Spelling suggestions: "subject:"constructed wetland""
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Performance Evaluation of the Town of Monterery Wastewater Treatment Plant Utilizing Subsurface Flow Constructed WetlandsKiracofe, Brandon Dean 21 July 2000 (has links)
Field tests were conducted and historical operating data were evaluated to assess the performance of the Monterey WWTP utilizing subsurface flow (SF) constructed wetlands. Previous work with SF wetlands has demonstrated adequate, but variable removal of organic matter, suspended solids, and nitrogen. Few research studies have observed the generation of compounds in the wetlands that affect other treatment processes, specifically reduced compounds that contribute to the chlorine demand. This study attempts not only to distinguish the factors leading to the inadequate performance of the SF wetlands in removing organic matter and nitrogen, but also to identify the cause of the frequent occurrences of a nondetectable chlorine residual in the chlorine contact tank at the Monterey WWTP. Collection and analysis of historical operating data from January 1998 to May 2000 revealed a constantly decreasing removal of carbonaceous biochemical oxygen demand (CBOD5) by the SF wetlands and a poor removal of ammonia-N throughout the system. The decreasing removal of CBOD5 appeared to be caused by clogging of the wetland bed media by accumulated solids. The inability to remove the accumulated solids by pumping was shown. Analysis of field data also showed that the SF wetlands removed 88% of the influent TSS and 71% of the influent CBOD5, while experiencing a 18% increase in ammonia-N. Bisulfide produced in the anaerobic wetland beds accounted for 95% of the chlorine lost in contact tank. The variable production of sulfide is the cause of the frequent nondetectable chlorine concentrations observed. The results of this study suggest that chemical costs of chlorine and sulfur dioxide may be greatly reduced if bisulfide can be removed before chlorination. Also, the use of large rocks as media in SF wetland beds may significantly reduce the physical and biological removal of organic matter. / Master of Science
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The avian community characteristics of constructed treatment wetlands of South FloridaUnknown Date (has links)
This study compared the avian communities of treatment wetlands in South Florida called Stormwater Treatment Wetlands (STAs) to those in natural marshes and crop lands, and examined factors that influenced the size and structure of the avian communities within the STAs. The STAs contained a more abundant, rich and distinct avian community compared to reference land types. The STAs were dominated by wintering waterfowl, and therefore community patterns fluctuated more seasonally other land types. Within the STAs, density and richness in the fall and winter were much greater in the submerged aquatic vegetation than in the mixed emergent vegetation when waterfowl were present. The STAs maintain two vegetation treatments which enhanced their biodiversity value by supporting distinct avian communities with different migratory strategies This suggests the increase in treatment wetlands could partially offset the loss of natural wetlands, but avian communities in treatment wetlands are not surrogates for natural wetlands. / by Tyler J. Beck. / Thesis (M.S.)--Florida Atlantic University, 2013. / Includes bibliography. / Mode of access: World Wide Web. / System requirements: Adobe Reader.
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Technologie pro zvýšení propustnosti vod v kořenových ČOV / Technology to increase hydraulic conductivity of constructed wetlandsPobořil, Jan January 2014 (has links)
Constructed wetlands are one of alternative solution wastewater treatment. Compared to conventional wastewater plants have many advantages. For example it´s technology saving construction, low operating costs, cleavability diluted wastewater and little or no need for electrical power. There are many publications dealing with Natural Ways wastewater treatment or even constructed wetlands. I decided to look for a thesis on one of the key processes – clogging bed media. The thesis is focused on ways to prevent clogging of bed media, mitigate the consequences and technology to increase hydraulic conductivity of constructed wetlands. The main test method is improving drainage parameters using pulsed filling and emptying of the bed media. This method is a very effective way to achieve quality requirements for effluent water from the treatment plant. Another test method is based on the injection of air into the media bed and sludge extraction using a specially modified industrial vacuum cleaner or pump.
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Coal-fired power plant flue gas desulfurization wastewater treatment using constructed wetlandsParedez, Jose Miguel January 1900 (has links)
Master of Science / Department of Civil Engineering / Natalie Mladenov / In the United States approximately 37% of the 4 trillion kWh of electricity is generated annually by combusting coal (USEPA, 2013). The abundance of coal, ease of storage, and transportation makes it affordable at a global scale (Ghose, 2009). However, the flue gas produced by combusting coal affects human health and the environment (USEPA, 2013). To comply with federal regulations coal-fired power plants have been implementing sulfur dioxide scrubbing systems such as flue gas desulfurization (FGD) systems (Alvarez-Ayuso et al., 2006). Although FGD systems have proven to reduce atmospheric emissions they create wastewater containing harmful pollutants. Constructed wetlands are increasingly being employed for the removal of these toxic trace elements from FGD wastewater.
In this study the effectiveness of using a constructed wetland treatment system was explored as a possible remediation technology to treat FGD wastewater from a coal-fired power plant in Kansas. To simulate constructed wetlands, a continuous flow-through column experiment was conducted with undiluted FGD wastewater and surface sediment from a power plant in Kansas. To optimize the performance of a CWTS the following hypotheses were tested: 1) decreasing the flow rate improves the performance of the treatment wetlands due to an increase in reaction time, 2) the introduction of microbial cultures (inoculum) will increase the retention capacity of the columns since constructed wetlands improve water quality through biological process, 3) the introduction of a labile carbon source will improve the retention capacity of the columns since microorganisms require an electron donor to perform life functions such as cell maintenance and synthesis. Although the FGD wastewater collected possessed a negligible concentration of arsenic, the mobilization of arsenic has been observed in reducing
sediments of wetland environments. Therefore, constructed wetlands may also represent an environment where the mobilization of arsenic is possible. This led us to test the following hypothesis: 4) Reducing environments will cause arsenic desorption and dissolution causing the mobilization of arsenic.
As far as removal of the constituents of concern (arsenic, selenium, nitrate, and sulfate) in the column experiments, only sulfate removal increased as a result of decreasing the flow rate by half (1/2Q). In addition, sulfate-S exhibited greater removal as a result of adding organic carbon to the FGD solution when compared to the control (at 1/2Q). Moderate selenium removal was observed; over 60% of selenium in the influent was found to accumulate in the soil.
By contrast, arsenic concentrations increased in the effluent of the 1/2Q columns, most likely by dissolution and release of sorbed arsenic. When compared to the control (at 1/2Q), arsenic dissolution decreased as a result of adding inoculum to the columns. Dissolved arsenic concentrations in the effluent of columns with FGD solution amended with organic carbon reached 168 mg/L. These results suggest that native Kansas soils placed in a constructed wetland configuration and amended with labile carbon do possess an environment where the mobilization of arsenic is possible.
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Development of Water and Wastewater Biofiltration Technologies for the Developing World using Locally Available Packing Media: Case Studies in Vietnam and HaitiThomson, Ashley Anne January 2014 (has links)
<p>Water and sanitation are two of the world's most urgent current challenges (Elimelech, 2006). With a population racing towards seven billion people, over one sixth of the human population does not have access to adequate water and sanitation. Drinking water is inaccessible for approximately 783 million people living in the developing world (WHO, 2014). This is especially critical for people at risk of exposure to deadly pathogens such as <italic>Vibrio cholerae</italic>, <italic>Shigella</italic>, and <italic>Salmonella</italic>, such as those living in Haiti as <italic>Vibrio cholerae</italic> is now ubiquitous (Enserink, 2010). On the sanitation side, more than 2.5 billion people in the world still lack access to adequate resources (WHO, 2014). Almost half of these people have access to no sanitation facilities at all and practice open defecation (WHO, 2014). Thousands of small children still die every day from preventable diseases caused by inadequate sanitation (WHO, 2014). As global climate change is expected to exacerbate these issues, there is an urgent need for the development of sustainable treatment technologies to ensure a better tomorrow for our world (Ford, 1999). Safe water and sanitation technologies, while often disjointed, should be considered together as pathogens transmitted via drinking water are predominantly of fecal origin (Ashbolt, 2004; Montgomery, 2007). </p><p>In this dissertation project, I explore the use of both drinking water and wastewater treatment technologies which are cost effective and rely on locally available materials in low-income countries. For the drinking water treatment side, I focus on the use of biosand filters in Haiti with a specific interest in understanding their ability to remove the pathogen <italic>Vibrio cholerae</italic>, the causative agent for cholera. The wastewater treatment technology consists of biofilters packed with cocopeat, a waste product generated during coconut husk processing, and I investigate their use for the treatment of septic tank effluent in Vietnam. Both of these projects combine lab and field work. The specific objectives of this dissertation project are to 1) compare the removal efficiency of <italic>V. cholerae</italic> to indicator bacteria in field biosand filters and determine the parameters controlling removal; 2) investigate the correlation between removal efficiency of pathogens in field biosand filters having operated for varying lengths of time to schmutzdecke bacterial composition and influent water characteristics; 3) determine the effect of number of charges, total organic carbon loading, and schmutzdecke composition on <italic>V. cholerae</italic> removal efficacy; 4) isolate the effect of biological removal mechanisms and physical/chemical removal mechanisms on <italic>V. cholerae</italic> removal efficiency and determine the correlation to TOC concentration in water; 5) evaluate cocopeat as a packing medium for biofilters in terms of nitrogen, phosphorus and biological oxygen demand removal from simulated wastewater as compared to other traditional packing media; and 6) conduct an assessment of cocopeat-packed, vertical flow constructed wetlands treating septic tank effluent in the Mekong Delta of Vietnam. </p><p>In the first part of this dissertation, biosand filters in the Artibonite Valley of Haiti, the epicenter of the cholera epidemic, were tested for total coliform and <italic>V. cholerae</italic> removal efficiencies. In addition, schmutzdecke samples were collected in order to measure the amount of EPS in the biofilm, as well as characterize the microbial community. Total coliform and <italic>V. cholerae</italic> concentration were measured using novel membrane filtration technique methods. It was found that total coliform concentration does not indicate <italic>V. cholerae</italic> concentration in water, and total coliform removal efficiency does not indicate <italic>V. cholerae</italic> removal efficiency within biosand filters. Additionally, parameters controlling biosand filter performance include: schmutzdecke composition, time in operation, and idle time.</p><p>In the second part of this dissertation, <italic>V. cholerae</italic> challenge tests were performed on laboratory-operated biosand filters receiving high, medium or low TOC influents in order to determine the effect of number of charges, total organic carbon loading, and schmutzdecke composition on <italic>V. cholerae</italic> removal efficacy, as well as to isolate the effect of biological removal mechanisms and physical/chemical removal mechanisms on <italic>V. cholerae</italic> removal efficiency and determine the correlation to TOC concentration in water. To this end, three biosand filters were operated in the lab. Each received lake water or diluted lake water with high, medium or low concentrations of TOC. After being charged once per day for 6 days, the filters were charged with four consecutive charges of pure cultures of <italic>V. cholerae</italic> suspended in PBS buffer, at concentrations of 10<super>2</super>, 10<super>3</super>, 10<super>5</super>, and 10<super>7</super> cfu/mL. This challenge was repeated each time the filters received an additional 6 charges, up to 66 total charges. This was done to determine how number of charges, TOC loading, and schmutzdecke composition affects removal efficiency. Schmutzdecke was analyzed for amount of EPS and microbial community. It was found that parameters controlling biosand filter performance include: TOC loading, schmutzdecke composition, time in operation, and physical/chemical attachment. Additionally, it was shown that physical/chemical attachment is critical during startup, especially at low TOC concentrations. At steady state, physical/chemical attachment is more important than schmutzdecke effects in filters receiving low TOC, and schmutzdecke effect is more important than physical/chemical attachment in filters receiving high TOC.</p><p>For the third section of this dissertation, columns packed with cocopeat, celite, or sphagnum peat were charged with simulated wastewater and removal efficiencies of nitrogen, phosphorus, and biological oxygen demand were measured. Additionally, different redox zones were tested to determine if cocopeat could successfully accomplish nitrification and denitrification. It was found that cocopeat is comparable to traditional packing media and can successfully accomplish nitrification and denitrification in the treatment of synthetic wastewater.</p><p>In the final section of this dissertation, constructed wetlands were built and packed with cocopeat to determine if cocopeat is a suitable packing media in constructed wetlands treating wastewater in Vietnam. Removal efficiencies of nitrogen, phosphorus, and biological demand were measured. Microbial community samples were collected periodically in order to analyze community shifts between wetlands and over time. This work concluded that cocopeat can be used successfully as a packing media in constructed wetlands treating wastewater for the removal of nitrogen, phosphorus, and total coliform.</p><p>Overall, this dissertation work contributes to the body of knowledge on point-of-use water and wastewater technologies. The biosand filter was studied in both lab and field conditions and it was found that total coliform is not a reliable indicator for <italic>V. cholerae</italic>, and that there are several factors controlling biosand filter performance, including idle time, TOC, filter time in operation, physical/chemical attachment, and schmutzdecke composition. Cocopeat was studied for its ability to promote nitrification and denitrification in lab-scale vertical flow columns treating synthetic wastewater. It was shown that cocopeat achieved similar levels of nitrification and denitrification as traditional packing media. Finally, cocopeat packed vertical flow constructed wetlands were operated in Vietnam for the treatment of septic tank effluent. This setup proved effective for the removal of nitrogen, phosphorus, and total coliform in the treatment of wastewater.</p> / Dissertation
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Community-level analysis of the microbiology in constructed wetlands treating distillery effluentDu Plessis, Keith R. (Keith Roland) 04 1900 (has links)
Dissertation (PhD)--University of Stellenbosch, 2006. / ENGLISH ABSTRACT: Constructed wetlands have been widely used in the treatment of industrial
and domestic wastewater to reduce biological and chemical oxygen demand
(BOD and COD), to remove nitrate and enteric viruses as well as to generally
improve water quality. Distillery wastewater has a complex character due to high
concentrations of sugars, lignins, hemicellulose, dextrins, resins, polyphenols
and organic acids, leading to a high COD that may exceed 100 000 mg/L. The
potential application for the treatment of distillery wastewater by means of
constructed wetlands is relatively unexplored.
In 1999 a study was initiated at Distell Goudini distillery, Western Cape,
South Africa, to explore the possibility of using constructed wetlands to treat
distillery wastewater. It was found that constructed wetlands do have the ability to
treat distillery wastewater providing that the influent COD does not exceed 15
000 mg/L for extended periods and the correct substrate material is used. The
present study expanded on the above-mentioned study and specifically aimed to
provide information on the microbiological controls in wetland systems in an
applied sense that may contribute to improved treatment efficiency. Furthermore,
this project aimed to contribute to our fundamental understanding of the microbial
ecology of constructed wetlands used for the treatment of distillery wastewater.
This study revealed that a highly dynamic microbial composition exists within
wetlands. Furthermore it was found that wetlands can efficiently remove COD
even though a low degree of similarity exists between microbial communities in
various zones of the same wetland and those between different wetlands, as well
as low similarity between communities sampled from the same zone over time.
This demonstrates that it will be difficult to define the ‘ideal’ degradative
community in terms of microbiological criteria and serves as a reminder that
various indicators should be considered for monitoring system health.
Furthermore the shifts in microbial community composition illustrate the ability of microbial communities to adapt to changes in the environment without
compromising their functional efficacy. When studying the attached microbial
communities within wetland systems it was found that different morphotypes are
detected at certain stages of biofilm development while some organisms are
present at most phases of biofilm formation.
Measurement of CO2 production and dissolved organic carbon (DOC) removal in
laboratory scale columns showed that grazing protists had a notable effect on
overall microbial activity and that organic loading influenced these predator-prey
interactions. Interestingly, increased clogging of pores occurred in the presence
of protists, resulting in reduced flow through the porous matrix. Terminalrestriction
fragment length polymorphism (T-RFLP) analysis of biofilms on gravel
in experimental wetlands indicated that the presence of protists and algae had an
effect on the microbial community composition. Scanning electron microscopy
(SEM) showed that the presence of algae also had an influence on biofilm
structure suggesting that the algae provided labile nutrients that were utilized by
the bacterial and yeast members of the community. Finally, augmentation with a
commercial mixture or microbial populations isolated from distillery effluent
demonstrated that the concentration at which supplements are applied influence
degradative efficiency. / AFRIKAANSE OPSOMMING: Kunsmatige vleilande word wêreldwyd gebruik in die behandeling van
indusriële en huishoudelike afvalwater om biologiese en chemiese suurstof
aanvraag (BSA en CSA) te verminder, om nitrate en ingewandsvirusse te
verwyder asook om waterkwaliteit in die algemeen te verbeter.
Distilleerafvalwater het komplekse eienskappe as gevolg van hoë konsentrasies
suiker, lignien, hemisellulose, dekstrien, harpuis, polifenole en organiese sure,
wat lei tot ‘n hoë CSA wat 100 000 mg/L kan oorskry. Daar is tot op hede relatief
min studies gedoen oor die potensiële gebruik van kunsmatige vleilande vir die
behandeling van distilleerafvalwater.
In 1999 is ‘n studie by Distell Goudini distilleeraanleg in die Wes Kaap van
Suid Afrika onderneem om die moontlikheid van kunsmatige vleilande vir die
behandeling van distilleerafvalwater te bestudeer. Daar was bevind dat
kunsmatige vleilande die vermoë het om distilleerafvalwater te behandel gegewe
dat die invloeiende CSA nie 15 000 mg/L oorskry nie en dat die regte substraat
materiaal gebruik word. Die huidige studie het by die bogenoemde studie
aangesluit met die doel om informasie oor die mikrobiologiese kontroles in
vleilandsisteme op ‘n toegepaste wyse te voorsien, wat tot verbeterde
behandeling doeltreffendheid kan lei. Hierdie studie het verder beoog om by te
dra tot ons fundementele kennis van die mikrobiese ekologie van kunsmatige
vleilande wat gebruik word vir die behandeling van distilleerafvalwater.
Dié studie het bevind dat daar ‘n hoogs dinamiese mikrobiese samestelling
binne vleilande bestaan. Daar was verder bevind dat CSA steeds effektief deur
vleilande verwyder kan word alhoewel daar ‘n lae graad van ooreenstemming is
tussen mikrobiese gemeenskappe in verskeie sones van dieselfde vleiland en
verskillende vleilande, asook ‘n lae graad van ooreenstemming tussen
gemeenskappe wat in dieselfde sone oor tyd gemonster is. Dit demonstreer dat
dit moeilik sal wees om die ‘ideale’ degraderende gemeenskap te vind in terme van mikrobiologiese kriteria en dien as ‘n herinnering dat verkeie indikatore in ag
geneem moet word om die welstand van ‘n ekologiese sisteem te monitor. Die
verskuiwings in mikrobiese gemeenskapsamestelling illustreer verder die vermoë
van natuurlike sisteme om aan te pas by veranderinge in die omgewing sonder
om funksionele doeltreffendheid te verminder. Die studie van aangehegte
mikobiese gemeenskappe het aangedui dat veskillende morfotipes bespeur kan
word tydens sekere fases van biofilm formasie terwyl sekere organismes tydens
meeste van die fases teenwoordig is.
Die bepaling van CO2 produksie en die verwydering van opgeloste organiese
koolstof in laboratoriumskaal kolomme het geïlustreer dat voedende protiste ‘n
waarneembare effek gehad op die algehele mikrobiese aktiwiteit en dat die
organiese lading hierdie predator-prooi interaksie beïnvloed het. Dit was
interessant om te vind dat die teenwoordigheid van protiste die verstopping van
porieë aangehelp het en dus tot verlaagde vloei deur die poreuse matriks gelei
het. Terminale-restriksie fragment lengte polimorfisme (T-RFLP) analiese van
biolfilm op klipgruis in eksperimentele vleilande het aangedui dat die
teenwoordigheid van protiste en alge ‘n effek gehad het op die mikrobiese
gemeenskapsamestelling. Skandeerelektronmikroskopie (SEM) het bewys dat
die teenwoordigheid van alge ook ‘n invloed op biofilm struktuur gehad het wat
daarop dui dat alge maklik afbreekbare voedingstowwe aan die bakterieë en
giste van die mikrobiese gemeenskap beskikbaar gestel het. Laastens was
bewys dat die konsentrasie van toevoeging van ‘n kommersiële mikrobiese
mengsel of mikrobiese populasies wat uit afvoer geïsoleer was, die effektiwiteit
van degradering kan beïnvloed.
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Zhuji wetland city: stormwater recycleChen, Yuxiao., 陳瑜瀟. January 2007 (has links)
published_or_final_version / Architecture / Master / Master of Landscape Architecture
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Cold-climate constructed wetland applications in Canada and Northern China and modeling applications in the Canadian Arctic using SubWet 2.0Chouinard, ANNIE 22 October 2013 (has links)
This comparative study explores the mechanisms of pollutant removal efficiency in cold-climate constructed wetlands (CWs) and investigates the benefits, standing and practicability of using these systems to treat wastewater in Canada and Northern China. Treatment efficiencies defined by the Canadian and Northern China experience vary considerably. Experience in both countries shows that the majority of effluent values are generally better than that required by discharge standards in Canada and China. A review of the available case studies on cold weather treatment in both countries indicates that this technology is feasible in Canada and Northern China, although further monitoring data are needed to optimize CW design and ensure that the effluent quality standards are consistently met.
In both of these countries and around the globe, increasingly strict water quality standards and the growing application of treatment wetlands for wastewater treatment is an important motive for the development of better numerical models as predictive process design tools. An investigation of the SubWet 2.0 model, a horizontal subsurface flow modeling program used to predict the level of treatment that can be expected was conducted. It has been shown that SubWet can consider the influence of several factors at one time, where empirical equations are generally not able to consider more than two factors at one time and usually in isolation of the other influential parameters. Three different data sets, two from natural wetlands from the Canadian Arctic and one from a CW in Africa were used to illustrate how SubWet can be calibrated to specific wetlands. Compared to other models, it is suggested that SubWet provides one of the best modeling options available for natural tundra wetlands. Further calibration of SubWet with twelve municipal treatment wetlands in the Canadian Arctic clearly demonstrated its ability to model treatment performance within natural tundra wetlands and thus provide an additional predictive tool to aid northern stakeholders in the treatment of municipal effluents. It is anticipated that increased monitoring and the generation of additional measured data will help to better identify the level of year to year variability and improve the overall predictive capability of the model. / Thesis (Master, Civil Engineering) -- Queen's University, 2013-10-22 17:14:23.322
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Phosphorus Retention and Fractionation in Masonry Sand and Light Weight Expanded Shale Used as Substrate in a Subsurface Flow WetlandForbes, Margaret G. 08 1900 (has links)
Constructed wetlands are considered an inefficient technology for long-term phosphorus (P) removal. The P retention effectiveness of subsurface wetlands can be improved by using appropriate substrates. The objectives of this study were to: (i) use sorption isotherms to estimate the P sorption capacity of the two materials, masonry sand and light weight expanded shale; (ii) describe dissolved P removal in small (2.7 m3) subsurface flow wetlands; (iii) quantify the forms of P retained by the substrates in the pilot cells; and (iv) use resulting data to assess the technical and economic feasibility of the most promising system to remove P. The P sorption capacity of masonry sand and expanded shale, as determined with Langmuir isotherms, was 60 mg/kg and 971 mg/kg respectively. In the pilot cells receiving secondarily treated wastewater, cells containing expanded shale retained a greater proportion of the incoming P (50.8 percent) than cells containing masonry sand (14.5 percent). After a year of operation, samples were analyzed for total P (TP) and total inorganic P (TIP). Subsamples were fractionated into labile-P, Fe+Al-bound P, humic-P, Ca+Mg-bound P, and residual-P. Means and standard deviations of TP retained by the expanded shale and masonry sand were 349 + 169 and 11.9 + 18.6 mg/kg respectively. The largest forms of P retained by the expanded shale pilot cells were Fe+Al- bound P (108 mg/kg), followed by labile-P (46.7 mg/kg) and humic-P (39.8). Increases in the P forms of masonry sand were greatest in labile-P (7.5 mg/kg). The cost of an expanded shale wetland is within the range of costs conventional technologies for P removal. Accurate cost comparisons are dependent upon expansion capacity of the system under consideration. Materials with a high P sorption capacity also have potential for enhancing P removal in other constructed wetland applications such as stormwater wetlands and wetlands for treating agricultural runoff.
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Managing Cattail (Typha latifolia) Growth in Wetland SystemsSharp, Jessica Little 08 1900 (has links)
Nutrient availability, water depth, competition, and soil management effects on cattail (Typha latifolia) growth in wetland systems were examined. Soluble reactive phosphorous (SRP), nitrate-nitrogen (NO3-N), and ammonia-nitrogen (NH3-N) removals were tested at a constructed wetland receiving municipal wastewater effluent. Over all, no significant differences in nutrients occurred between diverse planted and cattail areas. T. latifolia seeds, under the canopy of Eleochoris macrostachya, had low seed germination. Established stands of emergent vegetation can prevent cattail colonization and spread. Germination of T. latifolia at various water depths was tested, and depth impacts on cattail seedling growth and survival were ascertained using various moist soil management techniques in three ponds. Water levels at 0cm and >40cm can adversely impact cattail establishment.
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