January 1951 3S-814 United States Department of Agriculture Agricultural Research Administration Bureau of Entomology and Plant Quarantine SUPPLEMENTAL LIST OF PUBLICATIONS ON LIQUEFIED- GAS AEROSOLS By R. A. Fulton Division of Insecticide Investigations The following references supplement those given in E-754, entitled "A Chronological List of Publications on Liquefied-G-as Aerosols," which was issued in August 19*+8. With the exception of publications in the Bureau's E and ET series, copies are not available for distribution. 1944 Haller, H. L. New agricultural crop insecticides. Jour. Econ. Ent. 37: 342-344. 1946 Metzler, D. F. Injury resulting from use of [DDT] aerosol bomb. U. S. Pub. Health Serv. Rpts. 61(15): 546. Neghme, A. The aerosol bomb as a method for determining the triatomic index in human habitations in Chagas1 disease endemic zones. Jour. Parasitol. 32(2): 209-210. 1947 Vendramini, R. Measurement of aerosol particles. Bol. Soc. Med. Chim. (Modena) 47: 276-282. 1948 Cooper, N. C. Compressed gas aerosols expand their uses. Chem. Indus. 63(6): 970, 972, 1058. Fales, J. H., Nelson, R. H., Ball, W. H., and Fulton, R, A. Storage of aerosols. Soap and Sanit . Chem. 24(11): 127, 129. Fulton, R. A. A chronological list of publications on liquefied-gas aerosols. U. S. Bur. Ent. and Plant Quar. E-754, 8 pp. [Processed.] -:- Haller, H. L., and Cristol, 3. J. The development of new insecticides. In Advances in military medicine. V. 2, pp. 621-626. Hoffman, J. R. Hexaethyl tetraphosphate and tetraethyl pyrophosphate as aerosols against the two-spotted spider mite. Jour, eon. 41: 356-362. Smith, F. F., Brierley, P., and Fulton, . . Responses of same plants to DDT, hexaethyl tetraphosphate, and parathion applied as aerosols. Amer. Soc. Hort. Sci. Proc. 51: 327-332. Fulton, R. A., and Lung, P. H. Recent developments in the control of greenhouse pests by liquefied-gas aerosols. Jour. Econ. Ent. 41: 624-631. Lung, P. 11., and Fulton, R. A. Some new insecticides and new con- trol methods for pests of greenhouse vegetables. Veg. Growers' Assoc. Amer. Ann. Rpt. 19^8: 219-229. Stoddard, R. E. Low-pressure aerosols. Their future will probably be determined in 1949. Soap and Sanit. Chem. 24(7): 147, 149. 1°A2 Anonymous. Aerosol dominates discussions of specialty manufacturers. Chem. and Engin. News 28(26): 2170-2171. The tentative NAIDK aerosol test method for flying insects. Soap and Sanit. Chem. 25(5): 114-117. Baker, G. J. Biological evaluation of new insecticides. Petrol. Engin. 21(9): C-19, C-20, C-22, C-24. Beck, L., and Shepherd, H. R. Designing an aerosol deodorant. Soap and Sanit. Chem. 25(9): 135, 137, 139, 141. Ferry, ., Farr, L. E., Jr., and Kartman, Mary G. The preparation and measurement of the concentration of dilute bacterial aerosols. Chem. Rev. 44(2): 389-413. Fulton, R. A. A simplified procedure for cleaning and filling aerosol cylinders in the laboratory. U. . Ur, Ent. and Mant ,uar, ET-271, 4' pp. [Processed.] • )ved apparatus for observing aerosol solutions and detemin- Freon-insoluble matter in pyrethrum extract. V. 5. !\ir. . .nd Plant Quar. ET-273, 3 PP. processed.] -ide, 0. C, and Sullivan, . Toxicity of residues from c bon dioxide-propelled insecticides. Jour* con. Ent. 42: 1. - 126. -3- Fulton, R. A., and Rohwer, S. A. Liquefied gas insecticidal aerosols. Soap and Sanit. Chem. 25(2): 122-124, 148C, 149. Smith, F. F., Lung, P. H., Yeomans, A. H., and Rogers, E. E. Particle size and toxicity of aerosols affected by IIETP concen- tration. Agr. Chem. 4(1): 35-38, 67. Goldberg, H. Low-pressure aerosols become big-volume sellers. Chem. Indus. 65(3): 374, 376, 379. Goodhue, L. D. Low and moderate pressure liquefied-gas aerosols. Indus, and Engin. Chem. 41: 1523-1527. Gucker, F. T., Jr., and O'Konski, C. T. Electronic methods of counting aerosol particles. Chem. Rev. 44(2): 373-388. Johnstone, H. F., Winsche, W. E., and Smith, L, IV. The dispersion and deposition of aerosols. Chem. Rev. 44(2): 353-371. LaMer, V. K., and Hochberg, S. The laws of deposition and the effective- ness of insecticidal aerosols. Chem. Rev. 44(2): 341-352. Miller, A. C. Insecticidal aerosols. Soap and Sanit. Chem. 25(8): 110- 111. Mills, J. H. Deodorant aerosols. Soap and Sanit. Chem. 25(8): 111-113. Nelson, R. H., Fulton, R. A., Fales, J. H., and Yeomans, A. H. Low pressure aerosols. Their efficiency in relation to formulation and particle size. Soap and Sanit. Chem. 25(1): 120, 121, 123, 125, 166, Pritchard, A. E., and Beer, R. E. Parathion for control of pests of ornamental and flowering plants. Jour. Econ. Ent. 42: 372-379. Shepherd, N. R. Moth product aerosols. Soap and Sanit. Chem. 25(8): 113, 141, 143. Smith, F. F., and Fulton, R. A. Red spider resistance to aerosols and sprays. Florists' Exch. 113(23): 15, 49-51. (Also published under the title "Spider mites' resistance to aerosols, sprays investigated," South. Florist & Nurseryman 62(37): 16-17, 107-110.) Williams, A. E. Aerosols in industry. Canad. Chem. and Process Indus. 33: 768-771. Yeomans, A. H. Directions for determining particle size of aerosols and fine sprays. U. S. Bur. Ent. and Plant Quar. ET-267. 7 pp. [Processed.] Sullivan, W. N., Jr., and Fulton, R. A. Automatic insecticide-dis- pensing equipment for installation in aircraft. U. S. Bur. Ent. and Plant Quar. ET-269. 7 pp. [Processed.] -4- 1950 Cooley, G. E. Plant quarantine activities in the Pacific, with particular reference to the oriental fruit fly, Calif. Dept. Agr. Bui. 39: 10-16. Covin, R. 0. Lindane space sprays and aerosols. Chem. Spec. Kfrs. Assoc. Proc. 36: 73 • [Soap and Sanit. Chem. Special Issue.] Downing, R. C. Aerosol. Part II - Insecticide solubility. Soap and Sanit. Chem. 26(1): 114-115, 117, 119, 139. Also In Chem. Spec. Mfrs. Assoc. Proc. 36: 37-39, 41. TSoap and Sanit. Chem. Special Issue.] Fulton, R. A. How to select and use a respirator. Amer. Fruit Grow- 70(6): 17, 29. Nelson, R. H., and Smith, F. F. The toxicity of lindane vapor to insects. (Sci. Note) Jour. Econ. Ent. 43: 223-224. Yeomans, A., and Rogers, E. Design of nozzles for low-pressure aerosols. Chem. Spec. Mfrs. Assoc. Proc. 36: 51, 86-87. [Soap and Sanit. Chem. Special Issue.] Lushbaugh, C. C, Green, J. W., and Redeman, C. E. Effects of prolonged inhalation of oil fogs on experimental animals. Indus. Hyg. and Occup. Led. 1(2): 237-247. KcBride, 0. C., Sullivan, W. N. , and Fulton, R. A. Treatment of airplanes to prevent the transportation of insects. Jour. Econ. Ent. 43: 66-70. Koore, J. B. Synergist "264". Chem. Spec. Mfrs. Assoc. Proc. 36: 72. [Soap arid Sanit. Chem. Special Issue.] Nichols, J. P. Lethane in aerosols. Chem, Spec. Kfrs. Assoc. Proc. 74. [Soap and Sanit. Chem, Special Issue.] Peterson, H. E. Aerosols - A boom industry, let's not ruin it. Soap and Sanit. Chem. 26(1): 117-119. ,,ins and purposes of the aerosol Division. Chem. Spec, Kfrs. Assoc. >c. 36: 31-32. [Soap and Sanit. Che: . cial Issu- . Schroeder, . ., and Berlin, F. D, nllethrin in aerosol . . Spec* Mfrs. Assoc. I roc. 36: 35-36. [Soap and Sanit, Chem. Special Issue.] Shoshkes, M., Banfield, W, 0., and Rosenbaun, .. J. Distribution c: nd fate of oil aerosol particle e. Indut-. . and Occuj . . 1(1): - -:5. -5- Smith, F. F., and Fulton, R. A. Tetraethyl dithiopyrophosphate in aero- sols for the control of greenhouse insects. U. S. Bur. Ent. and Plant Quar. E-803. 10 pp. [Processed.] Reprinted in Florists' Exch. 115(2): 14, 19. Starr, D. F. Sulfoxcide. Chera. Spec. Mfrs. Assoc. Proc. 36: 70-71. [Soap and Sanit. Chem. Special Issue.] Stribling, G0 New developments in Genetrons as aerosol dispersants. Chera. Spec. Mfrs. Assoc. Proc. 36: 47. [Soap and Sanit. Chem. Special Issue.] Strobach, VI, Nitrous oxide, carbon dioxide, and their mixtures as propel- lents. Chem. Spec. Mfrs, Assoc. Proc. 36: 45-46. [Soap and Sanit. Chem. Special Issue.] withrup, S. Chlordane in aerosols. Chem. Spec. Mfrs. Assoc. Proc. 36: 69-70. [Soap and Sanit. Chem. Special Issue.] Young, E. G. 1/hat's new in Freon propellents? Chem. Spec. Mfrs. Assoc. Proc. 36: 42-43, 45. [Soap and Sanit. Chem. Special Issue.] UNIVERSITY OF FlG<- mi iiiui 3 1262 09239 5861