SEARCH

SEARCH BY CITATION

References

  • Barceló J, Poschenrieder C. 2002. Fast root growth responses, root exudates, and internal detoxification as clues to the mechanisms of aluminium toxicity and resistance: a review. Environmental and Experimental Botany 48: 7592.
  • Bartoli F, Wilding LP. 1980. Dissolution of biogenic opal as a function of its physical and chemical properties. Soil Science Society of America Journal 44: 873878.
  • Britez RM, Reissmann CB, Silva SM, Athayde SF, Lima RX, De Quadros RMB. 1997. Chemical characterization of two forests on the coastal plains of the Ilha do Mel, Paraná, Brazil. In: AndoT, FujitaK, MaeT, MatsumotoH, MoriS, SekiyaJ, eds. Plant nutrition – for sustainable food production and environment. Dordrecht, The Netherlands: Kluwer Academic Publishers, 461462.
  • Chenery EM. 1946. Are Hydrangea flowers unique? Nature 158: 240241.
  • Chenery EM. 1948. Aluminium in plants and its relation to plant pigments. Annals of Botany New Series 12: 121136.
  • Cuenca G, Herrera R. 1987. Ecophysiology of aluminium in terrestrial plants, growing in acid and aluminium-rich tropical soils. Annales de la Société Royale Zoologique de Belgique 117: 5773.
  • Cuenca G, Herrera R, Merida T. 1991. Distribution of aluminium in accumulator plants by X-ray microanalysis in Richeria grandis Vahl leaves from a cloud forest in Venezuela. Plant, Cell & Environment 14: 437441.
  • Exley C, Schneider C, Doucet FJ. 2002. The reaction of aluminium with silicic acid in acidic solution: an important mechanism in controlling biological availability of aluminium? Coordination Chemistry Reviews 228: 127135.
  • Foy CD, Chaney RL, White MC. 1978. The physiology of metal toxicity in plants. Annual Review of Plant Physiology 29: 511566.
  • Frey B, Keller C, Zierold K, Schulin R. 2000. Distribution of Zn in functionally different leaf epidermal cells of the hyperaccumulator Thlaspi caerulescens. Plant, Cell & Environment 23: 675687.
  • Geoghegan IE, Sprent JI. 1996. Aluminum and nutrient concentrations in species native to central Brazil. Communications in Soil Science and Plant Analysis 27: 29252934.
  • Golley FB, Yantko J, Richardson T, Klinge H. 1980. Biogeochemistry of tropical forests: 1. The frequency distribution and mean concentration of selected elements in a forest near Manaus, Brazil. Tropical Ecology 21: 5970.
  • Haridasan M. 1982. Aluminium accumulation by some cerrado native species of central Brazil. Plant and Soil 65: 265273.
  • Haridasan M. 1988. Performance of Miconia albicans (SW.) Triana, an aluminum accumulating species, in acidic and calcareous soils. Communications in Soil Science and Plant Analysis 19: 10911103.
  • Haridasan M, Paviani TI, Schiavini I. 1986. Localization of aluminium in the leaves of some aluminium-accumulating species. Plant and Soil 94: 435437.
  • Hodson MJ, Evans DE. 1995. Aluminium/silicon interactions in higher plants. Journal of Experimental Botany 46: 161171.
  • Hodson MJ, Sangster AG. 1993. The interaction between silicon and aluminium in Sorghum bicolor (L.) Moench: growth analysis and X-ray microanalysis. Annals of Botany 72: 389400.
  • Jansen S, Dessein S, Piesschaert F, Robbrecht E, Smets E. 2000a. Aluminium accumulation in leaves of Rubiaceae: systematic and phylogenetic implications. Annals of Botany 85: 91101.
  • Jansen S, Robbrecht E, Beeckman H, Smets E. 2000b. Aluminium accumulation in Rubiaceae: an additional character for the delimitation of the subfamily Rubioideae? International Association of Wood Anatomists Journal 21: 187212.
  • Jansen S, Broadley M, Robbrecht E, Smets E. 2002a. Aluminum hyperaccumulation in angiosperms: a review of its phylogenetic significance. Botanical Review 68: 235269.
  • Jansen S, Watanabe T, Smets E. 2002b. Aluminium accumulation in leaves of 127 species in Melastomataceae with comments on the order Myrtales. Annals of Botany 90: 5364.
  • Karley AJ, Leigh RA, Sanders D. 2000. Where do all the ions go? The cellular basis of differential ion accumulation in leaf cells. Trends in Plant Science 5: 465470.
  • Klinowski J, Cheng C-F, Sanz J, Rojo JM. 1998. Structural studies of tabasheer, an opal of plant origin. Philosophical Magazine A 77: 201216.
  • Kochian LV. 1995. Cellular mechanisms of aluminum toxicity and resistance in plants. Annual Review of Plant Physiology and Plant Molecular Biology 46: 237260.
  • Krämer U, Grime GW, Smith JAC, Hawes CR, Baker AJM. 1997. Micro-PIXE as a technique for studying nickel localization in leaves of the hyperaccumulator plant Alyssum lesbiacum. Nuclear Instrument and Method in Physics Research 130: 346350.
  • Kukachka BF, Miller RB. 1980. A chemical spot-test for aluminum and its value in wood identification. International Association of Wood Anatomists Bulletin New Series 1: 104109.
  • Küpper H, Zhao FJ, McGrath SP. 1999. Cellular compartmentation of zinc in leaves of the hyperaccumulator Thlaspi caerulescens. Plant Physiology 119: 305311.
  • Leigh RA, Storey R. 1993. Intercellular compartmentation of ions in barley leaves in relation to potassium nutrition and salinity. Journal of Experimental Botany 44: 755762.
  • Liang J-Y, Shyu T-H, Lin H-C. 1996. The aluminum complexes in the xylem sap of tea plant. Journal of the Chinese Agricultural Chemical Society 34: 695702. (In Chinese with English summary.)
  • Lüttge U, Haridasan M, Fernandes GW, De Mattos EA, Trimborn P, Franco AC, Caldas LS, Ziegler H. 1998. Photosynthesis of mistletoes in relation to their hosts at various sites in tropical Brazil. Trees 12: 167174.
  • Ma JF, Sasaki M, Matsumoto H. 1997a. Al-induced inhibition of root elongation in corn, Zea mays L. is overcome by Si addition. Plant and Soil 188: 171176.
  • Ma JF, Hiradate S, Nomoto K, Iwashita T, Matsumoto H. 1997b. Internal detoxification mechanism of Al in Hydrangea. Plant Physiology 113: 10331039.
  • Ma JF, Zheng SJ, Matsumoto H, Hiradate S. 1997c. Detoxifying aluminium with buckwheat. Nature 390: 569570.
  • Ma JF, Ryan PR, Delhaize E. 2001a. Aluminium tolerance in plants and the complexing role of organic acids. Trends in Plant Science 6: 273278.
  • Ma JF, Miyake Y, Takahashi E. 2001b. Silicon as a beneficial element for crop plants. In: DatnoffLE, SnyderGH, KorndörferGH, eds. Silicon in agriculture. Amsterdam, The Netherlands: Elsevier, 1739.
  • Ma JF, Takahashi E. 2002. Soil, fertilizer, and plant silicon research in Japan. Amsterdam, The Netherlands: Elsevier.
  • Masunaga T, Kubota D, Hotta M, Wakatsuki T. 1998. Mineral composition of leaves and bark in aluminum accumulators in a tropical rain forest in Indonesia. Soil Science and Plant Nutrition 44: 347358.
  • Matsumoto H. 2000. Cell biology of aluminum toxicity and tolerance in higher plants. International Review of Cytology 200: 146.
  • Matsumoto H, Hirasawa E, Morimura S, Takahashi E. 1976. Localization of aluminium in tea leaves. Plant and Cell Physiology 17: 627631.
  • De Medeiros RA, Haridasan M. 1985. Seasonal variations in the foliar concentrations of nutrients in some aluminium accumulating and non-accumulating species of the cerrado region of central Brazil. Plant and Soil 88: 433436.
  • Nagata T, Hayatsu M, Kosuge N. 1992. Identification of aluminium forms in tea leaves by 27Al NMR. Phytochemistry 31: 12151218.
  • Nagata T, Hayatsu M, Kosuge N. 1993. Aluminium kinetics in the tea plant using 27Al and 19F NMR. Phytochemistry 32: 771775.
  • Osaki M, Watanabe T, Tadano T. 1997. Beneficial effect of aluminum on growth of plants adapted to low pH soils. Soil Science and Plant Nutrition 43: 551563.
  • Osaki M, Watanabe T, Ishizawa T, Nilnond C, Nuyim T, Sittibush C, Tadano T. 1998. Nutritional characteristics in leaves of native plants grown in acid sulfate, peat, sandy podzolic, and saline soils distributed in peninsular Thailand. Plant and Soil 201: 175182.
  • Shen R, Ma F. 2001. Distribution and mobility of aluminium in an Al-accumulating plant, Fagopyrum esculentum Moench. Journal of Experimental Botany 52: 16831687.
  • Tanaka A, Tadano T, Yamamoto K, Kanamura N. 1987. Comparison of toxicity to plants among Al3+, AlSO4+, and Al–F complex ions. Soil Science and Plant Nutrition 33: 4355.
  • Watanabe T, Osaki M. 2002. Mechanisms of adaptation to high aluminum condition in native plant species growing in acid soils: a review. Communications in Soil Science and Plant Analysis 33: 12471260.
  • Watanabe T, Osaki M, Tadano T. 1997. Aluminum-induced growth stimulation in relation to calcium, magnesium, and silicate nutrition in Melastoma malabathricum L. Soil Science and Plant Nutrition 43: 827837.
  • Watanabe T, Osaki M, Yoshihara T, Tadano T. 1998a. Distribution and chemical speciation of aluminum in the Al accumulator plant, Melastoma malabathricum L. Plant and Soil 201: 165173.
  • Watanabe T, Osaki M, Damdinsuren S, Tadano T. 1998b. Growth stimulation effect of aluminum on Al accumulator plant –Melastoma malabathricum. Proceedings of International Workshop on New Concepts of Plant Nutrient Acquisition: Poster Session, Tsukuba, 2223.