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International Journal of Phytoremediation Volume 9, 2007 - Issue 4
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Original Articles

Solubility and Accumulation of Metals in Chinese Brake Fern, Vetiver and Rostrate Sesbania Using Chelating Agents

L. Q. Lou Croucher Institute for Environmental Sciences and Department of Biology, Hong Kong Baptist University, Hong Kong SAR, PR China
,
Z. H. Ye Croucher Institute for Environmental Sciences and Department of Biology, Hong Kong Baptist University, Hong Kong SAR, PR China; School of Life Sciences and State Key Laboratory for Bio-Control, Zhongshan (Sun Yat-sen) University, Guangzhou, PR China
&
M. H. Wong Croucher Institute for Environmental Sciences and Department of Biology, Hong Kong Baptist University, Hong Kong SAR, PR China
Pages 325-343 | Published online: 08 Aug 2007

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Ivan Diarra, Krishna Kumar Kotra & Surendra Prasad. (2022) Application of phytoremediation for heavy metal contaminated sites in the South Pacific: strategies, current challenges and future prospects. Applied Spectroscopy Reviews 57:6, pages 490-512.
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Xun Wen Chen, James Tsz Fung Wong, Jun-Jian Wang & Ming Hung Wong. (2021) Vetiver grass-microbe interactions for soil remediation. Critical Reviews in Environmental Science and Technology 51:9, pages 897-938.
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J. O. Azeez, T. B. Olowoboko, B. S. Bada, J. N. Odedina & O. O. Onasanya. (2020) Evaluation of soil metal sorption characteristics and heavy metal extractive ability of indigenous plant species in Abeokuta, Nigeria. International Journal of Phytoremediation 22:8, pages 872-884.
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Fazal Hadi, Asghari Bano & MichaelP. Fuller. (2013) Augmented Phytoextraction of Lead (Pb2+)-Polluted Soils: A Comparative Study of the Effectiveness of Plant Growth Regulators, EDTA, and Plant Growth–Promoting Rhizobacteria. Bioremediation Journal 17:2, pages 124-130.
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A. Russell Flegal, Céline Gallon, PriyaM. Ganguli & ChristopherH. Conaway. (2013) All the Lead in China. Critical Reviews in Environmental Science and Technology 43:17, pages 1869-1944.
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Luu Thai Danh, Paul Truong, Raffaella Mammucari, Tam Tran & Neil Foster. (2009) VETIVER GRASS, VETIVERIA ZIZANIOIDES: A CHOICE PLANT FOR PHYTOREMEDIATION OF HEAVY METALS AND ORGANIC WASTES. International Journal of Phytoremediation 11:8, pages 664-691.
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Articles from other publishers (16)

Tsotlhe Trinity Kereeditse, Tshepo Pheko-Ofitlhile, Venecio Uy UltraJrJr & Pogisego Dinake. (2023) Effects of Heavy Metals on the Yield of Essential Oil From Vetiver Grass Cultivated in Mine Tailings Amended With EDTA and Arbuscular Mycorrhizal Fungi. Natural Product Communications 18:3, pages 1934578X2311648.
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Feili Li, Feng Yang, Yihao Chen, Hui Jin, Yaling Leng & Jiade Wang. (2020) Chemical reagent-assisted phytoextraction of heavy metals by Bryophyllum laetivirens from garden soil made of sludge. Chemosphere 253, pages 126574.
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Xudong Wei, Yuting Zhou, Daniel C.W. Tsang, Lan Song, Chaosheng Zhang, Meiling Yin, Juan Liu, Tangfu Xiao, Gaosheng Zhang & Jin Wang. (2020) Hyperaccumulation and transport mechanism of thallium and arsenic in brake ferns (Pteris vittata L.): A case study from mining area. Journal of Hazardous Materials 388, pages 121756.
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Vimal Chandra Pandey & Ashish Praveen. 2020. Phytoremediation Potential of Perennial Grasses. Phytoremediation Potential of Perennial Grasses 31 62 .
Weihua Meng, Weihong Wu, Weiwei Zhang, Luyao Cheng, Xiangzhuo Han, Jianzhong Xu & Hongqiang Qu. (2019) Bio‐based Mg(OH) 2 @M‐Phyt: improving the flame‐retardant and mechanical properties of flexible poly(vinyl chloride) . Polymer International 68:10, pages 1759-1766.
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Ritesh Banerjee, Priya Goswami & Anita Mukherjee. 2018. Bio-Geotechnologies for Mine Site Rehabilitation. Bio-Geotechnologies for Mine Site Rehabilitation 393 413 .
Ming-Hung Wong. 2018. Twenty Years of Research and Development on Soil Pollution and Remediation in China. Twenty Years of Research and Development on Soil Pollution and Remediation in China 15 37 .
Anju Patel & D. D. Patra. 2017. Phytoremediation Potential of Bioenergy Plants. Phytoremediation Potential of Bioenergy Plants 305 331 .
Nasir Ali & Fazal Hadi. (2015) Phytoremediation of cadmium improved with the high production of endogenous phenolics and free proline contents in Parthenium hysterophorus plant treated exogenously with plant growth regulator and chelating agent. Environmental Science and Pollution Research 22:17, pages 13305-13318.
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Poonam, Renu Bhardwaj, Resham Sharma, Neha Handa, Harpreet Kaur, Ravdeep Kaur, Geetika Sirhindi & A.K. Thukral. 2014. Emerging Technologies and Management of Crop Stress Tolerance. Emerging Technologies and Management of Crop Stress Tolerance 449 470 .
Zhao Zhuang & Pamela Hazelton. (2013) An Investigation of the Efficiency of Fulvic Acid and Straw Water Amendments for Arsenic Uptake from Groundwater by <i>Vetiveria zizanioides</i>. Advanced Materials Research 864-867, pages 1233-1239.
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Adel R.A. Usman, Yaser. A. Almaroai, Mahtab Ahmad, Meththika Vithanage & Yong Sik Ok. (2013) Toxicity of synthetic chelators and metal availability in poultry manure amended Cd, Pb and As contaminated agricultural soil. Journal of Hazardous Materials 262, pages 1022-1030.
Crossref
Naser Anjum, Maria Pereira, Iqbal Ahmad, Armando Duarte, Shahid Umar & Nafees KhanLuu Danh, Paul Truong, Raffaella Mammucari, Yuan Pu & Neil Foster. 2012. Phytotechnologies. Phytotechnologies 255 280 .
Isabel Gonz?lez, Amparo Cortes, Alexander Neaman & Patricio Rubio. (2011) Biodegradable chelate enhances the phytoextraction of copper by Oenothera picensis grown in copper-contaminated acid soils. Chemosphere 84:4, pages 490-496.
Crossref
Fazal Hadi, Asghari Bano & Michael P. Fuller. (2010) The improved phytoextraction of lead (Pb) and the growth of maize (Zea mays L.): the role of plant growth regulators (GA3 and IAA) and EDTA alone and in combinations. Chemosphere 80:4, pages 457-462.
Crossref
FAZAL HADI & ASGHARI BANO. (2009) Utilization of Parthenium hysterophorus for the remediation of lead-contaminated soil . Weed Biology and Management 9:4, pages 307-314.
Crossref

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