INTRODUCTION

Sources of material

 

Acknowledgments

 

Bibliography
(1-50)

 

Bibliography
(51-100)

 

Bibliography
(101-150)

 

Bibliography
(151-200)

 

Bibliography
(201-250)

 

Bibliography
(251-285)

 

Appendix

 

Bibliography (201-250)

 

1913

201. Ford, W. E., and Bradley, W. M., On hetaerolite from Leadville, Colo.: American Journal of Science, 4th series, volume 35, pages 600–604; Zeitschr. Kryst. Min., Band 53, pages 219–224. An analysis of material from a new locality for the mineral and a discussion of Palache’s formula (195).
202. Umpleby, J. B., Schaller, W. T., and Larsen, E. S., Custerite; a new contact-metamorphic mineral: American Journal of Science, 4th series, volume 36, pages 385–394; Zeitschr. Kryst. Min., Band 53, pages 321–331, 1014. Discusses the composition of cuspidine and its relation to other minerals.
203. Palache, Charles, and Schaller, W. T., Hodgkinsonite, a new mineral from Franklin Furnace, N.J.: Washington Acad. Sci. Journal, volume 3, pages 474–478; Zeitschr. Kryst. Min., Band 53, pages 529–532 and 675–676, 1914. Description of a new manganese-zinc silicate from the Parker shaft.
204. Palache, Charles, and Graham, R. P. D., On the crystallization of willemite: American Journal of Science, 4th series, volume 36, pages 639–644; Zeitschr. Kryst. Min., Band 53, pages 332–336, 1914. Description of new forms and complex crystals of willemite from Franklin, and a new axial ratio.

 

1914

205. Palache, Charles, Supplementary note on the crystal form of hodgkinsonite: Washington Acad. Sci. Journal, volume 4, pages 153–154. Description of a new find of crystals, and a new axial ratio.
205a. Ford, W. E., Mineral notes; The index of refraction of manganosite: American Journal of Science, 4th series, volume 38, pages 502–503. The index was measured on a prism of 15-degree angle which showed strong absorption of the whole spectrum except two bands in the red and green regions. For these the indices as found were: Green, n = 2.19; red, n = 2.16; for sodium light, n = 2.18 (estimated).

 

1910

206. Levison, W. G., Columnar manganocalcite from Franklin Furnace, N.J.: American Mineralogist, volume 1, page 5. Description and analysis of a fibrous form of calcite.
207. Aminoff Gregori, Note on nasonite from Langbanshyttan: Geol. Foren. Stockholm Forh., Band 38 [for 1916], pages 473–476, 1917. Description of nasonite from the Swedish locality, confirming the characters determined on the Franklin mineral. Second known occurrence.
208. Ford, W. E., and Bradley, W. M., Margarosanite, a new lead-calcium silicate from Franklin, N.J.: American Journal of Science, 4th series, volume 42, pages 159–162. First description of this new mineral.
209. Schaller, W. T., The composition of hodgkinsonite: U.S. Geological Survey Bulletin 610, pages 159–160. A reprint of the data contained in Palache and Schaller (203) and Palache (205).

 

1917

210. Flink, Gustav, Margarosanit von Langbanshyttan: Geol. Foren. Stockholm Forh., Band 30, pages 438–446. Description of the crystal form of the mineral and of the second known locality of its occurrence.
211. Phillips, A. H., A rare habit and new form of franklinite: American Mineralogist, volume 2, page 5. Describes cubic crystals with a new form.
212. Honess, A. P., A study of the etching figures of the hexagonal-alternating type of crystals; willemite: American Mineralogist, volume 2, page 58. Describes, with a plate of photographs, the etch figures produced by different reagents on the rhombohedron and prism faces of small crystals of clear green willemite.
213. Haight, C. M., and Tillson, B. F., Zinc mining at Franklin, N.J.: American Inst. Min. Eng. Trans., volume 57 [for 1917], pages 720–825, 1918. An elaborate and fully illustrated paper on the methods of mining at Franklin and all the mining operations and appliances. Some historical notes.

 

1918

214. Levison, W. G., Notes on gageite from Franklin Furnace, N.J.: American Mineralogist, volume 3, page 153. Describes specimens of supposed gageite but gives no new facts concerning the species.

 

1919

215. Aminoff, Gregori, Mineralogische Studien an Material aus der Sjogren’sehen Mineraliensammlung; 6, Manganaxinit von Franklin Furnace, N.J.: Arkiv for Kemi, Band 7, no. 17, pages 45–57. Description of axinite crystals, with complete computation of a new axial ratio, and full angle table for manganaxinite.
216. Flink, Gustav, [Margarosanite from Langbanshyttan]: Neues Jahrb., 1919, pages 30–31. Abstract of Flink (210), giving revised values for the axial ratio of the mineral.
217. Pardee, J. T., Larsen, E. S., and Steiger, George, Bementite and neotocite from western Washington, with conclusions as to the identity of bementite and caryopilite: Washington Acad. Sci. Journal, volume 11, pages 25–32. Discussion of the chemical character of bementite.
218. Palache, Charles, Holdenite and cahnite, two new minerals from Franklin Furnace, N.J.: American Mineralogist, volume 6, page 39. Title without text. First publication of the two names. (See Palache and Shannon (248) and Palache and Bauer (249).)
219. Larsen, E. S., The microscopic determination of the non-opaque minerals: U.S. Geological Survey Bulletin 679. Contains optical data for 19 minerals found at Franklin. These data are all incorporated in this paper.

 

1922

220. Larsen, E. H., and Shannon, E. V., Bustamite from Franklin Furnace, N.J.; American Mineralogist, volume 7, pages 95–100. Optical data and an analysis establishing the finding of bustamite at Franklin.
221. Larsen, E. S., and Shannon, E. V., Notes on some new rhodonite specimens from Franklin Furnace, N.J.: American Mineralogist, volume 7, pages 149–152. Analysis of rhodonite and description of a parallel growth of rhodonite and bustamite.
222. Gordon, S. G., Crystallographic notes on glaucochroite, willemite, celestite, and calcite from Franklin, N.J.: Academy of Natural Sciences Philadelphia Proc., volume 74 [for 1922], pages 105–112, 1923. Describes, with figures, crystals of the four minerals.
223. Ries, Heinrich, and Bowen, W. C., Origin of the zinc ores of Sussex County, N.J.: Econ. Geology, volume 17, pages 517–571. An important discussion of the geologic conditions of the ore bodies at Mine Hill and Sterling Hill. The paper gives a description of thin sections of the ore minerals, showing the sequence of their deposition, and a discussion of the origin of the zinc ores.
224. Shannon, E. V., Note on the cyprine from Franklin Furnace, N.J.: American Mineralogist, volume 7, pages 140–142. Gives an analysis and the optical characters of cyprine.
225. Lewis, J. V., and Bauer, L. H., Cyprine and associated minerals from the zinc mine at Franklin, N.J.: American Journal of Science, 5th series, volume 4, pages 249–251.

 

1923

226. Gordon, S. G., A correction; recently described crystals of glaucochroite from Franklin, N.J., are tephroite: American Mineralogist, volume 8, pages 33–34. A correction of a statement in Gordon (222).
227. Gordon, S. G., Crystallographic notes on hodgkinsonite, datolite, and calciothomsonite from Franklin, N.J.: Academy of Natural Sciences Philadelphia Proc., volume 75 [for 1923], pages 271–274, 1924. Describes crystals of hodgkinsonite and datolite, with figures, and reports, with analyses, the occurrence of calciothomsonite.
228. Rastall, R. H., Geology of the metalliferous deposits, Cambridge, England. (See pages 131 and 305.) First publication of the theory of the origin of the New Jersey zinc deposits as metamorphosed metasomatic emplacements in limestone.
228a. New Jersey Zinc Company, A record of accomplishment, New York, privately printed, 1923. A short history of the company.
228b. Salton, G. H., Mining practice at Sterling Hill mine [Franklin Furnace district], New Jersey Zinc Co.: Canadian Inst. Min. and Met. Monthly Bulletin, no. 137, pages 567–593. Paper not seen.
229. Pointevin, Eugene, and Ellsworth, H. V., New optical data for analyzed sussexite: American Mineralogist, volume 9, pages 188–190. New analysis of sussexite and optical data on the analyzed material.
230. Larsen, E. S., and Shannon, E. V., Ganophyllite from Franklin Furnace, N.J.: American Mineralogist, volume 9, pages 238–240. New optical data and analysis for ganophyllite from Franklin.
231. Foshag, W. F., and Gage, R. B., Chlorophoenicite, a new mineral from Franklin Furnace, N.J.: Washington Acad. Sci. Journal, volume 14, pages 362–363. Preliminary description, with analysis, of a new arsenate of manganese and zinc.
232. Magnusson, N. H., Langbansmineralen fran geologisk synpunkt: Geol. Foren. Stockholm Forh., Band 46, pages 284–300. Discusses the formation of zinciferous periclase and of manganosite at Langban, and thus throws light on genetic conditions at Franklin.

 

1925

233. Gage, R. B., Larsen, E. S., and Vassar, H. E., Schallerite, a new arsenosilicate mineral from Franklin Furnace, N.J.: American Mineralogist, volume 10, pages 9–11. First description of this new species, which is a new chemical type.
234. Spurr, J. E., and Lewis, J. V., On deposition at Franklin Furnace, N.J.: Reprint from Eng. and Min. Journal Press, volume 119, pages 317–328. A description, with many illustrations, of the geologic relations at Mine Hill and Sterling Hill, and a theory of the mode of origin of the deposits.
235. Hoadley, C. W., and Broadwell, W. H., The minerals of the Franklin, N.J., district, leaflet published by the Newark Mineralogical Society. An alphabetic list of 150 minerals known to occur at Franklin.
236. Levi, G. R., Il reticolo cristallino dell’ ossido manganoso: Gazz. chim. ital., volume 54, pages 704–708; abridged translation in Zeitschr. Krist. Min., Band 61, pages 557–559. Manganosite from Franklin, N.J., and artificial MnO, when examined by the X-ray powder method, showed the rock-salt type of structure, with a = 4.4 angstroms. The density deduced from this value is 5.46.
237. Dittler, E., Analytische-synthetic Untersuchungen am Rotzinkerz: Zeitschr. anorg. Chemie, Band 148, page 332. Zincite from Franklin becomes brown when heated in air, regaining its original color when heated in hydrogen, and on further reduction becomes emerald-green. Experiments with artificial zincites containing different amounts of manganese suggest that the color of the mineral is due to Mn3O4 which might have been formed during contact metamorphism.
238. Foshag, W. F., and Gage, R. B., Hedyphane from Franklin Furnace, N.J.: American Mineralogist, volume 10, pages 351–353. First description of this mineral from Franklin, with an analysis.
239. Larsen, E. S., The identity of ectropite and bementite: American Mineralogist, volume 10, pages 418–421. Discusses the composition of bementite and points out its relation to serpentine.
240. Shannon, E. V., and Larsen, E. S., A peculiar manganiferous serpentine from Franklin Furnace [N.J.]: American Mineralogist, volume 11, pages 28–30. Gives the chemical composition and optical characters of a serpentine close to bowlingite and antigorite, but containing more than 7 percent of manganese.
241. Foshag, W. F., Radiated chrysotile from Franklin Furnace, N.J.: American Mineralogist, volume 11, pages 38–39. Gives the composition and optical characters of a fibrous mineral is radiated groups that has been mistaken for wavellite in most of the collections. Also discusses the origin of chrysotile.
242. Zachsriasen, W. H., Notiz uber die Krystallstruktur von Phenakit, Willemit und verwandten Verbindungen: Norsk Geol. Tidssk., Bind 9, pages 65–73. Willemite from Franklin, phenakite from Kragero, Norway, and several isomorphous salts were examined by X-ray methods. They are all trigonal-rhombohedral, space group C1/3i. The elementary cell of willemite, containing six molecules, has dimensions: a = 8.04 angstroms, c = 9.34 angstroms, c/a = 1.161.
243. Jenkins, David and Bauer, L. H., [Analyses of Franklin minerals]. Analyses, many of them unpublished, made in the laboratory of the New Jersey Zinc Co and included in this paper with the permission of the company.
244. Shannon, E. V., and Berman, Harry, Barysilite from Franklin Furnace, N.J.: American Mineralogist, volume 11, pages 130–132. Gives the composition and optical character of the mineral, not before reported from Franklin.
245. Bauer, L. H., and Palache, Charles, Hyalophane from Franklin Furnace, N.J.: American Mineralogist, volume 11, page 172. Gives the chemical and optical character of the mineral.
245a. Geijer, Per, Norbergite and fluoborite, two new minerals from the Norberg mining district: Geol. foren. Stockholm Forh., Band 48, Heft 1, pages 84–85. First description of these two minerals, later found at Franklin. This paper listed here because referred to in comparing the minerals at the two localities.

 

1927

246. Foshag, W. F., Berman, Harry, and Gage, R. B., The occurrence and properties of chlorophoenicite, a new arsenate from Franklin, N.J.: U.S. National Museum Proc., volume 70, art. 20, 6 pages. Describes more fully (see Foshag and Gage, 231) the occurrence, crystallography, physical and optical characters, composition, and relationships of the mineral.
247. Bauer, L. H., and Berman, Harry, Lollingite from Franklin, N.J.; American Mineralogist, volume 12, pages 39–43. Describes the occurrence and crystal form of the mineral, gives the composition and the results of the measurement of the crystal angles, and discusses the new values established for the crystal elements.
248. Palache, Charles, and Shannon, E. V., Holdenite, a new arsenate of manganese and zinc from Franklin, N.J.; American Mineralogist, volume 12, pages 144–148. Describes and names the mineral, previously regarded as leucophoenicite. Gives the results of crystallographic measurements, the axial ratio, the optical character, and the composition, and discusses the derived formula.
249. Palache, Charles, and Bauer, L. H., Cahnite, a new boroarsenate of calcium from Franklin, N.J.: American Mineralogist, volume 12, pages 149–153. Describes the mineral, gives the occurrence, crystal form, results of crystallographic measurements, optical constants, and composition, with the derived formula, of this new chemical type.
250. Berman, Harry, The optical properties of zincite from Franklin, N.J.: American Mineralogist, volume 12, pages 168–172. Gives briefly the results of a chemical analysis and the determination of the refractive indices of very nearly pure material.

 

 
 
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