23] 
Glacial erosion of New York, Lincoln, 
vii, 105. 
Genesee Lakes, Fairchild, ], 345. 
geology of Great Britain, Lewis, 
viii, 73. 
Lake Agassiz in Manitoba, Up- 
ham, ii, 429; Lake St. Lawrence 
of Upham, Chalmers, ix, 278; lakes 
in Western New York, Fairchild, 
ix, 156. 
land-forms of the margins of the 
Alps, Mill, ix, 121. 
limit in Kast. Pennsylvania, Wil- 
liams, ix, 174. 
period, continuity of, Wright, 
vii, 161; diversity of, Chamberlin, 
v, 171; unity of, Upham, v, 70; 
epochs of, Upham, ix, 305. 
in lowa, McGee, v, 71; in Rus- 
sia, Nikitin, v, 459; in New Eng- 
land and Upper Miss., Dana, vi, 327. 
phenomena of Newfoundland, 
etc., Wright, ix, 86, 156; west of 
- Hudson Bay, Tyrrell, ix, 322. 
pot-holes in California, Turner, 
iv, 453. 
records in the Newark system | 
questioned, Russell, i, 499. 
rock-crushing, iii, 539. 
seratches in Pennsylvania, Foshay | 
and Hice, ii, 172. 
succession in HKurope, Geike on, 
ix, 62; Hughes, ix, 164. 
See also drift, Quaternary, etc., 
under GEOLOGY. 
Glaciatist’s Magazine, vi, 310. 
Glaciation of Asia, Kropotkin, vi, 400. | 
epeirogenic movements associated | 
with, Upham, vi, 114; astronomi- 
cal conditions favorable to, Becker, 
vili, 95 ; effect on the present fauna 
of N. A., Scudder, viii, 179 ; in the 
Finger-Lake region, N. Y., Lincoln, 
iv, 290. 
Glacier Bay, Alaska, Reid, vi, 305. 
clays and till near Boston, Crosby, 
li, 209, 
Glaciers, excavations by, v, 74. 
of Mt. St. Elias, Russell, iii, 169. 
periodic variations in, Forel, iv, 
342 
Glaisher, J. W. L., collected mathe- | 
matical papers of H. J. Smith, 
viii, 432. 
Glass, silvering, Lumiére, ix, 470; 
solubility of, Kohlrausch, iii, 155. 
Glazebrook, R. T., Practical Physics, 
v, 436 ; Dynamics, ix, 484. 
Goldschmidt, V:, Index der Krystall- 
formen, i, 253, 441. i? 
Goniometry, spiral, Barus, viii, 1. 
VOLUMES XLI-L. 
537 
Gooch, F. A., determination of anti- 
mony, fi, 213; the determination of 
potassium spectroscopically, ii, 448 ; 
estimation of chlorates, ii, 220 ; 
separation of antimony from arsenic, 
ii, 308. 
iodometric determination of ni- 
trates, iv, 117; convenient forms 
of laboratory apparatus, iv, 239; 
interaction of potassium perman- 
ganate and sulphuric acid, iv, 301; 
rubidium determined by the spec- 
troscope, iv, 392. 
determination of iodine in haloid 
salts by arsenic acid, v, 334. 
arsenic with antimony and tin, 
vii, 882. 
detection of alkaline perchlo- 
rates, viii, 38; chlorine, viii, 166; 
reduction of arsenic acid, viii, 216; 
minute quantities of arsenic in 
copper, viii, 292; iodometric method 
for the estimation of telluric acid, 
viii, 375. 
estimation of halogens in mixed 
silver salts, 1, 27; determination of 
selenious acid by potassium per- 
manganate, 1, 51; determination of 
carbon dioxide, 1, 101; reduction 
of the acids of selenium by hydri- 
odie acid, 1, 254; reduction of se- 
lenic acid by hydrochloric acid, 1, 
400; reduction of selenic acid by 
potassium bromide in acid solution, 
1, 402. 
Goodale, G. L., botanic gardens in 
the equatorial belt and south seas, 
ii, 173, 260, 347, 484, 517; possi- 
bilities of economic botany, ii, 271 ; 
notice of A. DeCandolle, vi, 236. 
Gore, J. H., decimal system of the 
seventeenth century, i, 22. 
| . * 
_Gosselet, geological aspects of varia- 
tion, ix, 473. 
Gotland, Crinoidea of, Bather, vii, 
482. 
Gould, B. A., address before the 
American Metrological Society, v, 
246. 
Governmental maps, use of, Davis, 
King, and Collin, vii, 484. ~ 
Graham, J. C., experiments with an 
artificial geyser, v, 54. 
Gratings, concave, asymmetry in, Ryd- 
berg, v, 350. 
Gravity, daily variation, Mascart, v, 
349. 
determinations, use of pendu- 
lums, Mendenhall, v, 144 ; diminu- 
tion of, with the height, Richarz 
and Menzel, vii, 400; direction in 
