Phytoremediation of wastewater using aquatic plants, A review

Publish Year: 1400
نوع سند: مقاله ژورنالی
زبان: English
View: 214

This Paper With 9 Page And PDF Format Ready To Download

  • Certificate
  • من نویسنده این مقاله هستم

استخراج به نرم افزارهای پژوهشی:

لینک ثابت به این Paper:

شناسه ملی سند علمی:

JR_ARWW-8-1_008

تاریخ نمایه سازی: 15 شهریور 1400

Abstract:

Disposal of waste products and residuals into the natural water bodies can havefatal consequences for aquatic ecosystems, posing severe threats to naturalhabitats and human health. Natural treatment systems are the most suitabletreatment technologies for various types of wastewaters, which has attracted muchattention in recent years. Phytoremediation is a plant-based technique used toeliminate or recover surplus nutrients in contaminated environments. The use ofaquatic plants in wastewater phytoremediation is very efficient due to they have avery significant ability for assimilating and degrading contaminants (e.g., nitrates,phosphates, and heavy metals). Phytoremediation is a relatively new technologythat is considered as an operational, efficient, new, and environmentally friendlytechnology that is still in the early stages of development and optimization. Itsapplication on a large scale is still limited. It should also be noted that a clear visionof this innovation should be taken into account and, accurate data should be madeavailable to the public as it will enhance its efficiency as a manageable solution inthe worldwide. Additionally, phytoremediation has been evaluated as a separatelow-tech and environmentally friendly green option compared to the existingtechnologies. The present study attempts to review the recently published literatureto explain phytoremediation technology and its advantages in purifying water andwastewater.

Authors

Zahra Mohebi

Department of Natural Resources, Faculty of Agricultural Sciences & Natural Resources, Razi University, Kermanshah, Iran.

Maryam Nazari

Department of Applied chemistry, Faculty of Chemistry, Razi University, Kermanshah, Iran.

مراجع و منابع این Paper:

لیست زیر مراجع و منابع استفاده شده در این Paper را نمایش می دهد. این مراجع به صورت کاملا ماشینی و بر اساس هوش مصنوعی استخراج شده اند و لذا ممکن است دارای اشکالاتی باشند که به مرور زمان دقت استخراج این محتوا افزایش می یابد. مراجعی که مقالات مربوط به آنها در سیویلیکا نمایه شده و پیدا شده اند، به خود Paper لینک شده اند :
  • Abdallah M.A.M., Phytoremediation of heavy metals from aqueoussolutions by two ...
  • Abu Bakar A.F., Yusoff I., Fatt N.T., Othman F., Ashraf ...
  • Akinbile C.O., Ogunrinde T.A., Che bt Man H., Aziz H.A.,Phytoremediation ...
  • Al-Baldawi I.A., Removal of ۱, ۲-Dichloroethane from real industrialwastewater using ...
  • Anand S., Bharti S., Dviwedi N., Barman S.K.N., Macrophytes for ...
  • Aravind P., and Prasad M.N.V., Cadmium-Zinc interaction inhydroponic system using ...
  • Aswathy M., Wastewater treatment using constructed wetland withwater lettuce (Eichornia ...
  • Atashgahi M., Hamidian A., Khorasani N., Aflaki P.F., MohammadN.M.M., An ...
  • Ayache L., Boudehane A.S.M.A., Wastewater treatment by floatingmacrophytes (Salvinia Natans) ...
  • Chandanshive V.V., Rane N.R., Tamboli A.S., Gholave A.R., KhandareR. V., ...
  • Cichy B., Kużdżał E., Krztoń H., Phosphorus recovery from acidicwastewater ...
  • Coetzee J.A., Hill M.P., Byrne M.J., Bownes A., A review ...
  • Comstock M.J., Organic pollutants in water, copyright, advances inchemistry series, ...
  • Costa R.H.R., Bavaresco A.S.L., Medri W., Philippi L.S., Tertiarytreatment of ...
  • Deblonde T., Cossu-Leguille C., Hartemann P., Emerging pollutants inwastewater: a ...
  • Dhir B., Sharmila P., Saradhi, P.P., Photosynthetic performance ofSalvinia natans ...
  • Di L., Li Y., Nie L., Wang S., Kong F., ...
  • Duruibe J., Ogwuegbu M., Egwurugwu J., Heavy metal pollution andhuman ...
  • Ebrahiem E.E., Al-Maghrabi M.N., Mobarki A.R., Removal of organicpollutants from ...
  • Förstner U., Wittmann G.T., Metal pollution in the aquatic environment,Springer, ...
  • Fox L.J., Struik P.C., Appleton B.L., and Rule J.H., Nitrogenphytoremediation ...
  • Gandhi N., Sirisha D., Sekhar K.B.C., Phytoremediation of chromiumand fluoride ...
  • Hanks N.A., Caruso J.A., Zhang P., Assessing Pistia stratiotes forphytoremediation ...
  • Hassan A.N., Al-Kabusi, A.R.A., Al-Obiadi, A.H.M. ۲۰۱۶. A comparativestudy between ...
  • Hinchman R., Cristiana Negri N., Using green plants to clean ...
  • Inoue K., Heavy metal toxicity, J Clin Toxicol ۳ (۲۰۱۳) ...
  • Ismail Z., Othman S.Z., Law KH., Sulaiman A.H., Hashim R.,Comparative ...
  • Jaishankar M., Tseten T., Anbalagan N., Mathew B.B., BeeregowdaK.N., Toxicity, ...
  • Jianbo L.U., Zhihui F.U., Zhaozheng Y.I.N., Performance of a waterhyacinth ...
  • Keddy PA., Wetland ecology: principles and conservation. ۲thed ...
  • Cambridge: Cambridge University Press (۲۰۱۰) ...
  • Klumpp A., Bauer K., Franz-Gerstein C., de Menezes M., Variation ...
  • Kolada A., Pasztaleniec A., Bielczyńska A., Soszka H., Phytoplankton,macrophytes and ...
  • Kumar N., Bauddh K., Kumar S., Dwivedi N., Singh DP., ...
  • Kumar S.R., Arumugam T., Anandakumar C., Balakrishnan S., RajavelD., Use ...
  • Lasat M.M., Phytoextraction of toxic metals: a review of biologicalmechanisms, ...
  • Lu B., Xu Z., Li J., Chai X., Removal of ...
  • Lu Q., He Z. L., Graetz D.A., Stoffella P.J., and ...
  • Mahamadi C., Nharingo T., Modelling the kinetics and equilibriumproperties of ...
  • Malik A., Environmental challenge vis a vis opportunity: the case ...
  • Marques AP., Rangel AO., Castro PM., Remediation of heavy metalcontaminated ...
  • Matache M.L., Marin C., Rozylowicz L., Tudorache A., Plantsaccumulating heavy ...
  • Merlot S., de la Torre V.S.G., Hanikenne M., Physiology and ...
  • Milojković J., Pezo L., Stojanović M., Mihajlović M., Lopičić Z., ...
  • Misra A.K., Pattnaik R., Thatoi H.N., Padhi G.S., Study on ...
  • Mohanty M., Patra H.K.. Attenuation of chromium toxicity bybioremediation technology, ...
  • Mohanty M., Pattnaik M.M., Mishra A.K., Patra H.K., Assessment of ...
  • Mohanty M., Phytoremediation- an innovative approach for attenuationof chromium toxicity ...
  • Mohd Nizam N.U., Hanafiah M.M., Noor I.M., Efficiency of five ...
  • Applied Sciences Journal ۱۰ (۲۰۲۰) ۲۷۱۲ ...
  • Mohiyaden H., Sidek L.M., Hayder G.A., Conventional methods andemerging technologies ...
  • Mustafa H.M., Hayder G., Recent studies on applications of aquaticweed ...
  • Nelson L.S., Giant and common Salvinia. Best management practiceshandbook, chapter ...
  • Neuenschwander P., Julien M.H., Center T.D., Hill M.P., Pistiastratiotes L. ...
  • Okunowo W., Ogunkanmi L.A., Phytoremediation potential of someheavy metals by ...
  • Oladejo O.S., Kofoworade A.A., Abolarinwa A.O., Adeyemi S.A.,Olabisi A.D., Performance ...
  • Park D., Yun Y.S., Park J.M., The past, present, and ...
  • Patel D.K., Kanungo V.K., Treatment of domestic wastewater bypotential application ...
  • Patel D.K., Kanungo V.K., Treatment of domestic wastewater bypotential application ...
  • Petrovic M., Ginebreda A., Acuña V., Batalla R.J., Elosegi A., ...
  • Pflugmacher S., Kühn S., Lee S.H., Choi J-W., Baik S., ...
  • Polomski R.F., Taylor M.D., Bielenberg D.G., Bridges W.C., Klaine S.J.,Whitwell ...
  • Potter D.W., Pawliszyn J., Rapid determination of polyaromatichydrocarbons and polychlorinated ...
  • Priya E.S., Selvan P.S., Water hyacinth (Eichhornia crassipes) anefficient and ...
  • Rai P.K., Panda L.L., Dust capturing potential and air pollution ...
  • Rai P.K., What makes the plant invasion possible? paradigm of ...
  • Raju N.Y., Madhavi M., Prakash T.R., Bioremediation of aquaticenvironment using ...
  • Rezania S., Ponraj M., Talaiekhozani A., Mohamad S.E., Din M.F.M.,Taib ...
  • Sa’at S. K. M., Zaman N.Q., Phytoremediation potential of palm ...
  • Safauldeen S.H., Abu Hasan H., Abdullah S.R.S., Phytoremediationefficiency of water ...
  • Saha P., Angela B., Supriya S., Phytoremediation potential ofDuckweed (Lemna ...
  • Saha P., Shinde O., Sarkar S., Phytoremediation potential of Duckweed(Lemna ...
  • Saha P., Shinde O., Sarkar, S., Phytoremediation of industrial mineswastewater ...
  • Saleh H.M., Moussa H.R., Mahmoud H.H., El-Saied F.A., Dawoud M.,Wahed ...
  • Schröder P., Navarro-Aviñó J., Azaizeh H., Goldhirsh A.G., DiGregorioS., Komives ...
  • Skinner K., Wright N., Porter-Goff, E., Mercury uptake andaccumulation by ...
  • Sood A., Uniyal P.L., Prasanna R., Ahluwalia A.S., Phytoremediationpotential of ...
  • Sooknah R.D., Wilkie A.C., Nutrient removal by floating aquaticmacrophytes cultured ...
  • Suhag A., Gupta R., Tiwari A., Biosorptive removal of heavy ...
  • Suzuki Y., Kametani T., Maruyama T., Removal of heavy metals ...
  • Tabinda A.B., Arif R.A., Yasar A., Baqir M., Rasheed R., ...
  • Tangahu B.V., Sheikh Abdullah S.R., Basri H., Idris M., Anuar ...
  • Terry N., Banuelos G., Phytoremediation of contaminated soil andwater. New ...
  • Thakur S., Singh L., Ab Wahid Z., Siddiqui MF., Atnaw ...
  • Tichonovas M., Krugly E., Racys V., Hippler R., Kauneliene V.,Stasiulaitiene ...
  • Trang N.T.D., Konnerup D., Schierup H.H., Chiem N.H., Brix H.,Kinetics ...
  • Ugya A.Y., Hua X., Ma J., phytoremediation as a tool ...
  • Ullah A., Heng S., Munis M.F.H., Fahad S., Yang X., ...
  • Valero M.A.C., Johnson M., Mara D.D., Enhanced phosphorus removalin a ...
  • Valipour A., Raman V.K., Ahn Y.H., Effectiveness of domesticwastewater treatment ...
  • Venegas A., Rigol A., Vidal M., Viability of organic wastes ...
  • Vymazal J., Constructed wetlands for wastewater treatment: fivedecades of experience, ...
  • Wani R., Ganai B., Shah M., Uqab B., Heavy metal ...
  • Yasar A., Zaheer A., Tabinda A.B., Khan M., Mahfooz Y., ...
  • Yeboah S.A., Allotey A.N.M., Biney E., Purification of industrialwastewater with ...
  • Yousefi Z., Hoseini S.M., Mohamadpur Tahamtan R.A., Zazouli M.A.,Evaluation of ...
  • نمایش کامل مراجع