ACADEMY OF SCIENCES] BIBLIOGRAPHY 13 



1915-16 



47. A history of Tahiti, A history of Fiji, Papua where the stone age lingers. The men of the mid-Pacific, 



the Islands of the mid-Pacific, Java the exploited island. Popular Science Monthly, vols. 86-87, and the 

 Scientific Monthly, vols. 1 and 2, 188 pp., figs. 



1916 



48. Sub-marine solution of limestone in relation to the Murray-Agassiz theory of coral atolls. Proc. National 



Academy of Sciences, vol. 2, pp. 28-30. 



49. A theory of nerve conduction. Proc. National Academy of Sciences, vol. 2, pp. 37-42, 2 figs. 



50. Nerve conduction and other reactions in Cassiopea. American Journal of Physiology, vol. 39, pp. 375-393, 



2 figs. 



51. Further studies of nerve conduction in Cassiopea. Proc. National Academy of Sciences, vol. 2, pp. 721-726, 



2 figs. 



52. With Robert S. Woodward: Biography of Alfred Marshall Mayer, 1836-1897. Biographical Memoirs 



National Academy of Sciences, vol. 8, pp. 243-272, portrait. 



1917 



53. Further studies of nerve conduction in Cassiopea. American Journal of Physiology, vol. 42, pp. 469-475, 



2 figs. 



54. Nerve conduction in Cassiopea xamachana. Publication No. 251, Carnegie Institution of Washington, 



vol. 11; papers from the Department of Marine Biology, pp. 1-20, 15 figs. 



55. Coral reefs of Tutuila with special reference to the Murray-Agassiz solution theory. Proc. National Academy 



of Sciences, vol. 3, pp. 522-526. 



56. Observations upon the alkalinity of the surface water of the tropical Pacific. Ibid., vol. 3, pp. 548-552. 



57. On the non-existence of nervous shell shock in fishes and marine invertebrates. Ibid., vol. 3., pp. 597-598. 



58. Is death from high temperature due to the accumulation of acid in the tissues? Amer. Jour. Physiol, vol. 44, 



pp. 581-585. 



59. Formula for the rate of nerve conduction in sea water. Ibid., vol. 44, pp. 591-595. 



60. Report upon the scyphomedusae collected by the U. S. Bureau of Fisheries steamer Albatross in the Philip- 



pine Islands and Malay Archipelago. U. S. National Museum, Bulletin No. 100, pp. 175-233, 24 figs. 



1918 



61. Ecology of the Murray Island coral reef. In Publication No. 213, Carnegie Institution of Washington, 



48 pp. 19 pis., 9 text figs. Volume 9 of papers from the Department of Marine Biology. 



62. William Stimpson, 1832-1872. Memoirs National Academy of Sciences, vol. 8, pp. 419-433, portrait. 



63. Navigation illustrated by diagrams. 207 pp. 97 figs. Lippincott, Philadelphia, Pa. 



64. The growth-rate of Samoan coral reefs. Proc. National Academy of Sciences, vol. 4, pp. 390-393. 



65. Toxic effects due to high temperature. Papers from the Department of Marine Biology, Carnegie Institu- 



tion, vol. 12, 6 pp. 



66. Nerve conduction in diluted and concentrated sea water. Ibid., 5 pp. 1 fig. 



1919 



67. Detecting ocean currents by observing their hydrogen-ion concentration. Proc. American Philosophical 



Society, vol. 58, pp. 150-160, 1 fig. 



1920 



68. Samuel Hubbard Scudder, 1837-1911. Memoirs National Academy of Sciences, vol. 17, pp. 79, portrait. 



1920 



69. The effect of diminished oxygen upon the note of nerve-conduction in Cassiopea. American Journal Physi- 



ology, vol. 51, pp. 543-549. 



70. The reefs of Tutuila, Samoa, in their relation to coral-reef theories. Proc. American Philosophical Society, 



vol. 19, no. 3, 14 pp., 3 figs. 



1922 



71. Hydrogen-ion concentration and electrical conductivity of the surface water of the Atlantic and Pacific. 



In Publication No. 312, Carnegie Institution of Washington, pp. 61-85, 3 charts. 



72. Tracking instinct in a Tortugas ant. In Publication No. 312, Carnegie Institution of Washington, pp. 



101-107, 3 figs. 



1924 



73. Rose Atoll, American Samoa. In Publication No. 340, Carnegie Institution of Washington, pp. 73-79, 



2 pis. 



