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[1]
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Pressmud overcome lead toxicity by improving spinach biomass in lead-contaminated soils
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Environmental …,
2023 |
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[2]
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Ecological Risk Assessment of Heavy Metals in Water, Sediment and Macrophytes of Two Drains in the Deltaic Mediterranean Coast of Egypt.
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Egyptian Journal of …,
2023 |
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[3]
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Underutilised Plants as Potential Phytoremediators for Inorganic Pollutants Decontamination
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Water, Air, & Soil Pollution,
2023 |
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[4]
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The Response of Purslane (Portulaca oleracea) to Soil-Added Pb: Is It Suitable as a Potential Phytoremediation Species?
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Toxics,
2023 |
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[5]
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Optimizing primary nutrient requirements in vegetable cultivation using response surface methodology for lead contaminated soils.
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2022 |
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[6]
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Humic acid reduces lead phytoextraction efficiency of Erythrostemon gilliesii
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Bioremediation …,
2022 |
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[7]
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The Morphological and Physiological Appearance of Two Vegetable Plants Due to Lead Exposure
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Journal of Ecological Engineering,
2022 |
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[8]
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Characterization of the crude extract of Portulaca oleracea and the determination of the polyphenol oxidase kinetics in the presence of Cu and Zn
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Maitah - Journal of Applied Biology and …,
2022 |
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[9]
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Enhancing the nutritional value of Portulaca oleracea L. by using soilless agronomic biofortification with zinc
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Food Research …,
2022 |
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[10]
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Nickel-mediated lead dynamics and their interactive effect on lead partitioning and phytoremediation indices in spinach
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Environmental …,
2022 |
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[11]
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Growth tolerance, concentration, and uptake of heavy metals as ameliorated by silicon application in vegetables
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International Journal of …,
2022 |
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[12]
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Improve Heavy Metals and Pollutants Removal from the Pharmaceuticals Wastewater Using Washingtonia Robusta: New Extraction Process
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Issa… - Civil and …,
2022 |
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[13]
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Optimizing Primary Nutrient Requirements in Vegetable Cultivation using Response Surface Methodology for Lead Contaminated Soils
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INTERNATIONAL JOURNAL OF AGRICULTURE & BIOLOGY,
2022 |
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[14]
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Root characteristics and metal uptake of maize (Zea mays L.) under extreme soil contamination
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2021 |
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[15]
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Multipurpose Benefits of an Underexplored Species Purslane (Portulaca oleracea L.): A Critical Review
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2021 |
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[16]
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Biochar supplementation regulates growth and heavy metal accumulation in tomato grown in contaminated soils
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2021 |
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[17]
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Root Characteristics and Metal Uptake of Maize (Zea mays L.) under Extreme Soil Contamination. Agronomy 2021, 11, 178
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2021 |
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[18]
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Portulaca oleracea L. for phytoremediation and biomonitoring in metal-contaminated environments
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2021 |
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[19]
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Horse Gram (Dolichos Biflorus Linn.)
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2020 |
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[20]
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Phytostabalization of the heavy metals in the soil with biochar applications, the impact on chlorophyll, carotene, soil fertility and tomato crop yield
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2020 |
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[21]
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Exogenous of Indole-3-Acetic Acid Application Alleviates Copper Toxicity in Spinach Seedlings by Enhancing Antioxidant Systems and Nitrogen Metabolism
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2020 |
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[22]
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Growth Ability and Phytoremediation of water mint (Mentha aquatica), Eryngo (Eryngium caucasicum) and Froriepia (Froriepia subpinnata) in soil contaminated with …
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Journal of Agricultural …,
2020 |
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[23]
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Growth Ability and Phytoremediation of Water Mint (Mentha aquatica), Eryngo (Eryngium caucasicum) and Froriepia (Froriepia subpinnata) in Soil …
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2020 |
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[24]
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EFFECT OF WASTE WATER TREATMENT ON THE GROWTH OF SELECTED LEAFY VEGETABLE PLANTS.
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Applied Ecology & …,
2019 |
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[25]
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GA3 对 Cu 胁迫下菠菜幼苗矿质元素吸收, 细胞超微结构的调控效应及其耐 Cu 机理研究
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2019 |
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[26]
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Effects of copper on the growth, antioxidant enzymes and photosynthesis of spinach seedlings
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2019 |
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[27]
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EFFECT OF WASTE WATER TREATMENT ON THE GROWTH OF SELECTED LEAFY VEGETABLE PLANTS
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2019 |
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[28]
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Potential of Mentha aquatica L., Eryngium caucasicum Trautv. and Froriepia subpinnata Ledeb. for phytoremediation of Cd-contaminated soil
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2019 |
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[29]
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Évaluation du niveau de contamination par les éléments traces métalliques (cadmium, cuivre, nickel et zinc) des sédiments de l'oued Boumerzoug et ses affluents, et …
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2019 |
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[30]
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Effects of Excess Cadmium on Growth, Tolerance and Physiological Characteristics of Purslane Varieties
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YYü TAR B?L DERG,
2018 |
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[31]
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The Effects of Lead and Cadmium Individually and in Combinations on Germination and Seedling Growth of Leucaena leucocephala (Lam.) de Wit
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2018 |
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[32]
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Macroelements and heavy metals content in energy crops cultivated on contaminated soil under different fertilization—case studies on autumn harvest
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Environmental Science and Pollution Research,
2018 |
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[33]
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Cd, Zn, Cu, Pb, Co, Ni phytotoxicity assessment
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2018 |
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[34]
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Potential of Lead and Cadmium Accumulation In Washingtonia filifera
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Iranian Journal of Science and Technology, Transactions A: Science,
2018 |
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[35]
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MACROPHYTES POTENTIAL FOR REMOVAL OF HEAVY METALS FROM AQUATIC ECOSYSTEM, EGYPT: USING METAL ACCUMULATION INDEX (MAI)
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2018 |
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[36]
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Macrophytes potential for removal of heavy metals from aquatic ecosystem, Egypt: using metal accumulation index (MAI).
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Amier, MA El-Alfy,
2018 |
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[37]
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The application of compost and arbuscularmycorrhizal fungi to increase efficiency of inorganicfertilization on maize (Zea mays L.)
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Journal by Innovative Scientific Information & Services Network,
2017 |
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[38]
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Potentially toxic elements concentrations and human health risk assessment of food crops in Bajaur Agency, Pakistan
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Environmental Earth Sciences,
2017 |
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[39]
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Growth of Spinach (Spinach oleracea) and Enzymatic Activities in Lead and Nickel Contaminated Vertisol of Central India
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Thesis,
2017 |
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[40]
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Lead and cadmium contamination and exposure risk assessment via consumption of vegetables grown in agricultural soils of five-selected regions of Pakistan
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Chemosphere,
2017 |
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[41]
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Cd, Zn, Cu, Pb, Co, Ni phytotoxicity assessment as function of its substance polarity shift
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2017 |
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[42]
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Phytotoxic Effects of Heavy Metals on Seed Germination and Seedling Growth of Medical Plant, Hyssop (Hyssopus officinalis L.)
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2017 |
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[43]
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The study of cadmium uptake and accumulation in Acacia victoriae three months old seedlings
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2017 |
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[44]
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Quantify the response of growth and chlorophyll fluorescence parameters of lemon balm (Melissa officinalis L.) medicinal plant to cadmium concentration in the soil
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2016 |
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[45]
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Quantify the response of purslane plant growth, photosynthesis pigments and photosystem II photochemistry to cadmium concentration gradients in the soil
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Russian Journal of Plant Physiology,
2016 |
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[46]
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The effect of two humic substances on the growth and lead uptake of corn in calcareous soil
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Iran Agricultural Research,
2016 |
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[47]
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کمی سازی پاسخ رشد رویشی و مؤلفه های فلورسانس کلروفیل گیاه دارویی بادرنجبویه (Melissa officinalis L.) به غلظت کادمیوم در خاک
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2016 |
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[48]
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Differential expression of Lead accumulation during two growing seasons by desert shrub Acacia victoriae L.
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2016 |
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[49]
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Toxicity and Bioaccumulation of Heavy Metals in Spinach (Spinacia oleracea) Grown in a Controlled Environment
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International journal of environmental research and public health,
2015 |
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[50]
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Quantification of Heavy Metals in Mining Affected Soil and Their Bioaccumulation in Native Plant Species
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International journal of phytoremediation,
2015 |
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[51]
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Heavy metal bioaccumulation in native plants in chromite impacted sites: A search for effective remediating plant species
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CLEAN–Soil, Air, Water,
2015 |
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[52]
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Research Article Wild Plant Assessment for Heavy Metal Phytoremediation Potential along the Mafic and Ultramafic Terrain in Northern Pakistan
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2013 |
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[53]
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Wild plant assessment for heavy metal phytoremediation potential along the mafic and ultramafic terrain in northern Pakistan
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BioMed research international,
2013 |
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[54]
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ARTICLE INFO ABSTRACT
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[55]
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Ağır metal bulaşık topraklarda bazı Brassicaceae türlerinin fitoremediasyon potansiyellerinin belirlenmesi
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