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NTIS 바로가기Physiologia plantarum, v.21 no.2, 1968년, pp.414 - 422
Christersson, Lars , Pettersson, Sune
AbstractThe aim of the investigation was to study the influence of the rate of water uptake on the uptake of sulphate at supernormal rates of water flow. This was achieved by reducing the size of the root system of 42 days old Ricinus plants. The rate of water flow through the root increased 3 times...
Alberda Th. Louwerse W.&Brouwer R.:The relation between salt and water uptake with intact and decapitated tomato plants.Jaarb. I.B.S.61-76.1964.
BANGE, G. G. J., MEIJER, C. L. G.. THE ALKALI CATION CARRIER OF BARLEY ROOTS: A MACROMOLECULAR STRUCTURE?. Acta botanica Neerlandica : official publication of the Nederlandse Botanische Vereniging, vol.15, no.2, 434-450.
BROUWER, R.. THE REGULATING INFLUENCE OF TRANSPIRATION AND SUCTION TENSION ON THE WATER AND SALT UPTAKE BY THE ROOTS OF INTACT VICIA FABA PLANTS. Acta botanica Neerlandica : official publication of the Nederlandse Botanische Vereniging, vol.3, no.2, 264-312.
BROUWER, R.. INVESTIGATIONS INTO THE OCCURRENCE OF ACTIVE AND PASSIVE COMPONENTS IN THE ION UPTAKE BYVICIA FABA. Acta botanica Neerlandica : official publication of the Nederlandse Botanische Vereniging, vol.5, no.4, 287-314.
Brouwer, R. ION Absorption and Transport in Plants. Annual review of plant physiology, vol.16, 241-266.
Falk, Stig Olof. Effect on Transpiration and Water Uptake by Rapid Changes in the Osmotic Potential of the Nutrient Solution. Physiologia plantarum, vol.19, no.3, 602-617.
Gračanin M.:Über die Rolle del Wurzelsystems in der Wasserversorgung der Pflanzen.Fac. Sci. Nat. Univ. Skopje pp.39-64.1962.
Hylmö, Bertil. Transpiration and Ion Absorption. Physiologia plantarum, vol.6, no.2, 333-405.
Jensen, Gustav. Relationship between Water and Nitrate Uptake in Excised Tomato Root Svetems. Physiologia plantarum, vol.15, no.4, 791-803.
Kausch, Walter, Ehrig, Heinrich. Beziehungen zwischen Transpiration und Wurzelwerk. Planta, vol.53, no.5, 434-448.
Kihlman‐Falk, Eva. Components in the Uptake and Transport of High Accumulative Ions in Wheat. Physiologia plantarum, vol.14, no.2, 417-438.
Kylin, Anders. The Uptake and Metabolism of Sulphate by Deseeded Wheat Plants. Physiologia plantarum, vol.6, no.4, 775-795.
Kylin, Anders, Hylmö, Bertil. Uptake and Transport of Sulphate in Wheat. Active and Passive Components. Physiologia plantarum, vol.10, no.2, 467-484.
Laties, George G.. THE GENERATION OF LATENT-ION-TRANSPORT CAPACITY. Proceedings of the National Academy of Sciences of the United States of America, vol.45, no.2, 163-172.
Oertli, J. J.. Betrachtungen zum Trägertransport bei der pflanzlichen Ionenaufnahme. Zeitschrift für Pflanzenernährung, Düngung, Bodenkunde, vol.104, no.1, 25-38.
Pettersson, Sune. Ion Absorption in Young Sunflower Plants I. Uptake and Transport Mechanisms for Sulphate. Physiologia plantarum, vol.13, no.1, 133-147.
Pettersson, Sunk. Ion Absorption in Young Sunflower Plants II : The Sulphate Uptake in the Apparent Free Space. Physiologia plantarum, vol.14, no.1, 124-132.
Pettersson, Sune. Active and Passive Components of Sulfate Uptake in Sunflower Plants. Physiologia plantarum, vol.19, no.2, 459-492.
Pettersson, Sune. Artificially Induced Water and Sulfate Transport through Sunflower Roots. Physiologia plantarum, vol.19, no.3, 581-601.
RUSSELL, R. SCOTT, SHORROCKS, V. M.. The Relationship between Transpiration and the Absorption of Inorganic Ions by Intact Plants. Journal of experimental botany, vol.10, no.2, 301-316.
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