INDEX 



617 



location,. 86, 87, 120 ; correlation, 42 ; 

 sections, 121, 153. 



Gregory, J. W., 



Atlantis hypothesis, 340 ; effect of 

 droughts in central Africa, 370. 



Grecjohy. W. K., 



Orders of Mammals, 25. 



Guilielmofloweria, 546.* 



Gulo, 



Norfolk Interglacial, 394 ; post-Pleisto- 

 cene, Europe, 429 ; Port Kennedy Cave, 

 469 ; 530.* 



Gimsburg deposits, 257, 258, 263. 



Gymnoptychus, 536.* 



Ha.\cke, 



North Polar theory, 66, 67, 70. 

 ■ Halitherium, 182, 248, 255, 317, 559.* 

 Hall, 



'cedar-root chronology,' 62. 

 Hapalodectes, 527.* 

 Hapnlops, 541.* 

 Haplohunodon, 148. 

 Hnploconus, 546.* 

 Haplodontidae, 



first appearance, 2"9 ; Miocene, 248 ; 



(Aplodontiidse) 534.* 

 Haplodontia, 



Virgin Valley, 357 ; Potter Creek Cave, 



477 ; (Aplodontia) 534.* 

 Haplognle, 530.* 

 Haplonieryx, 548.* 



H.\RLE, 



Cajarc, 395, 396. 



Harpagolestes, 



outline restoration (head), 142 ; Washa- 

 kie and Uinta, 168, 169 ; 527.* 



Harrison formation, 231, 234, 285 ; 



correlation, 41, 42, 277 ; Lower (photo- 

 graph), 234 ; section, 278 ; Upper, 288. 



Harwich deposits, 102, 115. 



Hassleben peat bogs, 428, 429. 



Hatcher, 



Titanotherium zone, 52, 212 ; fluviatile 

 origin Oligocene Great Plains deposits, 

 205, 206, 208 ; Teleoceras, 252 ; Miocene 

 Great Plains formations, 279 ; distribu- 

 tion of fossil Ovibos in North A*nerica, 492. 



Haughton, 



rate of denudation in river basins, 62. 



Hay, 



geology of Bridger, 158 ; Bridger turtles, 

 160, 161 ; Oligocene turtles. 208, 210 ; 

 Pliocene turtles of Kansas, 350 ; Kansas 

 plains loess, 461. ' 



Hayden, 



explorations in Rocky Mountains, 9, 10 ; 

 attempts at correlation, 51, 52; AVasatch, 

 119; Wind River, 129; and Peale on 

 Montana Tertiaries, 281 ; Loup River, 

 368, 369. 



Hay Springs quarry, 453, 456, 457 ; 



photograph, 459 ; age compared with 

 Silver Lake, 459. 



Hedley, 



on Antarctica, 76. 

 Heer, 



(Eningen flora, 263. 

 Hegctotherium, 561.* 

 Heidenheim fissure deposits, 144. 

 Helulctes, 161, 557.* 

 Heliscoinys, 536.* 

 Hellndotheriuyn, 268, 269, 551.* 

 Hell Creek beds, 



see Laramie. 

 Helohyus, 547.* 

 Helvetian Interglacial, 



fauna, 377, 378. 

 Helvetian marine stage, 257. 

 Hemiacodon, 543.* 

 Hemihos, 327. 

 Hemicyon, 259, 529.* 

 Heniiganus, 540.* 

 Heinimeryx, 275. 

 Hemipsalodon, 216, 527.* 

 Hemithlceus, 546.* 

 Hempstead deposit, 186, 187. 

 Heptodon, 



Wasatch, 124, 127 ; Wind River, 135 ; 



557.* 

 Heme Bay deposits, 102, 115. 

 Herpestes, 



Aquitanian, 197 ; Vindobonian, 261 ; 



532* 

 Hesperomys, 470, 537.* 

 Heteromyidse, 



Uinta, 168 ; Merycocha^rus zone, 287 ; 



536.* 

 Hexaprotodon, 329, 549.* 



HiLBER, 



Miocene conditions in Styria, 260. 



Hill, 



palaeogeography of the Americas, 81, 

 245, 339. 



Hills, 



discovery of Huerfano beds, 129. 



Himalayas, elevation of, 59, 60. 



Hipparion, 297 ; 



zone, 297-302 ; fauna, 264, (distribution 

 charted) 265 ; enters Europe, 264 ; 

 Pontian, 268, 269; of 'older Pliocene 

 fauna,' 310, 315 ; persists into I'ppcr 

 Pliocene of Europe (?), 317; Siwaliks, 

 327, 328 ; Maragha, 332 ; China, 333, 

 334 ; Alachua Clays, 348 ; North Africa, 

 431 ; Ashley River, 472 ; 556.* 



Hippidion, 556.* 



Hippohyus, 329. 



Hippopotamus, 



of Madagascar, 74 ; ancestry, 148, 313 ; 

 brain figured, 173 ; enters Europe, 311, 

 313,317; Pliocene and Pleistocene species 

 and range, 313, 318; Siwalik, 329, 

 major, (Norff)lk Interglacial) 392, 396, 

 (mid-Pleistocene Europe) 400, 402, 

 403, 405, 410; dwarfed of Mediter- 

 ranean islands, 410 ; Asiatic origin, 

 430 ; Pleistocene species of North 



* Reference to classification. 



