Plant-microorganism combined remediation of heavy metals- Contaminated soils: Its research progress

Chinese Journal of Ecology

Volumn 28, Issue 11, 2009, Pages 2366-2373

  Niu, Zhi Xin ^a,b   Sun, Li Na ^a,b   Sun, Tie Heng ^a,b  

^a SHENYANG UNIVERSITY   (China)

^b INSTITUTE OF APPLIED ECOLOGY   (China)

Author keywords

Heavy metal; Microorganism; Phytoremediation; Soil

Indexed keywords

BIOCHEMISTRY; BIOREMEDIATION; HEAVY METAL; MICROORGANISM; PHYSIOLOGY; PHYTOREMEDIATION; RHIZOSPHERE; SOIL POLLUTION;

EID: 77749261000     PISSN: 10004890     EISSN: None     Source Type: Journal    
DOI: None     Document Type: Article

References (78)

1. Adriano DC, Wenzel WW, Blum WEH. 1997. Role of phytoremediation in the establishment of a global soil remediation network. Proceedings of International Seminar on Use Plants for Environment Remediation. Tokyo : Kosaikaikan : 3-25.
2. AlNajarH, Schulz R, Römheld V. 2003. Plant availability of thallium in the rhizosphere of hyperaccumulator plants: A key factor for assessment of phytoextraction. Plant and Soil, 249: 97-105. (Pubitemid 36580048)
3. Barton LL, Johnson GV, O'Nan AG, et al. 2000. Inhibition of ferric chelate reductase in alfalfa roots by cobalt, nickel, chromium, and copper. Journal of Plant Nutrition, 23: 1833-1845.
4. Bradley R, Burt AJ, Read DJ. 1981. Mycorrhizal infection and resistance to heavy metal toxicity in Calluna vulgaris. Nature, 292: 335-337.
5. Chen HM, Zheng CR, Tu C. 2000. Chemical methods and phytoremediation of soil contaminated with heavy metals. Chemosphere, 41: 229-234. (Pubitemid 30226570)
6. Chen YX, Lin Q, Luo YM, et al. 2003. The role of citric acid on the phytromediation of heavy metal contaminated soil. Chemosphere, 50: 807-811. (Pubitemid 36033792)
7. Courchesne E. 1997. Cerebellar and limbic neuroanatomical abnormalities in autism. Current Opinion in Neurobiology, 7: 269-278. (Pubitemid 27219864)
8. Enkhtuya B, Rydlová J, Vosátka M. 2000. Effectiveness of indigenous and non-indigenous isolates of arbuscular mycorrhizal fungi in soils from degraded ecosystems and manmade habitats. Applied Soil Ecology, 14: 201-211. (Pubitemid 30319463)
9. Frank AB. 1885. Ueber dieauf Wurzelsymbiose beruhende ernahrunggewisser baume durch unterirdische pilze. Berichte der Deutschen Botanischen Gesellschaft, 3: 128-145.
10. Giasson P, Jaouich A, Gagné S, et al. 2005. Phytoremediation of zinc and cadmium ; A study of arbuscular mycorrhizal hyphae. Remediation Journal, 15: 113-122.
11. Göhre V, Paszkowski U. 2006. Contribution of the arbuscular mycorrhizal symbiosis to heavy metal phytoremediation. Planta, 223: 1115-1122.
12. Ha NT, Sakakibara M, Sano S, et al. 2009. The Potential of Eleocharis acicularis for phytoremediation : Case study at an abandoned mine site. Clean-Soil, Air, Water, 37: 203-208.
13. Idris R, Trifonova R, Puschenreiter M, et al. 2004. Bacterial communities associated with flowering plants of the Ni hyperaccumulator Thlaspi goesingense. Applied and Environmental Microbiology, 70: 2667-2677. (Pubitemid 38657777)
14. James BR. 2001. Remediation by reduction strategies for chromate-contaminated soils. Environmental Geochemistry and Health, 23: 175-179.
15. Kamaludeen SPB, Ramasamy K. 2008. Rhizoremediation of metals: Harnessing microbial communities. Indian Journal of Microbiology, 48: 80-88. (Pubitemid 351630454)
16. Konopka A, Zakharova T, Bischoff M, et al. 1999. Microbial biomass and activity in lead contaminated soil. Applied and Environmental Microbiology, 65: 2256-2259. (Pubitemid 129526232)
17. Liao H, Wan H, Shaff J, et al. 2006. Phosphorus and aluminum interactions in soybean in relation to Al tolerance: Exudation of specific organic acids from different regions of the intact root system. Plant Physiology, 141: 674-684. (Pubitemid 43974560)
18. Ma JF, Ryan PR, Delhaize E. 2001. Aluminium tolerance in plants and the complexing role of organic acids. Trends in Plant Science, 6: 273-278. (Pubitemid 33141638)
19. Martineza M, Bernalb P, Almelac C, et al. 2006. An engineered plant that accumulates higher levels of heavy metals than Thlaspi caerulescens, with yields of 100 times more biomass in mine soils. Chemosphere, 64: 478-485.
20. McGrath SP, Shen ZG, Zhao FJ. 1997. Heavy metal uptake and chemical changes in the rhizosphere of Thlaspi caerulescens and Thlaspi ochroleucum grown in contaminated soils. Plant and Soil, 188: 153-159. (Pubitemid 27284745)
21. Oudeh M, Khan M, Scullion J. 2002. Plant accumulation of potentially toxic elements in sewage sludge as affected by soil organic matter level and mycorrhizal fungi. Environmental Pollution, 116: 293-300. (Pubitemid 33065637)
22. Peters RW, Shem L. 1992. Adsorption/desorption characteristics of lead on various types of soil. Environmental Progress, 11: 234-240.
23. Pongrac P, Sonjak S, Vogel-Mikus̈ K, et al. 2009. Roots of metal hyperaccumulating population of Thlaspi praecox ( Brassicaceae ) harbour arbuscular mycorrhizal and other fungi under experimental conditions. International Journal of Phytoremediation, 11: 347-359.
24. Riehen B, Hofner W. 1996. Effects of arbuscular mycorrhizal fungi on heavy metal tolerance of alfalfa and oat on a sew, age-sludge treated soil. Pflanzenernahr Bodenk, 159:: 189-194.
25. Robinson B, Russell C, Hedley M, et al. 2001. Cadmium adsorption by rhizobacteria: Implications for New Zealand pastureland. Agriculture, Ecosystems and Environment, 87: 321-325. (Pubitemid 33066258)
26. Rovira AD, Foster RC, Martin JK. 1979. Note on Terminology: Origin, Nature and Nomenclature of the Organic Materials in the Rhizosphere - The Soil Root Interface. London: Academic Press.
27. Shirvani M, Shariatmadari H, Kalbasi M. 2007. Kinetics of cadmium desorption from fibrous silicate clay minerals: Influence of organic ligands and aging. Applied Clay Science, 37: 175-184. (Pubitemid 46832049)
28. Trolldenier G. 1988. Visualisation of oxidizing power of rice roots and of possible participation of bacteria in iron deposition. Zeitschrift für Pflanzenernährung und Bodenkunde, 151: 117-121.
29. Wackett LP, Bruce NC. 2000. Environmental biotechnology: Towards sustainability. Current Opinion in Biotechnology, 11: 229-231.
30. Yamamoto H, Tatsuyama K, Egawa H et al. 1981. Microflora in soils polluted by copper mine drainage. Journal of the Science of Soil and Manure, 52: 119-124.