Wetland Artificial Floating Island Systems as a Potential Sustainable Solution for Nutrient Removal from Urban Runoff : A Pilot Study

Chen, Zhaozhe

07 October 2021

No description available.

Environmental Science

Earth

Environmental Engineering

Artificial Floating Island

phytoremediation

nutrient pollution

eutrophication

aquatic plants

Evaluating the potential of alder-Frankia symbionts for the remediation and revegetation of oil sands tailings

Mehta, Punita

January 2006

No description available.

Phytoremediation.

Frankia.

Tailings (Metallurgy)

Alder.

A Phytoremediation Study on the Effects of Soil Amendments on the Uptake of Arsenic by Two Perennial Grasses

Klaber, Nica

01 January 2009

The effects of varying concentrations of two chelators: EDTA, citric acid (CA), and phosphorus on the accumulation of arsenic in soil by two perennial grasses, Leersia oryzoides and (rice cut-grass) Festuca arundinacea (tall fescue). Each experiment was run for eight weeks, after which plants were harvested, oven-dried, digested in acid and analyzed using an ICP-OES. Phosphorus soil amendments were applied as 0, 15, 30, 60, 120 mg P/kg soil. For the first chelator experiment, CA and EDTA concentrations of 0, 2.5, and 5.0 mmol/kg soil were added in pulse form to the soil. In the second chelator experiment, concentrations of CA were added in 0, 2.0, 4.0 mmol/kg soil and EDTA was added as 0, 0.25, 0.50 mmol/kg soil. Both plant species accumulated enough arsenic in the root and shoot tissues to be considered at hyperaccumulator species. Citric acid produced comparable results with EDTA, and is considerable much safer for the environment than any synthetic chelator. Certain soil amendments (citric acid and phosphorus) and hyperaccumulator species used in this study warrant further research in the field.

phytoremediation

arsenic

perennial grasses

soil

chelators

citric acid

EDTA

Environmental science

Other Environmental Sciences

Assessment of aromatic, ornamental, and medicinal plants for metal tolerance and phytoremediation of polluted soils /

Jeliazkova, Ekaterina A.

01 January 2000

No description available.

Aromatic plants

Heavy metals Environmental aspects

Medicinal plants

Phytoremediation

Soil remediation

Soils Heavy metal content.

HYDROPONIC PHYTOREMEDIATION OF Cd (III), Cr(III), Ni (II), As (V), AND Fe(II) BY HELIANTHUS ANNUUS

January, Mary Catherine

18 May 2006

No description available.

phytoremediation

Helianthus annuus

As

arsenic

Cd

cadmium

Cr

chromium

Ni

nickel

Kvar på Koverhar : En berättelse om återväxt / Residual resource : A story of regeneration

Forsskåhl, Ellen

January 2019

I examensarbetet Kvar på Koverhar- En berättelse om återväxt används en nedlagd stålfabrik i södra Finland som utgångspunkt för en undersökning av framväxten av ett samhälle i en imaginär framtid där råvaror omhändertas, konsumismen och synen på exploatering och hållbarhet med alla de begränsningar och möjligheter det innebär är mer än fina ord i politiska manifest. I mitt projekt går hållbarhetsprocesserna hand i hand - ju bättre miljön återhämtar sig och bevaras, desto mer kan samhället utvecklas och växa. Platsens icke-urbana läge gör bioremediering tacksamt att använda, en långsam, men ekonomiskt och ekologiskt effektiv process som får ta tid på en plats där exploateringstrycket är litet. Miljöarbetet skapar sysselsättning och mervärde utanför ramarna för ekonomisk vinning. Stadsstrukturen tar form genom ett visualiserat scenario med utgångspunkt i den omgivande miljön, infrastrukturen, den befintliga strukturen och lokal tradition. De befintliga konstruktionerna och husgrunderna, baserade på stålfabrikens produktionslogik, används för att skapa oväntade arkitektoniska rumssammanhang tillsammans med den renande växtlighetens upplevelsevärden. En idé om cirkulär resursanvändning gör exploaterade industritomter till guldkorn för återanvändning och återuppbyggnad, där varje råvara och infrastruktursatsning är en tillgång. Jag vill berätta en historia om en plats som ingår i det kretsloppet, där gårdagens fantomfabrik skapar en grund för en idé om en framtida urban/rural sammansättning. / In the thesis project Residual resource - A story of regeneration the remains of an abandoned steel factory become the breeding ground for sustainable future settlement. Situated on the shore of southern Finland the area of Koverhar is in the midst of the forrest, but exceptionally well-equipped with infrastructural connections to the country's main cities. I have explored an imaginary scenario where future needs are catered to through environmental care, sustainable political decisions, resource-saving productions and decreased consumerism. In my thesis the bioremediation process initiates the expansion of the built environment. The non-urban location of the site makes the slow and ecologically effective bioremediation process ideal - the immediate need for exploitation is low, instead a community is allowed to form over a long period of time, based on soil-treatment and visualized changes in societal ideals concerning habitual urban and rural lifestyles. The existing foundations left at the site after the extensive demolition, will be used to generate unexpected spatial qualities in the built environment. The core of the development will remain public throughout the remediation process, with dwellings influenced by local tradition forming around. Through Residual resource - A story of regeneration I have explored the notion of circularity in terms of both environmental regeneration and architectural  reuse. The future need for reclaiming post-industrial sites and remediation of contaminated environments are but a contemporary challenge a source of potential for reuse of resources and regeneration of ecosystems and rural settlements.

Architecture

Arkitektur

Multigene Metabolic Engineering Via The Chloroplast Genome

Ruiz, Oscar Nemesio

01 January 2004

The vast majority of valuable agronomic traits are encoded polygenetically. Chloroplast genetic engineering offers an alternate approach to multigene engineering by allowing the insertion of entire pathways in a single transformation event, while being an environmentally friendly approach. Stable integration into the chloroplast genome and transcription of the phaA gene coding for β-ketothiolase was confirmed by Southern and northern blots. Coomassie-stained gel and western blots confirmed hyperexpression of β-ketothiolase in leaves and anthers, with high enzyme activity. The transgenic lines were normal except for the male sterile phenotype, lacking pollen. Scanning electron microscopy revealed a collapsed morphology of the pollen grains. Transgenic lines followed an accelerated anther developmental pattern, affecting their development and maturation, resulting in aberrant tissue patterns. Abnormal thickening of the outer wall, enlarged endothecium and vacuolation, decreased the inner space of the locules, affecting pollen grain and resulted in the irregular shape and collapsed phenotype. Reversibility of the male sterility phenotype was achieved by exposing the plants to continuous illumination, producing viable pollen and copious amounts of seeds. This is the first report of engineered cytoplasmic male sterility and offers a new tool for transgene containment for both nuclear and organelle genomes. Detailed characterization of transcriptional, posttranscriptional and translational processes of heterologous operons expressed via the chloroplast genome is reported here. Northern blot analyses performed on chloroplast transgenic lines harboring seven different heterologous operons, revealed that in most cases, only polycistronic mRNA was produced or polycistrons were the most abundant form and that they were not processed into monocistrons. Despite such lack of processing, abundant foreign protein accumulation was detected in these transgenic lines. Interestingly, a stable secondary structure formed from a heterologous bacterial intergenic sequence was recognized and efficiently processed, indicating that the chloroplast posttranscriptional machinery can indeed recognize sequences that are not of chloroplast origin, retaining its prokaryotic ancestral features. Processed and unprocessed heterologous polycistrons were quite stable even in the absence of 3'UTRs and were efficiently translated. Unlike native 5'UTRs, heterologous secondary structures or 5'UTRs showed efficient translational enhancement independent of any cellular control. Finally, we observed abundant read-through transcription in the presence of chloroplast 3'UTRs. Such read-through transcripts were efficiently processed at introns present within native operons. Addressing questions about polycistrons, as well as the sequences required for their processing and transcript stability are essential for future approaches in metabolic engineering. Finally, we have shown phytoremediation of mercury by engineering the mer operon via the chloroplast genome under the regulation of chloroplast native and heterologous 5'UTRs. These transgenenic plants hyperexpress were able to translate MerA and MerB enzymes to levels detectable by coomassie stained gel. The knowledge acquired from these studies offer guidelines for engineering multigene pathways via the chloroplast genome.

Chloroplast genetic engineering

Cytoplasmic male sterility

Heterologous operons

Mercury phytoremediation

Posttranscriptional modifications

Genetics and Genomics

Characterizing the Impact of Freshwater Salinization on Engineered Ecosystems: Implications for Performance, Resilience, and Self-Repair Through Phytoremediation

Long, Samuel Bowen

15 June 2023

Stormwater detention basins are commonly used in the Eastern United States to temporarily store and attenuate stormwater runoff, and also serve as habitats for native and exotic plants. However, during winter, these basins receive saline runoff from road salt application, which contributes to Freshwater Salinization Syndrome (FSS). Since limited research has connected direct measurement of soil and stormwater salinities to biodiversity and phytoremediation potential of salt-tolerant plant species, this thesis aimed to fill this gap. We selected a set of detention basins draining mostly pervious areas, parking lots, or roads in Northern Virginia and measured temporal variations in stormwater and soil salinities, depth profiles of soil salinities, plant community composition, and plant tissue ion concentration. The results indicated elevated levels of sodium, chloride, electrical conductivity (EC), and exchangeable sodium percentage (ESP)/sodium adsorption ratio (SAR) in soil and stormwater after road salt application during winter, followed by a decrease during the growing season for basins draining parking lots and roads. A subsequent increase at the end of the season was observed for all site types. While some stormwater samples exceeded toxicity thresholds, most soil samples did not exceed their respective thresholds nor reach saline or sodic conditions, and native and exotic plant species of both salt-sensitive and salt-tolerant classifications were observed at almost all sites, although proportions of each varied by site type. Tissue analysis of select plants revealed ionic concentrations that generally coincided with observed soil and stormwater concentrations at each major site type. These findings have implications for future detention basin planting regimes to mitigate FSS, and the thesis discusses native plants found to provide the most benefit for phytoremediation. / Master of Science / Stormwater detention basins are commonly used in the Eastern United States. They slowly release stormwater runoff and serve as habitats for native and exotic plants. However, during winter, these basins receive saline runoff from road salt application. This contributes to Freshwater Salinization Syndrome (FSS). Limited research has connected direct measurement of soil and stormwater salinities to biodiversity and plants' ability to uptake salts, so this thesis aimed to fill this gap. A set of detention basins draining mostly pervious areas, parking lots, or roads in Northern Virginia were selected. Next, stormwater and soil salinities over time, depth profiles of soil salinities, plant community composition, and plant tissue ion concentration were measured. The results showed higher levels of standard salinity benchmarks in soil and stormwater after road salt application during winter, followed by a decrease during the growing season for parking lot and road sites. A final increase in the fall was observed for all site types. While some stormwater samples were toxic to plants, most soil samples were not toxic, saline, or sodic. Also, native and exotic plant species of both salt-sensitive and salt-tolerant classifications were observed at almost all sites, but proportions of each varied by site type. Plant tissues contained ionic concentrations that reflected observed soil and stormwater concentrations at each site type. These findings can inform future detention basin planting regimes to mitigate FSS. The thesis also discusses native plants that provide benefits for phytoremediation.

detention basins

phytoremediation

Freshwater Salinization Syndrome

sodium

chloride

salinity

sodicity

biodiversity

Phytoremediation of heavy metal polluted soil and water in Vietnam

Bui, Thi Kim Anh, Dang, Dinh Kim, Nguyen, Trung Kien, Nguyen, Ngoc Minh, Nguyen, Quang Trung, Nguyen, Hong Chuyen

25 August 2015

Phytoremediation has been intensively studied during the past decade due to its cost-effectiveness and environmental harmonies. Most of the studies on treatment of heavy metal pollution in soil and water by plant species have been done in developed countries but are limited in Vietnam. In this study, we presented some research results of phytoremediation of polluted soils and water with heavy metals that were done by Institute of Environmental Technology for several last years. For treatment of heavy metal pollution in the water, some plants have great ability to accumulate heavy metals such as Vetiveria zizanioides, Phragmites australis, Eichhornia crassipes, Pistia stratiotes, Ipomoea aquatica, Nypa fruticans and Enhydra fluctuans. The heavy metal uptake into shoots and roots of 33 indigenous plant species in Thai Nguyen province was also determined. Two species of the plants investigated, Pteris vittata L. and Pityrogramma calomelanos L. were As hyperaccumulators, containing more than 0.1% As in their shoots while Eleusine indica, Cynodon dactylon, Cyperus rotundus and Equisetum ramosissimum accumulated very high Pb (0.15-0.65%) and Zn (0.22-1.56%) concentrations in their roots. Some experiments to clarify the potential of several plants as good candidates for phytoremediation of polluted soil by heavy metals were carried out in our institute. / Phương pháp sử dụng thực vật để xử lý ô nhiễm đã được nghiên cứu nhiều trong thập kỷ qua do chi phí thấp và thân thiện với môi trường. Hầu hết các nghiên cứu về xử lý ô nhiễm kim loại nặng trong đất và nước bằng thực vật đã được thực hiện ở các nước phát triển nhưng ít có tại Việt Nam. Trong nghiên cứu này, chúng tôi giới thiệu một số kết quả dùng công nghệ thực vật để xử lý ô nhiễm kim loại nặng trong đất và nước tại Viện Công nghệ môi trường trong những năm gần đây. Dối với xử lý ô nhiễm kim loại nặng trong nước, một số thực vật có khả năng tích lũy tốt kim loại nặng như Vetiveria zizanioides, Phragmites australis, Eichhornia crassipes, Pistia stratiotes, Ipomoea aquatica, Nypa fruticans và Enhydra fluctuans. Sự hấp thụ và tích lũy kim loại nặng trong phần trên mặt đất và rễ của 33 loài thực vật bản địa tại Thái Nguyên cũng đã được xác định. Hai loài thực vật khảo sát là Pteris vittata và Pityrogramma calomelanos là những loài siêu tích lũy As, chứa hơn 0,1% As trong phần trên mặt đất của cây. leusine indica, Cynodon dactylon, Cyperus rotundus và Equisetum ramosissimum tích lũy Pb (0,15-0,65%) và Zn (0,22-1,56%) rất cao trong rễ. Một số thí nghiệm đánh giá tiềm năng của một số thực vật là đối tượng tốt cho xử lý ô nhiễm kim loại nặng trong đất đã được tiến hành trong phòng thí nghiệm của Viện Công nghệ môi trường.

info:eu-repo/classification/ddc/363.7

ddc:363.7

Evaluation of constructed wetlands for phytoremediation of selenium-impacted waters

Nattrass, Michael Paul

01 May 2020

Precipitation over coal fly ash surfaces raises concerns about potential downstream impacts of dissolved selenium (Se) on aquatic ecosystems. Detention ponds hold runoff until aqueous Se concentrations meet water quality regulations: within 10 days, 90% of runoff must be discharged and cannot exceed 11.8 μg Se L-1 (ppb). Constructed wetland (CW) phytoremediation is a potential treatment option to meet these regulations. This research was conducted to 1.) Assess the potential of native southeastern aquatic macrophytes for Se tolerance and removal efficiency compared to unplanted (UNP) detention ponds; 2.) Evaluate seasonal influence on Se removal in CWs over four, weekly flood-discharge cycles; and 3.) Determine the effect of temperature on aqueous Se removal. Monoculture CW microcosms (110 L) were flooded six days with 500 or 1000 ppb Se, as selenite (SeO32-) or selenate (SeO42-) evaluating five plant species for Se tolerance. Seasonal evaluations were conducted with cattail (Typha angustifolia L.; CAT) and duckweed (Lemna minor L.; DWD) over four weekly flood-discharge cycles at 16 or 32 ppb SeO42--Se. Cattail, DWD, or UNP volatilization chambers (VCs) flooded with a 3 L solution at 35 ppb SeO42--Se were evaluated under 12 h photoperiod at either 20 or 30°C. All experiments contained a zero Se control. Water, plant, and soil total Se concentrations were determined by inductively coupled plasma-mass spectroscopy (ICP-MS) and analyzed with PROC GLM (SAS EG 7.1) at α=0.05. Cattail and DWD were selected for further evaluation with SeO42--Se. The greatest aqueous Se removal was observed in the summer (73%), followed by the fall (42%) and spring (41%), compared to winter (18%). Temperature was strongly correlated with Se removal (0.65, P<0.0001). Except for summer, after two flood-discharge cycles, CAT and DWD improved aqueous Se removal compared to UNP controls. Volatilization chamber data indicated greater Se removal at 30 (69%) compared to 20°C (54%). At 30°C, DWD decreased aqueous Se concentrations below 11.8 ppb Se within 10 days. Given their efficacy and abundance, CAT and DWD are deemed suitable species for phytoremediation in CWs supplied with Se-impacted waters.

Selenium

Selenate

Selenite

Cattail

Duckweed

Phytoremediation

Constructed wetlands

Rhizofiltration

Phytoaccumulation

Phytovolatilization