Abstract
Various ecophysiological investigations on carnivorous plants in wet soils are presented. Radial oxygen loss from roots of Droseraceae to an anoxic medium was relatively low 0.02 – 0.07 μmol(O2) m− 2 s−1 in the apical zone, while values of about one order of magnitude greater were found in both Sarracenia rubra roots and Genlisea violacea traps. Aerobic respiration rates were in the range of 1.6 − 5.6 μmol kg−1 (f.m.) s−1 for apical root segments of seven carnivorous plant species and 0.4 − 1.1 μmol kg−1 (f.m.) s−1 for Genlisea traps. The rate of anaerobic fermentation in roots of two Drosera species was only 5 − 14 % of the aerobic respiration. Neither 0.2 mM NaN3 nor 0.5 mM KCN influenced respiration rate of roots and traps. In all species, the proportion of cyanide-resistant respiration was high and amounted to 65 − 89 % of the total value. Mean rates of water exudation from excised roots of 12 species ranged between 0.4 − 336 mm 3 kg−1 (f.m.) s−1 with the highest values being found in the Droseraceae. Exudation from roots was insensitive to respiration inhibitors. No significant difference was found between exudation rates from roots growing in situ in anoxic soil and those kept in an aerated aquatic medium. Carnivorous plant roots appear to be physiologically very active and well adapted to endure permanent soil anoxia.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
Abbreviations
- CN−-R:
-
cyanide-resistant respiration
- d.m.:
-
dry mass
- f.m.:
-
fresh mass
- Jf.m. :
-
fresh-mass based water exudation
- JL :
-
root-length based water exudation
- RD :
-
dark respiration rate
- RH:
-
relative humidity
- ROL:
-
radial oxygen loss
- SHAM:
-
salicylhydroxamic acid
References
Adamec, L.: Mineral nutrition of carnivorous plants: A review.-Bot. Rev. 63: 273–299, 1997a.
Adamec, L.: Photosynthetic characteristics of the aquatic carnivorous plant Aldrovanda vesiculosa.-Aquat. Bot. 59: 297–306, 1997b.
Adamec, L.: Leaf absorption of mineral nutrients in carnivorous plants stimulates root nutrient uptake.-New Phytol. 155: 89–100, 2002.
Adamec, L.: Zero water flows in Genlisea traps.-Carniv. Plant Newslett. 32: 46–48, 2003.
Adamec, L.: Ecophysiological characterization of dormancy states in turions of the aquatic carnivorous plant Aldrovanda vesiculosa.-Biol. Plant. 47: 395–402, 2003/4.
Anderson, W.P.: Transport through roots.-In: Lüttge, U., Pitman, M.G. (ed.): Transport in Plants II. Part B. Tissues and Organs. Encyclopedia of Plant Physiology, New Series, Vol. 2. Pp. 129–159. Springer-Verlag, Berlin 1976.
Armstrong, W.: Aeration in higher plants.-Adv. Bot. Res. 7: 225–332, 1979.
Armstrong, J., Armstrong, W.: Rice and Phragmites: effects of organic acids on growth, root permeability, and radial oxygen loss to the rhizosphere.-Amer. J. Bot. 88: 1359–1370, 2001.
Atkin, O.K., Villar, R., Lambers, H.: Partitioning of electrons between the cytochrome and alternative pathways in intact roots.-Plant Physiol. 108: 1179–1183, 1995.
Clarkson, D.T.: Ion Transport and Cell Structure in Plants.-McGraw-Hill Book Co., London 1974.
Colmer, T.D.: Aerenchyma and an inducible barrier to radial oxygen loss facilitate root aeration in upland, paddy and deep-water rice (Oryza sativa L.).-Ann. Bot. 91: 301–309, 2003.
Dainty, J., Ginzburg, B.Z.: The measurement of hydraulic conductivity (osmotic permeability to water) of internodal Characean cells by means of transcellular osmosis.-Biochim. biophys. Acta 79: 102–111, 1964.
Glinka, Z., Abir, N.: Abscisic acid promotes passive fluxes of vacuolar solutes in excised sunflower roots.-In: Loughman, B.C., Gašparíková, O., Kolek, J. (ed.): Structural and Functional Aspects of Transport in Roots. Pp. 97–99. Kluwer Academic Publishers, Dordrecht 1989.
Hanslin, H.M., Karlsson, P.S.: Nitrogen uptake from prey and substrate as affected by prey capture level and plant reproductive status in four carnivorous plant species.-Oecologia 106: 370–375, 1996.
Juniper, B.R., Robins, R.J., Joel, D.M.: Carnivorous Plants.-Academic Press, London 1989.
Justin, S.H.F.W., Armstrong, W.: The anatomical characteristics of roots and plant response to soil flooding.-New Phytol. 106: 465–495, 1987.
Kapulnik, Y., Yalpani, N., Raskin, I.: Salicylic acid induces cyanide-resistant respiration in tobacco cell-suspension cultures.-Plant Physiol. 100: 1921–1926, 1992.
Kohout, P.: [Comparative Root Anatomy of Selected Species of Carnivorous Plants]-Thesis, University of South Bohemia, České Budějovice 2002. [In Czech.]
Lambers, H.: The physiological significance of cyanide-resistant respiration.-Plant Cell Environ. 3: 293–302, 1980.
Larcher, W.: Őkologie der Pflanzen.-Eugen Ulmer Gmbh & Co., Stuttgart 1984.
Loveys, B.R., Atkinson, L.J., Sherlock, D.J., Roberts, R.L., Fitter, A.H., Atkin, O.K.: Thermal acclimation of leaf and root respiration: an investigation comparing inherently fast-and slow-growing plant species.-Global Change Biol. 9: 895–910, 2003.
Marschner, H.: Mineral Nutrition of Higher Plants.-Academic Press, London 1995.
Millar, A.H., Atkin, O.K., Menz, R.I., Henry, B., Farquhar, G., Day, D.A.: Analysis of respiratory chain regulation in roots of soybean seedlings.-Plant Physiol. 117: 1083–1093, 1998.
Quintero, J.M., Molina, R., Fournier, J.M., Benloch, M., Ramos, J.: Glucose-induced activation of rubidium transport and water flux in sunflower root systems.-J. exp. Bot. 52: 99–104, 2001.
Schlüter, U. Crawford, R.M.M.: Long-term anoxia tolerance in leaves of Acorus calamus L. and Iris pseudacorus L.-J. exp. Bot. 52: 2213–2225, 2001.
Smits, A.J.M., Laan, P., Thier, R.H., Van der Velde, G.: Root aerenchyma, oxygen leakage patterns and alcoholic fermentation ability of the roots of some nymphaeid and isoetid macrophytes in relation to the sediment type of their habitat.-Aquat. Bot. 38: 3–17, 1990.
Van der Werf, A., Kooijman, A., Welschen, R., Lambers, H.: Respiratory costs for the maintenance of biomass, for growth and for ion uptake in roots of Carex diandra and Carex acutiformis.-Physiol. Plant. 72: 483–491, 1988.
Veen, B.W.: Influence of oxygen deficiency on growth and function of plant roots.-In: Loughman, B.C., Gašparíková, O., Kolek, J. (ed.): Structural and Functional Aspects of Transport in Roots. Pp. 223–230. Kluwer Academic Publishers, Dordrecht 1989.
Webb, T., Armstrong, W.: Effects of KCN and salicylhydroxamic acid on the root respiration of pea seedlings.-Plant Physiol. 72: 280–286, 1983.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Adamec, L. Ecophysiological characterization of carnivorous plant roots: Oxygen fluxes, respiration, and water exudation. Biol Plant 49, 247–255 (2005). https://doi.org/10.1007/s10535-005-7255-5
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/s10535-005-7255-5