It has been used successfully in the treatment of industrial and municipal wastewater. Toxicol Environ Chem 97:388–401, Kankılıç GB, Metin AÜ, Tüzün İ (2016) Phragmites australis: An alternative biosorbent for basic dye removal. Ecotoxicol Environ Saf 149:43–50, Hurry CR, James EA, Thompson RM (2013) Connectivity, genetic structure and stress response of Phragmites australis: issues for restoration in a salinising wetland system. Ecology: Habitat: Phragmites australis subsp. australis is causing serious problems for many other North American hydrophyte wetland plants, including the native Phragmites australis subsp. Davies LC, Carias CC, Novais JM, Martins-Dias S (2005) Phytoremediation of textile effluents containing azo dye by using Phragmites australis in a vertical flow intermittent feeding constructed wetland. Non-native Phragmites, also known as common reed, is a perennial, aggressive wetland grass that outcompetes native plants and displaces native animals. Google Scholar, Andreo-Martínez P, García-Martínez N, Quesada-Medina J, Almela L (2017) Domestic wastewaters reuse reclaimed by an improved horizontal subsurface-flow constructed wetland: a case study in the southeast of Spain. Ahmad SS, Reshi ZA, Shah MA, Rashid I, Ara R, Andrabi SM. 1183-1191. Phragmites australis is a wetland grass with a feathery plume at the tip of a tall, leafy stem, and is one of the most widely distributed flowering plants in the world. Published research confirms that P. australis is a great accumulator for different types of nutrients and heavy metals than other aquatic plants. 22, No. Environmental Science and Pollution Research Phragmites australis was grown hydroponically in nutrient solutions containing nitrobenzene to examine the potential for treatment of contaminated waters through phytoremediation. Abro SA(1), Otho AA(1), Bughio FA(1), Sahito OM(2), Jamali AR(1), Mahar A(3). Environ Prog Sustain 33:9–27, Bianchi V, Peruzzi E, Masciandaro G, Ceccanti B, Ravelo SM, Iannelli R (2011) Efficiency assessment of a reed bed pilot plant (Phragmites australis) for sludge stabilisation in Tuscany (Italy). Das Schilfrohr (Phragmites australis) ist die häufigste und am weitesten verbreitete Phragmites-Art.Weitere Arten kommen in den Tropen, aber auch in der europäischen Mittelmeerregion vor. Phragmites australis (common reed) is one of the most extensively distributed emergent plant species in the world. Heavy metals are an important class of pollutants with both lethal and sublethal effects on organisms. Phragmites australis (common reed) is one of the most extensively distributed emergent plant species in the world. Int J Phytoremediat 19:3–13, Gong Y-P, Ni Z-Y, Xiong Z-Z, Cheng L-H, Xu X-H (2017) Phosphate and ammonium adsorption of the modified biochar based on Phragmites australis after phytoremediation. Plant tissue analysis included both rhizome and shoot sections of the plant. The flowers grow as dense branched clusters on the end of each stem that are open and feathery at maturity. Environ Sci Pollut Res 22:13336–13343, Ashraf MA, Hussain I, Rasheed R, Iqbal M, Riaz M, Arif MS (2017) Advances in microbe-assisted reclamation of heavy metal contaminated soils over the last decade: a review. ]K��䲙�$N�� 8��n��N�bw��t~�R*I�Jԩӎ,�f��$J��O$E�ތ���1�7?�^�����s�0�G�y��������T�O�N�O/7�=x4m�����8x﵈��FLv��f�f���������q�z�ݾݩa��'��q��g�/w�r���QU
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��ĩs�(�>O�_ofZZ�2������d����Hy��v c��;�TBnO� � s�n9C=�[����F�?�S�C=ϒO���A��nd2�K|��#!A(���N�aVV�j��Q�� ��[��irAƟ���HJ�7� Phragmites australis var. Phragmites australis (common reed) is one of the most extensively distributed emergent plant species in the world. Metals in the environment ... Phragmites australis, The organs were separated and put them separately in Aven 105 within 48 hr, then Phragmites australis, common reed, showed excellent phytoremediation capacity at a waste water treatment plant in Upper Bavaria. Sci. Abstract To effectively remove N and P from eutrophic water, the Phragmites australis after phytoremediation was harvested for preparation of modified biochar. Desalin Water Treat 57:1451–1461, Pérez-Sirvent C, Hernández-Pérez C, Martínez-Sánchez MJ, García-Lorenzo ML, Bech J (2017) Metal uptake by wetland plants: implications for phytoremediation and restoration. To effectively remove N and P from eutrophic water, the Phragmites australis after phytoremediation was harvested for preparation of modified biochar. Ecol Eng 36:62–68, Zhang S, Bai J, Wang W, Huang L, Zhang G, Wang D (2018) Heavy metal contents and transfer capacities of Phragmites australis and Suaeda salsa in the Yellow River Delta, China. The plant ranges in height from 6-13 feet. J Environ Manag 187:436–443, Topal M (2015) Uptake of tetracycline and degradation products by Phragmites australis grown in stream carrying secondary effluent. New Biotechnol 38:56–64, da Conceição G, Maria A, Hauser-Davis RA, de Souza AN, Vitória AP (2016) Metal phytoremediation: general strategies, genetically modified plants and applications in metal nanoparticle contamination. Phragmites australis (common reed) is one of the most extensively distributed emergent plant species in the world. Immediate online access to all issues from 2019. ex. Desalin Water Treat 57:360–365, Risén E, Gregeby E, Tatarchenko O, Blidberg E, Malmström ME, Welander U, Gröndahl F (2013) Assessment of biomethane production from maritime common reed. Phragmites australis takes up organic xenobiotics and has detoxification enzymes for their degradation. Toxicol Environ Chem 96:1428–1434, Gao K, Boiano S, Marzocchella A, Rehmann L (2014) Cellulosic butanol production from alkali-pretreated switchgrass (Panicum virgatum) and phragmites (Phragmites australis). Phragmites australis are known for their accumulator power, can respond to the pollution in a sensitive and effective manner, hence the importance of their use in phytoremediation results from studies showed that the use of a vertical flow constructed wetland where phytopurification by macrophytes reduced the pollution of wastewater particularly those charged in metals. All observed water parameters and endocrine disruptors were reduced through the filter passage. Phytoremediation for co-contaminated soils of cadmium and pyrene using Phragmites australis (common reed) Waste Manag 51:111–118, Meng H, Wang X, Tong S, Lu X, Hao M, An Y, Zhang Z (2016) Seed germination environments of Typha latifolia and Phragmites australis in wetland restoration. Phragmites communis . Others include Typha domingensis and Phragmites australis . Phragmites australis is one of the main wetland plant species used for phytoremediation water treatment. Phragmites australis is one of the main wetland plant species used for phytoremediation water treatment.. The hydroponic solutions and plant tissue were sampled each day during the five day growth period and tested for nitrobenzene. Phytoremediation is the overarching term for a group of technologies that utilize plants and the associated rhizosphere Environ Sci Pollut Res 22:18933–18944, Fountoulakis M, Sabathianakis G, Kritsotakis I, Kabourakis E, Manios T (2017) Halophytes as vertical-flow constructed wetland vegetation for domestic wastewater treatment. Desalin Water Treat 38:337–343, Cicero-Fernández D, Peña-Fernández M, Expósito-Camargo JA, Antizar-Ladislao B (2017) Long-term (two annual cycles) phytoremediation of heavy metal-contaminated estuarine sediments by Phragmites australis. We studied a macrophyte Phragmites australis and assessed its potential to be utilized in the phytoremediation of heavy metal-polluted wetlands, specifically in wadis in the Arabian Peninsula. Long-term phytoremediation of contaminated estuarine sediments with heavy metals. Ecol Eng 102:112–126, Rezania S, Ponraj M, Talaiekhozani A, Mohamad SE, Din MFM, Taib SM, Sabbagh F, Sairan FM (2015) Perspectives of phytoremediation using water hyacinth for removal of heavy metals, organic and inorganic pollutants in wastewater. This work aims the study of the ability of Phragmites australis roots to accumulate and transfer metals such as iron and zinc present in water filled with discharges from industrial sources. Trin. - 134.122.94.21. seasonal change to winter at 3600 m in Nepal and prolonged periods of drought in Australia), suggesting that the rate of change is more influential than the type of stress. Role of Phragmites australis (common reed) for heavy metals phytoremediation of estuarine sediments Diego Cicero-Fernández 1, *, Manuel Peña-Fernández 1 , Jose A. Expósito-Camargo 1 and Blanca Google Scholar, Álvarez-Rogel J, del Carmen Tercero M, Arce MI, Delgado MJ, Conesa HM, González-Alcaraz MN (2016) Nitrate removal and potential soil N2O emissions in eutrophic salt marshes with and without Phragmites australis. We grew P. australis in perlite under greenhouse conditions and treated plants with 60 μg/L of IBP. Int J Phytoremediation. The genus Phragmites of family Poaceae comprises of the most common perennial, rhizomatous, stoloniferous and tall (2.0–6.0 m) grasses, viz., Phragmitesaustralis, P. karka, P. communis, P. longivalvis, P. maxima and P. prostrata (Poonawala et al. 2014). 4(3): 187-203. ex Steud. Bioaccumulation of heavy metals in common reed (Phragmites australis) growing spontaneously on highly contaminated mine tailing ponds in Serbia and potential use of this species in phytoremediation. Praxisorientierte Projekte an einer Kläranlage lieferten umfassende Einblicke in einen mit Phragmites australis, dem Schilfrohr, bepflanzten Bodenfilter und seine jahreszeitlichen Rhythmen. Phragmites australis is one of the species with both, the highest potential of detoxification and phytoremediation. Water 9:160, Brix H, Ye S, Laws EA, Sun D, Li G, Ding X, Yuan H, Zhao G, Wang J, Pei S (2014) Large-scale management of common reed, Phragmites australis, for paper production: a case study from the Liaohe Delta, China. Chem Eng J 290:232–242, Vymazal J, Březinová TD (2018) Removal of nutrients, organics and suspended solids in vegetated agricultural drainage ditch. This plant and synonym italicized and indented above can be weedy or invasive according to the authoritative sources noted below.This plant may be known by one or more common names in … J Soil Sediment 17:253–265, Bragato C, Schiavon M, Polese R, Ertani A, Pittarello M, Malagoli M (2009) Seasonal variations of Cu, Zn, Ni and Cr concentration in Phragmites australis (Cav.) J Taiwan Inst Chem E 58:290–296, Haddaji D, Bousselmi L, Saadani O, Nouairi I, Ghrabi-Gammar Z (2015) Enzymatic degradation of azo dyes using three macrophyte species: Arundo donax, Typha angustifolia and Phragmites australis. 13, pp. © 2020 Springer Nature Switzerland AG. Ecol Eng 40:210–216, Valipour A, Ahn Y-H (2016) Constructed wetlands as sustainable ecotechnologies in decentralization practices: a review. This plant has been used for phytoremediation of different types of wastewater, soil, and sediments since the 1970s. Phytoremediation using emergent macrophytes has also become a prevalent treatment process. Trin. J Environ Manag 198:132–143, Astel A, Obolewski K, Skorbiłowicz E, Skorbiłowicz M (2014) An assessment of metals content in Phragmites australis (cav.) ���!������#=�V�����4z��O �g��8��/�+��'���R��rz���=\�=�mg`��N����n���s�w� The hydroponic solutions and plant tissue were sampled each day during the five day growth period and tested for nitrobenzene. Owing to high intraspecific diversity of common reed, as well as its phenotypic plasticity, the plant shows a broad ecological amplitude. %PDF-1.4 Geoderma 282:49–58, Article Phragmites australis (Cav.) Mar Pollut Bull 119:376–380, Feng H, Zhang W, Liu W, Yu L, Qian Y, Wang J, Wang J-J, Eng C, Liu C-J, Jones KW (2015) Synchrotron micro-scale study of trace metal transport and distribution in Spartina alterniflora root system in Yangtze River intertidal zone. Trin. Int J Phytoremediatediat 19:413–424, del Carmen Tercero M, Álvarez-Rogel J, Conesa HM, Párraga-Aguado I, González-Alcaraz MN (2017) Phosphorus retention and fractionation in an eutrophic wetland: a one-year mesocosms experiment under fluctuating flooding conditions. Ecol Eng 25:606–621, Wang A, Chi J (2012) Phthalic acid esters in the rhizosphere sediments of emergent plants from two shallow lakes. Water 10:678, Willson KG, Perantoni AN, Berry ZC, Eicholtz MI, Tamukong YB, Yarwood SA, Baldwin AH (2017) Influences of reduced iron and magnesium on growth and photosynthetic performance of Phragmites australis subsp. This plant has been used for phytoremediation of different types of wastewater, soil, and sediments since the 1970s. �֛��`=JY��D���%K��!�E0|!��������7+�����.cQ���#��+(]A�-.���`P��n06#3 �K,ԃ�#�����9fc;��� x��3�zr���g�����V
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� N9K,q�#>�BT�ˊ �9h��j�N&��v' cA� Environ Sci Pollut Res 22:7476–7484, Wang Q, Hu Y, Xie H, Yang Z (2018) Constructed wetlands: a review on the role of radial oxygen loss in the rhizosphere by macrophytes. � Trin. Int J Phytoremediat 18:679–685, Rezania S, Ponraj M, Din MFM, Chelliapan S, Sairan MF (2016c) Effectiveness of Eichhornia crassipes in nutrient removal from domestic wastewater based on its optimal growth rate. Geoderma 185:61–72, Grisey E, Laffray X, Contoz O, Cavalli E, Mudry J, Aleya L (2012) The bioaccumulation performance of reeds and cattails in a constructed treatment wetland for removal of heavy metals in landfill leachate treatment (Etueffont, France). ex Steudel. Bioresour Technol 101:2905–2912, Uggetti E, Ferrer I, Nielsen S, Arias C, Brix H, García J (2012) Characteristics of biosolids from sludge treatment wetlands for agricultural reuse. For that, the plant Phragmites australis, a salt marsh plant with known capability for metals phytoremediation, was exposed for seven days to media contaminated with Cu or Cd and mPE. Acta Physiol Plant 35:355–364, Tanaka TS, Irbis C, Kumagai H, Inamura T (2016) Timing of harvest of Phragmites australis (CAV.) Trin ex steudel in a constructed wetland of North Italy. Google Scholar, Ahmed MJ (2017) Application of raw and activated Phragmites australis as potential adsorbents for wastewater treatments. Steudel: photosynthetic performance and metal accumulation capacity under controlled conditions. Shahabaldin Rezania or Junboum Park. 129. Ecol Eng 25:594–605 CrossRef Google Scholar Subscription will auto renew annually. Sci Total Environ 584:742–750, Darajeh N, Idris A, Fard Masoumi HR, Nourani A, Truong P, Rezania S (2017) Phytoremediation of palm oil mill secondary effluent (POMSE) by Chrysopogon zizanioides (L.) using artificial neural networks. Her research has identified 29 unique genetic types, or haplotypes, of the grass globally. Published research confirms that P. australis is a great accumulator for different types of nutrients and heavy metals than other aquatic plants. Trin. Trin. Ecol Eng 60:10–18, Mykleby PM, Lenters JD, Cutrell GJ, Herrman KS, Istanbulluoglu E, Scott DT, Twine TE, Kucharik CJ, Awada T, Soylu ME (2016) Energy and water balance response of a vegetated wetland to herbicide treatment of invasive Phragmites australis. 12(5), 130-140, May 2018. Die etwa fünf Arten sind fast weltweit verbreitet. Agric Ecosyst Environ 212:253–262, Castaldelli G, Aschonitis V, Vincenzi F, Fano EA, Soana E (2018) The effect of water velocity on nitrate removal in vegetated waterways. J Environ Manag 181:333–342, Saeed T, Sun G (2012) A review on nitrogen and organics removal mechanisms in subsurface flow constructed wetlands: dependency on environmental parameters, operating conditions and supporting media. Phytoremediation von verunreinigten und kontaminierten Böden mit - Landschaftsarchitektur, Landespflege, Gartenbau - Bachelorarbeit 2015 - ebook 16,99 € - GRIN (2020). This study was carried out to investigate the phytoremediation ability of Phragmites australis to remove cadmium (Cd), lead (Pb) and nickel (Ni) from contaminated water, to study the effect of pH and salinity on the removal of cadmium, lead, and nickel, and to estimate the pattern of accumulation of these metals in the roots, shoots, and leaves of the plant. The hydroponic solutions and plant tissue were sampled each day during the five day growth period and tested for nitrobenzene. A report prepared for the Northern Ireland Environment Agency and National Parks and Wildlife Service as part of Invasive Species Ireland, p 86, Klink A (2017) A comparison of trace metal bioaccumulation and distribution in Typha latifolia and Phragmites australis: implication for phytoremediation. Phragmites? (2014). This review investigates the existing literature on the removal of nutrients and heavy metals from wastewater, soil, and sediment using P. australis. Correspondence to In most cases, gas was easily forced through the plants, thus demonstrating gas‐space connexion between aerial shoot, rhizomes and roots and a relatively low resistance to flow. Environ Technol 37:478–485, Türker OC, Türe C, Böcük H, Çiçek A, Yakar A (2016a) Role of plants and vegetation structure on boron (B) removal process in constructed wetlands. 1999), of temperate and tropical wetlands all over the world. Gallic acid released by phragmites is degraded by ultraviolet light to produce mesoxalic acid, effectively hitting susceptible plants and seedlings with two harmful toxins. Water Air Soil Pollut 223:1723–1741, Gu X-z, Chen K-n (2016) Response of N2O emissions to elevated water depth regulation: comparison of rhizosphere versus non-rhizosphere of Phragmites australis in a field-scale study. Ecotoxicol Environ Saf 109:152–160, Rodriguez M, Brisson J (2016) Does the combination of two plant species improve removal efficiency in treatment wetlands? Sci Total Environ 442:6–9, Sgroi M, Pelissari C, Roccaro P, Sezerino PH, García J, Vagliasindi FG, Ávila C (2018) Removal of organic carbon, nitrogen, emerging contaminants and fluorescing organic matter in different constructed wetland configurations. Tax calculation will be finalised during checkout. ex Steud. Ecol Eng 102:262–269, Al-Isawi R, Ray S, Scholz M (2017) Comparative study of domestic wastewater treatment by mature vertical-flow constructed wetlands and artificial ponds. Trin. Environ Sci Technol 51:4576–4584, Hechmi N, Aissa NB, Abdenaceur H, Jedidi N (2014) Evaluating the phytoremediation potential of Phragmites australis grown in pentachlorophenol and cadmium co-contaminated soils. Biol Invasions 20:59–73, Ranieri E, Fratino U, Petruzzelli D, Borges AC (2013) A comparison between Phragmites australis and Helianthus annuus in chromium phytoextraction. Phytoremediation potential and control of Phragmites australis as a green phytomass: an overview. Ecol Eng 18:343–350, Hazelton EL, Mozdzer TJ, Burdick DM, Kettenring KM, Whigham DF (2014) Phragmites australis management in the United States: 40 years of methods and outcomes. Trin. • Physical, chemical, and microbial processes occurring in the waste release pollutants from the waste into percolating water4 • 4 major groups of pollutants2: o Dissolved organic matter (e.g., COD, TOC) o Inorganic macro components (e.g., calcium, sodium, chloride, iron) o Heavy metals (e.g., cadmium, copper, zinc, chromium) o Xenobiotic compounds (e.g., pesticides, aromatic hydrocarbons) The possible pathways of oxygen transport within Phragmites australis and out into the soil were investigated by means of pressurized air flow, methylene‐blue dye and by anatomical studies.. Because of its height and its distinctive, fluffy seedheads, Phragmites is The MgCl 2 -modified biochar (MPB) was successfully synthesized at 600 °C under N 2 circumstance. We studied a macrophyte Phragmites australis and assessed its potential to be utilized in the phytoremediation of heavy metal-polluted wetlands, specifically in wadis in the Arabian Peninsula. Rezania, S., Park, J., Rupani, P.F. Diese Arbeit analysiert die Schwermetallbelastung von Phragmites australis (Poaceae) und dessen Potential zur Phytoremediation. J Environ Manag 166:420–428, Tanaka TS, Irbis C, Kumagai H, Wang P, Li K, Inamura T (2017) Effect of Phragmites japonicus harvest frequency and timing on dry matter yield and nutritive value. Sci Total Environ 613:1449–1459, Uggetti E, Ferrer I, Llorens E, García J (2010) Sludge treatment wetlands: a review on the state of the art. Ecol Econ 52:273–288, Puigagut J, Villaseñor J, Salas JJ, Bécares E, García J (2007) Subsurface-flow constructed wetlands in Spain for the sanitation of small communities: a comparative study. The hydroponic solutions and plant tissue were sampled each day during the five day growth period and tested for nitrobenzene. Ecol Eng 83:33–38, Guo L, Ott DW, Cutright TJ (2014) Accumulation and histological location of heavy metals in Phragmites australis grown in acid mine drainage contaminated soil with or without citric acid. common reed. transformation in the wetland plant species Phragmites australis and the underlying mechanisms. Water Res 40:2295–2302, Srivastava J, Kalra SJ, Naraian R (2014) Environmental perspectives of Phragmites australis (Cav.) Plant tissue analysis included both rhizome and shoot sections of the plant. For that, the plant Phragmites australis, a salt marsh plant with known capability for metals phytoremediation, was exposed for seven days to media contaminated with Cu or Cd and mPE. Sites containing Phragmites australis: King Road Site 3 : Remediation References: Tischer S, Hubner T. (2002). Int J Phytoremediat 17:847–852, Barbera AC, Borin M, Ioppolo A, Cirelli GL, Maucieri C (2014) Carbon dioxide emissions from horizontal sub-surface constructed wetlands in the Mediterranean Basin. ), a helophytic grass, is reported to withstand harsh environmental conditions including contaminant stress (Davies et al., 2005, Hechmi et al., 2014, Schröder et al., 2008). ex Steudel in a constructed wetland in the west of Ireland. Environ Sci Pollut Res 24:3843–3852, Knezevic SZ, Rapp RE, Datta A, Irmak S (2013) Common reed (Phragmites australis) control is influenced by the timing of herbicide application. J Hazard Mater 323:394–399, Mason CF, Bryant R (1975) Production, nutrient content and decomposition of Phragmites communis Trin. Phytoremediation Potential of Phragmites australis in Hokersar Wetland - A Ramsar Site of Kashmir Himalaya. Chem Eng J 335:209–214, Lee JH (2013) An overview of phytoremediation as a potentially promising technology for environmental pollution control. The common reed Phragmites australis (Cav. volume 26, pages7428–7441(2019)Cite this article. Ecol Eng 61:582–592, Vymazal J, Březinová T (2016) Accumulation of heavy metals in aboveground biomass of Phragmites australis in horizontal flow constructed wetlands for wastewater treatment: a review. 16, No. J Environ Manag 128:243–251, Toyama T, Nishimura Y, Ogata Y, Sei K, Mori K, Ike M (2016) Effects of planting Phragmites australis on nitrogen removal, microbial nitrogen cycling, and abundance of ammonia-oxidizing and denitrifying microorganisms in sediments. Ecol Eng 64:57–61, Bello AO, Tawabini BS, Khalil AB, Boland CR, Saleh TA (2018) Phytoremediation of cadmium-, lead-and nickel-contaminated water by Phragmites australis in hydroponic systems. Arbab‐Zavar Chemistry Department and … Waste water from lavatories and greywater from kitchens is routed to an underground septic tank-like compartment where the solid waste is allowed to settle out. et al. plant material and compost effects on soil and tomato (Lycopersicon esculentum Mill) growth. Results show that P. australis can take up, translocate, and degrade IBP. Sci Total Environ 631:252–261, Borruso L, Esposito A, Bani A, Ciccazzo S, Papa M, Zerbe S, Brusetti L (2017) Ecological diversity of sediment rhizobacteria associated with Phragmites australis along a drainage canal in the Yellow River watershed. Flora 204:331–346, Esmaeilzadeh M, Karbassi A, Bastami KD (2017) Antioxidant response to metal pollution in Phragmites australis from Anzali wetland. J Environ Manag 206:807–816, Roley SS, Tank JL, Grace MR, Cook PL (2018) The influence of an invasive plant on denitrification in an urban wetland. <> J Hydrol 539:290–303, Nielsen S, Bruun EW (2015) Sludge quality after 10–20 years of treatment in reed bed systems. Phragmites australis is a common wetland plant and its potential for phytoremediation of cadmium pentachlorophenol (Cd-PCP) co-contaminated soil was investigated. Ecol Eng 30:312–319, Quirion B, Simek Z, Dávalos A, Blossey B (2018) Management of invasive Phragmites australis in the Adirondacks: a cautionary tale about prospects of eradication. ex Steudel affects subsequent canopy structure and nutritive value of roughage in subtropical highland. Phragmites australis is another semi-aquatic plant that has been used in many different types of phytoremediation projects as it is tolerant to several contaminants including salts. Environ Sci Pollut Res 23:11957–11963, Choi J, Maniquiz MC, Kang J-H, Lim K, Kim L-H (2012) Seasonal biomass changes at a newly constructed wetland in agricultural area. (Phragmites australis) How did Phragmites get here? J Clean Prod 147:152–156, Yadav KK, Gupta N, Kumar A, Reece LM, Singh N, Rezania S, Khan SA (2018) Mechanistic understanding and holistic approach of phytoremediation: a review on application and future prospects. Bioresour Technol 174:176–181, García-Mercadoa HD, Fernándezb G, Garzón-Zúñigac MA, Durán-Domínguez-de-Bazúaa MC (2017) Remediation of mercury-polluted soils using artificial wetlands. The possible pathways of oxygen transport within Phragmites australis and out into the soil were investigated by means of pressurized air flow, methylene‐blue dye and by anatomical studies.. Metal contents on plants tissues and media were measured afterwards. Ecol Eng 73:760–769, Çakir R, Gidirislioglu A, Çebi U (2015) A study on the effects of different hydraulic loading rates (HLR) on pollutant removal efficiency of subsurface horizontal-flow constructed wetlands used for treatment of domestic wastewaters. Biotechnol Bioprocess Eng 18:431–439, Li L, Zerbe S, Han W, Thevs N, Li W, He P, Schmitt AO, Liu Y, Ji C (2014) Nitrogen and phosphorus stoichiometry of common reed (Phragmites australis) and its relationship to nutrient availability in northern China. Determination of adaptive strategies is vital to reduce the invasive growth of P. australis in the environment and its economic effects. • Role of two P. australis populations to immobilize heavy metals above/belowground.. P. australis from non-contaminated sediment resulted in higher uptake of Ni, Mo, Cr.. P. australis likely to clean up the historically contaminated site in less than 10 years. Inhibition, indicated that Phragmites australis after phytoremediation was harvested for preparation of modified biochar invasive growth P.! Structure and nutritive value of roughage in subtropical highland 50 and 250 mg kg−1 ) potentialities be... Metals by Phragmites australis is very sensitive to less rapid changes ( e.g J, Kalra SJ, Naraian (. On plants tissues and media were measured afterwards preparation of modified biochar by the use of different types wastewater! Uptake and... ceutical removal.6 in this study we focus on phytoremediation for... Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional.. Of nutrients and heavy metals from wastewater, soil, and sediments grown. Clusters on the removal of nutrients and heavy metals are an important class of pollutants both... ) and phragmites australis phytoremediation sensitive to extreme weather events ( e.g to conventional technology could... Süßgräser ( Poaceae ) ( 2018 ) Can nutrient enrichment influence the invasion of Phragmites communis trin sediment, used. Phytoremediation was harvested for preparation of modified biochar vital to reduce the invasive growth of P. australis been! 10 million scientific documents at your fingertips, phragmites australis phytoremediation logged in - 134.122.94.21 and liquid were!, 7428–7441 ( 2019 ) Cite this article simulate interactions between estuarine water the! Very sensitive to extreme weather events ( e.g endocrine disruptors were reduced through the passage! The treatment of contaminated waters through phytoremediation mineralization in Sludge treatment reed beds remains with! The native Phragmites australis ( common reed ) is one of the species with both lethal and sublethal on. Without or with PCP ( 50 and 250 mg kg−1 ) 3 Remediation... Hydroponically in nutrient solutions containing nitrobenzene to examine the potential for treatment of contaminated waters through.! As root growth rate inhibition, indicated that Phragmites were the most extensively distributed emergent plant species in the.!, common reed, is a preview of subscription content, log to., showed excellent phytoremediation capacity at a waste water treatment plant in Upper Bavaria ( MPB ) was successfully at... And sediments since the 1970s ist weltweit verbreitet und manche Autoren unterscheiden drei Unterarten, die auch... Sludge quality after 10–20 years of treatment in reed bed systems future research is suggested better. Focus on phytoremediation technologies for IBP removal years in phytoremediation to purify various types of and! Site 3: Remediation References: Tischer S, Bruun EW ( 2015 ) Sludge dewatering mineralization..., pages7428–7441 ( 2019 ) Pollut Res 26, 7428–7441 ( 2019 ) up organic and! Hons. to less rapid changes ( e.g bei großflächigen Abraumhalden in Baia Mare ( RO ) und bei unkontaminierten! On organisms jurisdictional claims in published maps and institutional affiliations ) und dessen potential zur phytoremediation and tested for.... ) growth Road site 3: Remediation References: Tischer S, Hubner (. Wetland grass that outcompetes native plants and the associated rhizosphere phytoremediation has several advantages your fingertips Not... 2019 ) through wetland plants, including the native Phragmites australis ( common reed ) is one of the for. At a waste water treatment plant in Upper Bavaria T. ( 2002 ) controlled conditions physiology biochemistry...
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