Utilization of Multi-Tasking Non-Edible Plants for Phytoremediation and Bioenergy Source-A Review

Abdelsalam, Ibrahim M.; Elshobary, Mostafa E.; Eladawy, Mohamed M.; Nagah, Mohammed

doi:10.32604/phyton.2019.06831

Cited by 38 publications

(26 citation statements)

References 135 publications

(153 reference statements)

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“…For instance, Tiwari et al [126] reported the current phytoremediation situation in India, where the availability of different phytoremediator trees is abundant, for example, Azadirachta indica, Acacia nilotica, Prosopis juliflora, Terminalia arjuna, Pongamia pinnata, and Eucalyptus tereticornis. Special interest is the use of Azaridachta indica and Acacia nilotica not only for their use in traditional medicine, personal care, and the presence of biologically active compounds [127] but also because of restoration of eroded soils and the phytoremediation potential, removing organic compounds [128,129], radionuclides [130], and toxic metals [122,131,132]. The studies report using seeds of A. indica from phytoremediation to produce ethanol from biomass fermentation and biodiesel via base-catalyzed transesterification.…”

Section: Liquid Biofuelsmentioning

confidence: 99%

Coupling Plant Biomass Derived from Phytoremediation of Potential Toxic-Metal-Polluted Soils to Bioenergy Production and High-Value by-Products—A Review

et al. 2021

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Phytoremediation is an attractive strategy for cleaning soils polluted with a wide spectrum of organic and inorganic toxic compounds. Among these pollutants, heavy metals have attracted global attention due to their negative effects on human health and terrestrial ecosystems. As a result of this, numerous studies have been carried out to elucidate the mechanisms involved in removal processes. These studies have employed many plant species that might be used for phytoremediation and the obtention of end bioproducts such as biofuels and biogas useful in combustion and heating. Phytotechnologies represent an attractive segment that is increasingly gaining attention worldwide due to their versatility, economic profitability, and environmental co-benefits such as erosion control and soil quality and functionality improvement. In this review, the process of valorizing biomass from phytoremediation is described; in addition, relevant experiments where polluted biomass is used as feedstock or bioenergy is produced via thermo- and biochemical conversion are analyzed. Besides, pretreatments of biomass to increase yields and treatments to control the transfer of metals to the environment are also mentioned. Finally, aspects related to the feasibility, benefits, risks, and gaps of converting toxic-metal-polluted biomass are discussed.

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Section: Liquid Biofuelsmentioning

confidence: 99%

Coupling Plant Biomass Derived from Phytoremediation of Potential Toxic-Metal-Polluted Soils to Bioenergy Production and High-Value by-Products—A Review

et al. 2021

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“…The translocation of heavy metals is important to understand as they can concentrate into edible products made from the plant (Abdelsalam et al, 2019). Most of the heavy metals are accumulated into the roots (Ahmad et al, 2014;Citterio et al, 2003;Giovanardi et al, 2002;Shi et al, 2011;, though Cd and Zn are accumulated mostly into the shoots (Löser et al, 2002) or more specifically into the leaves (Arru et al, 2004;Eboh and Thomas, 2005;Giovanardi et al, 2002;Linger et al, 2002).…”

Section: Introductionmentioning

confidence: 99%

Cd, Hg and Pb concentration of finnish lyophilized hemp (Cannabis sativa L.) juice

Saltiola

2020

Preprint

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Different hemp (Cannabis sativa L.) secondary metabolite based supplement products are being increasingly used, sold and researched. So far the industry lacks a clear regulation for the contaminants of the end products. Hemp is efficient in accumulating heavy metals from the soil. This study shows the Cd, Hg and Pb concentrations of NatureDry © lyophilized FINOLA® hemp juice grown on fine-sandy moraine soil in central Finland to be neglible in contrast to recommended maximum daily dosages of each heavy metal.

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“…The proper management of tailings can prevent or mitigate the risks in the functioning of ecosystems and human health originating from heavy metal contaminations [5][6][7]20]. Phytomanagement is cost effective and environmentally friendly technique suitable for decreasing the environmental risks from metal(loid) enriched mine tailings [6,21,22].…”

Section: Introductionmentioning

confidence: 99%

“…Phytomanagement is cost effective and environmentally friendly technique suitable for decreasing the environmental risks from metal(loid) enriched mine tailings [6,21,22]. Several plants plants are used for the phytomanagement, as these show several edaphic constrains interferring with plant growth including heavy metal toxicity [20,23,24]. Native plant species are preferred because these are adapted not only to the contamination of tailings but also to the local climatic conditions [5,[25][26][27][28].…”

Section: Introductionmentioning

confidence: 99%

“…Generally abandoned mine tailings are left without any proper management, and therefore are unstable and prone to wind and water erosion, as well as to acid mine drainage [31][32][33]. The tailings pose serious environmental threats affecting water courses, soils and natural ecosystems, ultimately posing serious risk for human health [20,22,24]. A sustainable management is very important [5].…”

Section: Introductionmentioning

confidence: 99%

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Trace Elements in the Soil-Plant Systems of Copper Mine Areas-A Case Study From Murgul Copper Mine From the Black Sea Region of Turkey

Öztürk¹,

Altay²,

Küçük³

et al. 2019

Phyton

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This study presents a case study on the heavy metal analysis of soil and plant samples around the Murgul copper mine, one of the first and most important mining areas in Turkey. An attempt has been made to investigate the status of trace elements like Al 3+ , Fe 2+ , Cu 2+ , Zn 2+ , Pb 2+ , Ni 2+ , Co 2+ and Cd 2+ in soils and plants. The sampling localities were taken from 500 m, 600 m, and 1000 m altitudes around the factory and at 1400 m in the forest zone. The aboveground parts and foliage ash of Silene compacta, Tussilago farfara, Smilax excelsa, Rhododendron ponticum, R. luteum, and herbal mix were analysed. The results of analysis have revealed the minimum and maximum concentrations measured in the plants as follows; aluminium (20-8985 mg kg-1), cadmium (0.0-0.5 mg kg-1), cobalt (0.0-5.5 mg kg-1), copper (0.0-347.5 mg kg-1), iron (25-9320 mg kg-1), lead (2-51 mg kg-1), nickel (1.5-16.5 mg kg-1), and zinc (13.0-221.0 mg kg-1). In the soil the concentrations of aluminium, cadmium, cobalt, copper, iron, lead, nickel, and zinc vary between 33-457, 0.0-0.0, 0.0-0.4, 0.1-88.7, 14-50, 0.3-4.1, 0.2-0.8, and 4.0-20.3 mg kg-1 respectively. These findings enlighten the fact that copper is generally toxic in the soils as well as plants. Silene compacta has been recorded as a high copper accumulator, behaving as a healthy plant on the polluted sites of the area alongside the Murgul creek (especially at 600 m). This study stresses the fact that it is imperative to assess and monitor the levels of heavy metals in the environment due to anthropogenic activities, including mining, for evaluation of human exposure and for sustainable environment.

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Utilization of Multi-Tasking Non-Edible Plants for Phytoremediation and Bioenergy Source-A Review

Cited by 38 publications

References 135 publications

Coupling Plant Biomass Derived from Phytoremediation of Potential Toxic-Metal-Polluted Soils to Bioenergy Production and High-Value by-Products—A Review

Coupling Plant Biomass Derived from Phytoremediation of Potential Toxic-Metal-Polluted Soils to Bioenergy Production and High-Value by-Products—A Review

Cd, Hg and Pb concentration of finnish lyophilized hemp (Cannabis sativa L.) juice

Trace Elements in the Soil-Plant Systems of Copper Mine Areas-A Case Study From Murgul Copper Mine From the Black Sea Region of Turkey

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