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THE MEASUREMENT OF ELECTRICAL CONDUCTIVITY AS A METHOD OF INVESTIGATION IN PLANT PHYSIOLOGY.

1914; Wiley; Volume: 13; Issue: 6-7 Linguagem: Inglês

10.1111/j.1469-8137.1914.tb05752.x

1469-8137

Walter Stiles, Ingvar Jörgensen,

Mycorrhizal Fungi and Plant Interactions

New PhytologistVolume 13, Issue 6-7 p. 226-242 Free Access THE MEASUREMENT OF ELECTRICAL CONDUCTIVITY AS A METHOD OF INVESTIGATION IN PLANT PHYSIOLOGY. Walter Stiles, Walter StilesSearch for more papers by this authorIngvar Jörgensen, Ingvar JörgensenSearch for more papers by this author Walter Stiles, Walter StilesSearch for more papers by this authorIngvar Jörgensen, Ingvar JörgensenSearch for more papers by this author First published: June 1914 https://doi.org/10.1111/j.1469-8137.1914.tb05752.xCitations: 8AboutPDF ToolsRequest permissionExport citationAdd to favoritesTrack citation ShareShare Give accessShare full text accessShare full-text accessPlease review our Terms and Conditions of Use and check box below to share full-text version of article.I have read and accept the Wiley Online Library Terms and Conditions of UseShareable LinkUse the link below to share a full-text version of this article with your friends and colleagues. Learn more.Copy URL Share a linkShare onFacebookTwitterLinkedInRedditWechat LITERATURE CITED 1 Bayliss, W. M. The Nature of Enzyme Action." Third Edition, London , 1914. 2 Bernstein, J. Elektrobiologie. Braunschweig, 1912. 3 Beutner, R. Potential Differences at the Junction of Immiscible Phases. Trans. Amer. Electrochem. Soc., Vol. 21, 1912, p. 219. 4 Beutner, R. Die physikalische Natur bioelektrische Potentialdifferenzen. Bioch. Zeitsch. Bd. 47, 1912, p. 73. 5 Beutner, R. Water-Immiscible Organic Liquids as Central Conductors "in Galvanic Cells. Trans. Amer. Electroch. Soc., Vol. 23, 1913, p. 401. 6 Beutner, R. New Galvanic Phenomena. Amer. Jour. Physiology, Vol. 31, 1913, p. 343. 7 Beutner, R. Neue Erscheinungen der Elektrizitätserregung, welche einige bioelektrische Phänomene erklären. Erster Teil. Zeitsch. für Elektrochemie. Bd. 19, 1913, p. 319. 8 Beutner, R. Neue Erscheinungen der Elektrizitätserregung, welche einige bioelektrische Phänomene erklären. Zweiter Teil Ibid., Bd. 19, 1913, p. 467. 9 Bouyoucos, G. Transpiration of Wheat Seedlings as affected by different Densities of a Complete Nutrient Solution in Water, Sand and Soil Cultures. Beihefte zum Bot. Centralbl. Bd. 29, Abt. 1, 1912, p. 1. 10 Dixon H. H., and Atkins, W. R. G. Osmotic Pressure in Plants. I. Methods of Extracting Sap from Plant Organs. Sci. Proc. Roy. Dublin Soc., Vol. 13, (N.S.), 1913, p. 422. 11 Dixon H. H., and Atkins, W. R. G. Osmotic Pressure in Plants. II. Cryoscopic and Conductivity Measurements on Some Vegetable Saps. Ibid., Vol. 13, (N.S.), p. 434, 1913. 12 Dixon H. H., and Atkins, W. R. G. Osmotic Pressure in Plants. III. The Osmotic Pressure and Electrical Conductivity of Yeast, Beer and Wort. Sci. Proc. Roy. Dublin Soc., Vol. 14 (N.S.), 1913, p. 9. 13 Ewart, A. J. Protoplasmic Streaming in Plants." Oxford , 1903. 14 Fitzpatrick, T. C. On the Application of Alternating Currents to the Determination of the Conductivity of Electrolytes. Brit. Ass. Report, 1886, p. 328. 15 Hammer W. Ueber einen neuen Stromwerden. Phys. Zeitschr., Bd. 13, 1912, p. 948. 16 Heald F. De F. The Electrical Conductivity of Plant Juices. Bot. Gazette, Vol. 34, 1902, p. 81. 17 Höber R. Ein zweites Verfahren, die Leitfähigkeit im Innern von Zellen zu messen. Archiv für die ges. Physiologie. Bd. 148, 1912, p. 189. 18 Höber R. Messungen der inneren Leitfähigkeit von Zellen. Dritte Mitteilung. Ibid., Bd. 150, 1913, p. 15. 19 Klemm, P. Desorganisationserseheinungen der Zelle. Jahrb. f. wiss. Bot., Bd. 28, 1895, p. 627. 20 Loeb, J., and Beutner, R. On the Nature and Seat of the Electromotive Forces manifested by Living Organs. Science, Vol. 34 (N.S.), 1911, p. 884. 21 Loeb, J., and Beutner, R. Die Bedeutung der Lipoide für die Entstehung der bioelektrischen Potentialdifferenzen bei gewissen pflanzlichen Organen. Bioch. Zeitsch., Bd. 51, 1913, p. 288. 22 Loeb, J., and Beutner, R. Einfluss der Anæsthetica auf die Potential-differenzan der Oberfläche pflanzlichen und tierischer-Gewebe. Bioch. Zeitsch. Bd. 51, 1913, p. 300. 23 Mameli, Eva Sulla conducibilità elettrica dei sucche e dei tessuti vegetali. Att. dell' Ist. Bot. dell' Università di Pavia, Ser. 2, Vol. 12, 1909, p. 285. 24 Mc Ilhiney. Jour. Amer. Chem. Soc., Vol. 20, 1898, p. 206. 25 Morgan, J. L. R., and Hildburgh, W. L. A method for the Determination of Electrical Conductivity with Direct Current Instruments. Jour. Amer. Chem. Soc., Vol. 22, 1900, p. 304. 26 Nernst, W. Archiv. f. d. ges. Physiologie. Bd. 122, 1908, p. 307. 27 Nicolosi-Roncati, F. Ricerche su la Conduttività elettrica e la pressione osmotica nei vegetali. Rend. della R. Accad. delle Sci. Fis. e Mat. di Napoli. Fasc, 12, 1907. 28 Oker-Blom, M. Thierische Säfte und Gewebe in physikalisch chemischer Beziehung. Sechste Mettheilung. Die elektrische Leitfähigkeit und die Gefrierpunktserniedrigung als Indicatoren der Eiweisspaltung. Skand Archiv. fur Physiologie, Bd. 13, 1902, p. 359. 29 Oker-Blom, M. Thierische Säfte und Gewebe in physikalisch chemischer Beziehung. Siebente Mittheilung. Zur Frage von den autolytischen Erscheinungen in Blutserum und Muskelsaft. Ibid., Bd. 14, 1903, p. 48. 30 Oker-Blom, M. Bestimmung der elektrischen Leitfähigkeit mit Bezug auf bakteriologische Zwecke. Centralbl. für Bakt., Bd. 37, 1904, p. 150. 31 Oker-Blom, M. Die elektrische Leitfähigkeit im Dienste der Bakteriologie. Zentr. Bact., Bd. 65, 1912, p. 382. 32 Osterhout, W. J. V. The Permeability of Protoplasm to Ions and the Theory of Antagonism. Science, Vol. 35 (N.S.), 1912, p. 112. 33 Osterhout, W. J. V. Reversible Changes in Permeability produced by Electrolytes. Science, Vol. 36 (N.S.), 1912, p. 350. 34 Osterhout, W. J. V. The Effect of Anæsthetics upon Permeability. Science, Vol. 37 (N.S.), 1913, p. 111. 35 Osterhout, W. J. V. Some Quantitative Researches on the Permeability of Plant Cells. The Plant World, Vol. 16, 1913, p. 129. 36 Pollacci, G. Eletricità e Vegetazione. Atti dell' Ist. Bot. della R. Università di Pavia, Vol. 13 (N.S.), 1907. 37 Sjöqvist, J. Physiologisch-chemische Beobachtungen ueber Salzsäure. Skand. Arch. für Physiologie, Bd. 5, 1895, p. 277. 38 Stone, G. E., and Chapman, G.H. Electrical Resistance of Trees. Twenty-fourth Annual Report of the Mass. Agric. Exp. Sta., 1912. 39 True, R. H., and Bartlett, H. H. As influenced by Concentration and Composition of Culture Solutions. I. Concentration Relations of Dilute Solutions of Calcium and Magnesium Nitrates to Pea Roots. U. S. Dept. of Agric. Bureau of Plant Industry Bull. No. 231, Washington , 1912. 40 Whetham, W. C. D. On the Ionisation of Dilute Solutions at the Freezing Point. Phil. Trans. Roy. Soc. London, Vol. 194, 1900, p. 321. Citing Literature Volume13, Issue6-7June 1914Pages 226-242 ReferencesRelatedInformation