Magnetic and electric field accelerate Phytoextraction of copper Lemna minor duckweed

Politaeva, Natalia; Badenko, Vladimir

doi:10.1371/journal.pone.0255512

Cited by 9 publications

(2 citation statements)

References 64 publications

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“…Plant removal of copper is a natural and environmentally friendly method of reducing copper levels in wastewater [39]. Socially, houseplants have become a habit of being in yards and fences for various purposes such as aesthetics, thermal comfort, and land boundaries [40].…”

Section: Onsite Phytodetoxificationmentioning

confidence: 99%

Yard phytoarchitecture for onsite sanitation of household wastewater containing copper

Samudro,

Mangkoedihardjo

2024

IJAAS

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Copper can be found in various equipment, building materials, and consumer products. When buildings are used, copper can enter wastewater in different ways. It is challenging for occupants to remove copper physically or chemically since they can potentially reduce copper levels through yard phytoarchitecture. This study aims to formulate houseplants' suitability to become decorative plants for the yard phytoarchitecture, simultaneously as onsite sanitation. This study identified the copper deconcentration pathway in wastewater by studying published works-based research. Literature was collected and selected based on recency, accessibility, and the relationship among copper, wastewater, and plants. The study findings show that processing copper by plant has the greatest opportunity to be implemented on a building scale. The yard phytoarchitecture system involves arranging plants in the yard, which serves both as a decorative feature and a way to treat the building's wastewater. It can be used on dry yards or ponds and only requires a small amount of land. The plants used should have low leaf density and high root density. It plays a dual role consisting of onsite sanitation infrastructure and yard aesthetics, which mutually strengthen the environmental health locally and positively effect on a larger scale.

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Section: Onsite Phytodetoxificationmentioning

confidence: 99%

Yard phytoarchitecture for onsite sanitation of household wastewater containing copper

Samudro,

Mangkoedihardjo

2024

IJAAS

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“…The processing of duckweed has been included in the list of promising pathways for biogas/biofuel production. This property is attributed to its simple harvesting method and high protein or starch content, depending on its species and growing environment [5]. One of the promising species for energy use is duckweed (Lemna minor), the most common representative of higher aquatic plants in freshwater bodies [6,7].…”

Section: Introductionmentioning

confidence: 99%

Biogas Potential Assessment of the Composite Mixture from Duckweed Biomass

et al. 2021

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The article presents the research results of anaerobic digestion processes in bioreactors of composite mixtures based on initial and residual biomass of Lemna minor duckweed and additives: inoculum (manure), food waste, and spent sorbents to determine biogas potential (biogas volume, methane content). Duckweed Lemna minor, which is widespread in freshwater reservoirs, is one of the promising aquatic vegetation species for energy use. Residual biomass is obtained by chemically extracting valuable components from the primary product. The purpose of the research was to evaluate the possibility of the energy potential of residual biomass of Lemna minor to reduce the consumption of fossil fuels and reduce greenhouse gas emissions. This is in line with the International Energy Agency (IEA) scenarios for the reduction of environmental impact. The obtained results confirm the feasibility of using this type of waste for biogas/biomethane production. The recommendations on the optimal composition of the mixture based on the residual biomass of Lemna minor, which will allow for an increase in biogas production, are given. The obtained data can be used in the design of bioreactors.

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