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REFERENCES

  • Armstrong, J. & Armstrong, W. (1987). Rhizosphere oxygenation by Phragmites australis. Contract reports–Water Research Centre, Stevenage , U.K .
  • Armstrong, J. & Armstrong, W. (1988). Phragmites ausrralis–a preliminary study of soil-oxidizing sites and internal gas transport pathways. New Phytologist 108, 373382.
  • Armstrong, J. & Armstrong, W. (1990a). Light-enhanced convective throughflow increases oxygenation in rhizomes and rhizosphere of Phragmites austrlias (Cav.) Trin. ex Steud. New Phytologist 114, 121128.
  • Armstrong, J. & Armstrong, W. (1990b). Pathways and mechanisms of oxygen transport in Phragmites australis. In: The Use of Constructed Wetlands in Water Pollution Control (Ed. by P. F.Cooper & B. C.Findlater), pp. 529543. Pergamon Press.
  • Armstrong, J. & Armstrong, W. (1991). A convective throughflow of gases in Phragmites australis. Aquatic Botany 39, 7588.
  • Armstrong, J., Armstrong, W. & Beckett, P. M. (1988). Phragmites atistralis-a critical appraisal of the ventilating pressure concept and an analysis of resistance to pressurized gas-flow and gaseous diffusion in horizontal rhizomes. New Phytologist 110, 383390.
  • Armstrong, W. (1979). Aeration in higher plants. In: Advances in Botanical Research, vol. 7 (Ed. by H. W.Woolhouse). pp. 226332.Academic Press, London .
  • Armstrong, W. & Beckett, P. M. (1987). Internal aeration and the development of stelar anoxia in submerged roots: a multishelled mathematical model combining axial diffusion of oxygen in the cortex with radial losses to the stele, the wall layers and the rhizosphere. New Phytologist 105, 221245.
  • Armstrong, W., Armstrong, J., Beckett, P.M. &. Justin, S. H. F. W. (1990a). Convective gas-flows in wetland plant aeration. In: Plant Life under Oxygen Stress (Ed by M. B.Jackson, D. D.Davies & H.Lambers), pp. 283302. SPB Academic Publishing bv. The Hague, Netherlands .
  • Armstrong, W., Armstrong, J. & Beckett, P.M. (1990b). Measurement and modelling of oxygen release from roots of Phragmites australis. In: The Use of Constructed Wetlands in Water Pollution Control (Ed. by P. F.Cooper & B. C.Findlater), pp. 4152. Pergamon Press.
  • Athie, D. & Cerri, C. C., (Eds) (1987). The use of macrophytes in water pollution control. In: Water Science and Technology, vol. 19, No. 10, 73 pp. (Review Journals, Pergamon Journals Ltd, Oxford ).
  • Beckett, P. M., Armstrong, W., Armstrong, J. & Justin, S. H. F. W. (1988). On the relative importance of convective and diffusive gas flows in plant aeration. New Phytologist 110, 463468.
  • Brix, H. (1988). Light dependent variation in the composition of the internal atmosphere of Phragmites australis (Cav.) Trin. ex Steud. Aquatic Botany 30, 319329.
  • Brix, H. (1989). Gas-exchange through dead culms of reed Phragmites australis (Cav.) Trin. ex. Steudel. Aquatic Botany 35, 8198.
  • Brix, H. (1990). Gas-exchange through the soil atmosphere interface and through dead culms of Phragmites australis in a constructed reed bed receiving domestic sewage. Water Research 24, 259266.
  • Brix, H. & Schierup, H.-H. (1990). Soil oxygenation in constructed reed beds; the role of macrophyte and soil-atmosphere interface oxygen transport. In: The Use of Constructed Wetlands in Water Pollution Control (Ed. by P. F.Cooper & B. C.Findlater), pp. 5366. Pergamon Press.
  • Bucksteec, K. (1990). Treatment of domestic sewage in emergent belophyte beds - German experiences and ATV-Guidelines H262. In: The Use of Constructed Wetlands in Water Pollution Control (Ed. by P. F.Cooper & B. C.Findlater), pp. 505516. Pergamon Press.
  • Cooper, P. F. & Findlater, B. C. (1990) (Eds). The Use of Constructed Wetlands in Water Pollution Control. 605 pp. Pergamon Press.
  • Dacey, J. W. H. (1980). Internal winds in water-lilies: an adaptation for life in anaerobic sediments. Science 210, 10171019.
  • Dacey, J. W. H. (1981). Pressurised ventilation in the yellow water-lily. Ecology 62, 11371147.
  • Dacey, J. W. H. (1987). Knudsen-transitional flow and gas pressurisation in leaves of Nelumbo. Plant Physiology 8, 199203.
  • Dunbabin, J. S., Pokorny, J. & Bowmer, K. H. (1988). Rhizosphere oxygenation by Typha domingensis Pers. in miniature artificial wetland filters used for metal removal from wastewaters. Aquatic Botany 29, 303317.
  • Finlayson, C. M. & Chick, A. J. (1983). Testing the potential of aquatic plants to treat abattoir effluents. Water Research 17, 415422.
  • Geller, G., Kleyn, K. & Lenz, A. (1990). ‘Planted soil filters’ for wastewater treatment; the complex system ‘planted soil filter’, its components and their development. In: The Use of Constructed Wetlands in Water Pollution Control (Ed. by P. F.Cooper & B. C.Findlater), pp. 161170. Pergamon Press.
  • Gersrerg, R. M., Elkins, B. V., Lyon, S. R. & Goldman, C. R. G. (1986). Role of aquatic plants in wastewater treatment by artificial wetlands. Water Research 20, 363368.
  • Gersbehg, R. M., Lyon, S. R., Elkin, B. V. & Goldman, C. R. (1985). The removal of heavy metals by artificial wetlands. In: Future of Water Use. Proceedings of Water Use Symposium III, San Diego, CA, vol. II pp. 639648. AWA Research Foundation. Denver , CO .
  • Hansen, J. I. & Andersen, F. O. (1981). Effects of Phragmites australis roots on redox potentials, nitrification and bacterial numbers in the sediment. In: 9th Nordic Symposium on Sediments (Ed. by A.Broberg & T.Tiren), pp- 7288.
  • Hofmann, K. (1990). Use of Phragmites in sewage sludge treatment. In: The Use of Constructed Wetlands in Water Pollution Control (Ed. by P. F.Cooper & B. C.Findlater), pp. 269278. Pergamon Press.
  • Koncalova, H., Pokorny, J. & Kvet, J. (1988). Root ventilation in Carex gracilis Curt: diffusion or mass flow Aquatic Botany 30, 149155.
  • Lawson, G. J. (1985). Cultivating reeds for root zone treatment of sewage, (review). Water Research Centre Report (ITE project 965).
  • May, E., Butler, J. E., Ford, M. G., Ashworth, R., Williams & Baghat, M. M. M. [1990). Chemical and microbiological processes in gravel-bed hydroponic (GBH) systems for sewage treatment. In: The Use of Constructed Wetlands in Water Pollution Control (Ed. by P. F.Cooper & B. C., Findlater), pp. 3340. Pergamon Press.
  • Mevi-Schutz, J. & Große, W. (1988a). A two-way gas transport system in Nelumha nucifera. Plant, Cell and Environment 11, 2734.
  • Mevi-Sghutz, J. & Große, W. (1988b). The importance of water vapour for the circulating air-flow in Nelumbo nucifera. Journal of Experimental Botany 39, 12311236.
  • Reddy, K. R., D'angelo, E. M. & DeBusk, T.A. (1990). Oxygen transport through aquatic macrophytes; the role in wastewater treatment. Environmental Quality 19, 261267.
  • Schierup, H.-H., Brix, H. & Lorenzen, B. (1990). Wastewater treatment in constructed reed beds in Denmark - state of the art. In: The Use of Constructed Wetlands in Water Pollution Control (Ed. by P. F.Cooper & B- C.Findlater), pp. 495504. Pergamon Press.
  • Schröder, P., GroBe, W. & Woermann, D. (1986). Localization of thermo-osmotically active partitions in young leaves of Nuphar lutea. Journal of Experimental Botany 37, 14501461.
  • Stengel, E., Carduck, W. & Jebsemen, C. (1987). Evidence for denitrification in artificial wetlands. In: Aquatic Plants for Water Treatment and Resource Recovery (Ed. by K. R.Reddy & W. H.Smith), pp. 543550. Magnolia Publishing.
  • Wathugala, A. G., Suzuki, T. & Kurihara, Y. (1987). Removal of nitrogen, phosphorus and COD from waste water using sand filtration system with Phragmites australis. Water Research 21, 12171224.
  • Weisner, S. E. B. (1988), Factors affecting the internal oxygen supply of Phragmites australis (Cav.) Trim. Ex. Steudel in situ. Aquatic Botany 31, 329335.
  • Winter, M. & Kickuth, R. (1989a). Elimination of sulphur compounds from wastewater by root zone process-I. Performance of a large-scale purification plant at a textile finishing industry. Water Research 23, 535546.
  • Winter, M. & Kickuth, R. (1989b). Elimination of sulphur compounds from wastewater by root zone process - II. Mode of formation of sulphur deposits. Water Research 23, 547560.