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Bakterijų, augančių ant polietileninių paviršių, atranka ir identifikavimas / The selection and identification of bacteria, growing on the polyethylenical surfacesVaitkevičiūtė, Alma 08 September 2009 (has links)
Darbo tikslas buvo išskirti, identifikuoti bakterijas, įvertinti jų gebėjimą įsisavinti medžiagas, sudarytas iš daug anglies (C) atomų turinčių grandinių. Iš sandėlio – šaldytuvo, nuo sūrių polietileninių paviršių buvo surinkti pavyzdžiai ir, remiantis morfologiniais požymiais buvo išskirta 12 bakterinių kamienų. Įvertinus augimo priklausomybę nuo temperatūros, galima teigti, kad bakteriniai kamienai priklauso psichrofilams. Buvo analizuojamos fiziologines savybės: ląstelės sienelės tipas, cukrų rauginimas, želatinos hidrolizė, krakmolo hidrolizė, kazeino hidrolizė, triptofano skaidymas, oksidazės ir katalazės testai. Remiantis šių testų rezultatais, atlikta klasterinė analizė, nustatytas bakterinių kamienų panašumas. Kadangi bakterijos išskirtos nuo polietileninių paviršių, buvo įvertintas jų gebėjimas įsisavinti mažai anglies (C) atomų turinčius angliavandenilius (kaip polietileno fragmentus). Nustatyta, kad visi bakteriniai kamienai įsisavina tetradekaną, heksadekaną ir dokozaną. Vadinasi, per ilgą laiko tarpą analizuojami bakteriniai kamienai gali pradėti naudoti polietileną kaip anglies šaltinį. Identifikavimui buvo pasirinktas S7 bakterinis kamienas. Atlikus S7 bakterinio kamieno identifikavimą pagal 16 S RNR geno analizę, buvo nustatyta, kad tiriamas bakterinis kamienas - Staphylococcus genties atstovas. / The aim of this work was to isolate and identify microorganisms, to estimate their ability to assimilate the substances with a lot of chains with any number of carbon (C) atoms. There were collected the samples, from the surfaces of cheese polyethylene packing in the storeroom – fridge. In accordance with their morphology there were isolated 12 bacterial strains. There was estimated the bacterial strains dependence on the temperature. I can propose, that the bacterial strains belongs to the facultative psychrophyles (psychrotrophs). There were analyzed the physiological properties of the bacterial strain: the composition of the cell wall, sugar fermentation, gelatin hydrolysis, starch hydrolysis, casein hydrolysis, tryptophan degradation, oxidase and catalase tests. According to the results of these test, there was made the clusters analysis and was determined the similarity of the bacterial strains. There was estimated the ability to assimilate hydrocarbons as the fragments of polyethylene, because the bacterial strains were isolated from the polyethylene surfaces. According to the results, there was determined that the bacterial strains assimilated the tetradecane, hexadecane and docosane. It means that after a long time these bacterial strains would start to assimilate the polyethylene as a sole carbon source. There was chose up the S7 bacterial strain for the identification. According to the results of the 16 S RNA gene analysis, there was determined that the analysed... [to full text]
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Qualitative and Quantitative Characteristics Researches of Microorganisms in Mixed Loading Biofilter / Mikroorganimų kiekybinių ir kokybinių charakteristikų tyrimai mišrioje biofiltro įkrovojeŽarnauskas, Lukas 17 June 2009 (has links)
In the final master’s paper problems of environment air pollution are analysed, statistical data about air pollution from stationary and mobile pollution sources are provided and air pollution by VOC in Lithuania is separately analysed. Components of biofiltering process are described in detail: loading, biofilm, microorganisms; objectives and tasks of the paper are defined. Also, analysis of experimental research data is provided, from which it was determined that the most favourable medium for the microorganism growth is the foam cube faction of bioloading mixture. Most of the colonies have grown in the 1st cassette of the biofilter. Cultures of the mould fungus and bacteria were discovered, the percentage of distribution of which was respectively 5.7% and 94.3%. Furthermore, the final master’s paper provided the description of the methodology of quantitative and qualitative characteristics of the experimental research, determination of precise number of the microorganism colonies, operation principle of the biofilter, as well the results of the experimental research. Using the biological system growth models, the data of the performed experiment (the grown microorganism colony number cfu/g) were compared to the results calculated in theory and conclusions along with suggestions were provided. The paper concludes of 6 parts: introduction; literature overview, research methodology, research results and analysis, mathematical modelling of the biological systems, general... [to full text] / Baigiamajame magistro darbe išnagrinėtos aplinkos oro taršos problemos, pateikti statistiniai duomenys apie oro taršą iš stacionarių ir mobilių taršos šaltinių ir atskirai išanalizuota oro tarša LOJ Lietuvoje. Detaliai aprašyti biofiltracijos proceso komponentai: įkrova, bioplėvelė, mikroorganizmai, apibrėžti pagrindiniai darbo tikslai ir uždaviniai. Taip pat išnagrinėti eksperimentiniai tyrimų duomenys, iš kurių nustatyta, kad palankiausia terpė mikroorganizmams augti – bioįkrovos mišinio porolono kūbelių frakcija. Daugiausiai kolonijų užaugo I biofiltro kasetėje. Aptiktos pelėsinių grybų ir bakterijų kultūros, kurių procentinis pasiskirstymas atitinkamai 5.7% ir 94.3%.
Be to, baigiamajame magistro darbe aprašyta mikroorganizmų kiekybinių ir kokybinių charakteristikų eksperimentinių tyrimų metodika, tikslaus mikroorganizmų kolonijų skaičiaus nustatymas, biofiltro veikimo principas, pateikti eksperimentinių tyrimų rezultatai. Riboto ir neriboto augimo modeliais, atliktojo eksperimento duomenys (užaugusių mikroorganizmų kolonijų skaičius kfv/g) palyginti su teoriškai apskaičiuotais rezultatais, pateiktos išvados ir pasiūlymai.
Darbą sudaro 6 dalys: įvadas; literatūros apžvalga; tyrimų metodika; tyrimų rezultatai ir jų analizė; biologinių sistemų matematinis modeliavimas; bendrosios išvados ir pasiūlymai bei literatūros sąrašas.
Darbo apimtis – 98 p. teksto be priedų ir publikuotų straipsnių, 44 paveikslų, 7 lentelės, 35 bibliografinių šaltinių, 57 moksliniai straipsniai, 4... [toliau žr. visą tekstą]
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Karakterizacija biodegradabilnosti naftnih ugljovodonika u zemljištu i bioremedijacionih procesa u toku tretmana biogomilama i površinskom obradom / Characterisation of the biodegradability of petroleum hydrocarbons in soil and the bioremediation processes during treatment by biopiles and landfarmingMaletić Snežana 01 June 2010 (has links)
<p>U okviru ovog istraživanja ispitani su: (1) Procesi koji se odvijaju prilikom bioremedijacije zemljišta zagađenog naftom i derivatima nafte, koje je bilo izloženo spontanim abiotičkim i biotičkim procesima degradacije u toku 8 godina, tehnikama biogomila i površinske obrade na poluindustrijskoj (pilot) skali uz optimizaciju tehnoloških parametara sa ciljem povećanja efikasnosti i efektivnosti biodegradacije ugljovodonika; (2) Uticaj starenja, koncentracije, biodsotupnosti i strukture zagađujućih materija na procese biodegradacije i biotransformacije u kontrolisanim laboratorijskim uslovima. Tokom dve godine bioremedijacionog tretmana sadržaj mineralnih ulja opao je za 52% (od 27,8 g/kg do 13,2 g/kg) i 53% (od 23,2 g/kg do 10,8 g/kg), dok je sadržaj ukupnih ugljovodonika opao za 43% (od 41,4 g/kg do 23,4 g/kg) i 27% (od 35,3 g/kg do 25,8 g/kg) u biogomili i površinskoj obradi respektivno. Efikasnost uklanjanja mineralnih ulja iz zemljišta u dva posmatrana bioremedijaciona tretmana je praktično ista. Međutim, u pogledu sadržaja ukupnih ugljovodonika u biogomili uklonjeno je dva puta više ukupnih ugljovodonika (gledajući apsolutnu količinu ukupno uklonjenih ugljovodonika). Kinetika biodegradacije mineralnih ulja i ukupnih ugljovodonika u toku tretmana u biogomili u saglasnosti je sa kinetičkim modelima lnC=lnC<sub>0-</sub>kt i lnC=lnC<sub>0-</sub>kt<sup>0,5</sup>. Kinetika biodegradacije mineralnih ulja u toku površinske obrade relativno se dobro može opisati sa dva pomenuta kinetička modela, međutim, znatno bolju korelaciju pokazao je linearni model (C=C<sub>0-</sub>kt) primenjen na prvih 92 i poslednjih 200 dana eksperimenta. Promena sadržaja ukupnih ugljovodonika u toku površinske obrade zagađenog zemljišta relativno je u dobroj korelaciji samo sa kinetičkim modelom lnC=lnC<sub>0-</sub>kt<sup>0,5</sup>. Laboratorijska ispitivanja pokazala su da biodegradabilnost i sudbina ugljovodonika u životnoj sredini jako zavise od tipa, starosti i koncentracije zagađujućih materija. Naime, u slučaju zemljišta sveže kontaminiranog dizel uljem, već pri <br />koncentracijama od 20 mg/g uočen toksičan efekat koji je prevaziđen nakon dve nedelje tretmana kao posledica smenjenja prekomerne koncentracije rastvorenih ugljovodonika biotičkim i abiotičkim putem i adaptacije prisutne mikroflore. U slučaju većih koncentracija ovaj efekat je bio još izraženiji. Kod zemljišta kontaminiranog sirovom naftom isti efekat se javlja tek pri koncentraciji od 35 mg/g, kao posledica toga da sirova nafta sadrži manju količinu lako rastvornih ugljovodonika. Za razliku od sveže kontaminiranog zemljišta, na biodegradaciju starog naftnog zagađanja u zemljištu koncentracija nije imala uticaj, u ovakvom zemljištu respiracija je bila na veoma niskom nivou pri svim ispitivanim koncentracijama, ali ne kao posledica toksičnosti, već kao posledica činjenice da se degradabilni deo zagađujućih materija degradirao tokom procesa starenja, tako da su u zemljištu zaostali visokomolekularni teško rastvorni ugljovodonici (smole, asfaltne komponente i dr.) sekvestrovani u zemljištu. Merenja biodostupnosti ugljovodonika (ekstrakcijom sa Tween80) pokazala su da je u zemljištu sveže kontaminiranom dizel uljem i sirovom naftom i starim naftnim zagađenjem oko 95%, 85% i 40% ugljovodonika biodostupno, respektivno. Koncentracija rezidualne frakcije mineralnih ulja i ukupnih ugljovodonika dobijena nakon 48 dana laboratorijskog tretmana u skoro svim probama je veća od predviđenih, što je posledica bifaznog ponašanja ugljovodonika u zemljištu, gde se jedan deo uklanja biodegradacijom, dok drugi deo difunduje u pore zemljišta i kompleksira se sa zemljišnom organskom materijom. Količina ugljovodonika iz starog naftnog zagađenja zemljišta koja može da pređe u vodenu fazu je mala reda veličine nekoliko mg/l, međutim, u prirodnim uslovima usled spiranja ugljovodonika sa zemljišta kišom, postoji verovatnoća da ovi ugljovodonici dospeju u podzemnu vodu iznad maksimalno dozvoljene koncentracije za vodu za piće (MDK = 10 μg/l) i na taj način degradiraju njen kvalitet. Zbog nemogućnosti daljag uklanjanja zagađenja bioremedijacijom, preostala količina zagađujućih materija koja može dospeti u vodenu fazu bi trebalo da se ukloni nekim drugim remedijacionim tehnikama pre njegovog konačnog bezbednog odlaganja u životnu sredinu.</p> / <p>The aims of this study were to examine: (1) the processes that occur during bioremediation of soil contaminated by oil and oil derivatives, which was exposed to spontaneous abiotic and biotic degradation processes over 8 years, using pilot scale biopiles and landfarming techniques to optimise technological parameters with the aim of increasing the efficiency and effectiveness of hydrocarbons biodegradation. (2) the effect of contaminants weathering, concentration, bioavailability and structure on the biodegradation and biotransformation process under controlled laboratory conditions. Over the two years of bioremediation treatment by biopiles and landfarming, the mineral oil content decreased by 52% (from 27.8 g/kg to 13.2 g/kg) and 53% (from 23.2 g/kg to 10.8 g/kg), and the total hydrocarbon content decreased by 43% (from 41.4 g/kg to 23.4 g/kg) and 27% (from 35.3 g/kg to 25.8 g/kg), respectively. The efficiency of mineral oil removal from soil in these two applied bioremediation treatments was practically the same. However, in terms ofthe absolute amount of total hydrocarbons, twice as many total hydrocarbons were removed in the biopile. The mineral oil and total hydrocarbons biodegradation kinetics in the biopile were in good agreement with the kinetic models lnC = lnC0-kt and lnC = lnC0-kt0.5. The mineral oil biodegradation kinetics during the landfarming treatment is relatively well described with those two kinetic models, however, significantly better correlation is obtained by the linear model (C = C0-kt) applied to the first 92 and last 200 days of the experiment. The change in total hydrocarbons content during the landfarming treatment is in relatively good correlation only with the kinetic model lnC = lnC-kt0.5. The laboratory biodegradation investigation showed that hydrocarbon biodegradability and its fate in the environment strongly depend upon the structure, concentration and weathering of the hydrocarbons. Thus, in the case of diesel contaminated soil, as a consequence of its structure, i.e. the presence in a higher concentration of the soluble and toxic midrange n-alkanes, a toxic effect is detected at a diesel oil concentration of 20 mg/g, although this effect is overcome after two weeks, as a consequence of the decreasing concentration of soluble hydrocarbons in biotic and abiotic processes and microbial adaptation. This effect was more pronounced in the case of the soil withthe highest diesel oil concentration. In crude oil contaminated soil, a toxic effect was observed at a much higher hydrocarbon concentration (35 mg/g) than in the diesel oil contaminated soil, which corresponds to the fact that crude oil contains significantly less soluble hydrocarbon. In contrast to these two freshly contaminated soils, the weathered contaminated soil contaminant concentration did not have an effect on hydrocarbon biodegradation, with biodegradation in this soil actually at a low level at all concentrations, not as a consequence of toxicity, but because the degradable part of the contaminant was already degraded during the weathering process, leaving behind only highly condensed hydrophobic organic contaminants (asphaltenes, resins, etc.) sequestered in the soil. The data obtained for hydrocarbons bioavailability (by Tween80 extraction) showed that the bioavailable hydrocarbon fraction from soils freshly contaminated with diesel oil and crude and weathered oil contamination were approximately 95%, 85% and 40%, respectively. The concentration of residual mineral oil fractions and total hydrocarbons obtained after 48 days of laboratory biodegradability treatment in almost all batches was greater than predicted, as a result of the biphasic behaviour of hydrocarbons in the soil, where some were degraded or lost from the soil and some transformed into the recalcitrant fraction. The amount of hydrocarbons from the weathered soil contamination that can be transferred into the water phase is small, of the order of a few mg/l in magnitude, however, under natural conditions, due to hydrocarbons leaching by rainfall, it is possible that these hydrocarbons infiltrate groundwater above the maximum permissible concentration for drinking water (MAC = 10 μg/l) and thus degrade its quality. As it is not possible to achieve further contamination degradation by bioremediation, the remaining amount of pollutants which can be transferred into the water phase should be removed by some other remediation techniques before its final safe disposal in the environment.</p>
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Procena remedijacionog potencijala sedimenta zagađenog prioritetnim organskim zagađujućim materijama / Investigation of remediation potential of sediment polluted with priority organic pollutantsGrgić Marko 16 August 2019 (has links)
<p>Predmet istraživanja ove doktorske disertacije je procena potencijalno biodostupne frakcije odabranih prioritetnih organskih polutanata (pentahlorbenzena, heksahlorbenzena, lindana, trifluralina, 4-oktilfenola i 4-nonilfenola) u sedimentu, ispitivanje biodegradacionog potencijala ovih jedinjenja u sedimentu u različitim uslovima, kao i procena potencijala stabilizacije<br />sedimenta dodatkom ugljeničnih sorpcionih agenasa. U cilju razvoja metoda za određivanje biodostupnosti odabranih organskih polutanata ispitivane su i optimizovane metode višestepene i jednostepene parcijalne ekstrakcije primenom sledećih hemijskih agenasa: Tenaks smole, XAD-4 smole i rastvora ciklodekstrina (2-hidroksipropil-β-ciklodekstrina, β-ciklodekstrina i metil-β-ciklodekstrina). Optimalni agens za procenu biodostupne frakcije odabranih organskih zagađujućih materija sa sedimenta XAD-4 smola, a optimalno vreme ekstrakcije primenom jednostepenih ekstrakcija je oko 8 h. Procena biodegradacionog potencijala odabranih prioritetnih organskih zagađujućih materija u sedimentu ispitana je u različitim aerobnim i anaerobnim uslovima uz optimizaciju uslova putem biostimulacije i bioaugmentacije. Pokazano je da svih šest odabranih jedinjenja poseduju značajan potencijal biodegradacije u anaerobnoj sredini pri čemu u slučaju lindana i trifluralina dolazi do potpunog uklanjanja biodostupne količine jedinjenja primenom sva četiri ispitana inokuluma. Aerobni potencijal u ispitanim uslovima pokazali su samo alkil fenoli, gde je takođe uklonjena skoro celokupna količinabiodostupne frakcije jedinjenja u sedimentu (78-85%). Potencijal remedijacije sedimenta dodatkom ugljeničnih materijala ispitan je sa aspekta odabira ugljeničnih sorpcionih agenasa (aktivni ugalj, biougalj i humus); određivanja optimalne količine materijala; isptivanja dugoročnih i kratkoročnih efekata dodatka ovih agenasa na biodostupnost organskih zagađujućih materija kako bi se ispitao efekat starenja i toksičnosti dobijenih smeša. Rezultati stabilizacije zagađujućih supstanci u sedimentu pokazuju da: (1) povećanje doze sva tri sorpciona agensa dovodi do povećanja efikasnosti imobilizacije i smanjenja biodostupne frakcije odabranih organskih jedinjenja; (2) starenjem smeša sedimenta i sorbenata u toku prvih 90 dana dolazi do daljeg smanjenja biodostupne frakcije svih jedinjenja, nakon čega se biodostupna koncentracija ispitivanih jedinjenja primenom aktivnog uglja ne menja, dok primenom biouglja i humusa dolazi do porasta biodostupne frakcije jedinjenja. Testovi fitotoksičnosti su pokazali da je <em>Zea mays </em>akumulirao značajno veće količine ispitivanih jedinjenja iz netretiranog sedimenta u poređenju sa <em>Cucurbita pepo</em> i <em> Lactuca sativa. </em>Toksičnost smeša sedimenta sa aktivnim ugljom i humusom procenjena na osnovu inhibicije luminiscencije na <em>Vibrio fischeri</em> kao i ispitivanjem <em>Zea mays </em>germinacije i produkcije biomase je pokazala značajno smanjenje u odnosu na netretirani sediment. Akumulacija ispitivanih jedinjenja u biomasi <em>Zea mays </em>u netretiranom sedimentu je bila značajno veća u odnosu na sve smeše sedimenta i aktivnog uglja i humusa. Sva tri sorbenta pokazala su veliki remedijacioni potencijal za sediment zagađen organskim zagađujućim supstancama, ali je aktivni ugalj pokazao najbolje performance.</p> / <p>The aim of the research in this PhD dissertation is the assessment of the potentially biodegradable fraction of selected organic pollutants (pentachlorbenzene, hexachlorobenzene, lindane, trifluraline, 4-octylphenol and 4-nonylphenol) in the sediment, estimation of the biodegradation potential of these compounds in sediment in different conditions, as well as the assessment of the stabilization potential sediment by the sediment amendment with of carbon rich sorption agents. In order to develop and optimise methods for the bioavailability assessment of the selected organic pollutants, methods of multistage and single-step non exhaustive extraction were studied using the following chemical agents: Tenax resin, XAD -4 resin and a cyclodextrin solution (2-hydroxypropyl- β-cyclodextrin, β-cyclodextrin and methyl-β-cyclodextrin). Results showed that optimal agent for estimating the bioavailable fraction of selected organic pollutants from the sediment is XAD-4 resins, and that the optimum extraction time using single-step extraction is about 8 h. The assessment of the biodegradation potential of selected priority organic pollutants in the sediment was examined in various aerobic and anaerobic conditions, with the optimization of conditions through biostimulation and bioaugmentation. It has been shown that all six selected compounds possess significant biodegradation potential in the anaerobic environment, where in the case of lindane and trifluraline there is complete removal of the bioavailable amount of the compound using all four inoculum tested. Aerobic potential under the applied conditions has been showen only for alkyl phenols, where almost all of the bioavailable fraction of the compound in the sediment was removed (78-85%). The potential of sediment remediation with the amendment of sediment withcarbon rich materials was examined from the aspect of selecting carbon sorption agents (activated carbon, biochar and humus); estimation the optimal material doses; the long -term and short-term effects of the addition of these agents on the bioavailability of organic pollutants in order to examine the effect of aging and the toxicity of the resulting mixtures. The results of the stabilization of pollutants in the sediment show that: (1) increasing the dose of all three sorption agents leads to an increase in the immobilization efficiency and reduction of the bioavailable fraction of the selected organic compounds; (2) aging of the amended sediment during the first 90 days results in a further reduction of the biodegradable fraction of all compounds, after which the biodegradable concentration of the selected compounds remain the same in the case of activated carbon amendment, while the bioavailable fraction of the compound increases with the use of biohar and humus. Phytotoxicity tests showed that <em>Zea mays </em> accumulated significantly higher amount of selected organic pollutants from unamended sediment, comparing to <em>Cucurbita pepo </em> and <em>Lactuca sativa</em>. Toxicity of activated carbon and humus amended sediment assessed by <em>Vibrio fischeri </em> luminescence inhibition test and by measuring <em>Zea mays </em>germination and biomass yield was significantly reduced in the amended sediment samples. Accumulation of the selected organic pollutants in the <em>Zea mays</em> biomass in the unamended sediment were a significantly higher than in the humus and activated carbon amended sediment. Both sorbents show potential to be used as remediation agents for organically contaminated sediment, but activated carbon exhibited the better performance.</p>
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