Root exudates and arsenic accumulation in arsenic hyperaccumulating Pteris vittata and non-hyperaccumulating Nephrolepis exaltata

Plant and Soil

Volumn 258, Issue 1, 2004, Pages 9-19

  Tu, Shuxin ^a   Ma, Lena ^a   Luongo, Thomas ^a  

^a UNIVERSITY OF FLORIDA   (United States)

Author keywords

Arsenic; Hyperaccumulation; Mobilization; Organic acid; Root exudates

Indexed keywords

EXUDATION;

BRYOPHYTA; BRYOPHYTES; FILICOPHYTA; NEPHROLEPIS; NEPHROLEPIS CORDIFOLIA; NEPHROLEPIS EXALTATA; PTERIDIUM; PTERIDOPHYTA; PTERIS; PTERIS VITTATA;

EID: 2542506817     PISSN: 0032079X     EISSN: None     Source Type: Journal    
DOI: 10.1023/B:PLSO.0000016499.95722.16     Document Type: Article

References (51)

1. Asher C J and Reay P F 1979 Arsenic uptake by barley Hordeumvulgare cultivar zephyr seedlings. Aust. J. Plant Physiol. 6, 459-466.
2. Bienfait H F, Duivenvoorden J and Verkerke W 1982 Ferric reduction by roots of chlorotic bean plants: Indications for an enzymatic process. J. Plant Nutr. 5, 451-456.
3. Carvalho L H M, Koe T D and Tavares P B 1998 An improved molybdenum blue method for simultaneous determination of inorganic phosphate and arsenate. Ecotoxicol. Environ. Rest. 1, 13-19.
4. Curl E A and Truelove B 1986 The Rhizosphere. Springer-Verlag, Berlin, Germany. 288 pp.
5. Day P R 1965 Pipette method of particle size analysis. In Methods of Soil Analysis. Part I. Ed. C A Black, pp. 552-562. ASA, Madison, WI.
6. Dinkelaker B, Römheld V and Marschner H 1989 Citric acid excretion and precipitation of calcium citrate in the rhizosphere of white lupin (Lupinus albus L.). Plant Cell Environ. 12, 285-291.
7. Donald R G, Anderson D W and Stewart J W B 1993 Potential role of dissolved organic carbon in phosphorus transport in forested soils. Soil Sci. Soc. Am. J. 57, 1611-1618.
8. Dousset S, Morel J L, Jacobson A and Bitton G 2001 Copper binding capacity of root exudates of cultivated plants and associated weeds. Biol. Fertil. Soils 34, 230-234.
9. Fransson A M 2001 Evaluation of oxalate/oxalic acid for extracting plant available phosphorus in unfertilized acid soils. Commun. Soil Sci. Plant Anal. 32, 2469-2484.
10. Gregory P J and Atwell B J 1991 The fate of carbon in pulse-labeled crops of barley and wheat. Plant Soil 136, 205-213.
11. Haug W and Lantzsch H 1983 Sensitive method for the rapid determination of phytate in cereals and cereal products. J. Sci. Food Agric. 34, 1423-1426.
12. Hess R E and Blanchar R W 1976 Arsenic stability in contaminated soils. Soil Sci. Soc. Am. J. 40, 847-852.
13. Hinsinger P, Elsass F, Jaillard B and Robert M 1993 Root-induced irreversible transformation of a trioctahedral mica in the rhizosphere of rape. J. Soil Sci. 44, 535-545.
14. Hoagland D R and Arnon D I 1938 The water culture method for growing plants without soil. Calif. Agric. Exp. Stn. 347.
15. Jones D L 1998 Organic acids in the rhizosphere - a critical review. Plant Soil 205, 25-44.
16. Jones D L, Edwards A C, Donachie K and Darrah P R 1994 Role of preteinaceous amino acids released in root exudates in nutrient acquisition from the rhizosphere. Plant Soil 158, 183-192.
17. Jones J B, Wolf B and Mills H A 1991 Plant Analysis Handbook. Micro-Macro Publish, Athews, Georgia. 213 pp.
18. Knight K, Zhao F J, McGrath S P and Shen Z G 1997 Zinc and cadmium uptake by the hyperaccumulator Thlaspi caerulescens in contaminated soils and its effects on the concentration and chemical speciation of metals in soil solution. Plant Soil 197, 71-78.
19. Komar K M 1999 Phytoremediation of arsenic contaminated soils: plant identification and uptake enhancement. MSc thesis, University of Florida, Gainesville, USA.
20. Krämer U, Pickering I H, Prince R C, Raskin I and Salt D E 2000 Subcellular localization and speciation of nickel in hyperaccumulator and non-accumulator Thlaspi species. Plant Physiol. 122, 1343-1353.
21. Lasat M M 2002 Phytoextraction of toxic metals: a review of biological mechanisms. J. Environ. Qual. 31, 109-120.
22. Lee D and Abendroth J A 1983 High-performance liquid chromatographic determination of phytic acid in foods. J. Food Sci. 48, 1344-1345.
23. Lehrfeld J 1994 HPLC separation and quantitation of phytic acid and some inositol phosphates in foods: problems and solutions. J. Agric. Food Chem. 42, 2726-2731.
24. Lynch J M and Whipps J M 1990 Substrate flow in the rhizosphere. Plant Soil 129, 1-10.
25. Ma L, Komar K M, Tu C, Zhang W, Cai Y and Kennelley E D 2001 A fern that hyperaccumulating arsenic. Nature 409, 579.
26. Marschner H 1995 Mineral Nutrition of Higher Plants. 2nd Ed. Academic Press, London, UK. 889 pp.
27. Marschner H, Römheld B, Horst W J and Martin P 1986 Root-induced changes in the rhizosphere: Importance for the mineral nutrition of plants. Z. Pflanzenernaehr. Bodenkd. 149, 441-456.
28. Matschullat J 2000 Arsenic in the Geosphere - a Review. Sci. Total Environ. 249, 297-312.
29. Meharg A A and Macnair M R 1992 Suppression of the high affinity phosphate uptake system: A mechanism of arsenate tolerance in Holcus lanatus L. J. Exp. Bot. 43, 519-524.
30. Murphy J and Riley J P 1962 A modified single solution method for the determination of phosphate in natural waters. Anal. Chim. Acta 27, 31-36.
31. Nelson D W and Sommers L E 1982 Total carbon, organic carbon, and organic matter. In Methods of Soil Analysis. Part 2. Eds. A L Page, R H Miller and D R Keeney. pp. 539-579. Agron. Monogr.9. ASA, Madison, WI.
32. Ohwaki Y and Hirata H 1992 Differences in carboxylic acid and exudation among P-starved leguminous crops in relation to carboxylic acid contents in plant tissues and phospholipid level in roots. Soil Sci. Plant Nutr. 38, 235-243.
33. Otegui M S, Capp R and Staehelin L A. 2002 Developing seeds of Arabidopsis store different minerals in two types of vacuoles and in the endoplasmic reticulum. Plant Cell 14, 1311-1327.
34. Pellet D M, Grunes D L and Konchian L V 1995 Organic acid exudation as an aluminum-tolerance mechanism in maize (Zea mays L.). Planta 196, 788-793.
35. Pellet D M, Papernik L A and Kochian LV 1996 Multiple aluminum-resistance mechanisms in wheat. Role of root apical phosphate and malate exudation. Plant Physiol. 112, 591-597.
36. Pinton R, Varanini Z and Nannipieri P 2001 The Rhizosphere: Biochemistry and Organic Substances at the Soil-plant Interface. Marcel Dekker, Inc. USA. 424 pp.
37. Reddy N R, Pierson M D, Sathe S K and Salunkhe D K 1989 Phytates in Cereals and Legumes. CRC Press, Boca Raton, Florida, USA. 152 pp.
38. Roberts R M and Loewus F 1968 Inositol metabolism in plants VI. Conversion of myo-inositol to phytic acid in Wolffiella floridana. Plant Physiol. 43, 1710-1716.
39. Rochette E A, Li G C and Fendorf S E 1998 Stability of arsenate minerals in soil under biotically generated reducing conditions. Soil Sci. Soc. Am. J. 62, 1530-1537.
40. Sagoe C I, Ando T, Kouno K and Nagaoka T 1998 Relative importance of protons and solution calcium concentration in phosphate rock dissolution by organic acids. Soil Sci. Plant Nutr.44, 617-625.
41. Schwertmann U 1964 Differentiation of iron oxide in soils by a photochemical extraction with acid ammonium oxalate. Z. Pflanzenernaehr. Bodenkd. 105, 194-201.
42. Subbarao G V, Ae N and Otani T 1997 Genotypic variation in Iron-and Aluminum-phosphate soluilizing activity of pigeonpea root exudates under P deficient conditions. Soil Sci. Plant Nutr. 43, 295-305.
43. Thomas G W 1982 Exchangeable cations. In Methods of Soil Analysis. Part 2. Eds. A L Page, R H Miller and D R Keeney. pp. 159-165. ASA, Madison, WI.
44. Tu C and Ma L 2003 Effects of arsenate and phosphate on their accumulation by an arsenic-hyperaccumulator Pteris vittata L. Plant Soil 249, 373-382.
45. Tu S, Ma L and Bhaskar B 2003 Comparison of arsenic uptake and distribution in the arsenic hyperaccumulator Pteris vittata L. and non-hyperaccumulator Nephrolepis exaltata L. J. Plant Nutri (in press).
46. Van Steveninck R F M, Van Steveninck M E, Wells A J and Fernando D R 1990 Zinc tolerance and the binding of zinc as zinc phytate in Lemna minor X-ray microanalytical evidence. J. Plant Physiol. 137, 140-146.
47. Volker R and Fikry A 2000 Significance of root exudates in acquisition of heavy metals from a contaminated calcareous soil by graminaceous species. J.Plant Nutr. 23, 1857-1866.
48. Wang J, Zhao F, Meharg A A, Raab A, Feldmann J and McGrath S P 2002 Mechanisms of arsenic hyperaccumulation in Pteris vittata. Uptake kinetics, interactions with phosphate, and arsenic speciation. Plant Physiol. 130, 1552-1561.
49. Yang X E, Baligar V C, Foster J C and Martens D C 1997 Accumulation and transport of nickel in relation to organic acids in ryegrass and maize grown with different nickel levels. Plant Soil. 196, 271-276.
50. Yuan T L and Fiskell J G A 1959 Aluminum studies: II. The extraction of aluminum from some Florida soils. Soil Sci. Soc. Am.Proc. 23, 202-205.
51. Zhao F J, Hamon R E and McLaughli M J 2001 Root exudates of the hyperaccumulator Thlaspi caerulescens do not enhance metal mobilization. New Phytol. 151, 613-610.