Journal of Sustainable Bioenergy Systems

Journal of Sustainable Bioenergy Systems

ISSN Print: 2165-400X
ISSN Online: 2165-4018
www.scirp.org/journal/jsbs
E-mail: jsbs@scirp.org
"Application of Aquatic Plants for the Treatment of Selenium-Rich Mining Wastewater and Production of Renewable Fuels and Petrochemicals"
written by Ana F. Miranda, Nazim Muradov, Amit Gujar, Trevor Stevenson, Dayanthi Nugegoda, Andrew S. Ball, Aidyn Mouradov,
published by Journal of Sustainable Bioenergy Systems, Vol.4 No.1, 2014
has been cited by the following article(s):
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[1] The invasive Egeria densa macrophyte and its potential as a new renewable energy source: A study of degradation kinetics and thermodynamic parameters
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[2] Aqueous selenium removal and distribution in cattail and duckweed in constructed wetland microcosms
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[3] Simultaneous removal of Cd (II), Ni (II), and Pb (II) from water by a submerged macrophyte pondweed (Potamogeton malaianus)
Water Environment Research, 2021
[4] Biological flora of Central Europe: Marsilea quadrifolia L
Perspectives in Plant Ecology …, 2021
[5] A circular economic approach to the phytoextraction of Zn from basic oxygen steelmaking filtercake using Lemna minor and CO2
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[6] Current World Environment
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[7] Recent advances in technologies for removal and recovery of selenium from (waste) water: A systematic review
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[8] Possibilities Of Using Eichhornia Crassipes Solms And Lemna Minor L. In Wastewater Phytoremediation
NVEO-NATURAL VOLATILES …, 2021
[9] Primacy of ecological engineering tools for combating eutrophication: An ecohydrological assessment pathway
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[10] Biological Remediation of Selenium in Soil and Water
2021
[11] Aquatic Weeds: A Potential Pollutant Removing Agent from Wastewater and Polluted Soil and Valuable Biofuel Feedstock
2021
[12] Evaluation of Constructed Wetlands for Phytoremediation of Selenium-Impacted Waters
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[13] Selenium Toxicity in Plants and Environment: Biogeochemistry and Remediation Possibilities
2020
[14] Lead adsorption from aqueous solution using novel nanoparticles synthesized from waste aquatic weeds
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[15] Phytoremediation of Heavy Metals/Metalloids by Native Herbaceous Macrophytes of Wetlands: Current Research and Perspectives
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[16] The Importance of Biological and Ecological Properties of Phragmites Australis (Cav.) Trin. Ex Steud., in Phytoremendiation of Aquatic Ecosystems—The Review
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[17] Phytoremediation of Selenium by Plants
THE JOURNAL OF MICROBIOLOGY AND …, 2020
[18] Heavy metal phytoremediation: Potential and advancement
Asia-Pacific Journal of Molecular Biology and Biotechnology, 2020
[19] Application of Macrophytes for Remediation of Wastewater in Constructed Wetlands
2020
[20] Bioremediation of aquaculture wastewater with algal-bacterial biofilm combined with the production of selenium rich biofertilizer
2020
[21] Aquatic plants, Landoltia punctata, and Azolla filiculoides as bio-converters of wastewater to biofuel
2020
[22] Phytoremediation of chromium and manganese by Ipomoea aquatica Forssk. from aqueous medium containing chromium‐manganese mixtures in microcosms and …
2020
[23] A review of water quality improvement with the help of aquatic macrophytes
Curr World Environ, 2020
[24] Phytoremediation Fordegradation of Industrial Pollutants
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[25] Enhanced adsorption of Cr (VI), Ni (II) ions from aqueous solution using modified Eichhornia crassipes and Lemna minor
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[26] Uso sustentável de macrófitas no tratamento de efluentes: uma revisão sistemática
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[27] PHYTOREMEDIATION OF SELENIUM-IMPACTED WATER BY AQUATIC MACROPHYTES¹
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[28] Possibilities and limitations of using Lemna minor, Hydrocharis morsus-ranae and Ceratophyllum demersum in removing metals with contaminated water
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[29] Enhanced adsorption of Cr(VI), Ni(II) ions from aqueous solution using modified Eichhornia crassipes and Lemna minor
2019
[30] Microalgae as Bio-Converters of Wastewater into Biofuel and Food
Water Scarcity and Ways to Reduce the Impact, 2019
[31] Lipid production in aquatic plant Azolla at vegetative and reproductive stages and in response to abiotic stress
Plant Physiology and Biochemistry, 2018
[32] Phytoremediation of seleniferous soil leachate using the aquatic plants Lemna minor and Egeria densa
Ecological Engineering, 2018
[33] Ecological Remediation of Persistent Dye Compounds in Soil Water Environment
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[34] Novel bioremediation processes for treatment of seleniferous soils and sediment
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[35] Generation of Biofuels: Case of Bangladesh
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[36] Aquatic weeds as the next generation feedstock for sustainable bioenergy production
Bioresource Technology, 2017
[37] Overview and Prospects of Selenium Phytoremediation Approaches
Selenium in plants, 2017
[38] Phytoremediation of Nitrogen as Green Chemistry for Wastewater Treatment System
International Journal of Chemical Engineering , 2017
[39] Phytoremediation of Nitrogen as Green Chemistry for Wastewater Treatment System: A Review
International Journal of Chemical Engineering, 2017
[40] Usefulness of different vascular plant species for passive biomonitoring of Mediterranean rivers
Environmental Science and Pollution Research, 2016
[41] Producing Biogas from Agricultural Residues Generated during Phytoremediation Process: Possibility, Threshold, and Challenges
Maritime Affairs Journal of the National Maritime Foundation of India, 2016
[42] Comprehensive review on phytotechnology: Heavy metals removal by diverse aquatic plants species from wastewater
Journal of Hazardous Materials, 2016
[43] Aquatic plant Azolla as the universal feedstock for biofuel production
2016
[44] Capacity of two local ferns to phytoremedify the effluent of Petroleum Refining Industry, at Baroda, with reference to heavy metals and fluoride
2016
[45] THE DEMOGRAPHIC SUCCESS OF MARSILEA QUADRIFOLIA L. IN A MAN-MADE WATER BODY FROM DANUBE DELTA BIOSPHERE RESERVATION/Der …
2015
[46] Bioenergy from phytoremediated phytomass of aquatic plants via gasification
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[47] Fungal-assisted algal flocculation: application in wastewater treatment and biofuel production
Biotechnology for biofuels, 2015
[48] First records of Landoltia punctata (G. Mey.) Les & DJ Crawford (Araceae, Lemnoideae) in Santa Catarina, southern Brazil
Check List, 2015
[49] Can macrophyte harvesting from eutrophic water close the loop on nutrient loss from agricultural land?
Journal of environmental management, 2015
[50] THE DEMOGRAPHIC SUCCESS OF MARSILEA QUADRIFOLIA L. IN A MAN-MADE WATER BODY FROM DANUBE DELTA BIOSPHERE RESERVATION.
Transylvanian Review of Systematical & Ecological Research, 2015
[51] The demographic success of Marsilea quadrifolia L. in a man-made water body from Danube Delta Biosphere Reservation
Transylvanian Review of Systematical and Ecological Research, 2015
[52] First records of Landoltia punctata (G.Mey.) Les & DJCrawford (Araceae, Lemnoideae) in Santa Catarina, southern Brazil
Check List, 2015
[53] Co-cultivation of fungal and microalgal cells as an efficient system for harvesting microalgal cells, lipid production and wastewater treatment
PloS one, 2014
[54] Approaches for Amelioration of Selenium Deficiencies/toxicities in Crop Plants
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