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Review Articles

Investigation of Heavy Metals Pollution and Their Removal Methods: A Review

Milad SheydaeiFaculty of Polymer Engineering, Sahand University of Technology, Tabriz, IranCorrespondence[email protected] [email protected]
Pages 213-230 | Received 15 Jul 2023, Accepted 09 Feb 2024, Published online: 19 Feb 2024

References

  • Abbaci F, Nait-Merzoug A, Guellati O, Harat A, El Haskouri J, Delhalle J, Mekhalif Z, Guerioune M. 2022. Bio/koh ratio effect on activated biochar and their dye based wastewater depollution. J Anal Appl Pyrolysis. 162:105452.
  • Abbasi A, Yahya WZ, Nasef MM, Moniruzzaman M, Ghumman AS, Afolabi HK. 2022. Boron removal by glucamine-functionalized inverse vulcanized sulfur polymer. React Funct Polym. 177:105311.
  • Aftab K, Iqbal S, Khan MR, Busquets R, Noreen R, Ahmad N, Kazimi SG, Karami AM, Al Suliman NM, Ouladsmane M. 2023. Wastewater-irrigated vegetables are a significant source of heavy metal contaminants: toxicity and health risks. Molecules. 28(3):1371.
  • Ahmad K, Muhammad S, Ali W, Jadoon IA, Rasool A. 2020. Occurrence, source identification and potential risk evaluation of heavy metals in sediments of the Hunza River and its tributaries, Gilgit-Baltistan. Environ Technol Innov. 18:100700.
  • Aijaz MO, Karim MR, Omar NM, Othman MH, Wahab MA, Akhtar Uzzaman M, Alharbi HM, Wazeer I. 2022. Recent progress, challenges, and opportunities of membrane distillation for heavy metals removal. Chem Rec. 22(7):e202100323.
  • Alsanad M, Sassine YN, El Sebaaly Z, Abou Fayssal S. 2021. Spent coffee grounds influence on Pleurotus ostreatus production, composition, fatty acid profile, and lignocellulose biodegradation capacity. CYTA J Food. 19(1):11–20.
  • Altunel AO, Çağlar S, Altunel TA. 2021. Determining the habitat fragmentation thru geoscience capabilities in Turkey: a case study of wildlife refuges. IJEG. 6(2):104–116.
  • Ampem G, Le Gresley A, Grootveld M, De Mars S, Naughton DP. 2022. The impact of partial oil substitution and trace metal ions on the evolution of peroxidation products in thermally stressed culinary oils. Food Chem. 375:131823.
  • Appolloni E, Orsini F, Specht K, Thomaier S, Sanyé-Mengual E, Pennisi G, Gianquinto G. 2021. The global rise of urban rooftop agriculture: A review of worldwide cases. J Cleaner Prod. 296:126556.
  • Arshad F, Selvaraj M, Zain J, Banat F, Haija MA. 2019. Polyethylenimine modified graphene oxide hydrogel composite as an efficient adsorbent for heavy metal ions. Sep Purif Technol. 209:870–880.
  • Askarpour SA, Molaee-Aghaee E, Ghaderi-Ghahfarokhi M, Shariatifar N, Mahmudiono T, Sadighara P, Fakhri Y. 2022. Potentially Toxic Elements (PTEs) in refined and cold-pressed vegetable oils distributed in Ahvaz, Iran: a probabilistic health risk assessment. Biol Trace Elem Res. 201:4567–4575.
  • Asksonthong R, Siripongvutikorn S, Usawakesmanee W. 2018. Heavy metal removal ability of Halomonas elongata and Tetragenococcus halophilus in a media model system as affected by pH and incubation time. Int Food Res J. 25:234–240.
  • Awad FS, AbouZied KM, Abou El-Maaty WM, El-Wakil AM, Samy El-Shall M. 2020. Effective removal of mercury(II) from aqueous solutions by chemically modified graphene oxide nanosheets. Arab J Chem. 13(1):2659–2670.
  • Azad H, Mohsennia M, Cheng C, Amini A. 2021. Facile fabrication of PVB-PVA blend polymer nanocomposite for simultaneous removal of heavy metal ions from aqueous solutions: kinetic, equilibrium, reusability and adsorption mechanism. J Environ Chem Eng. 9(5):106214.
  • Baby R, Hussein MZ, Abdullah AH, Zainal Z. 2022. Nanomaterials for the treatment of heavy metal contaminated water. Polymers (Basel). 14(3):583.
  • Bahrami S, Moore F, Keshavarzi B. 2021. Evaluation, source apportionment and health risk assessment of heavy metal and polycyclic aromatic hydrocarbons in soil and vegetable of Ahvaz metropolis. Hum Ecol Risk Assess.: Int J. 27(1):71–100.
  • Bai Y, Qi W, Liang J, Qu J. 2014. Using high-throughput sequencing to assess the impacts of treated and untreated wastewater discharge on prokaryotic communities in an urban river. Appl Microbiol Biotechnol. 98(4):1841–1851.
  • Baki MA, Hossain MM, Akter J, Quraishi SB, Shojib MF, Ullah AA, Khan MF. 2018. Concentration of heavy metals in seafood (fishes, shrimp, lobster and crabs) and human health assessment in Saint Martin Island, Bangladesh. Ecotoxicol Environ Saf. 159:153–163.
  • Baloch, Muhammad Awais, Mahmood, Nasir, Zhang, Jian Wu, Danish,. 2019. Effect of natural resources, renewable energy and economic development on CO2 emissions in BRICS countries.Sci Total Environ. 678:632–638.
  • Begum RA, Raihan A, Said MN. 2020. Dynamic impacts of economic growth and forested area on carbon dioxide emissions in Malaysia. Sustainability. 12(22):9375.
  • Bhardwaj P, Sharma RK, Chauhan A, Ranjan A, Rajput VD, Minkina T, Mandzhieva SS, Mina U, Wadhwa S, Bobde P, et al. 2023. Assessment of heavy metal distribution and health risk of vegetable crops grown on soils amended with municipal solid waste compost for sustainable urban agriculture. Water. 15(2):228.
  • Bhat SA, Bashir O, Haq SA, Amin T, Rafiq A, Ali M, Américo-Pinheiro JH, Sher F. 2022. Phytoremediation of heavy metals in soil and water: an eco-friendly, sustainable and multidisciplinary approach. Chemosphere. 303(Pt 1):134788.
  • Blaga AC, Zaharia C, Suteu D. 2021. Polysaccharides as support for microbial biomass-based adsorbents with applications in removal of heavy metals and dyes. Polymers (Basel). 13(17):2893.
  • Bretschger L, Soretz S. 2022. Stranded assets: how policy uncertainty affects capital, growth, and the environment. Environ Resource Econ. 83(2):261–288.
  • Cao J, He G, Ning X, Wang C, Fan L, Yin Y, Cai W. 2021. Hydroxypropyl chitosan-based dual self-healing hydrogel for adsorption of chromium ions. Int J Biol Macromol. 174:89–100.
  • Castañeda-Chávez MD, Navarrete-Rodríguez G, Wakida-Kusunoki AT, Baruch-Garduza E, Reynier-Valdés D. 2022. Whole-body toxic metals and morphometric measurements in brown shrimp Penaeus aztecus in the Gulf of Mexico. Fishes. 7(5):293.
  • Castillo-Aguirre A, Maldonado M, Esteso MA. 2022. Removal of toxic metal ions using poly (BuMA–co–EDMA) modified with C-tetra (nonyl) calix [4] resorcinarene. Toxics. 10(5):204.
  • Castro-Riquelme CL, López-Maldonado EA, Ochoa-Terán A, Alcántar-Zavala E, Trujillo-Navarrete B, Pérez-Sicairos S, Miranda-Soto V, Zizumbo-López A. 2023. Chitosan-carbamoylcarboxylic acid grafted polymers for removal of metal ions in wastewater. Chem Eng J. 456:141034.
  • Ceia-Hasse A, Navarro LM, Borda-de-Água L, Pereira HM. 2018. Population persistence in landscapes fragmented by roads: disentangling isolation, mortality, and the effect of dispersal. Ecol Modell. 375:45–53.
  • Chen W, Zhang X, Zhang J, Duan N, Gong X, Liu S, Zhan C, Chen W, Xing X. 2022. Characteristics, sources and health risk of heavy metals in road dust in the typical county town, Central China. Appl Sci. 12(24):12958.
  • Costa FR, Schietti J, Stark SC, Smith MN. 2023. The other side of tropical forest drought: do shallow water table regions of Amazonia act as large‐scale hydrological refugia from drought? New Phytol. 237(3):714–733.
  • Chris DI, Anyanwu BO. 2022. Pollution and potential ecological risk evaluation associated with toxic metals in an impacted mangrove swamp in Niger Delta, Nigeria. Toxics. 11(1):6.
  • Crini G, Lichtfouse E, Wilson LD, Morin-Crini N. 2019. Conventional and non-conventional adsorbents for wastewater treatment. Environ Chem Lett. 17(1):195–213.
  • Dehghani S, Moore F, Keshavarzi B, Beverley AH. 2017. Health risk implications of potentially toxic metals in street dust and surface soil of Tehran, Iran. Ecotoxicol Environ Saf. 136:92–103.
  • Delibašić Š, Đokić-Kahvedžić N, Karić M, Keskin I, Velispahić A, Huremović J, Herceg K, Selimović A, Silajdžić S, Žero S, et al. 2020. Health risk assessment of heavy metal contamination in street dust of federation of Bosnia and Herzegovina. Hum Ecol Risk Assess Int J. 27(5):1296–1308.
  • Di Bella G, Bua GD, Fede MR, Mottese AF, Potortì AG, Cicero N, Benameur Q, Dugo G, Turco VL. 2020. Potentially toxic elements in Xiphias gladius from Mediterranean Sea and risks related to human consumption. Mar Pollut Bull. 159:111512.
  • Diktaş Bulut N. 2023. Human-induced forest fragmentation in Trabzon, Eastern Black Sea Region, Türkiye: a case study. Forests. 14(8):1622.
  • Djedjibegovic J, Marjanovic A, Tahirovic D, Caklovica K, Turalic A, Lugusic A, Omeragic E, Sober M, Caklovica F. 2020. Heavy metals in commercial fish and seafood products and risk assessment in adult population in Bosnia and Herzegovina. Sci Rep. 10(1):13238.
  • Dytłow S, Górka-Kostrubiec B. 2021. Concentration of heavy metals in street dust: an implication of using different geochemical background data in estimating the level of heavy metal pollution. Environ Geochem Health. 43(1):521–535.
  • Engwa GA, Ferdinand PU, Nwalo FN, Unachukwu MN. 2019. Mechanism and health effects of heavy metal toxicity in humans. Poisoning Mod World-New Tricks Old Dog 10:70–90.
  • Ethaib S, Al-Qutaifia S, Al-Ansari N, Zubaidi SL. 2022. Function of nanomaterials in removing heavy metals for water and wastewater remediation: a review. Environments. 9(10):123.
  • Fan JP, Luo JJ, Zhang XH, Zhen B, Dong CY, Li YC, Shen J, Cheng YT, Chen HP. 2019. A novel electrospun -CD/CS/PVA nanofiber membrane for simultaneous and rapid removal of organic micropollutants and heavy metal ions from water. Chem Eng J. 378:122232.
  • Farooq A, Nadeem M, Abbas G, Shabbir A, Khalid MS, Javeed HMR, Saeed MF, Akram A, Younis A, Akhtar G. 2020. Cadmium partitioning, physiological and oxidative stress responses in Marigold (Calendula calypso) grown on contaminated soil: Implications for phytoremediation. Bull Environ Contam Toxicol. 105(2):270–276.
  • Fei Y, Hu YH. 2022. Design, synthesis, and performance of adsorbents for heavy metal removal from wastewater: a review. J Mater Chem A. 10(3):1047–1085.
  • Fonge BA, Larissa MT, Egbe AM, Afanga YA, Fru NG, Ngole-Jeme VM. 2021. An assessment of heavy metal exposure risk associated with consumption of cabbage and carrot grown in a tropical Savannah region. Sustainable Environ. 7:1909860.
  • Fouda A, Hassan SE, Saied E, Hamza MF. 2021. Photocatalytic degradation of real textile and tannery effluent using biosynthesized magnesium oxide nanoparticles (MgO-NPs), heavy metal adsorption, phytotoxicity, and antimicrobial activity. J Environ Chem Eng. 9(4):105346.
  • Fu Z, Xi S. 2020. The effects of heavy metals on human metabolism. Toxicol Mech Methods. 30(3):167–176.
  • Gavrilescu M. 2004. Removal of heavy metals from the environment by biosorption. Eng Life Sci. 4(3):219–232.
  • Ghane ET, Poormohammadi A, Khazaei S, Mehri F. 2022. Concentration of potentially toxic elements in vegetable oils and health risk assessment: a systematic review and meta-analysis. Biol Trace Elem Res. 200(1):437–446.
  • Ghiasvandnia P, Sheydaei M, Edraki M. 2023. Evaluation of toxic metals content and microbial contamination of parsley (Petroselinum crispum) prepared from local farms in Kushal and Layalestan regions (Lahijan city, north of Iran). Gıda Bilimi ve Mühendisliği Araştırmaları. 2(1):23–27.
  • Ghumman AS, Shamsudin MR, Waheed A, Sabir R, Abbasi A, Sami A. 2023. Amine decorated methacrylic acid based inverse vulcanized polysulfide for effective mercury removal from wastewater. ACS Omega. 9:4831–4840.
  • Gomravi Y, Karimi A, Azimi H. 2021. Adsorption of heavy metal ions via apple waste low-cost adsorbent: characterization and performance. Korean J Chem Eng. 38(9):1843–1858.
  • Gonzalez-Jimenez N, Gray N, Pappas RS, Halstead M, Lewis E, Valentin-Blasini L, Watson C, Blount B. 2021. Analysis of toxic metals in aerosols from devices associated with electronic cigarette, or vaping, product use associated lung injury. Toxics. 9(10):240.
  • González-Torres P, Puentes JG, Moya AJ, La Rubia MD. 2023. Comparative study of the presence of heavy metals in edible vegetable oils. Appl Sci. 13(5):3020.
  • Goswami S, Das S. 2015. A study on cadmium phytoremediation potential of Indian mustard, Brassica Juncea. Int J Phytoremediation. 17(1–6):583–588.
  • Gray N, Halstead M, Gonzalez-Jimenez N, Valentin-Blasini L, Watson C, Pappas RS. 2019. Analysis of toxic metals in liquid from electronic cigarettes. IJERPH. 16(22):4450.
  • Gray N, Halstead M, Valentin-Blasini L, Watson C, Pappas RS. 2022. Toxic metals in liquid and aerosol from pod-type electronic cigarettes. J Anal Toxicol. 46(1):69–75.
  • Guan L, Zhang WW, Ahmad F, Naqvi B. 2021. The volatility of natural resource prices and its impact on the economic growth for natural resource-dependent economies: a comparison of oil and gold dependent economies. Resour Policy. 72:102125.
  • Guo JK, Zhao J, Ren XH, Jia HL, Muhammad H, Lv X, Wei T, Hua L. 2020. Effects of Burkholderia sp. D54 on growth and cadmium uptake of tomato, ryegrass and soybean plants. Int J Environ Sci Technol. 17(2):1149–1158.
  • Habiba U, Siddique TA, Talebian S, Lee JJL, Salleh A, Ang BC, Afifi AM. 2017. Effect of deacetylation on property of electrospun chitosan/PVA nanofibrous membrane and removal of methyl orange, Fe(III) and Cr(VI) ions. Carbohydr Polym. 177:32–39.
  • Haghnazar H, Pourakbar M, Mahdavianpour M, Aghayani E. 2021. Spatial distribution and risk assessment of agricultural soil pollution by hazardous elements in a transboundary river basin. Environ Monit Assess. 193(4):158.
  • Halstead M, Gray N, Gonzalez-Jimenez N, Fresquez M, Valentin-Blasini L, Watson C, Pappas RS. 2020. Analysis of toxic metals in electronic cigarette aerosols using a novel trap design. J. Anal. J Anal Toxicol. 44(2):149–155.
  • Hamer AJ, Barta B, Bohus A, Gál B, Schmera D. 2021. Roads reduce amphibian abundance in ponds across a fragmented landscape. Global Ecol Conserv. 28:e01663.
  • Han Q, Liu Y, Feng X, Mao P, Sun A, Wang M, Wang M. 2021. Pollution effect assessment of industrial activities on potentially toxic metal distribution in windowsill dust and surface soil in central China. Sci Total Environ. 759:144023.
  • Haq S, Bhatti AA, Dar ZA, Bhat SA. 2020. Phytoremediation of heavy metals: an eco-friendly and sustainable approach. Bioremed Biotechnol. 215–231.
  • Haripriyan U, Gopinath KP, Arun J. 2022. Chitosan based nano adsorbents and its types for heavy metal removal: a mini review. Mater Lett. 312:131670.
  • Herath BM, Bamunuarachchige C, Stephenson SL, Elgorban AM, Asad S, Kumla J, Suwannarach N, Karunarathna SC, Yapa PN. 2023. Soil heavy metal absorption potential of Azolla pinnata and Lemna gibba with arbuscular mycorrhizal fungi in rice (Oryza sativa L.) farming. Sustainability. 15(5):4320.
  • Hong N, Guan Y, Yang B, Zhong J, Zhu P, Ok YS, Hou D, Tsang DC, Guan Y, Liu A. 2020. Quantitative source tracking of heavy metals contained in urban road deposited sediments. J Hazard Mater. 393:122362.
  • Hordofa TT, Liying S, Mughal N, Arif A, Vu HM, Kaur P. 2022. Natural resources rents and economic performance: post-COVID-19 era for G7 countries. Resour Policy. 75:102441.
  • Hossain MB, Bhuiyan NZ, Kasem A, Hossain MK, Sultana S, Nur AA, Yu J, Albeshr MF, Arai T. 2022. Heavy metals in four marine fish and shrimp species from a subtropical coastal area: accumulation and consumer health risk assessment. Biology (Basel). 11(12):1780.
  • Hossain MB, Tanjin F, Rahman MS, Yu J, Akhter S, Noman MA, Sun J. 2022. Metals bioaccumulation in 15 commonly consumed fishes from the lower Meghna river and adjacent areas of Bangladesh and associated human health hazards. Toxics. 10(3):139.
  • Hou Y, Dai S, Nechaev VP, Finkelman RB, Wang H, Zhang S, Di S. 2023. Mineral matter in the Pennsylvanian coal from the Yangquan Mining District, northeastern Qinshui Basin, China: enrichment of critical elements and a Se-Mo-Pb-Hg assemblage. Int J Coal Geol. 266:104178.
  • Hou S, Zheng N, Tang L, Ji X, Li Y, Hua X. 2019. Pollution characteristics, sources, and health risk assessment of human exposure to Cu, Zn, Cd and Pb pollution in urban street dust across China between 2009 and 2018. Environ Int. 128:430–437.
  • Huang R, Dong M, Mao P, Zhuang P, Paz-Ferreiro J, Li Y, Li Y, Hu X, Netherway P, Li Z. 2020. Evaluation of phytoremediation potential of five Cd (hyper) accumulators in two Cd contaminated soils. Sci Total Environ. 721:137581.
  • Ibrahim M, Tashkandi N, Hadjichristidis N, Alkayal NS. 2022. Synthesis of naphthalene-based polyaminal-linked porous polymers for highly effective uptake of CO2 and heavy metals. Polymers (Basel). 14(6):1136.
  • Ibrahim Y, Kassab A, Eid K, M. Abdullah A, Ozoemena KI, Elzatahry A. 2020. Unveiling fabrication and environmental remediation of MXene-based nanoarchitectures in toxic metals removal from wastewater: strategy and mechanism. Nanomaterials (Basel). 10(5):885.
  • Iravani S, Varma RS. 2022. Genetically engineered organisms: possibilities and challenges of heavy metal removal and nanoparticle synthesis. Clean Technol. 4(2):502–511.
  • Issa HM, Alshatteri AH. 2021. Impacts of wastewater discharge from Kalar city on Diyala-Sirwan river water quality. Iraq Pollut Eval Health Risks Heavy Metals Contam Appl Water Sci. 11:73.
  • Ituen E, Yuanhua L, Verma C, Alfantazi A, Akaranta O, Ebenso EE. 2021. Synthesis and characterization of walnut husk extract-silver nanocomposites for removal of heavy metals from petroleum wastewater and its consequences on pipework steel corrosion. J Mol Liq. 335:116132.
  • Izakovičová Z, Petrovič F, Pauditšová E. 2021. The impacts of urbanisation on landscape and environment: the Case of Slovakia. Sustainability. 14(1):60.
  • Jaishankar M, Tseten T, Anbalagan N, Mathew BB, Beeregowda KN. 2014. Toxicity, mechanism and health effects of some heavy metals. Interdiscip Toxicol. 7(2):60–72.
  • Jamnongkan T, Mongkholrattanasit R, Wattanakornsiri A, Wachirawongsakorn P, Takatsuka Y, Hara T. 2021. Green adsorbents for copper (II) biosorption from waste aqueous solution based on hydrogel-beads of biomaterials. S Afr J Chem Eng. 35:14–22.
  • Jensen J, Kyvsgaard NC, Battisti A, Baptiste KE. 2018. Environmental and public health related risk of veterinary zinc in pig production-using Denmark as an example. Environ. Environ Int. 114:181–190.
  • Joon NK, Ek P, Zevenhoven M, Hupa L, Miró M, Bobacka J, Lisak G. 2020. On-line microcolumn-based dynamic leaching method for investigation of lead bioaccessibility in shooting range soils. Chemosphere. 256:127022.
  • Kalantari K, Afifi AM. 2018. Novel chitosan/polyvinyl alcohol/talc composite for adsorption of heavy metals and dyes from aqueous solution. Sep Sci Technol. 53(16):2527–2535.
  • Kanwar VS, Sharma A, Srivastav AL, Rani L. 2020. Phytoremediation of toxic metals present in soil and water environment: a critical review. Environ Sci Pollut Res Int. 27(36):44835–44860.
  • Karim MR, Aijaz MO, Alharth NH, Alharbi HF, Al-Mubaddel FS, Awual MR. 2019. Composite nanofibers membranes of poly(vinyl alcohol)/chitosan for selective lead(II) and cadmium(II) ions removal from wastewater. Ecotoxicol Environ Saf. 169:479–486.
  • Kashyap K, Khan F, Verma DK, Agrawal S. 2023. Effective removal of uranium from aqueous solution by using cerium oxide nanoparticles derived from citrus limon peel extract. J Radioanal Nucl Chem. 332(7):2435–2445.
  • Kayan GÖ, Kayan A. 2021. Composite of natural polymers and their adsorbent properties on the dyes and heavy metal ions. J Polym Environ. 29(11):3477–3496.
  • Kazemi Z, Marahel F, Hamoule T, Goodajdar BM. 2021. Removal of Ni(II) and Co(II) ions from aqueous solutions utilizing Origanum majorana-capped silver nanoparticles. DWT. 213:381–394.
  • Khan IU, Qi SS, Gul F, Manan S, Rono JK, Naz M, Shi XN, Zhang H, Dai ZC, Du DL. 2023. A green approach used for heavy metals ‘phytoremediation’via invasive plant species to mitigate environmental pollution: a review. Plants. 12(4):725.
  • Khilji SA, Munir N, Aziz I, Anwar B, Hasnain M, Jakhar AM, Sajid ZA, Abideen Z, Hussain MI, El-Habeeb AA, et al. 2022. Application of algal nanotechnology for leather wastewater treatment and heavy metal removal efficiency. Sustainability. 14(21):13940.
  • Kolarević S, Micsinai A, Szántó-Egész R, Lukács A, Kračun-Kolarević M, Lundy L, Kirschner AKT, Farnleitner AH, Djukic A, Čolić J, et al. 2021. Detection of SARS-CoV-2 RNA in the Danube River in Serbia associated with the discharge of untreated wastewaters. Sci Total Environ. 783:146967.
  • Kolesnikova VM, Salimgareeva OA, Ladonin DV, Vertyankina VY, Shelegina AS. 2023. Morphological and mineralogical characteristics of atmospheric microparticles and chemical pollution of street dust in the Moscow region. Atmosphere. 14(2):403.
  • Kortei NK, Heymann ME, Essuman EK, Kpodo FM, Akonor PT, Lokpo SY, Boadi NO, Ayim-Akonor M, Tettey C. 2020. Health risk assessment and levels of toxic metals in fishes (Oreochromis noliticus and Clarias anguillaris) from Ankobrah and Pra basins: impact of illegal mining activities on food safety. Toxicol Rep. 7:360–369.
  • Koushkbaghi S, Zakialamdari A, Pishnamazi M, Ramandi HF, Aliabadi M, Irani M. 2018. Aminated-Fe3O4 nanoparticles filled chitosan/PVA/PES dual layers nanofibrous membrane for the removal of Cr(VI) and Pb(II) ions from aqueous solutions in adsorption and membrane processes. Chem Eng J. 337:169–182.
  • Kumar P, Kumar V, Adelodun B, Bedeković D, Kos I, Širić I, Alamri SAM, Alrumman SA, Eid EM, Abou Fayssal S, et al. 2022a. Sustainable use of sewage sludge as a casing material for button mushroom (Agaricus bisporus) cultivation: experimental and prediction modeling studies for uptake of metal elements. J Fungi (Basel). 8(2):112.
  • Kumar P, Kumar V, Eid EM, Al-Huqail AA, Adelodun B, Abou Fayssal S, Goala M, Arya AK, Bachheti A, Andabaka Ž, et al. 2022b. Spatial assessment of potentially toxic elements (PTE) concentration in Agaricus bisporus mushroom collected from local vegetable markets of Uttarakhand State, India. J Fungi (Basel). 8(5):452.
  • Kuzminova A, Dmitrenko M, Zolotarev A, Korniak A, Poloneeva D, Selyutin A, Emeline A, Yushkin A, Foster A, Budd P, et al. 2021. Novel mixed matrix membranes based on polymer of intrinsic microporosity PIM-1 modified with metal-organic frameworks for removal of heavy metal ions and food dyes by nanofiltration. Membranes (Basel). 12(1):14.
  • Ladonin DV, Mikhaylova AP. 2020. Heavy metals and arsenic in soils and street dust of the southeastern administrative district of Moscow: long-term data. Eurasian Soil Sc. 53(11):1635–1644.
  • Lan XY, Yan YY, Yang B, Li XY, Xu FL. 2019. Subcellular distribution of cadmium in a novel potential aquatic hyperaccumulator–Microsorum pteropus. Environ Pollut. 248:1020–1027.
  • Leblebici Z, Kar M, Başaran L. 2020. Assessment of the heavy metal accumulation of various green vegetables grown in Nevşehir and their risks human health. Environ Monit Assess. 192: 1(7):483.
  • Li D, Lu Q, Cai L, Chen L, Wang H. 2023. Characteristics of soil heavy metal pollution and health risk assessment in urban parks at a megacity of Central China. Toxics. 11(3):257.
  • Li M, Qin Y, Wang C, Wang K, Deng Z, Xu W, Xiang P, Ma LQ. 2021. Total and bioaccessible heavy metals in cabbage from major producing cities in Southwest China: health risk assessment and cytotoxicity. RSC Adv. 11(20):12306–12314.
  • Lin H, Jiang H, He P, Haruna SA, Chen Q, Xue Z, Chan C, Ali S. 2021. Non-destructive detection of heavy metals in vegetable oil based on nano-chemoselective response dye combined with near-infrared spectroscopy. Sens Actuat B. 335:129716.
  • Lin HK, Lai YS, Liu YL. 2019. Cross-linkable and self-foaming polysulfide materials for repairable and mercury capture applications. ACS Sustainable Chem Eng. 7(4):4515–4522.
  • Liu G, Chen T, Cui J, Zhao Y, Li Z, Liang W, Sun J, Liu Z, Xiao T. 2023. Trace metal (loid) migration from road dust to local vegetables and tree tissues and the bioaccessibility-based health risk: impacts of vehicle operation-associated emissions. IJERPH. 20(3):2520.
  • Liu Y, Wang L, Wang X, Jing F, Chang R, Chen J. 2020. Oxidative ageing of biochar and hydrochar alleviating competitive sorption of Cd(II) and Cu(II). Sci Total Environ. 725:138419.
  • Lobzenko I, Burachevskaya M, Zamulina I, Barakhov A, Bauer T, Mandzhieva S, Sushkova S, Minkina T, Tereschenko A, Kalinichenko V, et al. 2022. Development of a unique technology for the pyrolysis of rice husk biochar for promising heavy metal remediation. Agriculture. 12(10):1689.
  • Lu RR, Hu ZH, Zhang QL, Li YQ, Lin M, Wang XL, Wu XN, Yang JT, Zhang LQ, Jing YX, et al. 2020. The effect of Funneliformis mosseae on the plant growth, Cd translocation and accumulation in the new Cd-hyperaccumulator Sphagneticola calendulacea. Ecotoxicol Environ Saf. 203:110988.
  • Łuczyńska J, Paszczyk B, Łuczyński MJ, Kowalska-Góralska M, Nowosad J, Kucharczyk D. 2020. Using Rutilus rutilus (L.) and Perca fluviatilis (L.) as bioindicators of the environmental condition and human health: Lake Łańskie, Poland. IJERPH. 17(20):7595.
  • Luka MF, Akun E. 2019. Investigation of trace metals in different varieties of olive oils from northern Cyprus and their variation in accumulation using ICP-MS and multivariate techniques. Environ Earth Sci. 78(19):578.
  • Mahmoud AE, Al-Qahtani KM, Alflaij SO, Al-Qahtani SF, Alsamhan FA. 2021. Green copper oxide nanoparticles for lead, nickel, and cadmium removal from contaminated water. Sci Rep. 11(1):12547.
  • Manjusha R, Shekhar R, Kumar SJ. 2019. Ultrasound-assisted extraction of Pb, Cd, Cr, Mn, Fe, Cu, Zn from edible oils with tetramethylammonium hydroxide and EDTA followed by determination using graphite furnace atomic absorption spectrometer. Food Chem. 294:384–389.
  • Marszałek M, Kowalski Z, Makara A. 2019. The possibility of contamination of water-soil environment as a result of the use of pig slurry. Ecol Chem Eng S. 26(2):313–330.
  • Martins TR, Costa PS, Bertuol DA, Aguiar ML, Tanabe EH. 2022. Development of recycled expanded polystyrene nanofibers modified by chitosan for the removal of lead (II) from water. Metals. 12(8):1334.
  • Meck ML, Mudimbu D, Davies TC. 2020. Accumulation of potentially harmful elements in edible parts of vegetables grown on two different geological substrates in Zimbabwe. J Geochem Explor. 208:106392.
  • Medyńska-Juraszek A, Marcinkowska K, Gruszka D, Kluczek K. 2022. The effects of rabbit-manure-derived biochar co-application with compost on the availability and heavy metal uptake by green leafy vegetables. Agronomy. 12(10):2552.
  • Medfu Tarekegn M, Zewdu Salilih F, Ishetu AI. 2020. Microbes used as a tool for bioremediation of heavy metal from the environment. Cogent Food Agric. 6(1):1783174.
  • Men C, Wang Y, Liu R, Wang Q, Miao Y, Jiao L, Shoaib M, Shen Z. 2021. Temporal variations of levels and sources of health risk associated with heavy metals in road dust in Beijing from May 2016 to April 2018. Chemosphere. 270:129434.
  • Meng L, Zhao L, Liu W, Lian J, Chao L. 2021. Risk assessment of bioavailable heavy metals in the water and sediments in the Yongding New River, North China. Environ Monit Assess. 193(9):589.
  • Mohajer A, Baghani AN, Sadighara P, Ghanati K, Nazmara S. 2020. Determination and health risk assessment of heavy metals in imported rice bran oil in Iran. J Food Compos Anal. 86:103384.
  • Mondal S, K. Mishra A, Leung R, Cook B. 2023. Global droughts connected by linkages between drought hubs. Nat Commun. 14(1):144.
  • Muhammad S, Ullah S, Ali W, Jadoon IA, Arif M. 2022. Spatial distribution of heavy metal and risk indices of water and sediments in the Kunhar River and its tributaries. Geocarto Int. 37(20):5985–6003.
  • Mohammed F, Guillaume D, Abdulwali N, Zabara B, Bchitou R. 2019. Tin content is a possible marker to discriminate Argan oil against olive, sesame, mustard, corn, peanut, and sunflower oils. Eur J Lipid Sci Technol. 121:1800180.
  • Mohiuddin M, Hossain MB, Ali MM, Kamal Hossain M, Habib A, Semme SA, Rakib MRJ, Rahman MA, Yu J, Al-Sadoon MK, et al. 2022. Human health risk assessment for exposure to heavy metals in finfish and shellfish from a tropical estuary. J King Saud Univ Sci. 34(4):102035.
  • Moral R, Perez-Murcia MD, Perez-Espinosa A, Moreno-Caselles J, Paredes C, Rufete B. 2008. Salinity, organic content, micronutrients and heavy metals in pig slurries from South-eastern Spain. Waste Manag. 28(2):367–371.
  • Morman SA, Plumlee GS. 2013. The role of airborne mineral dusts in human disease. Aeolian Res. 9:203–212.
  • Motitswe MG, Badmus KO, Khotseng L. 2022. Development of adsorptive materials for selective removal of toxic metals in wastewater: a review. Catalysts. 12(9):1057.
  • Muscetta M, Bianco F, Trancone G, Race M, Siciliano A, D’Agostino F, Sprovieri M, Clarizia L. 2023. Washing bottom sediment for the removal of arsenic from contaminated Italian Coast. Processes. 11(3):902.
  • Najmi A, Albratty M, Al-Rajab AJ, Alhazmi HA, Javed SA, Ahsan W, Rehman ZU, Hassani R, Alqahtani SS. 2023. Heavy metal contamination in leafy vegetables grown in Jazan region of Saudi Arabia: assessment of possible human health hazards. IJERPH. 20(4):2984.
  • Nargis A, Habib A, Islam MN, Chen K, Sarker MS, Al-Razee AN, Liu W, Liu G, Cai M. 2022. Source identification, contamination status and health risk assessment of heavy metals from road dusts in Dhaka, Bangladesh. J Environ Sci (China). 121:159–174.
  • Nayeem A, Ali MF, Shariffuddin JH. 2023. The recent development of inverse vulcanized polysulfide as an alternative adsorbent for heavy metal removal in wastewater. Environ Res. 216(Pt 1):114306.
  • Ngo HT, Nguyen TD, Nguyen TT, Le TT, Nguyen DQ. 2022. Adverse effects of toxic metal pollution in rivers on the physiological health of fish. Toxics. 10(9):528.
  • Niu B, Zhang H, Zhou G, Zhang S, Yang Y, Deng X, Chen Q. 2021. Safety risk assessment and early warning of chemical contamination in vegetable oil. Food Control. 125:107970.
  • Nolos RC, Agarin CJ, Domino MY, Bonifacio PB, Chan EB, Mascareñas DR, Senoro DB. 2022. Health risks due to metal concentrations in soil and vegetables from the six municipalities of the Island Province in the Philippines. IJERPH. 19(3):1587.
  • Norah M, Shumirai Z, Zelma ML, Upenyu M. 2015. Impacts of untreated sewage discharge on water quality of middle Manyame River: a case of Chinhoyi town, Zimbabwe. IJEMA. 3(3):133–138.
  • Pagliaccia B, Carretti E, Severi M, Berti D, Lubello C, Lotti T. 2022. Heavy metal biosorption by Extracellular Polymeric Substances (EPS) recovered from anammox granular sludge. J Hazard Mater. 424(Pt C):126661.
  • Patra DK, Pradhan C, Patra HK. 2020. Toxic metal decontamination by phytoremediation approach: concept, challenges, opportunities and future perspectives. Environ Technol Innovation. 18:100672.
  • Pavlović P, Sawidis T, Breuste J, Kostić O, Čakmak D, Đorđević D, Pavlović D, Pavlović M, Perović V, Mitrović M. 2021. Fractionation of potentially toxic elements (PTEs) in urban soils from Salzburg, Thessaloniki and Belgrade: an insight into source identification and human health risk assessment. IJERPH. 18(11):6014.
  • Peng M, Zhao C, Ma H, Yang Z, Yang K, Liu F, Li K, Yang Z, Tang S, Guo F, et al. 2020. Heavy metal and Pb isotopic compositions of soil and maize from a major agricultural area in Northeast China: contamination assessment and source apportionment. J Geochem Explor. 208:106403.
  • Perumal K, Antony J, Muthuramalingam S. 2021. Heavy metal pollutants and their spatial distribution in surface sediments from Thondi coast, Palk Bay, South India. Environ Sci Eur. 33(1):20.
  • Petrović JT, Stojanović MD, Milojković JV, Petrović MS, Šoštarić TD, Laušević MD, Mihajlović ML. 2016. Alkali modified hydrochar of grape pomace as a perspective adsorbent of Pb2+ from aqueous solution. J Environ Manage. 182:292–300.
  • Peycheva K, Panayotova V, Stancheva R, Makedonski L, Merdzhanova A, Parrino V, Nava V, Cicero N, Fazio F. 2022. Risk assessment of essential and toxic elements in freshwater fish species from lakes near Black Sea, Bulgaria. Toxics. 10(11):675.
  • Pillai P, Dharaskar S, Khalid M. 2021. Optimization of fluoride removal by Al doped ZnO nanoparticles using response surface methodology from groundwater. Chemosphere. 284:131317.
  • Pooja G, Kumar PS, Indraganti S. 2022. Recent advancements in the removal/recovery of toxic metals from aquatic system using flotation techniques. Chemosphere. 287(Pt 2):132231.
  • Pooja G, Kumar PS, Prasannamedha G, Varjani S, Vo DV. 2021. Sustainable approach on removal of toxic metals from electroplating industrial wastewater using dissolved air flotation. J Environ Manage. 295:113147.
  • Preisner M. 2020. Surface water pollution by untreated municipal wastewater discharge due to a sewer failure. Environ Process. 7(3):767–780.
  • Qi G, Pan Z, Zhang X, Miao X, Xiang W, Gao B. 2022. Effect of ball milling with hydrogen peroxide or ammonia hydroxide on sorption performance of volatile organic compounds by biochar from different pyrolysis temperatures. Chem Eng J. 450:138027.
  • Rahman MS, Kumar P, Ullah M, Jolly YN, Akhter S, Kabir J, Begum BA, Salam A. 2021. Elemental analysis in surface soil and dust of roadside academic institutions in Dhaka city, Bangladesh and their impact on human health. Environ Chem Ecotoxicol. 3:197–208.
  • Rahman Z, Singh VP. 2020. Bioremediation of toxic heavy metals (THMs) contaminated sites: concepts, applications and challenges. Environ Sci Pollut Res Int. 27(22):27563–27581.
  • Rajaram R, Ganeshkumar A, Vinothkumar S, Arun G. 2021. Ecological risk assessment of toxic metals contamination in Tuticorin coast of Gulf of Mannar, Southern India. Chem Ecol. 37(2):132–148.
  • Raj D, Maiti SK. 2019. Bioaccumulation of potentially toxic elements in tree and vegetable species with associated health and ecological risks: a case study from a thermal power plant, Chandrapura, India. Rend Fis Acc Lincei. 30(3):649–665.
  • Raj D, Maiti SK. 2020. Sources, bioaccumulation, health risks and remediation of potentially toxic metal (loid) s (As, Cd, Cr, Pb and Hg): an epitomised review. Environ Monit Assess. 192(2):108.
  • Ramadan R, El-Masry MM. 2021. Comparative study between CeO2/Zno and CeO2/SiO2 nanocomposites for (Cr6+) heavy metal removal. Appl Phys A. 127(11):876.
  • Rashid N, Alam JM, Chowdhury MA, Islam SL. 2022. Impact of landuse change and urbanization on urban heat island effect in Narayanganj city, Bangladesh: a remote sensing-based estimation. Environ Challenges. 8:100571.
  • Rezayani N, Mirmohammadi M, Mehrdadi N. 2021. Origin and risk assessment, and evaluation of heavy metal pollution in the soil of Tehran, Iran. Iran J Chem Chem E. 41:3100–3126.
  • Román S, Valente Nabais JM, Ledesma B, Laginhas C, Titirici MM. 2020. Surface interactions during the removal of emerging contaminants by hydrochar-based adsorbents. Molecules. 25(9):2264.
  • Rosli N, Yahya WZ, Wirzal MD. 2022. Crosslinked chitosan/poly(vinyl alcohol) nanofibers functionalized by ionic liquid for heavy metal ions removal. Int J Biol Macromol. 195:132–141.
  • Sagagi BS, Bello AM, Danyaya HA. 2022. Assessment of accumulation of heavy metals in soil, irrigation water, and vegetative parts of lettuce and cabbage grown along Wawan Rafi, Jigawa State, Nigeria. Environ Monit Assess. 194(10):699.
  • Sahebjamee N, Soltanieh M, Mousavi SM, Heydarinasab A. 2019. Removal of Cu2+, Cd2+ and Ni2+ ions from aqueous solution using a novel chitosan/polyvinyl alcohol adsorptive membrane. Carbohydr Polym. 210:264–273.
  • Saleem M, Iqbal J, Shi Z, Garrett SH, Shah MH. 2022. Distribution and bioaccumulation of essential and toxic metals in tissues of Thaila (Catla catla) from a Natural Lake, Pakistan and its possible health impact on consumers. JMSE. 10(7):933.
  • Sall ML, Diaw AK, Gningue-Sall D, Efremova Aaron S, Aaron JJ. 2020. Toxic heavy metals: impact on the environment and human health, and treatment with conducting organic polymers, a review. Environ Sci Pollut Res Int. 27(24):29927–29942.
  • Shin J, Choi M, Go CY, Bae S, Kim KC, Chon K. 2022. NaOH-assisted H2O2 post-modification as a novel approach to enhance adsorption capacity of residual coffee waste biochars toward radioactive strontium: experimental and theoretical studies. J Hazard Mater. 435:129081.
  • Saoca C, Arfuso F, Giannetto C, Piccione G, Fazio F. 2023. Seasonal biodistribution of some trace elements (CD, PB, CR, HG) and “Blood biomarkers” response in mugil cephalus (Linnaeus, 1758). Biol Trace Elem Res. 201(4):1987–1995.
  • Sarim M, Jan T, Khattak SA, Mihoub A, Jamal A, Saeed MF, Soltani-Gerdefaramarzi S, Tariq SR, Fernández MP, Mancinelli R, et al. 2022. Assessment of the ecological and health risks of potentially toxic metals in agricultural soils from the Drosh-Shishi Valley, Pakistan. Land. 11(10):1663.
  • Sarker MJ, Islam MA, Rahman F, Anisuzzaman M. 2021. Heavy metals in the fish Tenualosa ilisha Hamilton, 1822 in the Padma-Meghna River Confluence: potential risks to public health. Toxics. 9(12):341.
  • Selahvarzi S, Sobhanardakani S. 2022. Analysis and health risk assessment of toxic (Cd and Pb) and essential (Cu and Zn) elements through consumption of potato (Solanum tuberosum) cultivated in Iran. Int J Environ Anal Chem. 102(18):6310–6320.
  • Senoro DB, De Jesus KL, Monjardin CE. 2023. Pollution and risk evaluation of toxic metals and metalloid in water resources of San Jose, Occidental Mindoro, Philippines. Sustainability. 15(4):3667.
  • Serrano LZ, Lara NO, Vera RR, Cholico-González D. 2021. Removal of Fe (III), Cd (II), and Zn (II) as hydroxides by precipitation–flotation system. Sustainability. 13(21):11913.
  • Serrano-Rodríguez A, Escalona-Segura G, Rodríguez AG, Machkour-M’Rabet S, Ruiz-Montoya L, Elias EE, Plasencia-Vázquez AH. 2022. Effects of anthropogenic habitat fragmentation on the genetic connectivity of the threatened and endemic Campylorhynchus yucatanicus (Aves, Trogloditydae) in the Yucatan Peninsula, Mexico. Diversity. 14(12):1108.
  • Setia R, Dhaliwal SS, Kumar V, Singh R, Kukal SS, Pateriya B. 2020. Impact assessment of metal contamination in surface water of Sutlej River (India) on human health risks. Environ Pollut. 265(Pt B):114907.
  • Sharma JK, Kumar N, Singh NP, Santal AR. 2023. Phytoremediation technologies and its mechanism for removal of heavy metal from contaminated soil: An approach for a sustainable environment. Front Plant Sci. 14:1076876.
  • Sheydaei M. 2022. Sodium sulfide-based polysulfide polymers: synthesis, cure, thermal and mechanical properties. J Sulfur Chem. 43(6):643–654.
  • Sheydaei M, Pouraman V, Edraki M, Alinia-Ahandani E, Asadi-Sadeh SM. 2023. Targeted application of GO to improve mechanical and thermal properties of PVCS/RS composites. Phosphorus Sulfur Silicon Relat Elem. 198(4):345–353.
  • Sheydaei M, Talebi S, Salami-Kalajahi M. 2021a. Synthesis, characterization, curing, thermophysical and mechanical properties of ethylene dichloride-based polysulfide polymers. J Macromol Sci Part A Pure Appl Chem. 58(5):344–352.
  • Sheydaei M, Talebi S, Salami-Kalajahi M. 2021b. Synthesis of ethylene dichloride-based polysulfide polymers: investigation of polymerization yield and effect of sulfur content on solubility and flexibility. J Sulfur Chem. 42(1):67–82.
  • Silva HF, Silva NF, Oliveira CM, Matos MJ. 2021. Heavy metals contamination of urban soils-a decade study in the city of Lisbon, Portugal. Soil Syst. 5(2):27.
  • Singh A, Fulekar MH. 2012. Phytoremediation of heavy metals by Brassica juncea in aquatic and terrestrial environment. In: The plant family Brassicaceae: contribution towards phytoremediation. Springer: Dordrecht. p 153–169.
  • Sinha SK, Upadhyay TK, Sharma SK. 2019. Heavy metals detection in white button mushroom (Agaricus bisporus) cultivated in state of Maharashtra, India. Biochem Cell Arch. 19:3501–3506.
  • Skorbiłowicz M, Trybułowski Ł, Skorbiłowicz E. 2023. Spatial distribution and pollution level of heavy metals in street dust of the city of Suwałki (Poland). Int J Environ Res Public Health. 20(6):4687.
  • Smeu I, Dobre AA, Cucu EM, Mustățea G, Belc N, Ungureanu EL. 2022. Byproducts from the vegetable oil industry: the challenges of safety and sustainability. Sustainability. 14(4):2039.
  • Sojka M, Jaskuła J. 2022. Heavy metals in river sediments: contamination, toxicity, and source identification-a case study from Poland. IJERPH. 19(17):10502.
  • Soltani-Gerdefaramarzi S, Ghasemi M, Gheysouri M. 2021. Pollution, human health risk assessment and spatial distribution of toxic metals in urban soil of Yazd City, Iran. Environ Geochem Health. 43(9):3469–3484.
  • Suliman W, Harsh JB, Abu-Lail NI, Fortuna AM, Dallmeyer I, Garcia-Pérez M. 2017. The role of biochar porosity and surface functionality in augmenting hydrologic properties of a sandy soil. Sci Total Environ. 574:139–147.
  • Sultana S, Hossain MB, Choudhury TR, Yu J, Rana MS, Noman MA, Hosen MM, Paray BA, Arai T. 2022. Ecological and human health risk assessment of heavy metals in cultured shrimp and aquaculture sludge. Toxics. 10(4):175.
  • Sushkova S, Minkina T, Dudnikova T, Barbashev A, Mazarji M, Chernikova N, Lobzenko I, Deryabkina I, Kizilkaya R. 2021. Influence of carbon-containing and mineral sorbents on the toxicity of soil contaminated with benzo [a] pyrene during phytotesting. Environ Geochem Health. 44(1):179–193.
  • Tabish TA, Memon FA, Gomez DE, Horsell DW, Zhang S. 2018. A facile synthesis of porous graphene for efficient water and wastewater treatment. Sci Rep. 8(1):1817.
  • Taş B, Tepe Y, Ustaoğlu F, Alptekin S. 2019. Benthic algal diversity and water quality evaluation by biological approach of Turnasuyu Creek, NE Turkey. DWT. 155:402–415.
  • Tassanapukdee Y, Prayongpan P, Songsrirote K. 2021. Removal of heavy metal ions from an aqueous solution by CS/PVA/PVP composite hydrogel synthesized using microwaved-assisted irradiation. Environ Technol Innov. 24:101898.
  • Tokatli C. 2019. Sediment quality of Ergene River Basin: bio-ecological risk assessment of toxic metals. Environ Monit Assess. 191(11):706.
  • Töre Y, Ustaoğlu F, Tepe Y, Kalipci E. 2021. Levels of toxic metals in edible fish species of the Tigris River (Turkey); threat to public health. Ecol Indic. 123:107361.
  • Ullah S, Mahmood T, Iqbal Z, Naeem A, Ali R, Mahmood S. 2019. Phytoremediative potential of salt-tolerant grass species for cadmium and lead under contaminated nutrient solution. Int J Phytoremediation. 21(10):1012–1018.
  • Ulucak R, Baloch MA, Danish. 2023. An empirical approach to the nexus between natural resources and environmental pollution: do economic policy and environmental-related technologies make any difference? Resour Policy. 81: 103361.
  • Ulucak R, Khan SU-D, Danish. 2020. Determinants of the ecological footprint: role of renewable energy, natural resources, and urbanization. Sustainable Cities Soc. 54: 101996.
  • Ulucak R, Ozcan B, Danish. 2020. Relationship between energy consumption and environmental sustainability in OECD countries: the role of natural resources rents. Resour Policy. 69: 101803.
  • Unnikrishnan B, Lien CW, Chu HW, Huang CC. 2021. A review on metal nanozyme-based sensing of heavy metal ions: challenges and future perspectives. J Hazard Mater. 401:123397.
  • Usman QA, Muhammad S, Ali W, Yousaf S, Jadoon IA. 2021. Spatial distribution and provenance of heavy metal contamination in the sediments of the Indus River and its tributaries, North Pakistan: evaluation of pollution and potential risks. Environ Technol Innovation. 21:101184.
  • Ustaoğlu F. 2021. Ecotoxicological risk assessment and source identification of heavy metals in the surface sediments of Çömlekci stream, Giresun, Turkey. Environ Forensics. 22(1–2):130–142.
  • Varol M, Sünbül MR. 2020. Macroelements and toxic trace elements in muscle and liver of fish species from the largest three reservoirs in Turkey and human risk assessment based on the worst-case scenarios. Environ Res. 184:109298.
  • Venkatraman Y, Priya AK. 2022. Removal of heavy metal ion concentrations from the wastewater using tobacco leaves coated with iron oxide nanoparticles. Int J Environ Sci Technol. 19(4):2721–2736.
  • Wade AM, Richter DD, Craft CB, Bao NY, Heine PR, Osteen MC, Tan KG. 2021. Urban-soil pedogenesis drives contrasting legacies of lead from paint and gasoline in city soil. Environ Sci Technol. 55(12):7981–7989.
  • Wallace DR, Taalab YM, Heinze S, Tariba Lovaković B, Pizent A, Renieri E, Tsatsakis A, Farooqi AA, Javorac D, Andjelkovic M, et al. 2020. Toxic-metal-induced alteration in miRNA expression profile as a proposed mechanism for disease development. Cells. 9(4):901.
  • Wang J, She J, Zhou Y, Tsang DC, Beiyuan J, Xiao T, Dong X, Chen Y, Liu J, Yin M, et al. 2020a. Microbial insights into the biogeochemical features of thallium occurrence: a case study from polluted river sediments. Sci Total Environ. 739:139957.
  • Wang J, Tang D. 2023. Air pollution, environmental protection tax and well-being. IJERPH. 20(3):2599.
  • Wang J, Wang L, Wang Y, Tsang DCW, Yang X, Beiyuan J, Yin M, Xiao T, Jiang Y, Lin W, et al. 2021. Emerging risks of toxic metal (loid) s in soil-vegetables influenced by steel-making activities and isotopic source apportionment. Environ Int. 146:106207.
  • Wang J, Zhou Y, Dong X, Yin M, Tsang DC, Sun J, Liu J, Song G, Liu Y. 2020b. Temporal sedimentary record of thallium pollution in an urban lake: an emerging thallium pollution source from copper metallurgy. Chemosphere. 242:125172.
  • Wang W, Shao L, Zhang D, Li Y, Li W, Liu P, Xing J. 2022. Mineralogical similarities and differences of dust storm particles at Beijing from deserts in the north and northwest. Sci Total Environ. 803:149980.
  • Wang X, Liu E, Lin Q, Liu L, Yuan H, Li Z. 2020c. Occurrence, sources and health risks of toxic metal (loid) s in road dust from a mega city (Nanjing) in China. Environ Pollut. 263(Pt A):114518.
  • Wang Z, Lu X, Yang Y, Yu B, Lei K, Pan H, Fan P, Zuo L. 2023. Estimation of Probabilistic environmental risk of heavy metal (loid) s in resuspended megacity street dust with monte carlo simulation. Minerals. 13(3):305.
  • Wu G, Kang H, Zhang X, Shao H, Chu L, Ruan C. 2010. A critical review on the bio-removal of hazardous heavy metals from contaminated soils: issues, progress, eco-environmental concerns and opportunities. J Hazard Mater. 174(1–3):1–8.
  • Xiang W, Wan Y, Zhang X, Tan Z, Xia T, Zheng Y, Gao B. 2020. Adsorption of tetracycline hydrochloride onto ball-milled biochar: governing factors and mechanisms. Chemosphere. 255:127057.
  • Xin-Ling RU, Zhang GL, Liu-Jian NI, He Y. 2008. Distribution and migration of heavy metals in undisturbed forest soils: a high resolution sampling method. Pedosphere. 18(3):386–393.
  • Yan A, Wang Y, Tan SN, Mohd Yusof ML, Ghosh S, Chen Z. 2020. Phytoremediation: a promising approach for revegetation of heavy metal-polluted land. Front Plant Sci. 11:359.
  • Yang J, Sun F, Su H, Tao Y, Chang H. 2022. Multiple risk assessment of heavy metals in surface water and sediment in Taihu Lake, China. IJERPH. 19(20):13120.
  • Yang J, Zhao Y, Ruan X, Zhang G. 2023. Anthropogenic contribution and migration of soil heavy metals in the vicinity of typical highways. Agronomy. 13(2):303.
  • Yap CK, Yaacob A, Tan WS, Al-Mutairi KA, Cheng WH, Wong KW, Berandah Edward F, Ismail MS, You C-F, Chew W, et al. 2022. Potentially toxic metals in the high-biomass non-hyperaccumulating plant Amaranthus viridis: human health risks and phytoremediation potentials. Biology (Basel). 11(3):389.
  • Yap CK, Al-Mutairi KA. 2022a. Ecological-health risks of potentially toxic metals in mangrove sediments near estuaries after years of piggery farming bans in Peninsular Malaysia. Sustainability. 14(3):1525.
  • Yap CK, Al-Mutairi KA. 2022b. Copper and zinc levels in commercial marine fish from Setiu, East Coast of Peninsular Malaysia. Toxics. 10(2):52.
  • Yaqoob AA, Serrà A, Bhawani SA, Ibrahim MN, Khan A, Alorfi HS, Asiri AM, Hussein MA, Khan I, Umar K. 2022. Utilizing biomass-based graphene oxide-polyaniline-Ag electrodes in microbial fuel cells to boost energy generation and heavy metal removal. Polymers (Basel). 14(4):845.
  • Yi L, Gao B, Liu H, Zhang Y, Du C, Li Y. 2020. Characteristics and assessment of toxic metal contamination in surface water and sediments near a uranium mining area. IJERPH. 17(2):548.
  • Yin D, Peng F, He T, Xu Y, Wang Y. 2020. Ecological risks of heavy metals as influenced by water-level fluctuations in a polluted plateau wetland, southwest China. Sci Total Environ. 742:140319.
  • Yu W, Lian F, Cui G, Liu Z. 2018. N-doping effectively enhances the adsorption capacity of biochar for heavy metal ions from aqueous solution. Chemosphere. 193:8–16.
  • Zaidi R, Khan SU, Azam A, Farooqi IH. 2021. A study on effective adsorption of lead from an aqueous solution using Copper Oxide nanoparticles. IOP Conf Ser: Mater Sci Eng. 1058(1):012074.
  • Zerizghi T, Guo Q, Zhao C, Okoli CP. 2022. Sulfur, lead, and mercury characteristics in South Africa coals and emissions from the coal-fired power plants. Environ Earth Sci. 81(4):116.
  • Zhang D, He Q, Hu X, Zhang K, Chen C, Xue Y. 2021. Enhanced adsorption for the removal of tetracycline hydrochloride (TC) Using ball-milled biochar derived from crayfish shell. Colloids Surf A Physicochem Eng Asp. 615:126254.
  • Zheng N, Hou S, Wang S, Sun S, An Q, Li P, Li X. 2020. Health risk assessment of heavy metals in street dust around a zinc smelting plant in China based on bioavailability and bioaccessibility. Ecotoxicol Environ Saf. 197:110617.
  • Zhou Y, Zhao W, Lai Y, Zhang B, Zhang D. 2020. Edible plant oil: global status, health issues, and perspectives. Front Plant Sci. 11:1315.
  • Zhong L, Lin L, Liao MA, Wang J, Tang Y, Sun G, Liang D, Xia H, Wang X, Zhang H, et al. 2019. Phytoremediation potential of Pterocypsela laciniata as a cadmium hyperaccumulator. Environ Sci Pollut Res Int. 26(13):13311–13319.

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