"Phytoremediation Mechanisms of Heavy Metal Contaminated Soils: A Review"
written by Meriem Laghlimi, Bouamar Baghdad, Hassan El Hadi, Abdelhak Bouabdli,
published by Open Journal of Ecology, Vol.5 No.8, 2015
has been cited by the following article(s):
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[7] Characterization of Rhizosphere Bacteria and Their Potency as Phytoremediation Promoting Agents for Cr (VI) Contaminated Soil
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[8] Süs lahanas?n?n (Brassica oleraceae var. capitata) topraktaki bor elementinin giderilmesi amac?yla fitoremediasyonda hiper toplay?c? bitki olarak kullan?lma potansiyelinin ara?t?r?lmas?
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[9] Selected Features of Canadian Goldenrod That Predispose the Plant to Phytoremediation
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[10] Heavy metal absorption of four fast growing tree species on media containing tailing from Pongkor gold mining in Indonesia
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[11] Removal of Cu and Zn from Aqueous Solutions by Selected Tree Leaves with Phytoremediation Potential
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[12] Assessment of the potential of duckweed (Lemna minor L.) in treating lead-contaminated water through phytoremediation in stationary and recirculated set-ups
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[13] Solidago canadensis as a bioaccumulator and phytoremediator of Pb and Zn
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[14] The accumulation of Mn and Cu in the morphological parts of Solidago canadensis under different soil conditions
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[15] Serratia sp. CP‐13 augments the growth of cadmium (Cd)‐stressed Linum usitatissimum L. by limited Cd uptake, enhanced nutrient acquisition and antioxidative …
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[16] Identification of metal tolerant plant species for sustainable phytomanagement of abandoned red mud dumps
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[17] Minimizing Hazards of Heavy Metals in Vegetable Farms using Phytoremediation Technique
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[18] ارزیابی توانایی دو گونه گیاه مرتعی در جذب و اندوزش سرب در یک خاک آهکی آلوده‎
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[19] Uptake of Cd and Pb from Aqueous Solutions Using Selected Tree Leaves Through Phytoremediation
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[20] Phytoremediation Potential of Brassica juncea for removal of selected heavy metals in urban soil amended with cow dung
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[21] BIOREMEDIATION POTENTIAL OF SOME LOCAL GRASSES OF KARACHI CITY
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[22] Status, progress and challenges of phytoremediation-An African scenario
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[23] Bazı Tarım Bitkileri Kullanılarak Arıtma Çamurundan Kurşun Kirliliğinin Şelat Destekli Fitoremediasyon
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[24] Bazı Tarım Bitkileri Kullanılarak Arıtma Çamurundan Kurşun Kirliliğinin Şelat Destekli Fitoremediasyon Yöntemiyle Giderilmesi
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[25] Enhancement of phytoextraction by Taiwanese chenopod and Napier grass by soapnut saponin and EDDS additions
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[26] Phytoremediation of Cadmium-Polluted Water/Sediment by Aquatic Macrophytes: Role of Plant-Induced pH Changes
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[27] Phytoremediation performance of floating treatment wetlands with pelletized mine water sludge for synthetic greywater treatment
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[28] Recent research progress in geochemical properties and restoration of heavy metals in contaminated soil by phytoremediation
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[29] Potential of Mentha aquatica L., Eryngium caucasicum Trautv. and Froriepia subpinnata Ledeb. for phytoremediation of Cd-contaminated soil
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[30] Effectiveness of phytoremediation to the removal of heavy metals using absorbents: wastewater treatment
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[31] Germination and shoot development of Pisum sativum L. under exposure to arsenic, lead, and copper in laboratory conditions
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[32] Biochemical tolerance of Suaeda maritima L.(Dumort) as a potential species for phytoextracting heavy metal and salt in paper mill effluent contaminated soil.
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[33] Current World Environment
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[34] Copper Uptake by Adesmia atacamensis in a Mine Tailing in an Arid Environment
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[35] Phytoextraction of heavy metals from a multiply contaminated dredged sediment by chicory (Cichorium intybus L.) and castor bean (Ricinus communis L.) enhanced …
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[36] ЗВ'ЯЗУВАННЯ ВАЖКИХ МЕТАЛІВ У ҐРУНТОВОМУ КОМПЛЕКСІ ПРИ ВНЕСЕННІ БІОКОМПОЗИТУ НА ОСНОВІ МУЛОВИХ ОСАДІВ ТА ФОСФОГІПСУ
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[37] EDTA-assisted phytoextraction of lead and cadmium by Pelargonium cultivars grown on spiked soil
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[38] Biosciences and Plant Biology
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[39] Assisted phytostabilization of a multicontaminated mine technosol using biochar amendment: Early stage evaluation of biochar feedstock and particle size effects on …
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[40] Heavy metal phytoextraction potential of native weeds and grasses from endocrine-disrupting chemicals rich complex distillery sludge and their histological …
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[41] Interactive effect of cadmium and zinc on chromium uptake in spinach grown in Vertisol of Central India
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[42] Phytoremediation of Trace Metals by Mangrove Plants of Sundarban Wetland
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[43] Mechanistic understanding and holistic approach of phytoremediation: A review on application and future prospects
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[44] Exploring the Efficiency of Native Tree Species Grown at Mine Tailings for Phytoextraction of Lead and Iron
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[45] NITRATE, SULPHATE AND HEAVY METALS IN LEAVES OF SELECTED PLANTS IN BOTANICAL GARDENS OF TWO NIGERIAN UNIVERSITIES
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[46] Trace Metals in a Tropical Mangrove Wetland
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[47] Uranium Mine Waste Phytostabilization With Native Plants—A Case Study From Brazil
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[48] Assessing the ability of hybrid poplar for in-situ phytoextraction of cadmium by using UAV-photogrammetry and 3D flow simulator
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[49] Effectiveness of Plant Growth-Promoting Rhizobacteria in Phytoremediation of Chromium Stressed Soils
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[50] Assisted Phytoremediation of a Multi-contaminated Industrial Soil Using Biochar and Garden Soil Amendments Associated with Salix alba or Salix viminalis: Abilities …
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[51] Efficiency of microbially assisted phytoremediation of heavy-metal contaminated soils
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[52] Pollution status of shooting range soils from Cd, Cu, Mn, Ni and Zn found in ammunition
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[53] UTILIZATION OF JACK BEAN (Canavalia ensiformis L) INTRODUCED WITH ARBUSCULAR MYCORRHIZAL FOR REHABILITATION PROCESS OF NICKEL POST-MINING LAND
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[54] Phytoremediation Prospect in Clean Up of Contaminated Environment with Heavy Metals
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[55] Phytoremediation of Heavy Metals from Industrial Wastewater by Using Aquatic Macrophytes.
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[56] بررسی پاسخ‌‌ فیزیولوژیک و توان گیاه‌پالایی سرخارگل (Echinacea purpurea) در خاک‌‌ آلوده به کادمیم‎
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[57] Metals in mine wastes: environmental pollution and soil remediation approaches–a review
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[58] Modulation of the efficiency of trace metal phytoremediation by Sedum plumbizincicola by microbial community structure and function
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[59] Mycorrhizal contacts can get better adaptability for host plant under metal stress
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[60] Evaluation of different Fusarium species–wheat interactions effect on Cd biosorption by wheat seedlings
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[61] Biotechnological Intervention to Enhance the Potential Ability of Bioenergy Plants for Phytoremediation
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[62] Bioethanol production from recovered napier grass with heavy metals
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[63] Phytoextraction of rare earth elements in herbaceous plant species growing close to roads
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[64] Phytoremediation of Heavy Metal-Contaminated Soil Using Bioenergy Crops
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[65] Revegetating Bagacay Mining Site: A review of potential tropical species for phytoremediation of non-essential heavy metals
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[66] Trace metals in a tropical mangrove wetland: chemical speciation, ecotoxicological relevance and remedial measures
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[67] Phytoremediation of arsenic from the contaminated soil using transgenic tobacco plants expressing ACR2 gene of Arabidopsis thaliana
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[68] Interactive effect of cadmium and zinc on chromium uptake in spinach grown in Vertisol of Central India
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[69] PHYTOREMEDIATION OF LEAD CONTAMINATED SOIL USING FAST-GROWING TREES INOCULATED WITH ENDOPHYTIC BACTERIA
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[70] PEMANFAATAN MELATI AIR (Echinodorus palaefolius) SEBAGAI FITOREMEDIATOR PADA AIR TERKONTAMINASI KADMIUM (Cd) DAN SENG (Zn)
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[71] بردباری، اندوزش و پالایش سرب توسط سه گونۀ گیاه مرتعی در یک خاک آهکی در استان آذربایجان‌ غربی‎
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[72] Biomedical Wastes: Environmental Threats and Management
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[73] EFFECT OF MANGANESE AND CADMIUM ON BIOLOGICAL ATTRIBUTES OF WILD WATER SPINACH (Ipomoea aquatica Forssk.)
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[74] Perspectives of Plant ekLLk0 4 Actinomycetes in Heavy Metal Phytoremediation
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[75] Screening beneficial rhizobacteria from Spartina maritima for phytoremediation of metal polluted salt marshes: comparison of gram-positive and gram-negative …
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[76] STABILISATION AND REMEDIATION OF HEAVY METALS IN MINE TAILINGS USING Vetiveria zizanioides (L.) NASH AMENDED WITH IRONCOATED AND …
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[77] for Enhanced Phytoremediation of Heavy Metal-Contaminated Soils
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[78] Evaluation of Cajanus cajan (pigeon pea) for phytoremediation of landfill leachate containing chromium and lead
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[79] Perspectives of Plant Growth-Promoting Actinomycetes in Heavy Metal Phytoremediation
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[80] Bacterial inoculants for enhanced seed germination of Spartina densiflora: Implications for restoration of metal polluted areas
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[81] Screening beneficial rhizobacteria from Spartina maritima for phytoremediation of metal polluted salt marshes: comparison of gram-positive and gram-negative strains
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[82] Effects of contaminated soil on the growth performance of young Salix (Salix schwerinii EL Wolf) and the potential for phytoremediation of heavy metals
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[83] Heavy Metal Uptake in Plants
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[84] Increasing Phytoremediation Efficiency of Heavy Metal-Contaminated Soil Using PGPR for Sustainable Agriculture
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[87] Adaptation and detoxification mechanisms of Vetiver grass (Chrysopogon zizanioides) growing on gold mine tailings
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