Global ETD Search

391	Jordläkande växter : växters kapacitet att med fytoremediering rena förorenad mark - med exempel och förslag för Ockelbo järnvägsstation Olsson, Karin January 2011 (has links) Det här arbetet ger en orientering i växters olika förmågor att rehabilitera miljöskador och belyser möjligheten att använda växternas essentiella och varierande förmågor i miljöarbetet. De ämnen som har skadlig inverkan på miljön kallas för miljögifter. Både globalt och i Sverige har omloppet av många miljögifter ökat markant de senaste århundradet. Växter kan användas för att rena förorenad mark. De olika processerna när växter renar mark, vatten och luft från föroreningar samlas under begreppet fytoremediering. Det finns olika metoder och reningsprocesser inom fytoremediering. Växter kan dels ta upp och lagra föroreningar, bryta ned dem till ofarliga beståndsdelar samt förhindra så att de inte sprider sig ut i ekosystemet. I det här examensarbetet har föroreningssituation vid järnvägsstationen i Ockelbo använts som exempel för att konkretisera fytoremediering till en specifik plats. En beskrivning av de till platsen relaterade föroreningarna arsenik, bly, kadmium, kvicksilver, koppar, zink, PAH (polycykliska aromatiska kolväten) och olja presenteras tillsammans med aktuella fytoremedieringsmetoder och grödor för respektive förorening. Som slutsats bedöms fytoremediering vara möjligt för järnvägsstationen i Ockelbo. Fördelar och nackdelar med fytoremediering på stationen lyfts fram och möjliga parallella användningsområden medan fytoremedieringen pågår diskuteras. Vidare diskussion förs kring fytoremediering, miljöfrågor och rådande regelverk och logistik i Sverige. Arbetet innefattar ett förslag till utformning av fytoremediering på stationsområdet. Förslaget inkluderar ett växtval av olika fytoremedieringsgrödor lämpliga för platsen. Phytoremediation Phytoextraction Hyperaccumulation Phytodegradation Rhizodegradation Phytostimulation Phytoevaporation Vegetative Cover System Phytostabilization Hydraulic Control Rhizofiltration fytoremediering jordläkande växter Fytoextraktion Hyperackumelering Fytodegradering Rotzonsnedbrytning Fytostimulering Fytotäckning Fytoavdunstning Fytostabilisering Fytostabilisering Rhizofiltrering Ockelbo Järnvägsstation Arsenik Bly Kadmium Kvicksilver Koppar Zink PAH Olja oljeföroreningar förorenad mark marksanering fytosanering in-situ växter
392	Research on heavy metals in roadside and evaluation of heir influence on the environment / Sunkiųjų metalų pakelėse tyrimai ir įtakos aplinkai vertinimas Jankaitė, Audronė 04 December 2007 (has links) Soil contamination with heavy metals is a problem of worldwide concern that is still unsolved. The analysis of the current methods of soil cleaning from heavy metals leads to conclusions that phytoremediation, i.e. soil decontamination by using plants, is one of the best methods. Although this method has not received a wide application yet and possibilities of its application are still being analysed, it is one of the most prospective soil cleaning methods due to low cost and a rather efficient cleaning of the upper surface of soil. Three kinds of Poaceae f. Species – Lolium perenne L., Poa pratensis L. and Festuca pratensis Huds. – have been chosen in this work for decontaminating soil from heavy metals. These plants were grown under artificial laboratory conditions in soil which was once and periodically contaminated with heavy metals. It was established that it is the Lolium perenne L. that most efficiently removes heavy metals and cleans soil. The results of experiments show that the selected grassy plants (perennial ryegrass, meadow-grass and fescue-grass) efficiently clean soil from heavy metals (copper, lead, manganese, zinc, nickel and chromium) when soil contains both low (0.5–120 mg/kg) and high (up to 6,850 mg/kg) concentrations of these metals. Since the perennial ryegrass absorbs the highest amount of heavy metals, the highest efficiency of soil cleaning is achieved using this plant, therefore, 80 % of the mixture of grassy plants was formed of the perennial... [to full text] / Dirvožemio tarša sunkiaisiais metalais visame pasaulyje aktuali problema iki šiol neturinti universalaus sprendimo. Išanalizavus šiuo metu dirvožemio valymui nuo sunkiųjų metalų naudojamus metodus, galima daryti išvadą, kad vienas iš tinkamiausių metodų yra fitoremediacija, t. y. dirvožemio valymas nuo teršalų panaudojant augalus. Šis metodas dar nėra plačiai taikomas ir jo taikymo galimybės dar tik tiriamos tačiau, tai vienas iš perspektyviausių dirvožemio valymo metodų dėl sąlyginai mažos kainos ir pakankamai efektyvaus paviršinio dirvožemio sluoksnio išvalymo. Atliktų eksperimentinių tyrimų rezultatai parodė, kad pasirinkta žolinė augalija – daugiametė svidrė, pievinė miglė ir tikrasis eraičinas efektyviai valo dirvožemį nuo sunkiųjų metalų (vario, švino, mangano, cinko, nikelio, chromo) tiek esant mažoms (0,5–120 mg/kg), tiek didelėms (iki 6850 mg/kg) jų koncentracijoms dirvožemyje. Kadangi daugiausiai sunkiųjų metalų iš dirvožemio sorbuoja svidrė, tai dirvožemio valymo efektyvumas naudojant šią žolinės augalijos rūšį yra efektyviausias ir sudarant žolinės augalijos mišinį 80  sudarė svidrė ir po 10  eraičinas bei miglė. Eksperimentų metu tirta, kaip sunkiųjų metalų mišinio koncentracijos kenkia hidrobiontams ir nustatyta, kad didinat sunkiųjų metalų mišinio koncentracijas (iki 0,198–5,12 g/l) jos tampa letalinėmis vaivorykštiniam upėtakiui, tuo pačiu ir kitiems vandens gyvūnams.Pagal tyrimų su vaivorykštiniais upėtakiais rezultatus nustatyta, kad stebimų... [toliau žr. visą tekstą] Phytoremediation Perennial ryegrass (Lolium perenne L.) Meadow-grass (Poa pratensis L.) Fescue grass (Festuca pratensis Huds.) Rainbow trout (Oncorhynchus mykiss) Fitoremediacija Daugiametė svidrė (Lolium perenne L.) Pievinė miglė (Poa pratensis L.)
393	Sunkiųjų metalų pakelėse tyrimai ir įtakos aplinkai vertinimas / Research on heavy metals in roadside and evaluation of their influence on the environment Jankaitė, Audronė 04 December 2007 (has links) Dirvožemio tarša sunkiaisiais metalais visame pasaulyje aktuali problema iki šiol neturinti universalaus sprendimo. Fitoremediacija – naujai atsirandanti ir daug žadanti technologija nestipriai užterštiems dirvožemiams valyti naudojant augalus. Šiame darbe dirvožemio valymui nuo sunkiųjų metalų pasirinktos trys žolinės augalijos rūšys – svidrė, miglė ir eraičinas, augintos modelinėmis laboratorinėmis sąlygomis vieną kartą ir periodiškai sunkiaisiais metalais teršiamuose dirvožemiuose. Nustatyta, kad geriausiai sunkiuosius metalus iš dirvožemio sorbuoja ir didžiausias dirvožemio valymo efektyvumas pasiekiamas naudojant svidrę. Augalijai sorbuojant sunkiuosius metalus iš dirvožemio dalis šių metalų (Cu, Cr, Zn, Pb, Mn, Ni) koncentruojasi žolinės augalijos šaknyse, tačiau didžioji dalis ten susikaupiančių metalų (iki 90 proc.) pereina į antžeminę augalo dalį. Didžiausios sunkiųjų metalų koncentracijos augale (iki 60 proc. ir daugiau) ir atitinkamai efektyviausias dirvožemio valymas nustatytas svidrės atveju, todėl sudarant mišinį didžiąją dalį (80 proc.) jame sudaro svidrė. Sunkiųjų metalų mišinys daro neigiamą įtaką vaivorykštinio upėtakio jauniklių fiziologiniams ir morfologiniams rodikliams, todėl didinat sunkiųjų metalų mišinio koncentracijas (iki 0,198–5,12 g/l) jos tampa letalinėmis vaivorykštiniams upėtakiams, tuo pačiu ir kitiems vandens gyvūnams. Pagal tyrimų su vaivorykštiniais upėtakiais rezultatus nustatyta, kad stebimų upėtakių, gyvenusių akvariume, užterštame 5,7... [toliau žr. visą tekstą] / Soil contamination with heavy metals is a problem of worldwide concern that is still unsolved. The analysis of the current methods of soil cleaning from heavy metals leads to conclusions that phytoremediation, i.e. soil decontamination by using plants, is one of the best methods. Although this method has not received a wide application yet and possibilities of its application are still being analysed, it is one of the most prospective soil cleaning methods due to low cost and a rather efficient cleaning of the upper surface of soil. Three kinds of Poaceae f. Species – Lolium perenne L., Poa pratensis L. and Festuca pratensis Huds. – have been chosen in this work for decontaminating soil from heavy metals. These plants were grown under artificial laboratory conditions in soil which was once and periodically contaminated with heavy metals. It was established that it is the Lolium perenne L. that most efficiently removes heavy metals and cleans soil. The results of experiments show that the selected grassy plants (perennial ryegrass, meadow-grass and fescue-grass) efficiently clean soil from heavy metals (copper, lead, manganese, zinc, nickel and chromium) when soil contains both low (0.5–120 mg/kg) and high (up to 6,850 mg/kg) concentrations of these metals. Since the perennial ryegrass absorbs the highest amount of heavy metals, the highest efficiency of soil cleaning is achieved using this plant, therefore, 80 % of the mixture of grassy plants was formed of the perennial... [to full text] Fitoremediacija Daugiametė svidrė (Lolium perenne L.) Pievinė miglė (Poa pratensis L.) Phytoremediation Perennial ryegrass (Lolium perenne L.) Meadow-grass (Poa pratensis L.) Fescue grass (Festuca pratensis Huds.) Rainbow trout (Oncorhynchus mykiss)
394	Étude des communautés microbiennes rhizosphériques de ligneux indigènes de sols anthropogéniques, issus d’effluents industriels / Study of rhizosphere microbial communities from native woody species collected on anthropogenic soils made of industrial effluents Zappelini, Cyril 03 July 2018 (has links) Mon sujet de thèse intègre l’un des projets globaux de l’UMR UFC/CNRS 6249 Chrono-Environnement intitule « stratégies de phytoremédiation basées sur l’utilisation d’arbres et de microorganismes associés », qui s’appuie, entre autre, sur 2 projets de recherche :• le projet PROLIPHYT (programme Eco-Industrie, 2013-2018, ADEME) intitulé « PROduction de LIgneux PHYtoremédiants»,• le projet PHYTOCHEM (ANR CD2i, 2013-2018) intitulé « Développement de procédés chimiques éco-innovants pour valoriser les biomasses issues des phytotechnologies ».Les objectifs généraux sont d’améliorer le potentiel de phytoremédiation d’un panel d’espèces ligneuses et de développer le potentiel microbien pour une phytoremédiation aidée sur sol contaminé. En plus de limiter l’impact des polluants, cette stratégie vise à promouvoir la production de biomasse sur sols délaissés et non exploitables par l’agriculture, tout en assurant la biodiversité nécessaire à la restauration d’un écosystème anthropogénique.Mon travail de thèse est financé au travers un contrat doctoral ministériel handicap (dyslexie). Il s’appuie sur la réhabilitation de deux zones de stockage de sédiments industriels, utilisés jusque dans les années 2000. Ces deux sites expérimentaux (site INOVYN de St Symphorien-sur-Saône en Côte d’Or, site CRISTAL de l’Ochsenfeld en Alsace) présentent des caractéristiques physico-chimiques très particulières qui en font des lieux d’étude privilégiés. Le premier est une ancienne lagune de décantation dont les sédiments enrichis en Hg, Ba et As proviennent du traitement des eaux usées issues du procédé d’électrolyse à Hg de l’entreprise SOLVAY. Le second est une lagune constituée d’un remblai dans lequel ont été stockés depuis les années 1930, les résidus d’extraction du dioxyde de titane de l’Usine CRISTAL de Thann. A l’inverse du premier site expérimental, on observe une flore peu abondante qui se traduit par un développement hétérogène d’une espèce ligneuse principale, le bouleau.La recolonisation naturelle et spontanée de végétaux, plus particulièrement d’espèces ligneuses sur les deux sites est sans doute le résultat d’étroites collaborations avec des microorganismes telluriques situés aux abords de leur système racinaire. Nous avons ainsi choisi de travailler sur 3 espèces pionnières qui se sont naturellement réimplantées sur les deux sites d’études : le saule et le peuplier pour la friche industrielle de Tavaux et le bouleau pour l’unité de traitement des effluents du site de l’Ochsenfeld. / AbstractMy thesis subject includes one of the global projects of the UMR UFC/CNRS 6249 Chrono-Environnement entitled "phytoremediation strategies based on the use of trees and associated microorganisms", which is based, among other things, on 2 research projects:• the PROLIPHYT project (Eco-Industry programme, 2013-2018, ADEME) entitled "Production of woody phytoremediants",• the PHYTOCHEM project (ANR CD2i, 2013-2018) entitled "Development of eco-innovative chemical processes to exploit biomasses from phytotechnologies".The general objectives are to improve the phytoremediation potential of a panel of woody species and to develop the microbial potential for assisted phytoremediation on contaminated soil. In addition to limiting the impact of pollutants, this strategy aims to promote the production of biomass on land abandoned and not exploitable by agriculture, while ensuring the biodiversity needed to restore an anthropogenic ecosystem.My thesis work is financed through a ministerial doctoral contract for disability (dyslexia). It is based on the rehabilitation of two industrial sediment storage areas, used until the 2000s. These two experimental sites (INOVYN site of Saint-Symphorien-sur-Saône in Côte-d'Or, CRISTAL site of Ochsenfeld in Alsace) present very particular physico-chemical characteristics which make them privileged places of study. The first is a former settling lagoon whose sediments enriched in Hg, Ba and As come from the treatment of wastewater from SOLVAY's Hg electrolysis process. The second is a lagoon consisting of a backfill in which the titanium dioxide extraction residues from the CRISTAL Thann Plant have been stored since the 1930s. In contrast to the first experimental site, there is a low abundance of flora which results in heterogeneous development of a main woody species, the birch.The natural and spontaneous recolonisation of plants, more particularly woody species on both sites, is undoubtedly the result of close collaboration with telluric microorganisms located near their root systems. We have thus chosen to work on 3 pioneer species that have naturally relocated to the two study sites: willow and poplar for the industrial wasteland of Tavaux and birch for the effluent treatment unit at the Ochsenfeld site. Ecologie microbienne Phytoremédiation Microbiologie Plant Growth Promoting Rhizobacteria Sol anthropogénique Tailings Milieu naturel Sol non-perturbé Salicacés Peuplier saule Bétulacées Bouleau Rhizobactéries Diversité Identification Caractérisation Microbiologie environnementale Ochsenfeld Site INOVYN de Tavaux Microbial ecology Phytoremediation Microbiology Plant Growth Promoting Rhizobacteria Métabarcoding Tailings Natural environnement Anthropogenic soil Undisturbed soil Salicaceae Poplar willow Betulaceae Rhizobacteria Metabarcoding Diversity Identification Characterization Ochsenfeld INOVYN site of Tavaux 579
395	Fitorremediação e gessagem em solo afetado por sais. / Phytoremediation and plastering in soil affected by salts. SILVA, João Jones. 15 May 2018 (has links) Submitted by Johnny Rodrigues (johnnyrodrigues@ufcg.edu.br) on 2018-05-15T17:40:46Z No. of bitstreams: 1 JOÃO JONES DA SILVA - DISSERTAÇÃO PPGSA PROFISSIONAL 2015..pdf: 1781652 bytes, checksum: 5ecbeafd5b48184bce3785273190c6dd (MD5) / Made available in DSpace on 2018-05-15T17:40:46Z (GMT). No. of bitstreams: 1 JOÃO JONES DA SILVA - DISSERTAÇÃO PPGSA PROFISSIONAL 2015..pdf: 1781652 bytes, checksum: 5ecbeafd5b48184bce3785273190c6dd (MD5) Previous issue date: 2015-09-29 / A Região Nordeste do Brasil é caracterizada por clima semiárido, sendo os volumes precipitados normalmente inferiores à evaporação e, tornando o uso da irrigação imprescindível para uma produção agrícola sustentável, entretanto, o manejo inadequado da irrigação atrelado às condições locais, tem favorecido os processos de salinização e sodificação de solos, promovendo a degradação e o abandono de extensas áreas anteriormente produtivas. Entre as áreas afetadas por sais nessa região, destaca-se o Perímetro Irrigado de São Gonçalo - PB em situação de degradação de solos com problemas de sais, isso ensejou a propositura de estudar métodos e técnicas visando o melhoramento das características físicas e químicas do solo. O experimento foi instalado em área previamente identificada como possuidora de solo salino-sódico no Perímetro Irrigado de São Gonçalo, e para a recuperação fez-se da aplicação dos métodos e da técnica da fitorremediação com Erva-Sal (Atriplex numulária L.), Capim-pé-de-galinha (Eleusine indica L.), Salsa - Brava (Ipomoea asarifolia L.) e Gesso agrícola. A pesquisa constou de oito tratamentos, com quatro repetições, os tratamentos foram submetidos a um delineamento em blocos casualizados (DBC), com os seguintes tratamentos: i) cultivo de atriplex; ii) cultivo de capim-pé-galinha, iii) cultivo de salsa, iv) solo com gesso; v)aplicação de gesso agrícola associado ao cultivo de atriplex; vi)aplicação de gesso agrícola associado ao cultivo de capim pé-de-galinha; vii)aplicação de gesso agrícola associado ao cultivo de salsa e viii) solo sem manejo (testemunha), numa área total de 62 m² conduzido em campo, em parcelas de 1,40 x 1,40 m. Com esse estudo pretende-se recuperar solo afetados por sais, utilizando um método alternativo, mais viável economicamente e sustentável através de plantas capazes de extrair os sais em excesso do solo. / Brazil's Northeast region is characterized by semi-arid climate, and the precipitated volumes usually lower than the evaporation and, making use of vital irrigation for sustainable agricultural production, however, inadequate irrigation management linked to local conditions, has favored processes salinization and sodification soils, promoting the degradation and abandonment of extensive formerly productive areas. Among the areas affected by salts in this region, we highlight the Irrigated Perimeter of São Gonçalo - PB in soil degradation situation with salt problems and this gave rise to the filing of study methods and techniques aimed at improving the physical and chemical characteristics ground. The experiment was installed in previously identified area as saline-sodic soil possessed in the Irrigated Perimeter of São Gonçalo, and the recovery was made of the application of methods and phytoremediation technique with herb-salt (Atriplex moneywort L.), grass crow's foot bath (Eleusine indica L.), Salsa - Brava (Ipomoea asarifolia L.) and Agricultural Gypsum. The survey consisted of eight treatments, with four replications, the treatments were subjected to a randomized block design (RBD), with the following treatments: i) atriplex cultivation; ii) grass-foot-chicken farming, iii) salsa culture, iv) soil with gypsum; v) application of gypsum associated with atriplex cultivation; vi) application of gypsum associated with grass growing chicken's foot; vii) application of gypsum associated with the parsley cultivation and viii) soil without management (control), a total area of 62 m² conducted under field conditions in portions of 1.40 x 1.40 m. With this study we intend to recover salt affected soil, using an alternative method more economically viable and sustainable through plants capable of extracting soil excess salts. Ciências Agrárias. Atriplex numulária L. Eleusine indica L. Ipomoea asarifolia L. Recuperação do solo Solidificação do solo Salinização do solo Fitorremediação do solo Gessagem do solo Capim-pé-de-galinha Salsa - Brava Gesso agrícola Pedologia Solidification of soil. Phytoremediation of soil Solos com problemas de sais Soil with salt problems
396	Bioremédiation de sols en milieu nordique : des ressources locales pour traiter une variété d’hydrocarbures pétroliers et autres contaminants avec la phytoremédiation, la mycoremédiation et l’aide de matières résiduelles fertilisantes Robichaud, Kawina 04 1900 (has links) Les hydrocarbures pétroliers sont expédiés et utilisés dans pratiquement toutes les parties du monde et sont devenus l’un des contaminants parmi les plus communs et les plus répandus dans les sols. Les éléments traces sont parfois associés aux hydrocarbures, ce qui peut augmenter la toxicité d’un site, compliquer les voies possibles de remédiation, et augmenter les coûts de traitements traditionnels. Dans les régions nordiques, où des déversements sont recensés dans de nombreux sites, le temps de nettoyage des contaminants et les coûts des méthodes d’assainissement traditionnelles peuvent s’avérer considérablement plus élevés que dans les régions tempérées. Des recherches alternatives visant une remédiation plus rapide et moins coûteuse, adaptée à des climats subarctiques, sont nécessaires et l’utilisation de plantes et champignons indigènes à l’écosystème local sont des approches prometteuses. En parallèle, les gouvernements de multiples pays visent à réduire les émissions de gaz à effet de serre, notamment par la réduction des déchets putrescibles voués à l’enfouissement. En utilisant ces matières résiduelles fertilisantes obtenues localement dans le processus de décontamination, une opportunité se présente pour valoriser ces matières tout en décontaminant des sites. Cette recherche doctorale vise à développer des méthodes de bioremédiation adaptées aux conditions locales, avec des intrants indigènes aux régions d’étude, pour des sols contaminés aux HCP au sein de trois projets de recherche à grande échelle sur le terrain, dont un également contaminé aux éléments traces. Deux projets ont été effectués dans un climat subarctique au 60° parallèle (Whitehorse, Yukon), en utilisant une approche novatrice de phytoremédiation assistée de champignons et compost municipal; nous qualifions cette technique intégrée d’approche par « microsystème écologique ». Comme le volume de sol affecte beaucoup l’efficacité des méthodes de bioremédiation, des volumes considérables de 0.15 m3 et 1 m3 ont été utilisés (au premier et deuxième site, respectivement), pour maximiser la pertinence des résultats lors de transfert d’échelles futures. Au premier site, l’efficacité des différentes composantes du microsystème a été évaluée en bacs dans quatre différentes combinaisons et comparée au traitement de base habituel (fertilisant) dans un sol contaminé par un déversement accidentel de diésel. La plante choisie était le saule Salix planifolia et le champignon Pleurotus ostreatus. Les résultats indiquent qu’après une saison de traitement, le microsystème était le traitement avec le taux d’élimination du diésel le plus rapide. Après trois saisons, les traitements contenant un ou plusieurs éléments du microsystème avaient des taux de contamination sous les normes pour des sols agricoles et étaient plus efficaces que le traitement au fertilisant ou que l’atténuation naturelle. Le deuxième site était une fosse à huiles usées située sur une pile de stériles miniers au cœur d’un ancien dépotoir. Le microsystème a été implanté dans des cellules au sol avec une doublure à l’épreuve du lessivât de contaminants. Les saules Salix alaxensis et Salix planifolia furent utilisés en combinaison avec le champignon Trametes versicolor. Cette approche, dans un sol hautement contaminé, a réussi à diminuer de façon considérable les hydrocarbures pétroliers (plus de 65 à 75 %). Le potentiel d’accumulation des métaux dans les tissus aériens des plantes a également été mesuré. Les deux espèces de saules ont démontré des taux d’accumulation d’éléments traces distincts et des stratégies racinaires différentes. Un champignon de la famille des Psathyrellaceae fut observé pour la première fois sur un site si hautement contaminé, puis est apparu de façon récurrente sur les cellules du microsystème pendant quatre ans. Les deux premiers sites répondent à un besoin de développer des méthodes de bioremédiation efficaces, passives et applicables en climat subarctique. Le troisième site de recherche porte sur l’utilisation de deux matières résiduelles fertilisantes (bois raméal fragmenté et drêche) et de fumier pour la dégradation de l’huile à moteur dans un climat continental humide à une latitude moyenne (Neuville, Québec). Des mésocosmes de 0.76 m3 avec aération contrôlée furent utilisés. L’utilisation de bois raméal fragmenté et de drêche de brassage à cette échelle, de même que l’acquisition des matières résiduelles dans un rayon très rapproché du centre de traitement afin d’explorer une approche d’économie circulaire dans un tel contexte, constituent les volets novateurs de cette étude. Les résultats démontrent que le fumier est plus efficace que le traitement habituel au fertilisant. La drêche de brassage et le bois raméal fragmenté sont utiles pour conserver l’humidité dans les sols (un paramètre de bioremédiation important). Cette étude, menée en collaboration avec un partenaire industriel, s’intègre dans la politique canadienne et québécoise de réductions des gaz à effets de serre et la philosophie de l’économie circulaire en valorisant des matières organiques résiduelles locales. Cette thèse a permis de démontrer qu’une combinaison de stratégies de bioremédiation avec des composantes locales est une méthode efficace dans un climat subarctique. Deux nouvelles espèces de saules (Salix planifolia et Salix alaxensis) ont été utilisées avec succès pour la bioremédiation d’hydrocarbures pétroliers et pour l’accumulation de certains éléments traces. Lors d’une collaboration avec un partenaire industriel, il a été possible de démontrer l’applicabilité de certains concepts d’économie circulaire et d’approche écosystémique en bioremédiation. / Petroleum hydrocarbons are shipped and used in virtually all parts of the world and have become one of the most common and widespread contaminants in soils. Trace elements are sometimes associated with them, and they can increase the toxicity of a site, complicate remediation, and increase the costs of traditional treatments. In northern areas where spills occur at multiple sites, the clean-up time and cost of traditional remediation methods can be significantly higher than in temperate regions. Alternative research aimed at faster and cheaper remediation adapted to subarctic climates is needed and the use of native plants and fungi integrated into the local ecosystem are promising approaches. Concurrently, governments in multiple countries aim to reduce greenhouse gas emissions, namely through the reduction of putrescible waste destined for landfills. By using locally-sourced residual fertilizing materials for decontamination processes, an opportunity arises to valorize these materials while restoring soils. This doctoral research aims to develop locally-adapted bioremediation methods, with indigenous plant and fungal inputs, to treat petroleum hydrocarbon contaminated soils in three large-scale field research projects, including one also contaminated with trace elements. Two projects were carried out in a subarctic climate at the 60 ° parallel (Whitehorse, Yukon), using an innovative approach of phytoremediation assisted by mushrooms and municipal compost; we call this integrated technique the "ecological microsystem" approach. Because soil volume has significant impacts on the efficiency of bioremediation methods, considerable volumes of 0.15 m3 and 1 m3 were used (at the first and second sites, respectively) to maximize the relevance of results in the event of a scale-up operation. At the first site, the effectiveness of the various components of the microsystem were evaluated in four different combinations, as well as compared to the usual basic treatment (fertilizer) in soil contaminated by an accidental diesel spill. The plant species chosen was Salix planifolia and Pleurotus ostreatus was selected for the fungus. Results indicate that after one treatment season, the microsystem was the treatment with the fastest diesel removal rates. After three seasons, treatments containing one or more elements of the microsystem were below standards for agricultural soils and were more effective than fertilizer treatment or natural attenuation. The second northern site was a waste oil pit located on top of a mine waste rock pile, at the heart of an old landfill. The microsystem was implanted into ground-level cells with a contaminant-proof leachate liner. The plant species Salix alaxensis and Salix planifolia were used in combination with the fungus Trametes versicolor. This approach in a highly contaminated soil was able to significantly reduce petroleum hydrocarbons (65 to 75%). The potential for metal accumulation in aerial plant tissues was also measured. Both willow species demonstrated distinct trace element accumulation patterns and different rooting strategies. A fungus of the Psathyrellaceae family was observed for the first time at a site so highly contaminated and was recurrent on the cells of the microsystem for 4 years. The first two sites contribute to the development of efficient and passive bioremediation methods applicable in subarctic climates. The third research site focused on the use of two residual fertilizing materials (fragmented rameal wood and brewer’s spent grain) and manure for the degradation of motor oil in a humid continental climate at a medium latitude (Neuville, Quebec). Mesocosms of 0.76 m3 with controlled aeration were used. Innovative aspects of this project include the use of rameal wood and spent grain at this scale, as well as the acquisition of residual materials in a very close radius of the treatment center to explore how a circular economy approach could apply in such a context. Results indicate that the addition of manure is more effective than the usual fertilizer treatment alone. Brewer’s spent grain and fragmented rameal wood were useful for maintaining soil moisture (an important bioremediation parameter) but did not increase degradation. This study, conducted in close collaboration with an industrial partner, falls under the objectives set by Canadian and Quebec policy on greenhouse gas reductions and circular economy approaches by working on the valorization of local residual organic matter. This thesis has demonstrated that combining strategies with local biological components is an effective bioremediation method in a subarctic climate. Two new willow species (Salix planifolia and Salix alaxensis) have been successfully used for the bioremediation of petroleum hydrocarbons and for the accumulation of certain trace elements. In collaboration with an industrial partner, it has been possible to demonstrate the applicability of certain circular economy concepts and the ecosystemic approach to bioremediation. Bioremédiation Climat nordique Phytoremédiation Mycoremédiation Hydrocarbures pétroliers Éléments traces Matières résiduelles fertilisantes Bioremediation Phytoremediation Cold climate Mycoremediation Petroleum hydrocarbons Trace elements Metals and metalloids Contaminated sites Sites contaminés Économie circulaire Circular economy Ecological microsystem Approche écosystémique Microbiome du sol Soil microbiome Génomique Genomic Ecosystemic approach Microsystème écologique Métaux et métalloïdes
397	Quantification of the bioccumulation potential of various chemical elements from coal fly ash using Brassia juncea and Spinacia oleracea L and its implication for phytoremediation of coal fly ash dumps Mashau, Aluwani Shiridor 18 September 2017 (has links) MENVSC / Department of Ecology and Resource Management / South Africa is highly dependent on coal for production of electricity. The combustion of coal for electricity generation produces waste by-products which include fine ash (fly ash) and coarse ash. Fly ash (FA) is produced in large amounts while its utilization is low due to its classification as a hazardous material. Sasol produces about 7 million tons of FA, while Eskom produces about 28 million tons of coal FA annually. FA is a fine by-product from pulverized coal with detrimental effects on plants, soil or land, animals and human beings, and pollutes the air. The present investigation focuses on the examination of the chemical elements bioaccumulation and phytoremediation potential of Indian mustard (Brassica juncea) and Spinach (Spinacia Oleracea L). X-ray fluorescence (XRF) was used to analyze the elemental composition of FA and soil, Scanning Electron Microscope (SEM) to examine the morphology, while X-ray diffraction (XRD) analysis was used to evaluate the mineralogy of FA. The concentrations of metal and non-metal species that are released from FA on contact with water at different conditions were quantified using ICP-MS. Pot culture experiment was conducted to grow Brassica juncea and Spinacia Oleracea L. using FA and soil as growth medium. Leachates from the pots were collected and analysed using ICP-MS. Plant parts from harvested Brassica juncea and Spinacia Oleracea L. were cut separately and analysed using ICP-MS for the concentrations of different metal and non-metal species in plant parts. Plant parts were also used to estimate biomass and chlorophyll content (leaves). To prepare these plant samples for analysis, the powdered plant sample (0.5 g) was digested through aqua regia (HCL:HNO3 = 3:1 (v/v)) to near dryness using hotplate and filled to 100 mL of MilliQ water. The samples were filtered and directly used to determine the chemical elements concentrations. Blanks and internal standards were used for quality assurance during analysis. Chemical elements that are present in FA and sometimes in higher concentrations are associated with detrimental effects in plants, animals and human beings, hence phytoremediation is vital. Bioconcentration factor (BCF) was used to estimate the metal species accumulation ability of the plants from the FA, FA/soil mixtures, while translocation factor (TF) was used to assess the plant species potential for phytoremediation of coal fly ash dumps. Analysis of Varience (ANOVA) was used to statistically test data using Graphpad software package. Relationship between chemical elements in soil, FA and FA+soil growth media and also different plant parts (root, stem and leaf) of B. juncea and S. Oleracea L were calculated using the t - test, ANOVA-Bartlett test, Mann-Whitney Test and Kruskal-Wallis Statistic (KW) depending on each data set. The physicochemical characterization of coal fly ash showed that FA from Grootvlei power station can be classified as class F with an alkaline pH level of 10.62. It showed that particle morphology of this FA had a lower degree of sphericity with irregular agglomerations of many particles while there were dominant spherical particles and smaller sharp needle like particles. It is also an alumino-silicate material as confirmed by the high SiO2 and Al2O3 content, while soil leachates had an average/neutral pH of 7.22 with very high amounts of Si. In both soil and FA, elements that were expected to be readily available to plants included Ca, Si, K, Ba, Mo, Na, Al, Mg, Sr and non-essential elements (Si, Ba, Na, Al, Sr), which, if uptaken by plants’ roots can have negative impacts in plants. Physicochemical analysis of soil, FA and FA+soil leachates showed that the alkalinity of the FA changed over time and there was also a decrease in the EC due to dissolution iv of soluble major oxides, which was promoted by continuous water irrigation. The soil and FA+soil growth media showed similar results. Chemical elements like B, Mn, Fe and Ba were occurring at higher concentrations in leachates for most weeks in the pot culture experiments. However, it was observed that in the eleventh week of leachate collection all these chemical elements decreased to very low concentrations. This suggest that these chemical elements can be reduced over time as plants are being irrigated which is either due to uptake by plants or washed off with water. Statistically, there was a significant difference for different chemical elements of leachates from different growth media for each plant species (B. juncea and S. Olearcea L.). The overall growth rate shows that S. Oleracea L was better than that of B. juncea especially in the FA media over time, while the biomass of the two plant species showed similar results. After all, even though S. Oleracea L had carotenoid content below detection limits, it had higher chlorophyll b than B. juncea for all growth media in general. But, statistically there was no significant difference between the two plant species in terms of growth rate and biomass; even between the plant parts denoting similar growth performance for the two plant species under study. The bioaccumulation potential of the two plant species showed that chemical elements such as Fe, Mn, Ba, Zn and B were highly accumulated by the different parts of the plants. However, the chemical elements such as of Mo, Ni, Cu, and Cr showed the least concentrations. This trend was similar for all growth media and both plant species but this changes over time for different growth media and plant species as increasing and decreasing trends can be noticed. This led to no significant difference between plant species and also growth media, statistically. High BCF values of Fe, Mn, Ba, Zn and B were observed in the different parts of the plants for both plant species. However, Mo, Ni, Cu, and Cr had BCF values less than 1 for most growth media over time. BCF values in plant parts differed with time, growth media and plant species. Translocation of chemical elements shows that the B. juncea plant proved to be an effective phytoremediation plant species since it is effective in translocation of many chemical elements for different growth media to shoots while S. Oleracea L failed to translocate most chemical elements from stem to leaves although it translocated some from root to shoots. Hence, it can be concluded from the study that both species can be used in phytoremediation of coal fly ash dumps but with B. juncea being the most effective accumulator and translocator of many chemical elements. However, it can be recommended that chelating agents like ethylene diamine tetra acetic acid (EDTA) be introduced to solubilize chemical elements from growth media matrix into growth media solution to facilitate the quick transport of chemical elements into xylem, and increase Fly ash Phytoremediation Chemical elements Translocation factor Pot culture experiments Bioconcentration factor 622.3340968 Coal ash -- South Africa Coal ash industry -- South Africa Coal -- Bioaccumulation Spinacia -- South Africa Coal ash sites -- South Africa Sanitary landfills -- South Africa Bioaccumulation -- South Africa Biochemistry -- South Africa
398	Isotopic signatures and trace metals in geothermal springs and their environmental media within Soutpansberg Durowoju, 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 Isotopic composition Interconnectivity Local meteoric water line Phytoremediation Rainwater Soutpansberg Group Trace metals Potential health risk 551.4980968256 Groundwater -- South Africa -- Limpopo Springs -- South Africa -- Limpopo Hot springs -- South Africa -- Limpopo Water quality -- South Africa -- Limpopo
399	Phytoremédiation d’un sol contaminé par des contaminants organiques et inorganiques Fortin Faubert, Maxime 04 1900 (has links) Le nombre important de sites contaminés au Québec (Canada) et partout dans le monde est une problématique de santé publique majeure en raison des risques toxicologiques qu’ils présentent pour la santé humaine et environnementale. Dans la municipalité de Varennes (Québec, Canada), située sur la rive sud de l'Île de Montréal, les activités d’une ancienne usine pétrochimique (Pétromont Inc.) ont conduit à l’accumulation de concentrations modérées à élevées d’éléments traces métalliques (ETMs), de biphényles polychlorés (BPCs), d’hydrocarbures pétroliers aliphatiques (C10-C50) et d’hydrocarbures aromatiques polycycliques (HAPs) sur les terrains de la compagnie. En 2010, une culture intensive de saule sur courtes rotations (CICR) a été établie sur le site, afin d’y conduire une expérience de phytoremédiation à grande échelle. Bien que cette plantation de Salix miyabeana ait été implantée dans une optique d'assainissement, aucun effet significatif n'a été signalé sur la concentration des contaminants du sol au cours des premières années de croissance. Les processus d'assainissement basés sur l’utilisation de végétaux peuvent être difficiles à prévoir en milieux naturels et nécessitent des améliorations afin d'en augmenter leur efficacité. La fertilisation des sols avec des amendements organiques, ainsi que la manipulation du microbiome végétal, sont deux techniques agronomiques couramment utilisées pour la gestion des cultures traditionnelles, afin d’augmenter la production de biomasse et améliorer la santé générale des végétaux. Ces approches peuvent également influencer la mobilité et la biodisponibilité de certains composés du sol. Puisque de telles modifications sont connues pour avoir le potentiel d’améliorer considérablement l’efficacité des végétaux à éliminer ou à transformer certains contaminants du sol, ces deux techniques agronomiques présentent un intérêt grandissant dans le domaine de la phytoremédiation. Cette recherche doctorale vise donc à améliorer les connaissances scientifiques dans le domaine de la phytoremédiation appliquée à grande échelle en abordant certains aspects qui touchent à ces deux approches agronomiques. En utilisant la plantation de saules déjà établie, une première étude a été réalisée afin d’évaluer l’impact d’un amendement de sol organique sur l’efficacité phytoremédiatrice des deux cultivars de saules (‘SX61’ et ‘SX64’). À l’intérieur de cette plantation, le sol de certaines parcelles expérimentales a été recouvert de bois raméal fragmenté (BRF) de saules, combiné, ou non, avec du substrat de champignons épuisé (SCE) de Pleurotus ostreatus. Après trois saisons de croissance, les résultats ont montré que l’ajout de SCE au BRF n’avait eu aucun effet sur la croissance des saules, ainsi que sur leur efficacité à extraire ou à réduire la concentration des contaminants présents sur le site. Les résultats suggèrent néanmoins que le BRF contribue à immobiliser certains HAPs dans le sol, en plus d’augmenter l’efficacité des saules à phytoextraire le Zn. La présence de saules semble avoir réduit de façon significative l’atténuation naturelle des C10-C50 sur le site. De plus, les concentrations de BPCs, de Cd, de Ni et de dix HAPs, ont montré des oscillations saisonnières, ce qui suggère que l’évapotranspiration qui a lieu à l’intérieur de la plantation de saules provoque un important flux d'eau et de contaminants solubles en direction des racines. Ainsi, la concentration de certains contaminants pourrait avoir tendance à augmenter à l’intérieur d’une dense plantation de saules au fil du temps. Une deuxième étude a été réalisée à l’intérieur de cette même plantation, afin de vérifier si les augmentations de concentration observées précédemment pouvaient être liées à l’évapotranspiration qui a lieu à l’intérieur d’une plantation de saules. Dans l’optique d’éliminer l’effet de transpiration, des coupes de saules ont été effectuées dans certaines parcelles de la plantation, puis les concentrations des contaminants organiques et inorganiques ont été suivies au fil du temps (24 mois), et comparées avec celles observées dans les parcelles non coupées. Les résultats obtenus ont montré que l'élimination des saules avait bel et bien limité l'accumulation de certains contaminants à la surface du sol, tels qu’observé dans les parcelles non coupées. Ces résultats suggèrent donc encore une fois que la culture intensive de saules à courte rotation peut entrainer une migration de certains contaminants en direction des racines et ainsi augmenter leurs concentrations à la surface du sol près des zones racinaires. Très peu d’études ont rapporté des résultats qui semblent contredire les multiples avantages de purification qui sont habituellement mis de l’avant en phytoremédiation. Toutefois, de tels effets sur la mobilisation des contaminants pourraient être pertinents et souhaitables dans un contexte de gestion du risque. La troisième et dernière étude présentée dans cette thèse explore la diversité des communautés microbiennes associées aux racines des deux cultivars de saules établis sur le site expérimental depuis plusieurs années (six années). Des études antérieures ont permis d’en apprendre davantage sur la composition du microbiome racinaire et rhizosphérique du saule poussant en milieux contaminés, mais la plupart de celles-ci ont été menées sur des individus relativement jeunes. Par conséquent, peu d’information existe concernant les associations microbiennes des individus plus âgés qui ont été établis en milieux contaminés. La caractérisation des communautés fongiques, bactériennes et archéennes a permis de montrer des différences de composition entre les deux cultivars de saules, ainsi qu’entre leurs compartiments (i.e. racines et rhizosphère). Certains groupes taxonomiques, appartenant à chacun des trois domaines, se sont démarqués, de par leur abondance, ou par leurs fonctions écologiques déjà connues et potentiellement bénéfiques pour la survie des végétaux, ou pour augmenter la dégradation et l'extraction de divers contaminants. Cette étude fournit donc de précieuses informations qui pourront servir à l’amélioration de certaines approches d'ingénierie du microbiome favorisant l'établissement, la survie, la croissance et les performances d’assainissement de Salix spp. établis en milieux contaminés. L’ensemble des résultats présentés dans cette thèse ont permis d’alimenter différentes réflexions sur l’intérêt d’utiliser certains amendements organiques et de caractériser le microbiome racinaire et rhizosphérique des saules afin d’améliorer les pratiques et la mise en oeuvre de la phytoremédiation par des saules. Cette thèse met également en lumière un phénomène de migration des contaminants, influencé par la présence de plantes à croissance rapide, qui représente un obstacle pour l’évaluation des performances d’assainissement par des approches de phytoremédiation notamment par des saules. / The large number of contaminated sites in Quebec (Canada) and all around the world is a major public problem because of the toxicological risks they present for human and environmental health. In the municipality of Varennes (Quebec, Canada), located on the south shore of the Island of Montreal, the activities of a former petrochemical plant (Pétromont Inc.) have led to the accumulation of moderate to high concentrations of traces elements (TEs), polychlorinated biphenyls (PCBs), aliphatic petroleum hydrocarbons (C10-C50) and polycyclic aromatic hydrocarbons (PAHs) on the land. In 2010, a short rotation intensive culture (SRIC) of willow has been established on the site, in order to conduct a field-scale phytoremediation experiment. Although this plantation of Salix miyabeana was established with a remediation view, no significant effect was reported on the concentration of soil contaminants during the first years of growth. Plant-based remediation processes can be difficult to predict in the fiel and require improvement in order to increase their effectiveness. Fertilization with organic amendments, as well as manipulating the plant microbiome, are two agronomic techniques commonly employed in traditional crop management, in order to increase biomass production and improve overall plant health. These approaches can also influence the mobility and bioavailability of some compounds in the soil. Since such modifications are known to have the potential to significantly improve the efficiency of plants in removing or transforming soil contaminants, these two agronomic techniques are of growing interest in the field of phytoremediation. This doctoral research aims to improve scientific knowledge in the field-scale phytoremediation application by addressing some aspects that affect these two agronomic approaches. Inside the already established willow plantation, a first study was carried out to assess the impact of soil organic amendment on the phytoremediation efficacy of the two willow cultivars (‘SX61’ and ‘SX64’). The soil of some experimental plots was covered with ramial chipped wood (RCW) combined or not with spent mushroom substrate (SMS) of Pleurotus ostreatus. After three growing seasons, the results showed that the addition of SMS to the RCW had no effect on the growth of the willows, as well as on their effectiveness in removing or reducing the concentration of contaminants on the site. The results nevertheless suggest that RCW helps immobilize some PAHs in the soil, in addition to increasing the efficiency of willows to phytoextract Zn. The presence of willows appears to have significantly reduced the natural attenuation of C10-C50 on the site. In addition, the concentrations of PCBs, Cd, Ni and ten PAHs, showed seasonal oscillations, which suggests that the evapotranspiration inside the willow plantation mobilized some contaminants towards the rooting zones. Thus, the concentration of certain contaminants may tend to increase within a dense willow plantation over time. A second study was carried out inside the same plantation, in order to verify if the increases in concentration observed previously could be linked to the evapotranspiration that takes place inside a willow plantation. In order to eradicate the effect of plant transpiration, willows were harvested in certain plots of the plantation. The concentrations of organic and inorganic contaminants were followed over time (24 months) and compared with those observed in the unharvested plots. The results obtained showed that the removal of the willows limited the accumulation of certain contaminants on the soil surface, as observed in the uncut plots. These results suggested once again that the short rotation intensive culture of willows can lead to the migration of certain contaminants towards the roots and thus increase their concentrations on the soil surface near the root zones. Very few studies have reported results that seem to contradict the multiple purification benefits that are usually put forward in phytoremediation. However, such effects on contaminant mobilization could be relevant and suitable in a risk management context. The third and final study presented in this thesis explores the microbial communities associated with the roots of the two willow cultivars established on the experimental site for several years (six years). Root and rhizosphere microbial communities of Salix spp. have been studied in contaminated environments, but most of studies have been carried out on relatively young hosts. Therefore, little information exists regarding the microbial communities associated with older willows established in contaminated environments. The characterization of fungal, bacterial and Archean communities has shown differences in composition between the two willow cultivars, as well as between their compartments (i.e., roots and rhizosphere). Some taxonomic groups, belonging to each of the three domains, caught our attention, either by their abundance, or by their ecological functions already known to be potentially beneficial for the plant survival, or for increasing the degradation and extraction of various contaminants. This study therefore provides valuable information that can be used to improve certain microbiome engineering approaches that promote the establishment, survival, growth and phytoremediation performance of Salix spp. in contaminated environments. All the results presented in this thesis have fueled various reflections on the interest of using soil organic amendments and characterizing the root and rhizosphere microbiome of willows in order to improve the practices and implementation of phytoremediation with willows. This thesis also highlights a phenomenon of contaminant migration, influenced by the presence of fast-growing woody plants, which represents an obstacle for the evaluation of phytoremediation performance approaches with willows. Salix Pleurotus Bois raméal fragmenté (BRF) Substrat de champignons épuisés (SCE) Microbiome Phytoremédiation Mycoremédiation Contamination Sol Ramial chipped wood (RCW) Spent mushroom substrate (SMS) Short rotation intensive culture (SRIC) Phytoremediation Mycoremediation Soil
400	Structural and functional diversity of bacterial communities in petroleum hydrocarbons contaminated soils subjected to phytoremediation Alotaibi, Fahad 05 1900 (has links) L'intensification des activités industrielles et les besoins en énergie font des hydrocarbures pétroliers (HP) un enjeu majeur mondial mais augmentent aussi considérablement les risques environnementaux dans divers écosystèmes. La phytoremédiation est une phytotechnologie qui a fait ses preuves en tant que solution verte pour faire face aux contaminations des sols par des HP. La phytoremédiation des sols contaminés par les HP repose principalement sur l’activité des communautés microbiennes associées aux racines des plantes au niveau de la rhizosphère, qui peuvent non seulement favoriser la croissance des plantes hôtes mais aussi augmenter leur tolérance à divers stress biotiques et abiotiques. Parmi les défis majeurs de la phytoremédiation des sols contaminés par les HP, on compte la forte toxicité de certains composés des HP qui entravent la croissance des plantes et par conséquent l’efficacité de la phytoremédiation. Cependant, la croissance des plantes peut être positivement stimulée par la présence de rhizobactéries favorisant leur croissance (PGPR) qui sont capables d'atténuer le stress des plantes par divers mécanismes. Dans cette thèse, un total de 438 bactéries PGPR dégradant les hydrocarbures pétroliers, ont été isolées de la rhizosphère et du sol de deux espèces de plantes, Salix purpurea et Eleocharis obusta, dans un site d'une ancienne raffinerie pétrochimique à Varennes, QC, Canada. Les isolats bactériens ont été classés en 62 genres, appartenant aux phylums Actinobacteria, Bacteroidetes, Firmicutes et aux sous-groupes Alpha-, Beta- et Gamma-Proteobacteria. De plus, cette collection de cultures contient 438 isolats bactériens avec de multiples caractéristiques de dégradation et de stimulation de croissance (PGPR), représentant une diversité fonctionnelle de dégradation des HP et de caractéristiques PGPR qui pourraient être utilisées dans la phytoremédiation assistée par les bactéries, des sols contaminés par les HP. Parmi ces 438 isolats bactériens, 50 isolats représentant une large diversité taxonomique, ont été sélectionnées pour une caractérisation approfondie supplémentaire concernant leur capacité à favoriser la croissance des plantes en présence de différentes concentrations de n-hexadécane (0%, 1%, 2%, 3%) dans des conditions contrôlées. Les résultats ont indiqué que les isolats bactériens Nocardia sp. (WB46), Pseudomonas plecoglossicida (ET27), Stenotrophomonas pavanii (EB31), Bacillus megaterium (WT10) et Gordonia amicalis (WT12) ont significativement augmenté la croissance des plantes cultivées dans 3% de n-hexadécane par rapport au traitement témoin. De plus, ces isolats possèdent plusieurs traits favorisant la croissance des plantes (PGPR) tels que l'activité 1-aminocyclopropane-1-carboxylate (ACC) désaminase (ACCD), la production d'acide indole-3-acétique (IAA) et la fixation de l'azote. De plus, ces isolats étaient capables d'utiliser le n-hexadécane comme seule source de carbone et possédaient des gènes cataboliques liés à la dégradation des hydrocarbures tels que le gène de l'alcane monooxygénase (alkB), le cytochrome P450 hydroxylase (CYP153) et le gène de la naphtalène dioxygénase (nah1). Nocardia sp. isolate WB46, a été sélectionné pour le séquençage de son génome afin de déterminer sa diversité génétique et fonctionnelle relatives à la dégradation des HP et les potentiels PGPR. Les résultats ont indiqué que, sur la base des analyses du gène de l'ARNr 16S, l'hybridation ADN-ADN in silico (DDH) et l'identité moyenne des nucléotides (ANI), Nocardia sp. isolate WB46 représente une nouvelle espèce bactérienne. De plus, l'annotation fonctionnelle de son génome révèle que celui-ci contient de nombreux gènes responsables de la dégradation des hydrocarbures pétroliers tels que l'alcane 1-monooxygénase (alkB) et la naphtalène dioxygénase (ndo) ainsi que d'autres gènes liés à ses potentiels PGPR. En conclusion, la rhizosphère des espèces S. purpurea et E. obusta poussant dans un site fortement pollué par les HP représente un biotope diversifié et comprenant des bactéries PGPR avec de multiples potentiels de dégradation des HP. De plus, plusieurs isolats bactériens tels que Nocardia sp. (WB46), Pseudomonas plecoglossicida (ET27) et Stenotrophomonas pavanii (EB31) démontrent un potentiel d'utilisation comme bioinoculants pour de futures études de phytoremédiation à grande échelle. / Petroleum hydrocarbons (PHCs), as a result of intensification of industrial activities, are a global environmental issue especially in soil environments. Phytoremediation represents an ideal solution to tackle this global crisis. Phytoremediation of PHC-contaminated soils proceeds mainly through the activities of microbial communities that colonize the plant rhizosphere which might promote host plants growth and increase its tolerance to various biotic and abiotic stresses. A main challenge in phytoremediation of PHC-contaminated soils is the high toxicity of PHCs which hinder plant growth and reduce the efficiency of phytoremediation. However, plant growth may be positively stimulated by the presence of plant growth-promoting rhizobacteria (PGPR) that are able to alleviate stresses in plants through various mechanisms. In this thesis, a total of 438 petroleum hydrocarbons degrading-PGPR bacterial isolates were recovered from the rhizosphere and the surrounding bulk soil of Salix purpurea and Eleocharis obusta plants from the site of a former petrochemical plant in Varennes, QC, Canada. Bacterial isolates were classified into 62 genera, belonging to the phyla Actinobacteria, Bacteroidetes, Firmicutes and the Alpha, Beta and Gamma-subgroups of Proteobacteria. Additionally, this culture collection holds 438 bacterial isolates with multiple degradative and PGP features, representing a rich reservoir of metabolically versatile PGPR-PHC degraders that could be used in holistic, bacterial-aided phytomanagement of PHC-contaminated soils. Among the above 438 bacterial isolates, 50 bacterial strains representing a wide phylogenetic range were selected for an additional in-depth characterization regarding their ability to promote plant growth under the presence of different concentrations of n-hexadecane (0%, 1%, 2%, 3%) under gnotobiotic conditions. Results indicated that bacterial isolates Nocardia sp. (WB46), Pseudomonas plecoglossicida (ET27), Stenotrophomonas pavanii (EB31), Bacillus megaterium (WT10) and Gordonia amicalis (WT12) significantly increased the growth of plants grown in 3% n-hexadecane compared with the control treatment. Additionally, these isolates possess several plant-growth-promoting (PGP) traits such as 1-aminocyclopropane-1-carboxylate (ACC) deaminase (ACCD) activity, indole-3-acetic acid (IAA) production and nitrogen fixation. Also, these isolates were able to use n-hexadecane as sole source of carbon and have catabolic genes related to hydrocarbon degradation such alkane monooxygenase (alkB) gene, the cytochrome P450 hydroxylase (CYP153) and the naphthalene dioxygenase (nah1) gene. The isolate that showed the highest growth stimulation of plants grown in 3% n-hexadecane under gnotobiotic conditions, Nocardia sp. isolate WB46, was selected for de novo genome sequencing to unveil its genetic versatility and the mechanisms of PHCs biodegradation and PGP potentials. Results indicated that based on the 16S rRNA gene analyses, in silico DNA-DNA hybridization (DDH) and average nucleotide identity (ANI) Nocardia sp. isolate WB46 is a new species. Additionally, the functional annotation of the genome of Nocardia sp. isolate WB46 reveals that its genome contains many genes responsible for petroleum hydrocarbon degradation such as alkane 1-monooxygenase (alkB) and naphthalene dioxygenase (ndo) as well as other genes related to its PGP potentials. In conclusion, S. purpurea and E. obusta growing in a site highly polluted with PHCs are rich reservoir of diverse PGPR with multiple PHC-degradation and PGP potentials. In addition, several bacterial isolates such as Nocardia sp. (WB46), Pseudomonas plecoglossicida (ET27) and Stenotrophomonas pavanii (EB31) demonstrate potential for use as bioinoculants in future large-scale phytoremediation studies. Alkanes Eleocharis Petroleum hydrocarbons (PHCs) Rhizoremediation Phytoremediation Salix Soil contamination Bacteria Bioinoculants Sols contaminés Phytoremédiation Rhizoremédiation Hydrocarbures pétroliers (HP) Bactéries

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