Environmental science and pollution research international

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Ecotoxicology and environmental safety

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Frontiers in microbiology

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Chemosphere

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water science and technology : a journal of the international association on water pollution research

Environmental science & technology

Environmental monitoring and assessment

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international journal of phytoremediation

ecotoxicology (london, england)

reviews of environmental contamination and toxicology

environmental geochemistry and health

bulletin of environmental contamination and toxicology

[1] Efficient improvement of soil salinization through phytoremediation induced by chemical remediation in extreme arid land northwest China.

[2] Lead toxicity in plants: Impacts and remediation.

[3] Integrating natural and engineered remediation strategies for water quality management within a low-impact development (LID) approach.

[4] Effects of plant growth-promoting bacteria on EDTA-assisted phytostabilization of heavy metals in a contaminated calcareous soil.

[5] Speeding up in vitro Discovery of Structure-Switching Aptamers via Magnetic Cross-Linking Precipitation.

[6] Structural Diversity of Bipyridinium-Based Uranyl Coordination Polymers: Synthesis, Characterization, and Ion-Exchange Application.

[7] Effect of irrigation with detergent-containing water on foxtail millet shoot biomass and ion accumulation.

[8] Corrigendum: Impact of Salicylic Acid and PGPR on the Drought Tolerance and Phytoremediation Potential of .

[9] Evaluation of chromium phyto-toxicity, phyto-tolerance, and phyto-accumulation using biofuel plants for effective phytoremediation.

[10] Intercropping with sunflower and inoculation with arbuscular mycorrhizal fungi promotes growth of garlic chive in metal-contaminated soil at a WEEE-recycling site.

[11] Identification of wheat (Triticum aestivum L.) genotypes for food safety on two different cadmium contaminated soils.

[12] Phytohormones-induced senescence efficiently promotes the transport of cadmium from roots into shoots of plants: A novel strategy for strengthening of phytoremediation.

[13] Phytoremediation of phenol by Hydrilla verticillata (L.f.) Royle and associated effects on physiological parameters.

[14] Spatial movement pattern recognition in soccer based on relative player movements.

[15] Floating treatment wetlands: A review and bibliometric analysis.

[16] Effect of panchakavya (organic formulation) on phytoremediation of lead and zinc using Zea mays.

[17] efeitos da toxicidade do zinco em folhas de salvinia auriculata cultivadas em solução nutritiva effects of zinc toxicity on leaves of salvinia auriculata cultivated in nutrient solution

[18] genomic analysis of plant-associated bacteria and their potential in enhancing phytoremediation efficiency

[19] hyperaccumulation activity and metabolic responses of solanum nigrum in two differentially polluted growth habitats

[20] biofilms at work: bio-, phyto- and rhizoremediation approaches for soils contaminated with polychlorinated biphenyls

[21] bacterial endophytes isolated from plants in natural oil seep soils with chronic hydrocarbon contamination

[22] biofortification and phytoremediation of selenium in china

[23] genome-wide analysis and heavy metal-induced expression profiling of the hma gene family in populus trichocarpa

[24] Mitigation of indoor air pollutants using Areca palm potted plants in real-life settings.

[25] the use of adsorbent materials of improving the characteristics of polluted soils, part 2 the bioaccumulation of metals in plants used in phytoremediation processes

[26] growth and metal accumulation of an alyssum murale nickel hyperaccumulator ecotype co-cropped with alyssum montanum and perennial ryegrass in serpentine soil

[27] Phytoremediation of Copper-Contaminated Soil Using Helianthus annuus, Brassica nigra, and Lycopersicon esculentum Mill.: A Pot Scale Study

[28] Accumulation of heavy metals in soil and uptake by plant species with phytoremediation potential

[29] Heavy metal distribution between contaminated soil and Paulownia tomentosa, in a pilot-scale assisted phytoremediation study: influence of different complexing agents

[30] The HBCDs biodegradation using a Pseudomonas strain and its application in soil phytoremediation.

[31] Plant growth, root distribution and non-aqueous phase liquid phytoremediation at the pore-scale.

[32] Metal(loid) induced toxicity and defense mechanisms in Spinacia oleracea L.: Ecological hazard and Prospects for phytoremediation.

[33] Biochar and rice husk ash assisted phytoremediation potentials of Ricinus communis L. for lead-spiked soils.

[34] Assisting Phytoremediation of Heavy Metals Using Chemical Amendments.

[35] Phytoremediation of heavy metal-contaminated sites: Eco-environmental concerns, field studies, sustainability issues, and future prospects

[36] Assessment of sunflower germplasm for phytoremediation of lead-polluted soil and production of seed oil and seed meal for human and animal consumption

[37] Plant response under strontium and phytoremediation

[38] Combining phytoremediation technologies of soil cleanup and biofuel production

[39] A real filed phytoremediation of multi-metals contaminated soils by selected hybrid sweet sorghum with high biomass and high accumulation ability

[40] Heavy metal accumulation and phytoremediation potential by transplants of the seagrass Zostera marina in the polluted bay systems

[41] The biomass accumulation and nutrient storage of five plant species in an in-situ phytoremediation experiment in the Ningxia irrigation area

[42] Chromosome doubling of Sedum alfredii Hance: A novel approach for improving phytoremediation efficiency

[43] Reduction of soil contamination by cypermethrin residues using phytoremediation with Plantago major and some surfactants

[44] Co-occurrence patterns of microbial communities affected by inoculants of plant growth-promoting bacteria during phytoremediation of heavy metal-contaminated soils

[45] Potential of plant beneficial bacteria and arbuscular mycorrhizal fungi in phytoremediation of metal-contaminated saline soils

[46] Phytoremediation of mine tailings by Brassica juncea inoculated with plant growth-promoting bacteria

[47] Phytoremediation of anaerobically digested swine wastewater contaminated by oxytetracycline via Lemna aequinoctialis: Nutrient removal, growth characteristics and degradation pathways

[48] Pollution indicandum and marble waste polluted ecosystem; role of selected indicator plants in phytoremediation and determination of pollution zones

[49] Managing environmental contamination through phytoremediation by invasive plants: A review

[50] Phytoremediation potential of Vetiveria zizanioides and Oryza sativa to nitrate and organic substance removal in vertical flow constructed wetland systems

[51] Phytoremediation of cadmium-contaminated soil by Sorghum bicolor and the variation of microbial community

[52] Inoculation of plant growth promoting bacteria from hyperaccumulator facilitated non-host root development and provided promising agents for elevated phytoremediation efficiency

[53] Phytoremediation of arsenic-contaminated water by Lemna Valdiviana: An optimization study

[54] Combination of rhamnolipid and biochar in assisting phytoremediation of petroleum hydrocarbon contaminated soil using Spartina anglica

[55] Soil phenanthrene phytoremediation capacity in bacteria-assisted Spartina densiflora

[56] Physiological responses of Broussonetia papyrifera to manganese stress, a candidate plant for phytoremediation

[57] Pyrolysis of heavy metal contaminated Avicennia marina biomass from phytoremediation: Characterisation of biomass and pyrolysis products

[58] Pilot Study on Phytoremediation of Contaminated Soils with Different Plant Species

[59] Uptake and accumulation of cadmium in flooded versus non-flooded Salix genotypes: Implications for phytoremediation

[60] The endophytic bacterium, Sphingomonas SaMR12, improves the potential for zinc phytoremediation by its host, Sedum alfredii.

[61] Effect of potentially toxic metals (PTMs) on the thermal decomposition of phytoremediation plant wastes: Thermokinetic and gas evolution analysis by TG-DTG-MS.

[62] Study on the efficiency of phytoremediation of soils heavily polluted with PAHs in petroleum-contaminated sites by microorganism.

[63] Cadmium Phytoremediation by Arundo donax L. from Contaminated Soil and Water

[64] Bioaugmentation coupled with phytoremediation for the removal of phenolic compounds and color from treated palm oil mill effluent.

[65] A novel phytoremediation method assisted by magnetized water to decontaminate soil Cd based on harvesting senescent and dead leaves of Festuca arundinacea

[66] Efficient improvement of soil salinization through phytoremediation induced by chemical remediation in extreme arid land northwest China.

[67] Enhanced phytoremediation of uranium contaminated soil by artificially constructed plant community plots.

[68] Phytoremediation of methylene blue using duckweed ().

[69] Corrigendum: Impact of Salicylic Acid and PGPR on the Drought Tolerance and Phytoremediation Potential of .

[70] Impact of Salicylic Acid and PGPR on the Drought Tolerance and Phytoremediation Potential of Helianthus annus

[71] Evaluation of chromium phyto-toxicity, phyto-tolerance, and phyto-accumulation using biofuel plants for effective phytoremediation.

[72] Phytohormones-induced senescence efficiently promotes the transport of cadmium from roots into shoots of plants: A novel strategy for strengthening of phytoremediation.

[73] Phytoremediation of phenol by Hydrilla verticillata (L.f.) Royle and associated effects on physiological parameters.

[74] Is phytoremediation a sustainable and reliable approach to clean-up contaminated water and soil in Alpine areas?

[75] Phytoremediation of heavy metals under an oil crop rotation and treatment of biochar from contaminated biomass for safe use

[76] Effect of panchakavya (organic formulation) on phytoremediation of lead and zinc using Zea mays.

[77] Phytoremediation of heavy metals—Concepts and applications

[78] Gentle remediation options for soil with mixed chromium (VI) and lindane pollution: biostimulation, bioaugmentation, phytoremediation and vermiremediation.

[79] Pollution indicandum and marble waste polluted ecosystem; role of selected indicator plants in phytoremediation and determination of pollution zones

[80] the effect of biosolids on medicago sativa and festuca arundinaceea plants phytoremediation process of waste dump

[81] genomic analysis of plant-associated bacteria and their potential in enhancing phytoremediation efficiency

[82] evaluation of the potential of pistia stratiotes l. (water lettuce) for bioindication and phytoremediation of aquatic environments contaminated with arsenic

[83] phytoremediation of kitchen wastewater by spirulina platensis (nordstedt) geiteler: pigment content, production variable cost and nutritional value

[84] biofortification and phytoremediation of selenium in china

[85] evaluation of ricinus communis l. for the phytoremediation of polluted soil with organochlorine pesticides

[86] phytoremediation of synthetic wastewater by adsorption of lead and zinc onto alpinia galanga willd

[87] phytoremediation of soil polluted with iraqi crude oil using grass plant

[88] characterization of anaerobic degradability and kinetics of harvested submerged aquatic weeds used for nutrient phytoremediation

[89] the use of adsorbent materials of improving the characteristics of polluted soils, part 2 the bioaccumulation of metals in plants used in phytoremediation processes

[90] hormesis phenomena of some parameter aspect in usage of water lettuce (pistia stratiotes l.) for phytoremediation process of petroleum liquid waste

[91] In Situ Phytoremediation of Mine Tailings with High Concentrations of Cadmium and Lead Using (Sapindaceae).