii: 
spines. 
•■296 
38 6 OS. 
88 2 OW. 
1825 
35-3 
59-8 
Globigerina Ooze, light brown- 
grey when dry, somewhat co- 
herent. 
Besidue dark red-brown. 
64-34 
(55-00 %), Globigerinida?, Pul- 
vinulina. 
(2-00 %), Miliolidaj, Textularidie, 
Lagenidie, Eotalidae, Nummu- 
linidte. 
(7-34%), Otoliths and teeth ot 
fish, Serpula, Ostracedes, 1 
Echini spines, Coccolithi, 
Rhabdoliths. j 
t297 
1 
1 
i. 
11 
37 29 0 S. 
83 7 OW. 
1775 
35-5 
57-0 
Globigerina Ooze, yellow-grey, 
slightly coherent. 
Besidue rich brown. 
71-15 
(60 -00 %), Globigerinidae, Pul- 
(5-00 %), Miliolidie, Te.xtularidie, 
Lagenidfe, Rotalidae, Nonw- 
nina umbilicatula. 
(6-15 %), Echini spines, Cocoo-i ! 
liths, Rhabdoliths. |i 
1 
1 298 
.. 17 
34 7 0 S. 
73 56 OW. 
2225 
35-6 
59-0 
Blue Mud, light blue-grey when 
dry, coherent, presenting no 
macroscopic elements, fine 
grained, plastic when wet. 
Besidue blue-grey. 
5-65 
(4 -00 %), Miliolidie, Bolivina 
texlilarioides, Lagenidaj, Qlobi- 
gerinidie, Pulvinulitia caruiri- 
ensis, Nonionina mnbilicalula. 
(1-65 %), Ostracodes, Echini 
spines, Coccoliths. i 
II 
j 
, 
Dec. 11 
Off Valparaiso. 
41 
Blue .Mud, blue-grey when dry, 
coherent, jiresenting no macro- 
scopic elements, fine grained, 
breaking up in water, blue 
and plastic when wet. 
trace 
Miliolina scmiiiulum, Textu- 
laridm, Globigerina bulloides, 
Rotalidic, Nonionina. 
!■ 
1 i 
1 
1 
1 
Echinoderm fragments, s fe* j 1 
Coccoliths. j 
J 
* 8c« tnal. 48. t Sco anal. 49, 131; I’l. III. figs. 8, 0 ; PI. IX. fig. 9. 
