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Identifikation von Stoffeinträgen aus dem Alterzbergbau in die Freiberger MuldeReumann, Gesche, Grundmann, Jens, Burghardt, Diana, Hauffe, Corina, Stevens, Christine, Jahns, Christin 21 May 2024 (has links)
Die Freiberger Mulde, die einen Teil des Freiberger Reviers entwässert, weist hohe Schwermetall‑, Arsen- und Sulfatbelastungen auf. Besonders der Abschnitt zwischen Berthelsdorf und Siebenlehn ist stark durch den Alterzbergbau sowie die Bunt- und Edelmetallurgie geprägt. Das Ziel von zwei Messkampagnen war die Identifikation aller punktueller Einleiter in diesem Abschnitt, um mittels einer Frachtbilanzierung die wesentlichen punktuellen Einleiter sowie mögliche diffuse Zutritte von Arsen, Blei, Cadmium, Kupfer, Eisen, Nickel, Nitrat, Sulfat und Zink zu identifizieren. Hierbei wurden acht punktuelle Einleiter identifiziert, die maßgeblich für eine entsprechende Frachtzunahme im Untersuchungsgebiet verantwortlich sind. Die Aufstellung der Frachtbilanzen erfolgte nach einem vereinfachten Ansatz, der Rückschlüsse auf mögliche diffuse Zutritte oder Verluste durch z. B. Rückhalt, Abbau und Versickerung erlaubt. Dabei zeigte eine Bilanzierung über das gesamte Untersuchungsgebiet nur eine geringe Aussagekraft. Erst durch eine abschnittsweise Bilanzierung entlang des Untersuchungsgebietes wird ersichtlich, dass sich Eintrags- und Rückhalteprozesse abwechseln und möglicherweise innerhalb der Abschnitte überlagern. Dies liefert nützliche Erkenntnisse für weitere Betrachtungen der Belastungsursachen und die Umsetzung der Wasserrahmenrichtlinie im Einzugsgebiet der Freiberger Mulde. / The Freiberg Mulde River, which drains part of the Freiberg mining district, has high levels of heavy metal, arsenic and sulfate pollution. The section between Berthelsdorf and Siebenlehn in particular is strongly influenced by historic mining as well as by non-ferrous and precious metal metallurgy. The aim of two large-scale monitoring campaigns was to identify all point sources in this area in order to identify the main emitters as well as possible diffuse (groundwater-borne) sources of arsenic, lead, cadmium, copper, iron, nickel, sulfate and zinc by means of load balances. Eight main emitters were identified, which are largely responsible for a corresponding increase in pollution in the study area. The pollution balances were carried out according to a simplified approach that allows conclusions to be drawn about possible diffuse influxes or losses due to, for example, retention, degradation and infiltration. In this context, a balance over the entire study area showed limited value. Only a section-by-section balance along the study area reveals that inflow and retention processes alternate and possibly overlap within the sections. This provides useful insights for further considerations of the causes of pollution and for the implementation of the Water Framework Directive in the catchment area of the Freiberg Mulde River.
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Furnitura multipla di servizi ecosistemici da culture energetiche poliennali / MULTIPLE ECOSYSTEM SERVICES PROVISION FROM PERENNIAL BIOENERGY CROPS / Multiple ecosystem services provision from perennial bioenergy cropsFERRARINI, ANDREA 17 March 2016 (has links)
La sfida nel 21esimo secolo è quella di fornire cibo e energia ad un mondo in continua crescita demografica e allo stesso tempo conservare l’ambiente. In questa tesi uno scenario alternativo di uso del suolo per la produzione di bioenergia è stato testato: le fasce tampone bioenergetiche. Considerate le problematiche ambientali legate al trilemma “cibo-energia-ambiente”, la struttura del Millennium Ecosystem Assessment sui servizi ecosistemici (SE) fornisce l’opportunità di esaminare l’impatto ambientale di questo nuovo scenario bioenergetico. In questa tesi ho mirato a determinare in che misura le colture bioenergetiche poliennali influenzino la fornitura multipla di SE quando coltivate come fasce tampone. Per raggiungere questo obiettivo, ho combinato una revisione sistematica della letteratura sui SE forniti da colture energetiche poliennali (CEP) con una prova sperimentale su fasce tampone bioenergetiche.
Applicando una metodologia di attribuzione di punteggi agli impatti sui SE estratti dal materiale bibliografico raccolto, ho mostrato come coltivando le CEP lungo i margini dei campi coltivati esista una grande opportunità per sostenere la fornitura multipla di SE. La coltivazione delle CEP come fasce tampone adiacenti a campi agricoli può migliorare i SE di regolazione del clima, dell’acqua e della biodiversità, sostenere la salute del suolo e fornire biomassa dedicata alla produzione di bioenergia. Al contrario, la conversione di margini di campo di prati stabili ha mostrato un impatto netto negativo sulla fornitura multipla di SE.
Tuttavia, due sono i principali svantaggi che sono stati individuati relativamente alla creazione e alla gestione delle fasce tampone bioenergetiche. Primo, diversi sono i fattori sito-specifici di tipo idro-pedologico lungo i margini dei campi che devono essere tenuti in considerazione poiché possono avere un impatto negativo sull’affrancamento delle colture e la loro produttività a medio-lungo termine. Secondo, riguardo la catena di approvvigionamento della biomassa, uno spazio di lavoro limitato per le macchine agricole è stato riconosciuto come principale inconveniente per le fasce tampone bioenergetiche rispetto alle CEP coltivate in pieno campo. Questo limite logistico di natura spaziale può inevitabilmente incrementare i tempi e le operazioni di taglio e raccolta della biomassa e quindi in ultima il consumo di combustili fossili.
Grazie ad una prova sperimentale su fasce tampone bioenergetiche condotta in un terreno sabbioso-limoso con falda acquifera poco profonda contaminata da nitrati di origine agricola, si è dimostrato come fasce tampone coltivate con miscanto e salice siano in grado di intercettare e rimuovere i nitrati in falda (>60%) tanto quanto fasce tampone con specie avventizie. CEP come miscanto e salice, grazie ai loro apparati radicali profondi, hanno mostrato essere in grado di promuovere delle relazioni pianta-suolo-microorganismi lungo l’intero profilo del suolo utili ai fini ambientali delle fasce tampone bioenergetiche. Infatti, negli strati più profondi, una maggiore biomassa radicale ha portato le CEP a superare le specie avventizie in termini di rimozione biologica dei nitrati dal suolo e mitigazione potenziale dei gas serra. Inoltre, i risultati relativi alla produzione di biomassa e le asportazioni di N legata alla fase di raccolta hanno confermato ulteriormente come la coltivazione di CEP lungo i corsi d’acqua sia una strategia win-win: produzione di biomassa e protezione dell’ambiente.
In conclusione, il potenziale rivelato dalle CEP in termini di fornitura multipla di SE suggerisce che la loro coltivazione, come elementi paesaggistici perenni in posizioni strategiche all'interno di paesaggio agricolo, è un'opzione promettente per promuovere l'intensificazione ecologicamente sostenibile degli agroecosistemi. / The 21st century will challenge agriculture to feed and fuel a growing world while conserving the environment. In this thesis an alternative bioenergy land use scenario to the conversion of marginal land has been tested: the bioenergy buffers. Given the environmental issues related to “food-energy-environment” trilemma, the Millennium Ecosystem Assessment framework on ES provides an opportunity to examine the environmental impacts of this new bioenergy land use scenario. In this thesis I aimed to determine to what extent do the perennial bioenergy crops affect the delivery of multiple ES when cultivated as bioenergy buffers. To reach this aim, I combined a systematic revision of literature on ES provided by perennial bioenergy crops with a field experiment on bioenergy buffers.
Applying an impact scoring methodology to the effects on ES extracted from literature, I showed that, cultivating perennial bioenergy crops along field margins of former croplands offer a great opportunity to sustain the provision of multiple ES. The cultivation of perennial bioenergy crops on field margins can improve climate, biodiversity and water regulation services, sustain soil health and provide biomass for energetic purposes. On the contrary, grassland conversion showed a net negative impact on multiple ES provision.
Nevertheless, I found two main shortcomings related to bioenergy buffers establishment and management. First, several site-specific factors along field margins must be taken into account, because they can affect crop establishment and buffers long-term productivity. Second, regarding to biomass supply chain, a limited working space for the farm machinery operations has been recognized as the main disadvantages of bioenergy buffers compared to large-scale bioenergy plantations. This spatial logistics constraint may inevitably increase harvest and collection operation times and fossil fuel consumption.
Conducting a field experiment with bioenergy buffers in a nitrate-enriched shallow groundwater, I showed that miscanthus and willow buffers are able to efficiently intercept and remove from groundwater the incoming NO3-N as much as buffer strips with spontaneous species. Yet, due to their deep rooting systems, bioenergy buffers promote significant plant-microbial linkages along the soil profile. At deeper soil layers, a higher fine root biomass led perennial bioenergy crops to outperform patches of adventitious vegetation in terms of biological N removal from soil and belowground GHG mitigation potential. The results on biomass production and N removal via harvesting further confirmed that the cultivation of perennial bioenergy crops along watercourses is an effective win-win strategy: biomass production and protection of the environment.
In conclusion, the revealed potential of perennial bioenergy crops on multiple ES provision implies that their cultivation as perennial landscape elements in strategic locations within landscape is a promising option to promote the ecological sustainable intensification of agroecosystems.
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Effects of landfill sites on groundwater quality in Igando, Alimosho Localgovernment Area, Lagos stateOyiboka, Ifeoma Jennifer 03 1900 (has links)
With increasing population comes the concern for waste disposal. The absence of sanitary disposal methods has left most city residents with open landfills as their only source of waste disposal. The resulting leachate formed from the decomposition of these waste materials is highly polluting and finds its way to the underground water supply. The study investigated the effects of open landfill sites on the underground water quality by examining the physical and chemical properties of underground water in hand-dug wells around the Solous landfill sites in Igando, Alimosho Local Government Area of Lagos State. Solous landfill is the second largest landfill by landmass and volume of waste in Lagos State. Systematic random sampling was used for data gathering. Eighteen hand-dug wells were sampled at increasing distances from the landfill site. Physical, chemical and microbiological parameters were analysed at the Lagos State Environmental Protection Agency (LASEPA). Soil samples were also taken from both the A (0 – 30cm) and B (30 – 60cm) horizons of the water sampling points to determine the soil texture (silt, clay and loamy composition) and to show the impact of soil texture on ground water quality within the sampled area. The level of contamination of groundwater was also determined using the Contamination Index method. The results showed high degree of conformance with W.H.O standard with respect to the microbiological properties of the sampled groundwater. However, coliform tests indicated the potential presence of pathogens. Of the seven (7) physical parameters tested, conductivity was higher in one sample. The study of chemical properties from the eighteen wells showed five (5) parameters (dissolved oxygen, total alkalinity, iron, lead, nitrates and copper) above W.H.O limits in some samples. The water may therefore not be safe for human consumption and there is a serious need to monitor the groundwater quality in the area.
The level of contamination of groundwater was also determined using the Contamination Index method. Areas of high and medium contamination were discovered. There was no area with low contamination level in the area sampled. Contamination levels were mapped to show the exact levels of contamination in the study area. The results of the soil analysis showed that the study area had soil that was mostly sandy in nature which may suggest an increase in parameters over time with significant health implications for the people who depend on surrounding wells for domestic use. The study also showed no significant variation in water quality with increasing distance from the dump site. Findings also indicated that the water around Solous 1 was of better quality for domestic use than groundwater around Solous 2 and 3 due to temporal reduction of contaminant concentration. There is therefore a need for adequate and proper planning, design and construction, and strategic management disposal of waste, as well as the implementation of a better sustainable environmental sanitation practice. / Environmental Sciences / M. Sc. (Environmental Science)
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Effects of landfill sites on groundwater quality in Igando, Alimosho Localgovernment Area, Lagos stateOyiboka, Ifeoma Jennifer 03 1900 (has links)
With increasing population comes the concern for waste disposal. The absence of sanitary disposal methods has left most city residents with open landfills as their only source of waste disposal. The resulting leachate formed from the decomposition of these waste materials is highly polluting and finds its way to the underground water supply. The study investigated the effects of open landfill sites on the underground water quality by examining the physical and chemical properties of underground water in hand-dug wells around the Solous landfill sites in Igando, Alimosho Local Government Area of Lagos State. Solous landfill is the second largest landfill by landmass and volume of waste in Lagos State. Systematic random sampling was used for data gathering. Eighteen hand-dug wells were sampled at increasing distances from the landfill site. Physical, chemical and microbiological parameters were analysed at the Lagos State Environmental Protection Agency (LASEPA). Soil samples were also taken from both the A (0 – 30cm) and B (30 – 60cm) horizons of the water sampling points to determine the soil texture (silt, clay and loamy composition) and to show the impact of soil texture on ground water quality within the sampled area. The level of contamination of groundwater was also determined using the Contamination Index method. The results showed high degree of conformance with W.H.O standard with respect to the microbiological properties of the sampled groundwater. However, coliform tests indicated the potential presence of pathogens. Of the seven (7) physical parameters tested, conductivity was higher in one sample. The study of chemical properties from the eighteen wells showed five (5) parameters (dissolved oxygen, total alkalinity, iron, lead, nitrates and copper) above W.H.O limits in some samples. The water may therefore not be safe for human consumption and there is a serious need to monitor the groundwater quality in the area.
The level of contamination of groundwater was also determined using the Contamination Index method. Areas of high and medium contamination were discovered. There was no area with low contamination level in the area sampled. Contamination levels were mapped to show the exact levels of contamination in the study area. The results of the soil analysis showed that the study area had soil that was mostly sandy in nature which may suggest an increase in parameters over time with significant health implications for the people who depend on surrounding wells for domestic use. The study also showed no significant variation in water quality with increasing distance from the dump site. Findings also indicated that the water around Solous 1 was of better quality for domestic use than groundwater around Solous 2 and 3 due to temporal reduction of contaminant concentration. There is therefore a need for adequate and proper planning, design and construction, and strategic management disposal of waste, as well as the implementation of a better sustainable environmental sanitation practice. / Environmental Sciences / M. Sc. (Environmental Science)
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Operação integrada ótima do Sistema Hídrico Jucazinho-Carpina, para múltiplos usos - Rio Capibaribe - PE. / Optimum integrated operation of the Jucazinho-Carpina Water System, for multiple uses - Rio Capibaribe - PE.ANDRADE, Paulo Romero Guimarães Serrano de. 06 November 2018 (has links)
Submitted by Johnny Rodrigues (johnnyrodrigues@ufcg.edu.br) on 2018-11-06T16:08:46Z
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Previous issue date: 2000-12-14 / A notória subutilização dos reservatórios do Nordeste do Brasil, mormente em sua
região semi-árida, derivando, regra geral, da ausência de um manejo adequado e de
instrumental técnico eficiente aplicáveis à funcionalidade dos seus perímetros de irrigação, desperta, quase sempre, o receio de esgotá-los. O uso mais racional dos recursos hídricos e a busca da maximização dos benefícios advindos de aproveitamentos hidráulicos já existentes, a fim de que as populações dessa área possam ser melhor atendidas, motivaram a elaboração deste trabalho. Neste contexto, procurou-se estudar a operação do sistema hídrico formado pelos reservatórios Jucazinho e Carpina, e três perímetros de irrigação, localizados na bacia do rio Capibaribe, em Pernambuco, com o objetivo de maximizar os benefícios financeiros líquidos advindos da agricultura irrigada e da piscicultura, atendidos o requerimento de água para o abastecimento urbano, prioritariamente, necessidades hídricas da regularização e controle de cheia. Para analisar o comportamento do sistema hídrico e tentar prover solução ótima para
a sua operação, foi aplicado o modelo ORNAP (Curi e Curi, 1999) de otimização, de base
mensal, apoiado em técnicas de programação não linear. A função objetivo que visa a
maximização do lucro da prática agrícola irrigada e piscicultura, é sujeita a restrições
diversas, representadas por equações de natureza linear e não linear, que traduzem no
processo de otimização, a nível mensal, as limitações físicas dos reservatórios, perímetros e equipamentos hidráulicos, limitações hidrológicas, legais, econômicas e sociais, que são próprias de sistemas de múltiplos usos Abordagens determinísticas foram necessárias, idealizando-se o futuro do sistema hídrico como conhecido através de cenários de planejamento, caracterizados por três situações climáticas distintas (média, seca e chuvosa), que são completados, basicamente, pela definição de valores para variáveis de entrada para o modelo, relacionadas aos elementos naturais e artificiais identificados como pertinentes ao sistema, que envolvem reservatórios, demandas de abastecimento urbano, calhas de rio e perímetros de irrigação. Os resultados otimizados para as diversas variáveis de decisão, como descargas dos reservatórios e áreas irrigadas, máximas e mínimas, são gerados para cada situação climática, combinadas com diferentes aspectos operacionais adotados para os reservatórios Jucazinho e Carpina. O estudo de otimização mostrou que, respeitadas as restrições operacionais impostas, neste estudo, à funcionalidade do sistema hídrico, as áreas máximas cogitadas para os perímetros não seriam totalmente irrigadas. Os resultados alcançados mostram a viabilidade do modelo ORNAP na prática do planejamento e gerenciamento de
reservatórios e perímetros, constituindo-se numa interessante ferramenta de apoio à tomada de decisão. / The not utilization in its full potential of the reservoirs in the Northeast of Brazil,
especially in its semi-arid area, derives, most of the time, of the absence of an appropriate
handling and the fear of empty them. The motivation for this work was the achievement of
a more rational use of the water resources and the search of the maximization of the
benefits generated by the hydraulic uses already existent, so that the population of that area can be better assisted. In this context, it is studied the operation of the water resource system formed by the reservoirs Jucazinho and Carpina, and three irrigation sites, located in the basin of the Capibaribe river, in Pernambuco, North-east Brazil, with the objective of maximizing the net income generated by the irrigated agriculture and fish farming, respecting the needs of water for urban uses, flow and flood control. To analyze the behavior of the water resources system in order to obtain an optimal solution for its operation, was applied an optimization model called ORNAP (Curi and Curi, 1999), of monthly base, based on a nonlinear optimization technique. The objective function that seeks the maximization of the profit of the irrigated agricultural and and extensive fishing activities, is subject to several constraints, represented by equations of linear and non linear nature that accounts, in the optimization process, at monthly level, for
the physical limitations of the reservoirs, perimeters and hydraulics equipment, hydrological limitations, legal, economical and social requirements, that are inherent of
water resource systems of multiple uses. A deterministic approach was necessary, where the future was idealized through planning scenarios, characterized by three different climate situations (average, dry and rainy). The optimal values assumed by the several decision variables, such as discharges of the reservoirs and irrigated areas for each crop, are generated for each climatic situation, taking in account the several operational aspects adopted for the reservoirs Jucazinho and Carpina. The optimization study showed that, respected the imposed operational constraints, in this study, the maximum areas cogitated for the perimeters would not be totally irrigated. The reached results show the viability of the model ORNAP for the planning and management of reservoirs and irrigated sites, constituting in an interesting tool for a decision support system.
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Microbiological and physico-chemical quality of surface and groundwater sources and its socio-economic impact in the Mpheni - Elim Village, Limpopo Province, South AfricaMaluleke, H. L. 02 1900 (has links)
MESHWR / Department of Hydrology and Water Resources / See the attached abstract below
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Determination of the mineral composition of water and soil samples from Tshipise thermal spring, Mphephu thermal spring and Siloam borehole using inductively coupled plasma mass spectrometry and x-ray fluorescence spectrometryDube - Johnstone, Nhlalo Michael 17 May 2019 (has links)
MSc (Chemistry / Department of Chemistry / In this study, three sampling sites (Tshipise thermal spring, Mphephu thermal spring
and Siloam borehole) in Limpopo Province South Africa were considered for an
investigation into the mineral composition of their water and soil samples. Tshipise
and Mphephu thermal springs are well developed and located within tourist resorts.
On the other hand, Siloam is a borehole on the grounds of a private household. The
water is used for various domestic purposes such as laundry, general cleaning of the
household and bathing. Water and soil samples from the three sites were collected
once per week every week in February 2018. The sampling bottles were spiked with
1M HNO3 before sampling to keep any metal ions present in the water samples in
solution. The soil and water samples were analysed for their chemical composition
using X-ray fluorescence (XRF) and inductively coupled plasma mass spectrometry
(ICP-MS) respectively. XRF analysis of the soil samples found many major oxides of
which SiO2 made up 63.67%, 85.37% and 46.28% by mass of Tshipise, Mphephu
and Siloam soil samples respectively. XRF analysis also showed the presence of
dangerous levels of heavy metals such as As, Tl, Pb and V. The analysis of the
water samples by ICP-MS found that Tshipise, Mphephu and Siloam mineral water
were soft, soft-moderately hard and soft-hard respectively with regards to the water
hardness scale according to the United States Geological Survey (USGS) and the
Water Quality Association (WQA). Analysis of water samples also found the
presence of As, Cd, Cr and V. Arsenic was found to occur at concentrations above
the Maximum Allowable Concentration (MAC) set by the World Health Organisation
(WHO) (10 μg L-1) for Tshipise, Mphephu and Siloam mineral water (13.63 μg L-1,
15.83 μg L-1 and 20.97 μg L-1 respectively). Water temperatures for the three sites
ranged from 38°C (Siloam borehole) to 64°C (Tshipise thermal spring). The pH
values were 7.25 (Siloam borehole), 7.40 (Mphephu thermal spring) and 8.67
(Tshipise thermal spring). Due to the presence of As, Tl, Pb, V, Cd and Cr, the
mineral water from all three thermal springs is unsafe to consume as it would lead to
serious negative health effects some of which are outlined in this study. / NRF
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Clay polymer nanocomposites as fluoride adsorbent in groundwaterNengudza, Thendo Dennis 18 May 2019 (has links)
MENVSC / Department of Ecology and Resource Management / Fluoride is one of the anionic contaminants which is found in excess in groundwater because
of geochemical reaction or anthropogenic activities such as the disposal of industrial
wastewaters. Among various methods used for defluoridation of water such as precipitation,
ion-exchange processes, membrane processes, the adsorptions process is widely used. It offers
satisfactory results and seems to be a more attractive method for the removal of fluoride in
terms of cost, simplicity of design and operation.
In this work, the preparation of clay polymer nanocomposites (CPNCs) used in defluoridation
began by modifying the original natural Mukondeni clay to render the layered silicate miscible
with the chosen polymer, microcrystalline cellulose. Clay polymer nanocomposites (CPNCs)
were synthesized using the melt intercalation method. Mukondeni black clay with
microcrystalline cellulose as polymers was melt mixed at 220 °C for 10 minutes in an extruder
for exfoliation of the resulting composite. Physicochemical characteristics and mineralogical
characteristics of the CPNC was determined using XRD, XRF, BET, FTIR and SEM. Batch
adsorption experiments were conducted to determine the efficiency of CPNCs in defluoridation
of groundwater. The pH, EC, TDS and fluoride concentration of field water was determined
using the CRISON MM40 multimeter probe and the Orion versastar fluoride selective
electrode for fluoride concentration.
Elemental analysis revealed that CPNC 1:1 is mainly characterized of cellulose, Quartz and
Albatite as the major minerals with traces of Montmorillonite, Ednite and Magnesium as minor
minerals constituting CPNC 1:1. The structure of 1:4 CPNC was partially crystalline and
partially amorphous showing increased cellulose quantity (1:4 clay to cellulose) as compared
1:1 CPNC, 1:2 CPNC and 1:3 CPNC.
Maximum adsorption of fluoride was attained in 10 minutes using 0.5g of 1:4 CPNC removed
22.3% of fluoride. The initial fluoride concentration for the collected field groundwater was
5.4 mg/L, EC 436 μS/cm, and TDS 282 mg/L. The regeneration potential of CPNCs was
evaluated through 3 successive adsorption desorption cycles. Fluoride removal decreased after
the first cycle for all ratios of CPNCs, a continued decreased can be observed following the
second cycle. CPNC 1:2 decreased from 9.32 % at the 1st cycle to 2.84 % and 0.56 % on the
2nd and 3rd cycle respectively. CPNC 1:4 decreased from 8.22 % at the 1st cycle to 4.80 % and
0.72 % on the 2nd and 3rd cycle respectively. The fluoride-rich Siloam groundwater had a
slightly alkaline pH of 9.6.
iv
The low adsorptive characteristic displayed by all 4 CPNCs can be deduced from the BET
analysis that revealed low surface area, pore volume, and pore size, it is evident from the BET
analysis that less fluoride will be absorb as adsorption sites will be limited.
Based on the findings of this study, recommendations are designing of correct preparation
techniques to obtain nanocomposites with desirable properties, polymer melting points and
evaporation point of the binder should be taken into consideration. / NRF
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Isotopic signatures and trace metals in geothermal springs and their environmental media within SoutpansbergDurowoju, Olatunde Samod 20 September 2019 (has links)
PhDENV / Department of Hydrology and Water Resources / Geothermal springs are natural geological phenomena that occur throughout the world. South Africa is endowed with several springs of this nature. Thirty-one percent of all geothermal springs in the country are found in Limpopo province. The springs are classified according to the residing mountain: Soutpansberg, Waterberg and Drakensberg. This study focused on the geothermal springs within the Soutpansberg region; that is, Mphephu, Siloam, Sagole and Tshipise. The study was aimed at elucidating on the isotopic signatures and trace metals concentrations from the geothermal springs to their environmental media in Soutpansberg region. This study also assessed the interconnectivity of the isotopic signatures within the ecosystem and evaluated the potential human health risks associated with trace metals from geothermal springs and surrounding soils in the study areas.
Geothermal springs and boreholes were sampled for a period of twelve months (May 2016 – May, 2017) to accommodate two major seasons in the study areas. The surrounding soils were sampled vertically from a depth of 10 cm to 50 cm for trace metals and isotopic compositions. Three different plants were sampled at each of the study sites, namely, Amarula tree, Guava tree and Mango tree at Siloam; Acacia tree, Fig tree and Amarula tree at Mphephu; Amarula tree, Lowveld mangosteen and Leadwood tree at Sagole; Sausage tree, Amarula tree and Acacia tree at Tshipise. To achieve the objectives, the physicochemical, geochemical and isotopic compositions of the geothermal springs, boreholes, soils and vegetation were analysed using ion chromatography (IC) (Dionex Model DX 500), inductively coupled plasma-mass spectrometer (ICP-MS), HTP-Elemental analyzer, Liquid water isotope analyzer (LWIA-45-EP) and Liquid scintillation analyzer. The temperature, electrical conductivity (EC), pH and total dissolved solid (TDS) of the geothermal springs and boreholes samples were measeured in situ and in the laboratory. Trace metals analysed in geothermal springs, boreholes, soil and vegetation include Beryllium (Be), Chromium (Cr), Manganese (Mn), Cobalt (Co), Nickel (Ni), Copper (Cu), Arsenic (As), Selenium (Se), Cadmium (Cd), Antimony (Sb), Barium (Ba), Vanadium (V), Zinc (Zn), and Mercury (Hg).
vii | Isotopic signatures and trace metals in geothermal springs and their environmental media within Soutpansberg
Results obtained from this study in the studied geothermal springs and boreholes were classified according to their temperature as hot and scalding; except for tepid boreholes. This study has provided comprehensive physicochemical, geochemical and isotopic compositions of the geothermal springs within the Soutpansberg region (Siloam, Mphephu, Sagole and Tshipise). The local meteoric line (δD = 7.56δ18O + 10.64) was generated from rainwater in Vhembe district. This is a crucial component for depicting the source and flow path of the geothermal springs/boreholes; and could be used for future isotopic hydrological studies within the locality. Rain formation processes within Soutpansberg occurred under isotopic equilibrium conditions with minor evaporation effect during rainfall. The δD and δ18O values of the geothermal spring water/boreholes confirm that the waters are of meteoric origin, which implies that rainfall is the fundamental component of these groundwaters because they were derived from the infiltration of rainwater, with significant contribution of another type of water in the deeper part of the aquifer. Na-Cl and Na-HCO3 were established as the water types, which are typical of marine and deep groundwaters which are influenced by the ion - exchange process. The reservoir/aquifer temperature of these springs ranges between 95 – 185°C (Na-K geothermometer), which implies most of the waters are mature water (not native). Hence, geothermal springs water is a mixture of the rainwater and salt water.
Radiocarbon values of the geothermal springs ranged from 2700 to 7350 BP, this implies that they are submodern and a mixture of submodern and modern waters. Tritium relative age also corroborates with radiocarbon age, that is the groundwaters were recharged before and after 1952. This gives an indication that the rainfall contributes to the geothermal springs recharge. Various radiocarbon correction models were employed and constrained by tritium relative age. Ingerson and Pearson, Eichinger and Fontes and Garnier correction models have been shown to be the most appropriate models for radiocarbon correction of groundwater in this semi-arid region. Although, geothermal springs water and boreholes are not fit for drinking due to high fluoride content, they could be used for the following: domestic uses (drinking exclusive) due to its softness, direct heating in refrigeration, green-housing, spa, therapeutic uses, aquaculture, sericulture, concrete curing, coal washing and power generation. In contrast with mentioned uses,
viii | Isotopic signatures and trace metals in geothermal springs and their environmental media within Soutpansberg
the studied geothermal springs are currently used for domestic purposes (drinking inclusive), limited irrigation and spa (swimming and relaxation).
This is an eco-hydrological study that shows the interconnectivity of isotopic signatures among water (rainwater, geothermal springs and boreholes), soils and vegetation. The soil-water reflects the rainwater/geothermal springs water in isotopic composition, which is more depleted as a result of isotopic fractionation in soil. δD values of soil-water increase, whereas δ13C values in soil-water decrease with the soil depth at all sites. Two equations connecting δD and δ13C in soil-water were deduced per season for soil-water; δ13C = 0.0812δD - 10.657 in winter; δ13C = -0.0278δD - 21.945 for summer. δ13C in soil-water is induced by Crassulacean Acid Metabolism (CAM) (mixture of C3 and C4 photosynthetic cycles) with a stronger C4 trend, which corroborates with δ13C of the geothermal springs. From literature, Amarula and Acacia trees have been documented for isotopic compositions, while this study has given additional information on other plants including Lowveld, Leadwood, Sausage, Fig, Guava and Mango trees. These plants are categorised as C3, C4 and CAM plants. C3 plants include Amarula, Lowveld and Leadwood trees; C4 plants include Acacia and Sausage trees; and CAM plants include Fig, Guava and Mango trees. This study shows that with CAM soils, there is a possibility of having either C3, C4 or CAM vegetation. This finding has shown that the δD and δ13C isotopes in water, soil and vegetation are interrelated, which has been statistically justified.
This study has shown the potential human health risks associated with trace metals concentrations from geothermal springs and their surrounding soils. From the geothermal spring’s water, it was found that As, Cr and Cd were the highest contributors to the cancer risk with children having a higher risk than adults. Whereas in soils, it was found that Cr, As and Co were the highest contributors to the cancer risk in the studied communities. Therefore, the cancer risk is high in the general population; that is 1 in 72-162 individuals in children and 1 in 7-107 individuals for adults. The ingestion route seems to be the major contributor to excess lifetime cancer risk followed by the dermal pathway. Therefore, proper monitoring and control measures to protect human health, particularly in children, should be implemented for safety. The study also explored the use of surrounding trees
ix | Isotopic signatures and trace metals in geothermal springs and their environmental media within Soutpansberg
for phytoremediation and found their uptake capacity to be high, thus, they could be used as bio-indicators to assess the level of contamination of trace metals in the soil.
In conclusion, this study has eludicated on the isotopic signatures and trace metals concentrations from the geothermal springs and their surrounding soils and vegetation within Soutpansberg. This study has contributed towards the advancement and enhancement of the existing knowledge of the geothermal systems, such that water resource management could be applied successfully in the respective areas with similar characteristics for the benefit of the local communities and society at large. Hence, this study recommends that proper monitoring and control measures need to be put in place to protect human health, especially in children. / NRF
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