BIBLIOGRAPHY 



LuDi, W. & Vareschi, V. (1936). Die Verbreitung, das Bliihen und der Pollen- 



niederschlag der Heufieberpflanzen im Hochtale von Davos. Ber. Geobot. 



Forsch-Inst. Riibel, 1935, 47-112. 

 LuDLAM, F. H. & Scorer, R. S. (1953). Convection in the atmosphere. Quart. J. Roy. 



Met. Soc, 79, 317-41. 

 LURIE, H. I. & Way, M. (1957). The isolation of dermatophytes from the atmosphere 



of caves. Alycologia, 49, 178-80. 

 McCallan, S. E. a. (1944). Evaluating fungicides by means of greenhouse snapdragon 



rust. Contr. Boyce Tlwmpson Inst., 13, 367-84. 

 & Wellman, R. H. (1943). A greenhouse method of evaluating fungicides by 



means of tomato foliage diseases. Contr. Boyce Thompson Inst., 13, 93-134. 

 McCuBBiN, W. A. (1918). Dispersal distance of urediniospores of Cronartium ribicola 



as indicated by their rate of fall in still air. Phytopathology, 8, 35-6. 

 — — • (1944). Relation of spore dimensions to their rate of fall. Phytopathology, 34, 



230-4. 



(i944fl). Airborne spores and plant quarantines. Sci. Mo., New York, 59, 149-52. 



(1954). The Plant Qiiarantine Problem. Munksgaard, Copenhagen, 255 pp. 



McCuLLY, C. R., Fisher, M., Langer, G., Rosinski, J., Glaess, H. & Werle, D. 



(1956). Scavenging action of rain on air-borne particulate matter. Industr. Engng. 



Chem., 48, 1 5 12-6. 

 McLean, A. L. (19 18). Bacteria of ice and snow in Antarctica. Nature, Lond., 102, 



35-9- 

 McLean, R. C. (1935). Bacteriology of the atmosphere. Nature, Lond., 136, 880. 



(1943)- Microbiology of the air. Nature, Lond., 152, 258-9. 



MacLachl.\n, J. D. (1935). The dispersal of viable basidiospores of the Gymno- 



sporangium rusts, jf. Arnold Arbor., 16, 411-22. 

 MacQuiddy, E. L. (1935). Air studies at higher altitudes. J. Allergy, 6, 123-7. 

 Machta, L. (1959). Transport in the stratosphere and through the tropopause. In 



Advances in Geophysics, Vol. 6: Atmospheric Diffusion and Air Pollution, pp. 



273-86. Academic Press, New York, London. 

 Maddox, R. L. (1870). On an apparatus for collecting atmospheric particles. Monthly 



Micros. jf.,T„ 286-90. 



(1871). Observations on the use of the aeroconiscope, or air-dust collecting 



apparatus. Monthly Micros. J., 5, 45-9. 



Malik, M. M. S. & Batts, C. C. V. (i960). The determination of the reaction of 



barley varieties to loose smut. Ann. Appl. Biol, 48, 39-50. 

 Marilaun, a. Kerner von (1895). The Natural History of Plants. Translated by 



F. W. Oliver, 2 vols., Blackie, London, 983 pp. 

 Marshall Ward, H. See Ward, H. Marshall. 

 Martin, W. J. (1943). A simple technique for isolating spores of various fungi from 



exposed slides in aerobiological work. Phytopathology, 33, 75-6. 

 Mason, B. J. (1957). The Physics of Clouds. Clarendon Press, Oxford, 481 pp. 

 Mason-Williams, A. & Benson-Evans, K. (1958). A preliminary investigation into 



the bacterial and botanical flora of caves in South Wales. Cave Res. Gp. ofGt. 



Britain, Pub. No. 8, pp. 1-70. 

 Maunsell, K. (1954). Respiratory allergy to fungus spores. Progr. Allergy, 4, 457- 



520. 

 — — (i954fl). Concentration of airborne spores in dwellings under normal conditions 



and under repair. Int. Arch. Allergy, Basel, 5, 373-6. 



(1958). The seasonal variations of allergic bronchial asthma in relation to the 



concentration of pollen and fungal spores in the air in 1954, 1955 and 1956. Acta 

 Allerg. Kbh., 12, 257-76. 



May, F. G. (1958). The washout of Lycopodium spores by rain. Qiiart. J. Roy. Met. 

 Soc, 84, 451-8. 



227 



