578 
BRO 
Brégger, W. C., Zones of Neolithic 
Times, 282. 
Brough, B. H., Iron Ore Supplies, 448. 
Bryozoa, Rotiform, of the Chalk, 442. 
Buckman, §8.8., Brachiopod Morphology, 
oo4, 
ADELL, H. M., Plant-remains in 
Olivine Basalt, Bo’ness Coalfield, 219. 
Calcareous Nodules, 334. 
Canada, Geological Survey, 
Report, 1901, 89. 
Cantrill, T. C., Stratigraphical Note, 
Haverfordwest, 537. 
Cape Colville Peninsula, N.Z., Rocks 
of, 564. 
Carbonate of lime segregated to form 
nodules, 555. 
Carboniferous Limestone, Chepstow, 
Fossil Plants from, 4; Faunal Suc- 
cession in the, 70; Anglesey, 238. 
Carruthers, R. G., & H. B. Muff, Arenig¢ 
Rocks in West of Ireland, 84. 
Centenary of Geological Society of 
London, 385, 522. 
Century of Geology, A, 1807-1907, The 
Geological Society of London, 1. 
Cephalopods of Cretaceous Rocks of 
Natal and Zululand, 339. 
Cephalopods, Silurian, in the New York 
State Museum, 44. 
Cervical Vertebra of Zeuglodon, Barton 
Clay, Hants, 179. 
Chalk, A Case of Metamorphism of, 145. 
Chalk and its Dislocation, North Norfolk 
Geology, 268, 304. 
Changes of Physical Constants in 
Minerals and Igneous Rocks passing 
from Crystalline to Glassy State, 188. 
Chapman, F., Caleareous Nodules, 334; 
Nomenclature of Australian Silurian 
Ophiurids, 479. 
Charleston Earthquake, 1886, 197. 
Charnwood Forest, N.W. District of, 
420. 
Chemical Composition of Igneous Rocks, 
i (alt 
Chemical Reactions between Solids, 379. 
Chubb, E. C., & F. P. Mennell, Fossil 
Mammalia found with Stone Imple- 
ments, S. Africa, 443. 
Clathropteris egyptiaca, A. C. Seward, 
sp. nov., 243. 
Clay Beds by the Ouse, Bedford, 24. 
Clayden, A. W., History of Devonshire 
Scenery, 360. 
‘Coal-Balls,’ Relation of Concretionary 
Nodules of the Yarra to, 106. 
Annual 
Index. 
DES 
Coalfield, Ballycastle, Co. Antrim, 85. 
Coal-measures, Arthropoda from Sparth, 
Rochdale, 539. 
Coal-measures, Ilkeston, Two new species 
of Hurypterus from, 277. 
Coastal Features, Co. 
Treland, 17, 501, 549. 
Cole, Grenville A. J., Ballycastle 
Coalfield, 85. 
Collodion as a Preservative for Fossils, 
524, 
Collodion Imprints of Fossils, Nathorst’s 
use of, 437. 
Comparative Fertility of the Soil above 
certain Geological Formations, 132. 
Concretionary Nodules of the Yarra, 
relation to ‘ Coal Balls,’ 106. 
Cone-in-Cone, 575. 
Conodonts in Coal-measures, 239. 
Constitution of Interior of the Earth 
revealed by Harthquakes, 376. 
Coral Rocks, Barbados, 238. 
Corstorphine, G. 8., Geological Aspects 
of South African Scenery, 302. 
Cretaceous Formation, Bahia, Brazil, 
and its Vertebrate Fossils, 93. 
Cretaceous, Upper, Fish-remains from 
Brazil, 193. 
Cretaceous Polyzoa (Family Idmoniidee), 
A Tabular View of, 122. 
Cretaceous Rocks of Natal and Zululand, 
and Cephalopods of, 339. 
Crick, G. C., Cretaceous Rocks of Natal 
and Zululand, and Cephalopods of, 339 ; 
Two Rare Forms of Actinocamax from 
English Chalk, 389. 
Crook, T., Titaniferous Volcanic Rocks, 
157. 
Crustacea from Girvan, 
Museum Notes, 108. 
Crystalline Rocks of Kukuruku Hills, 
Southern Nigeria, 92. 
Crystalline Schists, 328. 
Waterford, 
Sedgwick 
eae A. M., Kimmeridge and 
Corallian of Brill, Bucks, 46; 
Collodion as a Preservative for Fossils, 
524. 
Davison, C., Swansea Harthquake, 
June 27, 1906, 377; Ochbil Karth- 
quakes of September, 1900, to Apvril, 
1907, 378. | 
Deeley, R. M., The Structure of Glacier 
Ice, 529. 
Deformation and Variation in Sea-level, 
115. 
Desert Conditions and Origin of British 
Trias, by J. Lomas, 511, 554. 
Desert Features, by H. T. Ferrar, 459. 
