1- زارعی م. 1387. بررسی تنوع قارچهای میکوریزی آربوسکولار در خاکهای آلوده به فلزات سنگین و کارایی آنها در گیاه پالایی. رساله دکتری خاکشناسی پردیس کشاورزی و منابع طبیعی دانشگاه تهران.
2- زارعی م.، صالح راستین ن.، و ثواقبی غ. 1390. کارایی قارچهای میکوریز آربوسکولار در گیاه پالایی خاکهای آلوده به روی با وسیله گیاه ذرت. مجله علوم و فنون کشاورزی و منابع طبیعی، علوم آب و خاک، 55 : 166-151.
3- رسولی صدقیانی م.ح.، قره ملکی ت.، بشارتی ح.، و توسلی ع. 1390. تأثیر باکتریهای محرک رشد و قارچ میکوریز بر رشد و جذب روی توسط ذرت در یک خاک آلوده به روی. مجله دانش آب و خاک، 21(2): 147-136.
4- Audet P., and Charest C. 2007. Dynamics of arbuscular mycorrhizal symbiosis in heavy metal phytoremediation: Meta-analytical and conceptual perspectives. Environmental Pollution, 147: 609-614.
5- Briat J.F., and Lebrun M. 1999. Plant responses to metal toxicity. Comptes Rendus de l’Academie des Sciences Serie III: Sciences de la Vie e Life Sciences 322: 43-54.
6- Chen B., Shen H., Li X., Feng G., and Christie P. 2004. Effects of EDTA application and arbuscular mycorrhizal colonization on growth and zinc uptake by maize (Zea mays L.) in soil experimentally contaminated with zinc. Plant Soil, 261:219-29.
7- Chen B.D., Li X.L., Tao H.Q., Christie P., and Wong M.H. 2003. The role of arbuscular mycorrhiza in zinc uptake by red clover growing in calcareous soil spiked with various quantities of zinc. Chemosphere, 50: 839-846.
8- Chen B.D., Tang X.Y., Zhu Y.G., Christie P. 2005. Metal concentrations and mycorrhizal status of plants colonizing copper mine tailings, potential for revegetation. Sci. China Ser. C 48: 156–164.
9- Chen B.D., Zhu Y.G., and Smith F.A. 2006. Effects of arbuscularmycorrhizal inoculation on uranium and arsenic accumulation by Chinese brake fern (Pteris vittata L.) from a uranium mining-impacted soil. Chemosphere, 62: 1464–1473.
10- Clark R.B., and Zeto S.K. 2000. Mineral acquisition by arbuscular mycorrhizal plants. Journal of Plant Nutrition, 23: 867–902.
11- Di Cagno R., Guidi L., Stafani A., Soldatini G.F. 1999. Effects of cadmium on growth of Helianthus annuus seedlings: physiological aspects. New Phytologist, 144: 65-71.
12- Garbisu C., and Alkorta I. 2001. Phytoextraction: a cost-effective plant-based technology for the removal of metals from the environment. Bioresource Technol, 77: 229–236.
13- Gee G.W., and Bauder J.W. 1986. Particle size analysis. A. Klute (ed.), Methods of Soil Analysis. 9(1): 383-411. Part 1. Physical and Mineralogical Methods. 2nd Edition, American Society of Agronomy, Madison, WI.
14- Herna´ndez L.E., and Cooke D.T. 1997. Modification of the root plasma membrane lipid composition of cadmium-treated Pisum sativum. Journal of Experimental Botany, 48: 1375-1381.
15- Kormanic P.P., and McGraw A.C. 1982. Quantification of vesicular-arbuscular mycorrhizae in plant roots, In: Schenck NC (Ed). Methods and Principles of Mycorrhizal Research. American Phytopathological Society, St. Paul, pp 37-45.
16- Lindsay W.L., and Norvell W.A. 1978. Development of a DTPA soil test for zinc, iron, manganese, and copper. Soil Science Society of America Journal, 42: 421-428.
17- Liu D., Jiang W., and Gao X. 2003. Effects of cadmium on root growth, cell division and nucleoli in root tip cells of garlic. Biologia Plantarum, 47: 79-83.
18- Massimo M. 2002. Vetiveria, The Genus Vetiveria, Taylors and Francis, 250 pages.
19- Miransari M. 2011a. Interactions between arbuscular mycorrhizal fungi and soil bacteria. Appl Microbiol Biotechnol;89:917–30.
20- Miransari M. 2011b. Arbuscular mycorrhizal fungi and nitrogen uptake. Arch Microbiol;193:77–81.
21- Nelson, D.W., and Sommers L.E. 1996. Total carbon, organic carbon, and organic matter. In: Methods of Soil Analysis. 9: 961-1010. Part 2, 2nd Edition, A.L. Page et al., (Eds). Agronomy. Am. Soc. of Agron., Inc. Madison, WI.
22- Olsen S.R., Cole C.V., Watanabe F.S., and Dean L.A. 1954. Estimation of available phosphorus in soils by extraction with sodium bicarbonate. P: 939. U.S. Dep. of Agric. Circ.
23- Potters G., Pasternak T.P., Guisez Y., Palme K.J., and Jansen M.A.K. 2007. Stress-induced morphogenic responses: growing out of trouble? Plant Science, 12: 98-105.
24- Raskin I., and Ensley B.D. 2000. Phytoremediation of Toxic Metals: Using Plants to Clean up the Environment. John Wiley & Sons, Inc., New York.
25- Rhoades J.D. 1996. Salinity: Electrical conductivity and total dissolved solids‚ In: Methods of Soil Analysis‚ Part 3. Chemical Methods‚ Sparks‚ D. L. (Ed.). Soil Science Society of America and American Society of Agronomy. Madison WI.417-435.
26- Roongtanakiat N., and Sanoh S. 2011. Phytoextraction of Zinc, Cadmium and Lead from Contaminated Soil by Vetiver Grass. Kasetsart Journal (Natural Science), 45: 603- 612.
27- Rotkittikhun P., Chaiyarat R., Kruatrachue M., Pokethitiyook P., and Baker A.J.M. 2007. Growth and lead accumulation by the grasses Vetiveria zizanioides and Thysanolaena maxima in lead contaminated soil amended with pig manure and fertilizer: A glasshouse study. Chemosphere, 66: 45–53.
28- Rout G.R., and Das P. 2003. Effect of metal toxicity on plant growth and metabolism: I. Zinc. Agronomie, 23: 3-11.
29- Salt D.E., Smith R.D., and Raskin I. 1998. Phytoremediation. Annual Review of Plant Physiology and Plant Molecular Biology, 49: 643–668.
30- Singh S.K., Juwarkar A.A., Kumar S., Meshram J., and Fan M. 2007. Effect of amendment on phytoextraction of arsenic by Vetiveria zizanioides from soil. Internation Journal of Environmental Science and Technology, 4: 339-344.
31- Smith S.E., and Read D.J. 1997. Mycorrhizal Symbiosis. Academic Press, London, pp. 1–605.
32- Techapinyawat S., Suwannarit P., Pakkong P., Sinbuathong N., and Sumthong P. 2000. Selection of effective vesicle-arbuscular mycorrhiza fungi on growth and nutrient uptake of vetiver. In: Abstracts of Poster Papers, Proc The Second International Conference on Vetiver. (ICV-2) (January 18–22), Phetchaburi, Thailand.
33- Thomas G.W. 1996. Soil pH and soil acidity. In J. M. Bigham (ed). Methods of soil analysis: Part 3. Chemical methods. Soil Science Society of America Book Series No. 5. Soil Science Society of America and American Society of Agronomy, Madison, WI. pp. 475-490.
34- Truong P. 1999. Vetiver Grass Technology for Mine Rehabilitation. Pacific Rim Vetiver Network Technical Bulletin, 2.
35- Wong C.C., Wu S.C., Abdul C.K., Khan G., and Wong M.H. 2007. The Role of Mycorrhizae Associated with Vetiver Grown in Pb-/Zn-Contaminated Soils: Greenhouse Study. Restoration Ecology, 1: 60–67.
36- Wu F.Y., Ye Z.H., Wu S.C., and Wong M.H. 2007. Metal accumulation and arbuscular mycorrhizal status in metallicolous and nonmetallicolous populations of Pteris vittata L. and Sedum alfredii Hance. Planta, 226: 1363–1378.
37- Wu S.C., Wong C.C., Shu W.S., Khan A.G., and Wong M.H. 2010. Mycorrhizo-Remediation of lead/zinc Mine Tailings Using Vetiver: A Field Study, International Journal of Phytoremediation, 13: 1, 61-74.
38- Yang B., Shu W.S., Ye Z.H., Lan C.Y., and Wong M.H. 2003. Growth and metal accumulation in vetiver and two Sesbania species on lead/zinc mine tailings. Chemosphere‚ 52: 1593–1600.
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