SEARCH

SEARCH BY CITATION

References

  • Armstrong J, Afreen-Zobayed F, Blyth S, Armstrong W. 1999. Phragmites australis: effects of shoot submergence on seedling growth and survival and radial oxygen loss from roots. Aquatic Botany 64: 275289.
  • Armstrong J, Armstrong W. 2005. Rice: sulphide-induced barriers to root radial oxygen loss, Fe2+ and water uptake, and lateral root emergence. Annals of Botany 96: 625638.
  • Armstrong W. 1971. Radial oxygen losses from intact rice roots as affected by distance from the apex, respiration, and waterlogging. Physiologia Plantarum 25: 192197.
  • Armstrong W. 1979. Aeration in higher plants. Advances in Botanical Research 7: 225332.
  • Armstrong W, Webb T. 1985. A critical oxygen pressure for root extension in rice. Journal of Experimental Botany 36: 15731582.
  • Beckett PM, Armstrong W, Justin SHFW, Armstrong J. 1988. On the relative importance of convective and diffusive gas-flows in plant aeration. New Phytologist 110: 463468.
  • Borum J, Pedersen O, Greve T, Frankovich TA, Zieman JC, Fourqurean JW, Madden CJ. 2005. The potential role of plant oxygen and sulphide dynamics in die-off events of the tropical seagrass, Thalassia testudinum. Journal of Ecology 93: 148158.
  • Clark LH, Harris WH. 1981. Observations on the root anatomy of rice (Oryza sativa L.). American Journal of Botany 68: 15461.
  • Colmer TD. 2003a. Long-distance transport of gases in plants: a perspective on internal aeration and radial oxygen loss from roots. Plant, Cell & Environment 26: 1736.
  • Colmer TD. 2003b. Aerenchyma and an inducible barrier to radial oxygen loss facilitate root aeration in upland, paddy and deep-water rice (Oryza sativa L.). Annals of Botany 91: 301309.
  • Greve T, Borum J, Pedersen O. 2003. Meristematic oxygen variability in eelgrass (Zostera marina L.). Limnology and Oceanography 48: 210216.
  • Hansen GK. 1977. Adaption to photosynthesis and diurnal oscillation of root respiration rates for Lolium multiflorum. Physiologia Plantarum 39: 275279.
  • Jackson MB, Armstrong W. 1999. Formation of aerenchyma and the processes of plant ventilation in relation to soil flooding and submergence. Plant Biology 1: 274287.
  • Jackson MB, Ram PC. 2003. Physiological and molecular basis of susceptibility and tolerance of rice plants to complete submergence. Annals of Botany 91: 227241.
  • Jahnke LS, Eighmy TT, Fagerberg WR. 1991. Studies of Elodea nuttallii grown under photorespiratory conditions. I. Photosynthetic characteristics. Plant, Cell & Environment 14: 147156.
  • Kaufman PB. 1959. Development of the shoot of Oryza sativa L. II. Leaf histogenesis. Phytomorphology 9: 277311.
  • Mommer L, Pedersen O, Visser EJW. 2004. Acclimation of a terrestrial plant to submergence facilitates gas exchange under water. Plant, Cell & Environment 27, 12811287.
  • Pedersen O, Vos H, Colmer TD. 2006. Oxygen dynamics during submergence in the halophytic stem succulent Halosarcia pergranulata. Plant, Cell & Environment 29: 13881399.
  • Raskin I. 1983. A method for measuring leaf volume, density, thickness, and internal gas volume. HortScience 18: 698699.
  • Raskin I, Kende H. 1983. How does deep water rice solve its aeration problem. Plant Physiology 72: 447454.
  • Revsbech NP. 1989. An oxygen microsensor with a guard cathode. Limnology and Oceanography 34: 474478.
  • Revsbech NP, Pedersen O, Reichardt W, Briones A. 1999. Microsensor analysis of oxygen and pH in the rice rhizosphere under field and laboratory conditions. Biology and Fertility of Soils 29: 379385.
  • Rijnders JGHM, Armstrong W, Darwent MJ, Blom CWPM, Voesenek LACJ. 2000. The role of oxygen in submergence-induced petiole elongation in Rumex palustris: in situ measurements of oxygen in petioles of intact plants using micro-electrodes. New Phytologist 147: 497504.
  • Saglio PH, Pradet A. 1980. Soluble sugars, respiration, and energy charge during aging of excised maize root tips. Plant Physiology 66: 516519.
  • Sand-Jensen K, Pedersen O, Binzer T, Borum J. 2005. Contrasting oxygen dynamics in the freshwater isoetid Lobelia dortmanna and the marine seagrass Zostera marina. Annals of Botany 96: 613623.
  • Sarkar RK, Reddy JN, Sharma SG, Ismail AM. 2006. Physiological basis of submergence tolerance in rice and implications for crop improvement. Current Science 91: 899906.
  • Setter TL, Greenway H, Kupkanchankul T. 1989b. Submergence of rice. II. Adverse effects of low CO2 concentrations. Australian Journal of Plant Physiology 16: 265278.
  • Setter TL, Kupkanchanakul T, Kupkanchanakul K, Bhekasut P, Wiengweera A, Greenway H. 1987a. Concentrations of CO2 and O2 in floodwater and in internodal lacunae of floating rice growing at 1–2 metre water depths. Plant, Cell & Environment 10: 767776.
  • Setter TL, Waters I, Greenway H, Atwell BJ, Kupkanchanakul T. 1987b. Carbohydrate status of terrestrial plants during flooding. In: CrawfordRMM, ed. Plant life in aquatic and amphibious habitats, Special Publication No. 5 British Ecological Society. Oxford, UK: Blackwell Scientific Publications, pp. 411433.
  • Setter TL, Waters I, Wallace I, Bhekasut P, Greenway H. 1989a. Submergence of rice. I. Growth and photosynthetic response to CO2 enrichment of floodwater. Australian Journal of Plant Physiology 16: 251263.
  • Sorrell BK, Dromgoole FI. 1987. Oxygen transport in the submerged freshwater macrophytes Egeria densa Planch. I. Oxygen production, storage and release. Aquatic Botany 28: 6380.
  • Stumm W, Morgan JJ. 1996. Aquatic chemistry, 3rd edn. New York, NY, USA: John Wiley.
  • Stunzi JT, Kende H. 1989. Gas composition in the internal air spaces of deepwater rice in relation to growth induced by submergence. Plant Cell Physiology 30, 4956.
  • Thomson CJ, Armstrong W, Waters I, Greenway H. 1990. Aerenchyma formation and associated oxygen movement in seminal and nodal roots of wheat. Plant, Cell & Environment 13: 395403.
  • Voesenek LACJ, Colmer TD, Pierik R, Millenaar FF, Peeters AJM. 2006. How plants cope with complete submergence. New Phytologist 170: 213226.
  • Waters I, Armstrong W, Thompson CJ, Setter TL, Adkins S, Gibbs J, Greenway H. 1989. Diurnal changes in radial oxygen loss and ethanol metabolism in roots of submerged and non-submerged rice seedlings. New Phytologist 113: 439451.
  • Wiengweera A, Greenway H, Thomson CJ. 1997. The use of agar nutrient solution to simulate lack of convection in waterlogged soils. Annals of Botany 80: 115123.
  • Xu K, Xu X, Fukao T, Canlas P, Maghirang-Rodriguez R, Heuer S, Ismail AM, Bailey-Serres J, Ronald PC, Mackill DJ. 2006. Sub1A is an ethylene-response-factor-like gene that confers submergence tolerance to rice. Nature 442: 705708.
  • Yemm EW, Willis A J. 1954. The estimation of carbohydrates in plant extracts by anthrone. Biochemical Journal 57: 508514.
  • Zeigler RS, Puckridge DW. 1995. Improving sustainable productivity in rice-based rainfed lowland systems of south and southeast Asia. GeoJournal 35: 307324.