Open Journal of Ecology

Open Journal of Ecology

ISSN Print: 2162-1985
ISSN Online: 2162-1993
www.scirp.org/journal/oje
E-mail: oje@scirp.org
"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):
  • Google Scholar
  • CrossRef
[1] Influence of bioaugmented fungi on tolerance, growth and phytoremediation ability of Prosopis juliflora Sw. DC in heavy metal–polluted landfill soil
… Science and Pollution …, 2024
[2] Bioaccumulation of Cr, Zn, Pb and Cu in Ambrosia artemisiifolia L. and Erigeron canadensis L.
Resources, 2024
[3] An assessment of nanotechnology-based interventions for cleaning up toxic heavy metal/metalloid-contaminated agroecosystems: Potentials and Issues
Chemosphere, 2024
[4] Phytoremediation & Valorization of Cu-contaminated Soils Through Cannabis sativa (L.) Cultivation: A Smart Way to Produce Cannabidiol (CBD) in Mediterranean …
Waste and Biomass Valorization, 2024
[5] Effect of manure and biochar on the aluminum, copper, and iron bioaccumulation by Salicornia species in soil
… and Environmental Health …, 2024
[6] Molecular Mechanism of Tolerance of Cadmium Toxicity in Plants
Cadmium Toxicity Mitigation, 2024
[7] Physiological and Biochemical Responses of Crop Plants to Nickel Toxicity
… and Nickel Contamination in Plants and …, 2024
[8] Remediation of soil contaminated with Mn, Cu and Zn around the Mbembele mine in Gabon: Phytoremediation approach (Vetiveria zizanioides and Phacelurus …
E3S Web of …, 2023
[9] Phytoremediation of Heavy Metals
Heavy Metal Toxicity …, 2023
[10] Screening potential hyperaccumulator plant for phytoremediation approach due to ASGM Activity: Study case of Katingan Regency and Tanggamus Regency
… Series: Earth and …, 2023
[11] Plant-Based Technologies for the Removal of Pharmaceutical and Personal Care Product (PPCP) in Soil
Land Remediation and Management: Bioengineering …, 2023
[12] Ples, a, A.; Malinas, A.; Pop, B.-A. Investigations Concerning Heavy Metals Dynamics in Reynoutria japonica Houtt.-Soil Interactions. Toxics 2023, 11, 323
2023
[13] Journal of Agriculture and Crops
2023
[14] Zinc biofortification as treatment of lead-contaminated soils.
Hiyaly, 2023
[15] The phytoremediation potential of Lavandula angustifolia Mill. grown in soils historically polluted with heavy metals: a case study from Baia Mare, Romania
2023
[16] Exploring the Feasibility and Effectiveness of Phytoremediation for Environmental Restoration: A Review
Malaysian Journal of …, 2023
[17] Phytoremediation of nickel by Paraserianthes falcataria with varying levels of manure
Jurnal Biolokus: Jurnal …, 2023
[18] The use of lawn grasses for purification of soil from toxic Cr (VI)
Innovative Biosystems and Bioengineering, 2023
[19] Brassica Juncea L.: A Potential Crop for Phytoremediation of Various Heavy Metals
Heavy Metal Toxicity …, 2023
[20] Evaluation of the Phytoremediation Potential of the Sinapis alba Plant Using Extractable Metal Concentrations
Plants, 2023
[21] Unpacking the legal conundrum of nature-based soil remediation and sustainable biofuels production in the European Union
Soil Security, 2023
[22] Physiological and biochemical responses of Carthamus tinctorius L. to zinc at vegetative stage
Journal of Plant …, 2023
[23] Nature-based solution to man-made problems: Fostering the uptake of phytoremediation and low-iluc biofuels in the EU
Journal for European Environmental & Planning …, 2023
[24] Phytoremediation of Cu and Mn from Industrially Polluted Soil: An Eco-Friendly and Sustainable Approach
Water, 2023
[25] Metal-based-oxide nanoparticles assisted the in vitro culture growth of Populus alba as micronutrients: essential metabolic processes and genetic stability
RSC …, 2023
[26] Nanoparticles-Assisted Phytoremediation of Polluted Soils: Potential Application and Challenges
ur-Rehman, MA Qazi, A Rizwan… - … Contaminants, Volume 7, 2023
[27] Mycosorption: A sustainable approach towards an emerging concern for removal of heavy metal (s) contaminant from aquatic systems
Journal of Molecular …, 2023
[28] Phytoremediation of Oil Refinery Wastewater Using Different Constructed Wetland Designs, Erbil, Iraq
Zanco Journal of Pure and Applied Sciences, 2023
[29] Metals bioaccumulation and translocation in typha domingensis (SOUTHERN CATTAIL) exposed to a real domestic effluent in a mesocosm floating wetland
Simpósio Brasileiro de …, 2023
[30] LES OUTILS D'AIDE À LA DÉCISION COMME INSTRUMENT POUR FAVORISER L'UTILISATION DE LA PHYTOREMÉDIATION DANS LA PROVINCE DU …
2023
[31] Finding phytoremediators: the search for metal (loid) extracting or excluding Australian native plants
2023
[32] Uso de" Tradescantia spathacea" y" Manilkara zapota" como medicinas tradicionales en México desde los Mayas hasta la actualidad y valoración de sus propiedades …
Proyecto de investigación, 2023
[33] ARZU ÇIĞ M. ZEKİ KARİPÇİN
BAHÇE TARIMINDA, 2023
[34] Soil remediation by phytoremediation
2023
[35] ОТБОР ВЫСОКОПРОДУКТИВНЫХ ГЕНОТИПОВ САХАРНОГО СОРГО (SORGHUM BICOLOR L) ДЛЯ ДАЛЬНЕЙШЕГО ИСПОЛЬЗОВАНИЯ В …
Биобезопасность и Биотехнология, 2023
[36] Coenopopulation and Microelement Composition of the Plant Orchis Purpurea, Common in Different Ecological Conditions of Azerbaijan
Advanced Studies in …, 2023
[37] PENGARUH FITOREMEDIASI TANAMAN LOKAL TERHADAP KADAR TIMBAL (Pb) TANAH DI LAHAN PENIMBUNAN LIMBAH PERTAMBANGAN EMAS …
Jurnal Tanah dan Sumberdaya Lahan, 2023
[38] The Effects of Fly Ash and Cow Manure on Water Spinach Grown on An Ultisol of Lampung, Indonesia
AGRIVITA, Journal of Agricultural …, 2023
[39] Biochar; an effective factor in improving phytoremediation of metal (iod) s in polluted sites
Frontiers in Environmental Science, 2023
[40] Investigations Concerning Heavy Metals Dynamics in Reynoutria japonica Houtt.-Soil Interactions
Toxics, 2023
[41] Impact of mining and ore processing on soil, drainage and vegetation in the Zambian copperbelt mining districts: a review
Minerals, 2023
[42] Phytoremediation as a potential technique for vehicle hazardous pollutants around highways
Environmental …, 2023
[43] Phytoremediation and bacterial community dynamics of diesel-and heavy metal-contaminated soil: long-term monitoring on a pilot scale
International Biodeterioration & Biodegradation, 2023
[44] Experimental investigation and proposal of artificial neural network models of lead and cadmium heavy metal ion removal from water using porous nanomaterials
Sustainability, 2023
[45] Long-term comparison of the performance of biostimulation and phytoextraction in soil contaminated with diesel and heavy metals
Chemosphere, 2023
[46] Current status of and challenges for phytoremediation as a sustainable environmental management plan for abandoned mine areas in Korea
Sustainability, 2023
[47] Mixed agricultural, industrial, and domestic drainage water discharge poses a massive strain on freshwater ecosystems: A case from the Nile River in Upper Egypt
… Science and Pollution …, 2023
[48] Phytoremediation of PAH- and Cu-Contaminated Soil by Cannabis sativa L.: Preliminary Experiments on a Laboratory Scale
Sustainability, 2023
[49] Phytoremediation potential of ornamental plants for heavy metal removal from contaminated soil: a critical review
Horticulture, Environment, and Biotechnology, 2023
[50] Review on Phytoremediation Potential of Floating Aquatic Plants for Heavy Metals: A Promising Approach
Sustainability, 2023
[51] Synergistic association of endophytic fungi enhances tolerance, growth, and heavy metal uptake of Alocasia calidora in landfill contaminated soil
Applied Soil …, 2022
[52] Resilience of Cd contaminated clay soil after nitric acid and acetic acid enhanced electrokinetic remediation
Journal of …, 2022
[53] Heavy metal and metalloid toxicity in horticultural plants: Tolerance mechanism and remediation strategies
Chemosphere, 2022
[54] Comparison of different phytoremediation strategies for acid mine drainage (AMD)
IOP Conference Series …, 2022
[55] Zinc fortification and alleviation of cadmium stress by application of lysine chelated zinc on different varieties of wheat and rice in cadmium stressed soil
Chemosphere, 2022
[56] Screening flax, kenaf and hemp varieties for phytoremediation of trace element-contaminated soils
Industrial Crops and Products, 2022
[57] Insights on the advanced separation processes in water pollution analyses and wastewater treatment–a review
South African Journal of …, 2022
[58] Phytoremediation of heavy metals in soil and water: An eco-friendly, sustainable and multidisciplinary approach
Chemosphere, 2022
[59] Principles and Applicability of Integrated Remediation Strategies for Heavy Metal Removal/Recovery from Contaminated Environments
Journal of Plant Growth …, 2022
[60] Fungal Seed Endophyte FZT214 Improves Dysphania ambrosioides Cd Tolerance Throughout Different Developmental Stages
Frontiers in microbiology, 2022
[61] Distribution of the heavy metals Co, Cu, and Pb in sediments and Typha spp. And Phragmites mauritianus in three Zambian wetlands
Journal of …, 2022
[62] The Anatomical Basis of Heavy Metal Responses in Legumes and Their Impact on Plant–Rhizosphere Interactions
Plants, 2022
[63] Utilizing Mediterranean Plants to Remove Contaminants from the Soil Environment: A Short Review
Agriculture, 2022
[64] Co-culture of Salix viminalis and Trifolium repens for the phytostabilisation of Pb and As in mine tailings amended with hardwood biochar
Environmental …, 2022
[65] Lead Responses and Tolerance Mechanisms of Koelreuteria paniculata: A Newly Potential Plant for Sustainable Phytoremediation of Pb-Contaminated Soil
International Journal of …, 2022
[66] Phytoremediation Potential of Native Hyperaccumulator Plants Growing on Heavy Metal-Contaminated Soil of Khatunabad Copper Smelter and Refinery, Iran
Water, 2022
[67] The effect of amendments on Lolium perenne roots arbuscular mycorrhizal fungi colonization when cultivated in contaminated soil
Borzyszkowska, J Krzyżak… - International Journal of …, 2022
[68] Reconnoitering the Efficacy of Plant Growth Promoting Rhizobacteria in Expediting Phytoremediation Potential of Heavy Metals
Journal of Plant Growth …, 2022
[69] Decision Pattern for Changing Polluted Areas into Recreational Places
Agronomy, 2022
[70] Autochthonous strains of Trichoderma isolated from tannery solid waste improve phytoextraction potential of heavy metals by sunflower
International Journal of …, 2022
[71] A Comparative Analysis of Heavy Metal Effects on Medicinal Plants
Applied Biochemistry …, 2022
[72] Biochar Addition Decreases the Mobility, Bioavailability, and Phytotoxicity of Potentially Toxic Elements in an Agricultural Contaminated Soil
… in Soil Science and …, 2022
[73] Bioremediation of Antibiotics as a Pollutant in Soil
… in Bioremediation and …, 2022
[74] Phytoremediation of Soils Contaminated with Heavy Metals: Techniques and Strategies
Advances in Bioremediation and Phytoremediation for …, 2022
[75] Role of Rhizobacteria in Phytoremediation of Metal Contaminated Lands
… in Sustainable Soil …, 2022
[76] Nanoparticles-assisted phytoremediation: Advances and applications
Assisted …, 2022
[77] Phytoremediation of heavy metal contaminated soil by Chrysopogon zizanioides L
IOP Conference Series …, 2022
[78] Efektivitas Kombinasi Vegetasi Salvinia molesta Mitchell DAN Eichhornia crassipes (Mart.) Solms dalam Fitoremediasi Logam Berat PB Limbah Cair Kain Jumputan
Prosiding SNPBS (Seminar …, 2022
[79] An investigation and analysis of plasmonic modulators: a review
Journal of Optical …, 2022
[80] Plant Metal and Metalloid Transporters
Plant Metal and Metalloid …, 2022
[81] Phytoremediation and Environmental Factors
Bioremediation and Phytoremediation Technologies in Sustainable Soil Management, 2022
[82] HARDAL (Brassica juncea L.) BİTKİSİNİN KADMİYUM STRESİ ALTINDA FİZYOLOJİK, BİYOKİMYASAL VE FİTOEKSTRAKSİYON ETKİLERİNİN İNCELENMESİ
2022
[83] Phytoremédiation d'un sol pollué par les métaux lourds utilisant la relation symbiotique entre Pinus halepensis et le champignon Scleroderma assistée par un sable …
2022
[84] Fitorremediación de suelos contaminados por metales pesados: una revisión
Revista Ciencia y Tecnología El …, 2022
[85] Responses and tolerance mechanisms of K. paniculate seedlings under lead stress: physiological indicators, morphological distribution, enrichment effects and …
2022
[86] Innovative approach of sewage water restoration with vetiver grass (Chrysopogon zizanioides) in North India
DESALINATION AND …, 2022
[87] Phytoremediation of Cr (VI) and Pd (II) using vetiver grass (Chrysopogon Zizanioides)
2022
[88] Fitoextracción de mercurio asistida con humus de lombriz usando artemisia absinthium en un suelo contaminado de Huancavelica
2022
[89] Metal Based-oxide Nanoparticles Assisted the Uptake of the Essential Elements and Phytoremediation of Populus Alba: Essential Metabolic Processes and Genetic …
2021
[90] A remote sensing-based approach for detecting and mapping the accumulation of heavy metal in Phragmites australis (Cav.) Trin. ex Steud. and Arundo donax …
2021
[91] China Geology
中国地质 (英文 …, 2021
[92] Assessment of Heavy Metal Bioaccumulation Capacity of Calopogonium muconoides and Senna obtusifolia as Potential Bioremediation Agents
NIGERIAN ANNALS OF …, 2021
[93] Effect of compost amendment on growth and flowering of Portulaca grandiflora and Portulaca pilosa
2021
[94] Remediation of Lead Contaminated Paddy Field Using Ramie Plants Combined with Bioremediation Agents and Inorganic Fertilizer
10th International Seminar and 12th Congress …, 2021
[95] AKTIVITAS ENZIM ANTIOKSIDAN PADA AKAR Sonneratia caseolaris (L.) Engl. DALAM FITOREMEDIASI LOGAM BERAT DI PULAU PAYUNG …
2021
[96] ASSESSMENT OF WATER CONTAMINATION WITH TRACE ELEMENTS IN UPPER MOULOUYA MINING DISTRICTS (EASTERN MOROCCO)
International Journal of Advanced Research in Engineering and Technology (IJARET), 2021
[97] Acacia auriculiformis Cunn. Ex Benth As Phytoextraction Agent: A Growth Response, Physiological Tolerance and Lead Removal Capability Evaluation.
Jordan Journal of …, 2021
[98] The Effect of Some Heavy Metals (Cd, Cu, Pb, Zn) and Substrates on Chelidonium majus L. Seed Germination and Seedling Growth.
Ecologia Balkanica, 2021
[99] Phytoremediation of Metals and Metalloids from Industrial Wastewater
INTERNATIONAL JOURNAL OF PLANT AND …, 2021
[100] Heavy metal enrichment in dominant plant species growing in the molybdenum mining tailings area in north Guizhou Province
Environmental Chemistry, 2021
[101] Plant and Environment
2021
[102] Influence of crude oil pollution on the content and electrophoretic spectrum of proteins in Carex hirta plants at the initial stages of vegetative development
Regulatory Mechanisms in Biosystems, 2021
[103] Study regarding polluted soils with heavy metals from Maramures mining basin, Romania, in view for the remediation of affected areas
Sci. Papers. Ser …, 2021
[104] Heavy metals in soils and the remediation potential of bacteria associated with the plant microbiome
Herrera - Frontiers in Environmental …, 2021
[105] Differential Zn and Mn sensitivity of microalgae species from genera Bracteacoccus and Lobosphaera
Environmental Science and Pollution …, 2021
[106] Rehabilitation of mine soils by phytostabilization: Does soil inoculation with microbial consortia stimulate Agrostis growth and metal (loid) immobilization?
Science of The Total …, 2021
[107] Bioremediation of Heavy Metals and Other Toxic Substances by Microorganisms
2021
[108] Enhanced electrokinetic remediation for Cd-contaminated clay soil by addition of nitric acid, acetic acid, and EDTA: Effects on soil micro-ecology
2021
[109] Combined Citric Acid and Glutathione Augments Lead (Pb) Stress Tolerance and Phytoremediation of Castorbean through Antioxidant Machinery and Pb Uptake
2021
[110] Maillard reaction product and its complexation with environmental pollutants: A comprehensive review of their synthesis and impact
2021
[111] Heavy metals in soils and the remediation potential of bacteria associated with the plant microbiome: evidence points to Klebsiella and Enterobacter as the best …
2021
[112] Phytoaccumulation of metals in three plants species of the Asteraceae family sampled along a highway
2021
[113] Life cycle assessment of heavy metal contaminated sites: phytoremediation and soil excavation
2021
[114] Monitored Sewage Sludge Application Improves Soil Quality, Enhances Plant Growth, and Provides Evidence for Metal Remediation by Sorghum bicolor L
2021
[115] Remediation of heavy metal polluted soil by utilizing organic amendments and two plant species (Ailanthus altissima and Melia azedarach)
2021
[116] Development of Bioremediation Learning Materials based on Contextual Teaching and Learning (CTL)
2021
[117] Phytoremediation of inorganic pollutants: An eco-friendly approach, its types and mechanisms
2021
[118] Phytoremediation of electroplating wastewater by vetiver grass (Chrysopogon zizanoides L.)
2021
[119] Water Quality, Soil Characteristics and Vegetation Diversity Along Effluent-dominated Rivers in Western Rajasthan, India
2021
[120] Plant response to mycorrhizal inoculation and amendments on a contaminated soil
2021
[121] Plant-assisted metal remediation in mine-degraded land: a scientometric review
2021
[122] Ρύπανση των εδαφών από βαρέα μέταλλα-επιπτώσεις στο περιβάλλον και φυτοαποκατάσταση
2021
[123] Fitoremediacija onesnaženih tal s težkimi kovinami: genski inženiring za večjo učinkovitost procesa
2021
[124] FITOREMEDIASI ECENG GONDOK (Eichhornia crassipes) PADA LIMBAH DOMESTIK DAN TIMBAL DI HILIR SUNGAI BENGAWAN SOLO GRESIK SEBAGAI SOLUSI …
2020
[125] Laporan Turnitin Dr. Saprizal Hadisaputra
2020
[126] Revisión sistemática de las técnicas biológicas in situ para la remediación de suelos contaminados por metales pesados: biochar y fitorremediación
2020
[127] Функциональная активность клеточной стенки и накопление металлов галофитами Plantago maritima и Triglochin maritima в литоральной зоне Белого моря …
2020
[128] REMEDIJACIJA POLJOPRIVREDNOGA ZEMLJIŠTA ONEČIŠĆENOG TEŠKIM METALIMA
2020
[129] The cup plant (Silphium perfoliatum L.)–a viable solution for bioremediating soils polluted with heavy metals
2020
[130] Heavy metal phytoremediation: Potential and advancement
AsPac J. Mol. Biol. Biotechnol., 2020
[131] Responses of Lantana Camara Linn. Callus Cultures to Heavy Metals Added to the Culture Media.
2020
[132] Prostorna predikcija udjela teških metala u tlima kontinentalne Hrvatske usporedbom metoda strojnog učenja i prostorne interpolacije
2020
[133] Evaluation of phytoremediation potentials of Phytolacca dodecandra, Adhatoda schimperiana and Solanum incanum for selected heavy metals in field setting located …
2020
[134] Cell wall functional activity and metal accumulation of halophytic plant species Plantago maritima and Triglochin maritima on the White Sea littoral zone (NW Russia)
2020
[135] Spatial Prediction of Heavy Metal Soil Contents in Continental Croatia Comparing Machine Learning and Spatial Interpolation Methods
2020
[136] Environmental impact of metals resulting from military training activities: A review
2020
[137] Accumulation and distribution of heavy metal cadmium in sweet sorghum
2020
[138] Cadmium stress in plants: A critical review of the effects, mechanisms, and tolerance strategies
2020
[139] The remediation of agricultural land contaminated by heavy metals
2020
[140] Heavy metal remediation and resistance mechanism of Aeromonas, Bacillus, and Pseudomonas: A review
2020
[141] Phytoremediation of Contaminated Soils Using Trees
2020
[142] Comprehensive review of the basic chemical behaviours, sources, processes, and endpoints of trace element contamination in paddy soil-rice systems in rice-growing …
2020
[143] as excluders in a small-scale Cu–Au processing site at Kias, Benguet, Philippines
2020
[144] Cost-benefit analysis of historical copper slags and tailings
2020
[145] Phytoremediation of Detergent Levels in Waters Using Water Plants: Eichornia crassipes, Ipomoea aquatica, Pistia stratoites and Their Combinations
2020
[146] Biomass valorization and phytoremediation as integrated Technology for Municipal Solid Waste Management for developing economic context
2020
[147] Flax (Linum usitatissimum L.): A Potential Candidate for Phytoremediation? Biological and Economical Points of View
2020
[148] Evaluation of phytoremediation in removing Pb, Cd and Zn from contaminated soil using Ipomoea Aquatica and Spinacia Oleracea
2020
[149] The potency of endophytic bacteria isolated from Ficus septica as phytoremediation promoting agent of Cr (VI) contaminated soil
2020
[150] Post-Mining Restoration in Zambia
2020
[151] Preliminary Characterization of a Post-Industrial Soil for Long-Term Remediation by Phytomanagement: Mesocosm Study of Its Phytotoxicity Before Field Application
2020
[152] Modeling of flow uniformity by installing inlet distributor within the inflow part of a pressurized module using computational fluid dynamics
2020
[153] Assisted phytoremediation of a former mine soil using biochar and iron sulphate: Effects on As soil immobilization and accumulation in three Salicaceae species
2020
[154] Foliar application of gibberellic acid endorsed phytoextraction of copper and alleviates oxidative stress in jute (Corchorus capsularis L.) plant grown in highly copper …
2020
[155] Jute: A Potential Candidate for Phytoremediation of Metals—A Review
2020
[156] Treatment of dairy industry wastewater by combined aerated electrocoagulation and phytoremediation process
2020
[157] Sumya Pathak1, 2, Aditya Vikram Agarwal1, 2 and
2020
[158] Effect of Soil Polluted by Heavy Metals: Effect on Plants, Bioremediation and Adoptive Evolution in Plants
2020
[159] Native aquatic plants for phytoremediation of metals in outdoor experiments: implications of metal accumulation mechanisms, Soran City-Erbil, Iraq
2020
[160] Removal of Pb and Zn in municipal wastewater by a consortium of four aquatic plants in vertical subsurface flow constructed wetland (VSF-CW)
2020
[161] Appraising growth, oxidative stress and copper phytoextraction potential of flax (Linum usitatissimum L.) grown in soil differentially spiked with copper
2020
[162] Heavy metal tolerance of orchid populations growing on abandoned mine tailings: A case study in Sardinia Island (Italy)
2020
[163] Foliar application of 24-epibrassinolide improves Solanum nigrum L. tolerance to high levels of Zn without affecting its remediation potential
2020
[164] Cell wall functional activity and metal accumulation of halophytic plant species Plantago maritima and Triglochin maritima on the White Sea littoral zone (NW …
Czech Polar …, 2020
[165] Assessment of Alternanthera sessilis and Aster philippinensis as excluders in a small-scale Cu–Au processing site at Kias, Benguet, Philippines
Environmental Monitoring and …, 2020
[166] Temporal patterns of metal ion and nanoparticle uptake by Lolium perenne in hydroponic systems in the presence of amendments ethylene diamine disuccinic acid …
2020
[167] Reduction of arsenate and inorganic trivalent chromium mobility in soils
2020
[168] EVALUATION OF PHYTOREMEDIATION POTENTIALS OF Phytolacca dodecandra, Adhatoda schimperiana AND Solanum incanum FOR SELECTED HEAVY …
2020
[169] Post-Mining Restoration in Zambia: Screening native tree species for phytoremediation potential
2020
[170] Fitoremediasi eceng gondok (Eichhornia crassipes) pada limbah domestik dan timbal di hilir sungai bengawan solo gresik sebagai solusi ketersediaan air bersih …
JCAE (Journal of Chemistry And Education), 2020
[171] Bioaccumulation of some heavy metals by the soil and leaves of Ziziphus spina-christi in Khouzestan Oxin Steel Company
Iranian journal of forest …, 2020
[172] Bioremediation of pollutants: from genetic engineering to genome engineering
2020
[173] PHITORHIZOREMEDIASI UNTUK LAHAN PASCATAMBANG NIKEL
2019
[174] Characterization of optical parameters of breast cancer cell line-BT474 by polarimetry technique
Vietnam Journal of …, 2019
[175] Bioaccumulation of some heavy metals by the soil and leaves of ziziphus spina-christi in khouzestan oxin steel company.
Iranian Journal of Forest …, 2019
[176] The assessment of the potential of two rangeland plants for absorption and accumulationof lead (Pb) in a contaminated calcareous soil
Sadaghiani - Journal of Agricultural …, 2019
[177] THE POTENTIAL USE OF COVER CROPS FOR PHYTOREMEDIATION PROCESS OF HEAVY METALS CONTAMINATED SOILS
2019
[178] Heavy metal absorption of four fast growing tree species on media containing tailing from Pongkor gold mining in Indonesia
2019
[179] Removal of Cu and Zn from Aqueous Solutions by Selected Tree Leaves with Phytoremediation Potential
2019
[180] Assessment of the potential of duckweed (Lemna minor L.) in treating lead-contaminated water through phytoremediation in stationary and recirculated set-ups
2019
[181] Solidago canadensis as a bioaccumulator and phytoremediator of Pb and Zn
2019
[182] The accumulation of Mn and Cu in the morphological parts of Solidago canadensis under different soil conditions
2019
[183] Serratia sp. CP‐13 augments the growth of cadmium (Cd)‐stressed Linum usitatissimum L. by limited Cd uptake, enhanced nutrient acquisition and antioxidative …
2019
[184] Identification of metal tolerant plant species for sustainable phytomanagement of abandoned red mud dumps
2019
[185] Minimizing Hazards of Heavy Metals in Vegetable Farms using Phytoremediation Technique
ALEXANDRIA SCIENCE EXCHANGE JOURNAL, 2019
[186] ارزیابی توانایی دو گونه گیاه مرتعی در جذب و اندوزش سرب در یک خاک آهکی آلوده‎
2019
[187] Uptake of Cd and Pb from Aqueous Solutions Using Selected Tree Leaves Through Phytoremediation
2019
[188] Phytoremediation Potential of Brassica juncea for removal of selected heavy metals in urban soil amended with cow dung
2019
[189] BIOREMEDIATION POTENTIAL OF SOME LOCAL GRASSES OF KARACHI CITY
2019
[190] Status, progress and challenges of phytoremediation-An African scenario
2019
[191] Bazı Tarım Bitkileri Kullanılarak Arıtma Çamurundan Kurşun Kirliliğinin Şelat Destekli Fitoremediasyon
I?d?r üniversitesi Fen Bilimleri Enstitüsü Dergisi, 2019
[192] Bazı Tarım Bitkileri Kullanılarak Arıtma Çamurundan Kurşun Kirliliğinin Şelat Destekli Fitoremediasyon Yöntemiyle Giderilmesi
Journal of the Institute of Science and Technology, 2019
[193] Enhancement of phytoextraction by Taiwanese chenopod and Napier grass by soapnut saponin and EDDS additions
2019
[194] Phytoremediation of Cadmium-Polluted Water/Sediment by Aquatic Macrophytes: Role of Plant-Induced pH Changes
2019
[195] Phytoremediation performance of floating treatment wetlands with pelletized mine water sludge for synthetic greywater treatment
2019
[196] Recent research progress in geochemical properties and restoration of heavy metals in contaminated soil by phytoremediation
2019
[197] Potential of Mentha aquatica L., Eryngium caucasicum Trautv. and Froriepia subpinnata Ledeb. for phytoremediation of Cd-contaminated soil
2019
[198] Effectiveness of phytoremediation to the removal of heavy metals using absorbents: wastewater treatment
2019
[199] Bioaccumulation and physiological responses of coontail, ceratophyllum demersum exposed to copper, zinc and their combination
2019
[200] Heavy metal phytoextraction in sewage sludge using sunflower
2019
[201] 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?
Thesis, 2019
[202] Selected Features of Canadian Goldenrod That Predispose the Plant to Phytoremediation
2019
[203] Characterization of Rhizosphere Bacteria and Their Potency as Phytoremediation Promoting Agents for Cr (VI) Contaminated Soil
2019
[204] Assessment of the potential of duckweed (Lemna minor L.) in treating lead-contaminated water through phytoremediation in stationary and recirculated set …
2019
[205] Phytostabilisation des éléments métalliques d'un technosol minier végétalisé par le genre Salix assistée par du Biochar
2019
[206] СВЯЗЫВАНИЕ ТЯЖЕЛЫХ МЕТАЛЛОВ В ПОЧВЕННОМ КОМПЛЕКСЕ ПРИ ВНЕСЕНИИ БИОКОМПОЗИТА НА ОСНОВЕ ИЛОВЫХ ОСАДКОВ И ФОСФОГИПСА
2018
[207] Phytoremediation of heavy metals from industrial wastewater by using aquatic macrophytes
2018
[208] Phytoremediation of Heavy Metals from Industrial Wastewater by Using Aquatic Macrophytes.
2018
[209] Phytoremediation of Heavy Metal Contaminants
2018
[210] BLEACHING OF DYES USING BACTERIA
Thesis, 2018
[211] Authors Name
2018
[212] Bioremediation of Heavy Metals by Using Some Shrubs in Three Different Locations of Alexandria City (A) Pittosporum tobira Plant
2018
[213] Germination and shoot development of Pisum sativum L. under exposure to arsenic, lead, and copper in laboratory conditions
2018
[214] Biochemical tolerance of Suaeda maritima L.(Dumort) as a potential species for phytoextracting heavy metal and salt in paper mill effluent contaminated soil.
2018
[215] Current World Environment
2018
[216] Copper Uptake by Adesmia atacamensis in a Mine Tailing in an Arid Environment
2018
[217] Phytoextraction of heavy metals from a multiply contaminated dredged sediment by chicory (Cichorium intybus L.) and castor bean (Ricinus communis L.) enhanced …
2018
[218] ЗВ'ЯЗУВАННЯ ВАЖКИХ МЕТАЛІВ У ҐРУНТОВОМУ КОМПЛЕКСІ ПРИ ВНЕСЕННІ БІОКОМПОЗИТУ НА ОСНОВІ МУЛОВИХ ОСАДІВ ТА ФОСФОГІПСУ
2018
[219] EDTA-assisted phytoextraction of lead and cadmium by Pelargonium cultivars grown on spiked soil
2018
[220] Biosciences and Plant Biology
2018
[221] بررسی پاسخ‌‌ فیزیولوژیک و توان گیاه‌پالایی سرخارگل (Echinacea purpurea) در خاک‌‌ آلوده به کادمیم‎
2018
[222] Assisted phytostabilization of a multicontaminated mine technosol using biochar amendment: Early stage evaluation of biochar feedstock and particle size effects on …
Chemosphere, 2018
[223] Heavy metal phytoextraction potential of native weeds and grasses from endocrine-disrupting chemicals rich complex distillery sludge and their histological …
Ecological Engineering, 2018
[224] Interactive effect of cadmium and zinc on chromium uptake in spinach grown in Vertisol of Central India
International Journal of Environmental Science and Technology, 2018
[225] Phytoremediation of Trace Metals by Mangrove Plants of Sundarban Wetland
Trace Metals in a Tropical Mangrove Wetland, 2018
[226] Mechanistic understanding and holistic approach of phytoremediation: A review on application and future prospects
Ecological Engineering, 2018
[227] Exploring the Efficiency of Native Tree Species Grown at Mine Tailings for Phytoextraction of Lead and Iron
Proceedings of the National Academy of Sciences, India Section B: Biological Sciences, 2018
[228] NITRATE, SULPHATE AND HEAVY METALS IN LEAVES OF SELECTED PLANTS IN BOTANICAL GARDENS OF TWO NIGERIAN UNIVERSITIES
2018
[229] Trace Metals in a Tropical Mangrove Wetland
Springer Nature Singapore Pte , 2018
[230] Uranium Mine Waste Phytostabilization With Native Plants—A Case Study From Brazil
Bio-Geotechnologies for Mine Site Rehabilitation, 2018
[231] Assessing the ability of hybrid poplar for in-situ phytoextraction of cadmium by using UAV-photogrammetry and 3D flow simulator
International Journal of Remote Sensing, 2018
[232] Effectiveness of Plant Growth-Promoting Rhizobacteria in Phytoremediation of Chromium Stressed Soils
Waste Bioremediation, 2018
[233] Assisted Phytoremediation of a Multi-contaminated Industrial Soil Using Biochar and Garden Soil Amendments Associated with Salix alba or Salix viminalis: Abilities …
Water, Air, & Soil Pollution, 2018
[234] Efficiency of microbially assisted phytoremediation of heavy-metal contaminated soils
Environmental Reviews, 2018
[235] Pollution status of shooting range soils from Cd, Cu, Mn, Ni and Zn found in ammunition
Cogent Environmental Science, 2018
[236] UTILIZATION OF JACK BEAN (Canavalia ensiformis L) INTRODUCED WITH ARBUSCULAR MYCORRHIZAL FOR REHABILITATION PROCESS OF NICKEL POST-MINING LAND
2018
[237] Phytoremediation Prospect in Clean Up of Contaminated Environment with Heavy Metals
International Journal of Atmospheric and Oceanic Sciences, 2018
[238] Preliminary Assessment of Mixed Plants for Phytoremediation of Chromium Contaminated Soil
Current World Environment, 2018
[239] USING TALL WHEATGRASS AGROPYRON ELONGATUM L.'BAMAR'ON GROWING SUBSTRATES WITH SEWAGE SLUDGE AND HALLOYSITE FOR …
CARPATHIAN JOURNAL OF EARTH …, 2018
[240] Investigation of physiological response and phytoremediation ability of Echinacea purpurea in cadmium contaminated soil
Iranian Journal of …, 2018
[241] Lysinibacillus sphaericus as species and biotechnological agent: a genomic review
2017
[242] Microbial strategies for enhanced phytoremediation of heavy metal-contaminated soils
Environmental pollutants and their …, 2017
[243] Metals in mine wastes: environmental pollution and soil remediation approaches–a review
Geosystem Engineering, 2017
[244] Modulation of the efficiency of trace metal phytoremediation by Sedum plumbizincicola by microbial community structure and function
Plant and Soil, 2017
[245] Mycorrhizal contacts can get better adaptability for host plant under metal stress
2017
[246] Evaluation of different Fusarium species–wheat interactions effect on Cd biosorption by wheat seedlings
International Journal of Environmental Science and Technology, 2017
[247] Biotechnological Intervention to Enhance the Potential Ability of Bioenergy Plants for Phytoremediation
Phytoremediation Potential of Bioenergy Plants, 2017
[248] Bioethanol production from recovered napier grass with heavy metals
Journal of Environmental Management, 2017
[249] Phytoextraction of rare earth elements in herbaceous plant species growing close to roads
Environmental Science and Pollution Research, 2017
[250] Phytoremediation of Heavy Metal-Contaminated Soil Using Bioenergy Crops
Phytoremediation Potential of Bioenergy Plants, 2017
[251] Revegetating Bagacay Mining Site: A review of potential tropical species for phytoremediation of non-essential heavy metals
2017
[252] Trace metals in a tropical mangrove wetland: chemical speciation, ecotoxicological relevance and remedial measures
2017
[253] Phytoremediation of arsenic from the contaminated soil using transgenic tobacco plants expressing ACR2 gene of Arabidopsis thaliana
Journal of Plant Physiology, 2017
[254] PHYTOREMEDIATION OF LEAD CONTAMINATED SOIL USING FAST-GROWING TREES INOCULATED WITH ENDOPHYTIC BACTERIA
2017
[255] PEMANFAATAN MELATI AIR (Echinodorus palaefolius) SEBAGAI FITOREMEDIATOR PADA AIR TERKONTAMINASI KADMIUM (Cd) DAN SENG (Zn)
2017
[256] بردباری، اندوزش و پالایش سرب توسط سه گونۀ گیاه مرتعی در یک خاک آهکی در استان آذربایجان‌ غربی‎
2017
[257] Biomedical Wastes: Environmental Threats and Management
2017
[258] EFFECT OF MANGANESE AND CADMIUM ON BIOLOGICAL ATTRIBUTES OF WILD WATER SPINACH (Ipomoea aquatica Forssk.)
2017
[259] An assessment of the effects of tailings dump age and catenary position on vegetation composition, cover and substrate chemical properties on …
2017
[260] Plant tolerance, accumulation and remediation of Pb by three rangeland plant species in a calcareous soil in west Azerbaijan province
2017
[261] An assessment of the effects of tailings dump age and catenary position on vegetation composition, cover and substrate chemical properties on decommissioned …
2017
[262] 9 Microbial Strategies for Enhanced Phytoremediation of Heavy Metal-Contaminated Soils
2017
[263] Environmental pollutants and their bioremediation approaches
2017
[264] The Contamination of PB and CD in The Intensive Paddy Field at Musi Rawas Regency, South Sumatera, Indonesia
2017
[265] Perspectives of Plant ekLLk0 4 Actinomycetes in Heavy Metal Phytoremediation
2016
[266] Screening beneficial rhizobacteria from Spartina maritima for phytoremediation of metal polluted salt marshes: comparison of gram-positive and gram-negative …
2016
[267] STABILISATION AND REMEDIATION OF HEAVY METALS IN MINE TAILINGS USING Vetiveria zizanioides (L.) NASH AMENDED WITH IRONCOATED AND …
2016
[268] for Enhanced Phytoremediation of Heavy Metal-Contaminated Soils
2016
[269] Evaluation of Cajanus cajan (pigeon pea) for phytoremediation of landfill leachate containing chromium and lead
International journal of phytoremediation, 2016
[270] Perspectives of Plant Growth-Promoting Actinomycetes in Heavy Metal Phytoremediation
Plant Growth Promoting Actinobacteria, 2016
[271] Bacterial inoculants for enhanced seed germination of Spartina densiflora: Implications for restoration of metal polluted areas
Marine Pollution Bulletin, 2016
[272] Screening beneficial rhizobacteria from Spartina maritima for phytoremediation of metal polluted salt marshes: comparison of gram-positive and gram-negative strains
Environmental Science and Pollution Research, 2016
[273] Effects of contaminated soil on the growth performance of young Salix (Salix schwerinii EL Wolf) and the potential for phytoremediation of heavy metals
Journal of Environmental Management, 2016
[274] Heavy Metal Uptake in Plants
Approaches to Heavy Metal Tolerance in Plants, 2016
[275] Increasing Phytoremediation Efficiency of Heavy Metal-Contaminated Soil Using PGPR for Sustainable Agriculture
Plant-Microbe Interaction: An Approach to Sustainable Agriculture, 2016
[276] КОМПЛЕКСНАЯ ОПТИМИЗАЦИЯ ФИТОРЕМЕДИАЦИОННЫХ ПРОЦЕССОВ ПО ОЧИСТКЕ ЗЕМЕЛЬНЫХ УЧАСТКОВ ОТ ТЯЖЕЛЫХ МЕТАЛЛОВ
2016
[277] CONCENTRATION OF ZINC IN SELECTED PLANTS SPECIES IN MINING AREA OF UDAIPUR
2016
[278] Phytoremediation Technologies: An Overview of the Different Mechanisms Currently in Use and their Associated Advantages and Limitations
Spectrum, 2016
[279] Adaptation and detoxification mechanisms of Vetiver grass (Chrysopogon zizanioides) growing on gold mine tailings
International journal of phytoremediation, 2015
[280] The Use of Phytoremediation Technique to Remove Cr and Pb Ions from Soil Irrigated with Wastewater
2013
[281] EFFECT OF AMF ON LEAD CONTAMINATED SOIL PHYTOREMEDIATION
2003
[282] ИСПОЛЬЗОВАНИЕ НЕКОТОРЫХ ВИДОВ РАСТЕНИЙ ДЛЯ УДАЛЕНИЯ ТЯЖЕЛЫХ МЕТАЛЛОВ ИЗ СТОЧНЫХ ВОД ПРОМЫШЛЕННЫХ ПРЕДПРИЯТИЙ
[283] Instrucción de fitorremediación con estrategias pedagógicas y huertos para desarrollar habilidades cognitivas, constructivas y actitudinales ambientales a …
[284] AKTIVITAS ENZIM ANTIOKSIDAN PADA AKAR
[285] Journal Homepage:-www. journalijar. com
[286] Phytoremediation of Heavy Metals 15
[287] Phytostabilization of contaminated soils
[288] Mass balance study of an integrated phytoremediation system using different types of constructed wetlands for chromium removal
[289] Heavy Metal Toxicity and Phytoremediation
Free SCIRP Newsletters
Copyright © 2006-2024 Scientific Research Publishing Inc. All Rights Reserved.
Top