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Acropetal Water Transport in Submerged Plants

1994; Thieme Medical Publishers (Germany); Volume: 107; Issue: 2 Linguagem: Inglês

10.1111/j.1438-8677.1994.tb00409.x

0932-8629

Ole Pedersen,

Plant Water Relations and Carbon Dynamics

Botanica ActaVolume 107, Issue 2 p. 61-65 Acropetal Water Transport in Submerged Plants O. Pedersen, Corresponding Author O. Pedersen Freshwater Biological Laboratory, University of Copenhagen, Helsingørsgade 51, DK-3400 Hillerød, DenmarkFreshwater Biological Laboratory University of Copenhagen Helsingørsgade 51 DK-3400 Hillerød DenmarkSearch for more papers by this author O. Pedersen, Corresponding Author O. Pedersen Freshwater Biological Laboratory, University of Copenhagen, Helsingørsgade 51, DK-3400 Hillerød, DenmarkFreshwater Biological Laboratory University of Copenhagen Helsingørsgade 51 DK-3400 Hillerød DenmarkSearch for more papers by this author First published: April 1994 https://doi.org/10.1111/j.1438-8677.1994.tb00409.xCitations: 12AboutPDF 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 onEmailFacebookTwitterLinkedInRedditWechat References Arber, A. – Water Plants: A Study of Aquatic Angiosperms. 436 pp. University Press, Cambridge, 1920. Barko, J. W. and Smart, R. M. – Sediment-based nutrition of submerged macrophytes. Aquat. Bot. 10 (1981), 339–352. Barko, J. W., Gunnison, D., and Carpenter, S. R. – Sediment interactions with submersed macrophyte growth and community dynamics. Aquat. Bot. 41 (1991), 41–66. Brundett, M. C., Enstone, D. E., and Peterson, C. A. – A berberine-aniline blue fluorescent staining procedure for suberin, lignin, and callose in plant tissue. Protoplasma 146 (1988), 133–142. Carignan, R. and Kalff, J. – Phosphorus sources for aquatic weeds: Water or sediments?. Science 207 (1980), 987–989. Chambers, P. A. – Light and nutrients in the control of aquatic plant community structure. II. In situ observations. J. Ecol. 75 (1987), 621–628. Chambers, P. A. and Kalff, J. – Light and nutrients in the control of aquatic plant community structure. I. In situ experiments. J. Ecol. 75 (1987). 611–619. Chambers, P. A., Prepas, E. E., Bothwell, M. L., and Hamilton, H. R. – Roots versus shoots in nutrient uptake by aquatic macrophytes in flowing waters. Can. J. Fish. Aquat. Sci. 46 (1989), 435–439. Denny, P. – Solute movement in submerged angiosperms. Biol. Rev. 55 (1980), 65–92. Gessner, F. – Der Wasserhaushalt der Hydrophyten und Helophyten. In: O. Stocker, ed., Handbuch der Pflanzenphysiologien. III. Pflanze und Wasser, pp. 854–901, Springer Verlag, Berlin, 1956. Gessner, F. – Hydrobotanik — Die Physiologischen Grundlagen der Pflanzenverbreitung im Wasser. II. Stoffhaushalt. 701 pp. VEB Deutscher Verlag der Wissenschaften, Berlin, 1959. Gordon, N. D., McMahon, T. A., and Finlayson, B. L. – Stream Hydrology — an introduction for ecologists. 526 pp. John Wiley & Sons Ltd., Chichester, 1992. Hallet, F. R., Speight, P. A., and Stinson, R. H. – Physics for the Biological Sciences: A Topical Approach to Biophysical Concepts. 255 pp. Methuen, Toronto, 1982. Hochreutiner, G. – Études sur les phanérogames aquatiques du Rhône et du Port de Genève. Rev. Générale Bot. 8 (1896), 158–167. Hostrup, O. and Wiegleb, G. – Anatomy of leaves of submerged and emergent forms of Littorella uniflora (L.) Aschers. Aquat. Bot. 39 (1991), 195–209. Höhn, K. and Ax, W. – Untersuchungen über Wasserbewegung und Wachstum submerser Pflanzen. Beiträge Biol. Pflanzen 36 (1961), 273–298. Hutchinson, G. E. – A Treatise on Limnology. Vol. III, 660 pp. John Wiley & Sons, New York, 1975. Krom, M. D. and Berner, R. A. – The diffusion coefficient of sulphate, ammonium and phosphate in anoxic marine sediments. Limnol. Oceanogr. 25 (1980), 327–337. von Minden, M. – Beiträge zur anatomischen und physiologischen Kenntnis Wassersecernierender Organe. Biblioth. Bot. 46 (1899), 1–30. Nielsen, S. L. and Sand-Jensen, K. – Variations in growth rates of submerged aquatic macrophytes. Aquat. Bot. 39 (1991), 109–120. Pedersen, O. – Long-distance water transport in aquatic plants. Plant Physiol. 103 (1993), 1369–1375. Pedersen, O. and Sand-Jensen, K. – Water transport in submerged macrophytes. Aquat. Bot. 44 (1993), 385–406. Peterson, C. A. and Steudle, E. – Lateral hydraulic conductivity of early metaxylem vessels in Zea mays L. roots. Planta 189 (1993), 288–297. Pond, R. H. – The biological relation of aquatic plants to the substratum. In: Contributions to the biology of the Great Lakes, pp. 486–528, Report of Commissioner of Fish and Fisheries, University of Michigan, Ann Arbor, 1905. Raven, J. A. – Energetics and Transport in Aquatic Plants. 584 pp. Alan R. Liss, New York, 1984. Salisbury, F. B. and Ross, C. W. – Plant physiology. 4′th ed. 682 pp. Wadsworth Publishing Company, Belmont, 1992. Sauvageau, C. – Sur les feuilles de quelques monocotylédones aquatiques. Annales des Sciences Naturelles, VII série Botanique, 13 (1891), 280–292. Sculthorpe, C. D. – The Biology of Aquatic Vascular Plants. 610 pp. Edward Arnold Ltd., London, 1967. Shepherd, U. H. and Bowling, D. J. F. – Active accumulation of sodium by roots of five aquatic species. New Phytol. 72 (1973), 1075–1080. Smith, J. A. C. – Ion transport and the transpiration stream. Bot. Acta 104 (1991), 416–421. Snell, K. – Untersuchungen über die Nahrungsaufnahme der Wasserpflanzen. Flora 98 (1908), 213–249. Steudle, E. – Pressure probe tecchniques: basic principles and application to studies of water and solute relations at the cell, tissue and organ level. In: J. A. C. Smith & H. Griffiths, ed., Water deficits: plant responses from cell to community. pp. 5–36, Bios Scientific Publishers Ltd., Oxford, 1993. Steudle, E. – The regulation of plant water at the cell, tissue, and organ level: Role of active processes and compartmentation. In: E. D. Schulze, ed., Flux control in biological system. From enzymes to populations and ecosystems. pp. 237–299, Academic Press, San Diego, 1994. Tanner, W. and Beevers, H. – Does transpiration have an essential function in long-distance ion transport in plants?. Plant, Cell Environ. 13 (1990), 745–750. Thoday, D. and Sykes, M. G. – Preliminary observations on the transpiration current in submerged water-plants. Ann. Bot. 23 (1909), 635–637. Thut, H. F. – The movement of water through some submerged water plants. Am. J. Bot. 19 (1932), 693–709. Tswett, M. – Hydathodes des Lobéliacées. Nouveau type de stomates aquiféres. Rev. Générale Bot. 19 (1907), 305–316. Unger, F. – Beiträge zur Anatomie und Physiologie der Pflanzen. IX Neue Untersuchungen über die Transspiration der Gewächse. Sitzungsberichte der Wiener Akademie der Wissenschaften 44 (1862), 328–362. Vogel, S. – Life in moving fluids: The physical biology of flow. 352 pp. Willard Grant Press, Boston, 1981. Waisel, Y. and Shapira, Z. – Functions performed by roots of some submerged hydrophytes. Israel J. Bot. 20 (1971), 69–77. Weinrowsky, P. – Untersuchungen über die Scheitelöffnung bei Wasserpflanzen. Beiträge zur Wissenschaftlichen Botanik 3 (1899), 205–237. Wilson, K. – Water movement in submerged aquatic plants, with special reference to cut shoots of Ranunculus fluitans. Ann. Bot. 11 (1947), 91–122. Zimmermann, M. H. – Xylem Structure and the Ascent of Sap. 143 pp. Springer Verlag, Berlin, 1983. Citing Literature Volume107, Issue2April 1994Pages 61-65 ReferencesRelatedInformation