Desenvolvimento e avaliação de sistema de leito fixo reator misto radial seguido de reator anóxico horizontal, para remoção de matéria orgânica e de nitrogênio de esgoto sanitário / Immobilized bed system development and evaluation radial mixed reactor followed by horizontal-flow anoxic reactor for organic matter and nitrogen reduction in domestic wastewater

Luis Hamilton Pospissil Garbossa

28 March 2003

Os sistemas combinados anaeróbio/aeróbio, para tratamento de água residuária, têm sido considerados alternativas viáveis do ponto de vista técnico-econômico em relação aos sistemas tradicionais. Este trabalho consiste no desenvolvimento de nova configuração para um sistema, com dois reatores operados seqüencialmente, composto por Reator Misto Radial de Leito Fixo para tratamento e nitrificação de esgoto sanitário e Reator Anóxico Horizontal de Leito Fixo para desnitrificação da água residuária. O RMRLF mostrou ser uma configuração promissora, promoveu a remoção de matéria orgânica, favoreceu a transferência de oxigênio dissolvido devido à distribuição das espumas em seções circuncêntricas, obteve boa nitrificação e possibilitou a desnitrificação simultânea com a nitrificação. O RAHLFa obteve baixa eficiência no processo de desnitrificação. O bom desempenho do sistema é decorrente, principalmente, da operação do RMRLF e apresentou eficiências de 88%, 86% e 95% na remoção de matéria orgânica em termos de demanda química de oxigênio, retenção de sólidos suspensos voláteis e nitrificação, respectivamente. O efluente final do sistema atingiu valores de demanda química de oxigênio, sólidos suspensos voláteis, nitrito e nitrato de 41 mg.l-1, 8 mg.l-1, 0,3 mg.l-1 e 16,7 mg.l-1, respectivamente. No efluente final não foi detectada a presença de nitrogênio amoniacal. / The combined, anaerobic/aerobic systems for wastewater treatment, are considered as possible alternatives from the technical-economical perspective, in relation to the traditional systems. The data obtained on the development and operation of a new system configuration of two reactor sequentially operated, composed of a Radial Flow Anaerobic/Aerobic Immobilized Biomass reactor (RFAAIB) for domestic sewage treatment and a Horizontal-flow Anoxic Immobilized Biomass (HAIBa) for wastewater denitrification are presented. The RFAAIB reactor was found to be a very promising configuration for promoting the organic matter removal, due to its round shape distribution of the foam matrix it favored the dissolved oxygen transfer, obtaining good nitrification and making possible to achieve simultaneous nitrification and denitrification. The HAIBa reactor obtained low efficiency in the denitrification process. The good system performance is mainly due to the RFAAIB reactor it achieved efficiency of 88%, 86% and 95% in the biochemical oxygen demand reduction process, volatile suspended solids retention and nitrification, respectively. The system final effluent achieved chemical oxygen demand, volatile suspended solids, nitrite and nitrate values of 41 mg.l-1, 8 mg.l-1, 0,3 mg.l-1 and 16,7 mg.l-1, respectively. In the final effluent no ammonium nitrogen was detected.

anaeróbio/aeróbio/anóxico

desnitrificação

esgoto sanitário

nitrificação

reator radial

reatores mistos

sistemas combinados

anaerobic/aerobic/anoxic

combined reactors

combined systems

denitrification

domestic sewage

nitrification

radial reactor

Desempenho de reator de leito estruturado submetido à aeração intermitente, na remoção de nitrogênio e fósforo de esgoto sanitário utilizando glicerol fermentado como fonte de carbono / Performance of a structured bed reactor subjected to intermittent aeration in the removal of nitrogen and phosphorus from sewage using fermented glycerol as carbon source

Jéssica Costa Lopes

16 May 2017

Este trabalho buscou verificar a viabilidade do uso de fermentado de glicerol como fonte externa de carbono para a remoção biológica de nutrientes em um reator de leito estruturado, submetido à aeração intermitente (LEAI). O LEAI foi alimentado com efluente de reator UASB de bancada, usado no tratamento de esgoto sanitário. O reator LEAI possuía volume total de 12,3L e, devido às hastes cilíndricas verticais de espuma de poliuretano usadas como suporte para a biomassa, o volume útil foi de 8,6 L. Inicialmente, o reator foi operado sob aeração contínua com tempo de detenção hidráulica (TDH) de 24 horas e razão de recirculação de efluente igual a 3 para desenvolvimento de biomassa nitrificante no reator. Após a eficiência de nitrificação atingir 80%, o reator passou a ser operado com TDH de 12 horas e sob aeração intermitente, mantendo-se a razão de recirculação igual a 3. Foram então realizadas 4 fases em modo contínuo sob aeração intermitente (tempo de aeração/tempo sem aeração) de 2h/1h sem glicerol, 3h/1h sem glicerol, 2h/1h com glicerol, 3h/1h com glicerol. A adição de glicerol fermentado ocorreu somente durante os períodos não aerados. Em todas as fases, a DQO média efluente ao sistema variou entre 26±8 e 59±14 mg.L-1. Em relação à remoção de nitrogênio total (como NTK), verificou-se a baixa eficiência de remoção nas fases em que não houve a adição do fermentado, atingindo 49,6±13,5% (2h/1h) e 29,2±10,1% (3h/1h). Entretanto, nas fases em que houve a inserção do glicerol, as eficiências de remoção de N-total foram superiores, obtendo-se 64,9±21,6% (2h/1h) e 69,5±11,7% (3h/1h). Não foi observada remoção de fósforo em nenhuma das fases em que o reator foi operado com alimentação contínua. A fim de verificar a eficácia do fermentado de glicerol na remoção de N e P, o sistema foi modificado para que o reator LEAI operasse em bateladas sequenciais (RSB). Nessa etapa da pesquisa, observou-se o estabelecimento da comunidade acumuladora de fósforo no sistema, obtendo-se eficiência de remoção de fósforo de 56,1±8,5%. A eficiência de remoção de nitrogênio total também aumentou, atingindo 86,2±6,2%. Concluiu-se que o fermentado do glicerol apresenta potencial significativo para uso como fonte exógena de carbono no processo de remoção de fósforo e N-total. Concluiu-se também que, embora o glicerol fermentado contenha compostos favoráveis à remoção de fósforo em reatores de leito estruturado, a alimentação contínua do reator com aeração intermitente, não promove as condições ideais para o estabelecimento de processo estável de remoção de fósforo. No entanto, a elevada eficiência de oxidação de NTK, de remoção de matéria orgânica e de desnitrificação, aliadas à baixa produção sólida, mostram que o LEAI é uma alternativa interessante em comparação às tecnologias praticadas atualmente para pós-tratamento de efluentes de reatores anaeróbios. Contudo, quando a remoção de fósforo é necessária, a operação do reator em bateladas sequenciais é a alternativa viável. / This work aimed to verify the viability of the use of fermented glycerol as an external carbon source for the nutrient biological removal in structured-bed reactor subjected to recirculation and intermittent aeration (SBRRIA). The SBRRIA was fed effluent from UASB reactor bench scale, used in the treatment of domestic sewage. The SBTTIA reactor had a total volume of 12.3L and, due to the vertical cylindrical strips of polyurethane foam used as biomass support, the useful volume was 8.6 L. Initially, the reactor was operated under continuous aeration with hydraulic retention time (HRT) of 24 hours and effluent recirculation ratio of 3 for the development of nitrifying biomass in the reactor. After the nitrification efficiency reach 80%, the reactor started to be operated at the HRT of 12 h under intermittent aeration, maintaining the recirculation ratio equal to 3. Four phases were then carried out continuously under intermittent aeration (aeration / time without aeration) of 2h/1h without glycerol, 3h/1h without glycerol, 2h/1h with glycerol, 3h/1h with glycerol. The addition of fermented glycerol occurred only during time without aeration. In all phases, the average COD effluent of the system ranged between 26±8 and 59±14 mg.L-1. Low removal efficiency of total nitrogen (as TKN) was verified in the phases without addition of the fermented glycerol, reaching 49.6±13.5% (2h/1h) and 29.2±10.1% (3h/1h). However, the efficiency of total nitrogen removal efficiency was higher when fermented glycerol was added during the non-aerated period, attaining 64.9±21.6% (2h/1h) and 69.5±11.7% (3h/1h). No phosphorus removal was observed in any of the previous phases in which the reactor was operated under continuous feeding. In order to verify the feasibility of fermented glycerol in the removal of N and P, the system was modified so that the LEAI reactor operated in sequential batch mode (SRB). At this stage of the research, the establishment of the phosphorus accumulating community in the system was observed and phosphorus removal efficiency attained 56.1±8.5%. The efficiency of total nitrogen removal also increased up to 86.2±6.2%. It was concluded that the fermented glycerol presents significant potential for use as an exogenous carbon source in the process of phosphorus and nitrogen removal. It can be also concluded that fixed bed reactors can remove phosphorus from wastewaters using fermented glycerol presenting compounds favorable to the development of phosphorus accumulating microorganisms (PAO). However, reactors subjected to continuous feeding and intermittent aeration do not promote good conditions for the establishment of stable phosphorus removal process. Nevertheless, the high efficiency of TKN oxidation, organic matter removal and denitrification, coupled with low solid production, show that SBRRIA is an interesting alternative for the post-treatment of anaerobic reactor effluents. However, when phosphorus removal is required, sequential batch reactor operation is the viable alternative.

Desnitrificação

Fermentação

Relação C/P

Relação DQO/N

Remoção biológica de fósforo

Biological phosphorus removal

C/N ratio

C/P ratio

Denitrification

Fermentation

Efeitos do tempo de aeração no desempenho de reator de leito estruturado e aeração intermitente usado para remoção de matéria orgânica e nitrogênio de efluente de reator UASB / Effects of aeration time in structured-bed reactor under intermittent aeration used to remove organic matter and nitrogen of a UASB reactor effluent

Bruno Garcia Silva

19 May 2016

Utilizou-se reator de leito estruturado e aeração intermitente (RLEAI) como pós-tratamento de efluentes de reator UASB tratando esgoto sanitário. O volume total e o tempo de detenção hidráulica (TDH) do reator UASB eram de 11,2 L e 9 horas, respectivamente. O RLEAI possuía volume total de 11,0 L e, devido às hastes cilíndricas verticais de espuma de poliuretano usadas como suporte para a biomassa, o volume útil foi de 9,6 L. Este reator foi operado com um TDH de 12 horas, razão de recirculação igual a 3 e foi alimentado continuamente com efluente do reator UASB. O objetivo deste trabalho foi avaliar a influência do tempo de aeração no desempenho do RLEAI na remoção de matéria orgânica e nitrogênio. O reator foi operado com aeração contínua, e tempos de aeração intermitentes (tempo aerado/não aerado) de 2h/1h, 1h/1h, 0,75h/1,25h, 1h/ h e 1h/3h. Em todas as fases a DQO efluente ao sistema ficou entre 26 e 42 mg.L-1. A fase de aeração contínua foi fundamental para o estabelecimento da comunidade nitrificante no sistema. A oxidação do nitrogênio total (como NTK) para nitrato aumentou de 62% (aeração contínua ) para 82% (aeração intermitente de 1h/2h) devido à alcalinidade gerada pela desnitrificação, estimulada pelo período não aerado. Na fase 1h/3h a oxidação do NTK foi prejudicada pela falta de oxigênio, e a eficiência nesta fase foi de 42%. A maior remoção estável de N-total foi obtida na fase 1h/2h com eficiência de 29%. Foi observado no ensaio em batelada que a velocidade de desnitrificação via nitrato aumentou de 0,90 mg N. g SSV-1.h-1 para 2,55 mg N. g SSV-1.h-1 após aclimatação da biomassa em condições de excesso de matéria orgânica. Concluiu-se que a remoção de N-total foi limitada pela baixa quantidade de matéria orgânica advinda do reator UASB, sendo a relação DQO/N do afluente ao RLEAI de 3,04. A elevada oxidação de NTK e de remoção de matéria orgânica, aliadas à baixa produção sólidos e ao alto tempo de retenção celular (139 dias), mostram que o RLEAI é uma alternativa interessante em comparação às tecnologias praticadas atualmente para pós tratamento de efluentes de reatores anaeróbios. / This study used a structured bed reactor under intermittent aeration for post-treatment of UASB rector treating domestic sewage. The UASB reactor had a total volume of 11.2 L and 9 hours of hydraulic retention time (HRT). The structured bed reactor had a total volume of 11.0 L and working volume of 9.6 L due to the vertical cylindrical rods with polyurethane foam used as a support for the biomass. This reactor was operated whit 12 hours of HRT, recirculation ratio equal to 3 and was continuously fed with effluent from the UASB reactor. The aim of this study was to evaluate the influence of aeration time on RLEAI performance in removal of organic matter and nitrogen. For this the reactor was operated with continuous aeration and intermittent aeration periods (time aerated/ non-aerated) of 2h/1h, 1h/1h, 0.75h/1.25h, 1h/2h e 1h/3h. During all operation time the COD effluent to the system it was between 26 and 42 26 e 42 mg.L-1. The continuous aeration operation was fundamental to the establishment of the nitrifying microorganism community in the system. The TKN oxidation to nitrate increase from 62% (continues aeration) to 82% (intermittent aeration 1h/2h) due to the alkalinity generated by denitrification, that was stimulated by non-aerated period. In the intermittent aeration period of 1h/3h the NTK oxidation was damaged by a lack of oxygen; the efficiency at this stage was 42%. The most stable total nitrogen removal was obtained in 1h/2h aeration period with 29% efficiency. It was observed in the batch test that nitrate denitrification rate increased from 0.90 mg N. g VSS-1.h-1 to 2.55 mg N. g VSS-1.h-1 after acclimation of biomass in conditions of excess organic matter. It was inferred that the removal of total nitrogen was limited by the low amount of organic matter load from the UASB reactor; the COD/N ratio of the influent was 3.04. The high NTK oxidation and high organic matter removal, combined with low solid production and high cell retention time (139 days), leads to the conclusion that the structured bed reactor under intermittent aeration is an interesting alternative compared to the technologies currently applied for post treatment of anaerobic reactors effluent.

Aeração intermitente

Esgoto sanitário

Nitrogênio

Pós-tratamento

Reator de leito estruturado

Domestic sewage

Intermittent aeration

Nitrogen

Post treatment

Structured bed reactor

Nitrate removal and Fe(III) recovery through Fe(II)-driven denitrification with different microbial cultures / Élimination des nitrates et récupération du Fe(III) par la dénitrification autotrophe utilisant le fer ferreux avec différentes cultures microbiennes

Kiskira, Kyriaki

15 December 2017

La dénitrification autotrophe utilisant le fer Ferreux est un bioprocédé innovant pour l'élimination des nitrates, en même temps que l'oxydation du fer dans les eaux usées. Les dénitrifiants chimio-autotrophes convertissent le nitrate en azote gazeux et l'oxydation du Fe(II) conduit à la production de précipités de fer ferrique qui peuvent ensuite être enlevés et récupérés. La possibilité de maintenir une dénitrification autotrophe avec le fer ferreux en utilisant une culture mixte de Thiobacillus, un inoculum de boue activée et des cultures pures de la souche Pseudogulbenkiania 2002 et de T. denitrificans dans différentes conditions de pH et d'EDTA:Fe(II) a été initialement étudiée dans des essais biologiques par lots. Des ratios plus faibles d’EDTA:Fe(II) se traduisent par une efficacité et des taux d'élimination des nitrates plus élevés. La culture mixte de Thiobacillus présente le taux d'élimination de nitrate le plus élevé, égal à 1.18 mM•(g VSS•d)-1.Par la suite, la culture mixte de Thiobacillus a été ensemencée dans deux réacteurs à lit tassé à flux montant identiques. Les deux réacteurs (réacteur 1 et 2) ont reçu respectivement 120 et 60 mg / L de nitrate et une alimentation différente de Fe (II) afin de respecter un rapport molaire Fe(II):NO3- de 5:1. L’EDTA a été supplémenté à un rapport molaire EDTA:Fe(II) de 0,5:1. Le pH, le TRH et la température étaient de 6,5-7,0, 31 h et 22 ± 2 ° C. Dans le réacteur 1, le TRH a été raccourci de 31 à 24 h et la concentration de NO3- a été maintenue stable à 250 mg / L. Inversement, le réacteur 2 a été mis en fonctionnement avec un TRH décroissant et une concentration de NO3- en alimentation, maintenant ainsi un taux de charge de NO3- stable. Après environ 80 jours d'incubation, l'élimination des nitrates était de 88% dans le réacteur 1 pour un THR de 31 h. L'élimination de nitrates la plus élevée obtenue dans le réacteur 2 était de 80%. Une diminution du TRH de 31 à 24 h n'a pas affecté l'élimination du nitrate dans le réacteur 1, alors que dans le réacteur 2 l'élimination du nitrate a diminué à 64%.De plus, l'influence des métaux lourds (Ni, Cu, Zn) sur la dénitrification autotrophe utilisant du fer ferreux a été évaluée dans des essais biologiques discontinus, en utilisant les mêmes quatre cultures microbiennes différentes. L'efficacité et les taux d'élimination des nitrates les plus élevés ont été obtenus avec la culture mixte dominante de Thiobacillus, alors que la souche Pseudogulbenkiania de 2002 était la moins efficace. Cu s'est avéré être le métal le plus inhibiteur pour les cultures mixtes. Un impact plus faible a été observé lorsque le Zn a été ajouté. Le Ni présentait l'effet inhibiteur le plus faible. Une sensibilité plus élevée à la toxicité des métaux a été observée pour les cultures pures. Enfin, la caractérisation minérale des précipités obtenus pour les expériences avec du Cu, Ni et Zn a été étudiée. Chez les témoins abiotiques, l'oxydation chimique du Fe (II) a entraîné la formation d'hématite. Un mélange de différents (hydro)oxides de Fe(III) a été observé pour toutes les cultures microbiennes, et en particulier : i) un mélange d'hématite, d'akaganéite et / ou de ferrihydrite a été observé dans les précipités des expériences réalisées avec la culture mixte dominée par la présence de Thiobacillus; ii) en plus d'hématite, de l'akaganeite et / ou de la ferrihydrite, la maghémite a été identifiée lorsque la culture pure de T. denitrificans a été utilisée; iii) l'utilisation de la culture pure de la souche Pseudogulbenkiania 2002 a entraîné la formation d'hématite et de maghémite; enfin, l'enrichissement en boues activées a permis la production d'hématite et de magnétite en plus de la maghémite. Aucune différence concernant la minéralogie des précipités n'a été observée avec l'addition de Cu, alors que l'addition de Ni et de Zn a probablement stimulé la formation de maghémite. Une caractérisation minérale supplémentaire est cependant nécessaire / Ferrous iron mediated autotrophic denitrification is an innovative bioprocess for nitrate removal, simultaneously with iron oxidation in wastewaters. Chemoautotrophic denitrifiers convert nitrate to nitrogen gas and Fe(II) oxidation results in the production of ferric iron precipitates that can be subsequently removed and recovered. The feasibility of maintaining Fe(II)-mediated autotrophic denitrification with a Thiobacillus mixed culture, an activated sludge inoculum and pure cultures of Pseudogulbenkiania strain 2002 and T. denitrificans under different pH and EDTA:Fe(II) conditions was initially investigated in batch bioassays. Lower EDTA: Fe(II) ratios resulted in higher nitrate removal efficiency and rates. The Thiobacillus mixed culture resulted in the highest specific nitrate removal rate, equal to 1.18 mM•(g VSS•d)-1.Subsequently, the Thiobacillus mixed culture was seeded in two identical up-flow packed bed reactors. The two reactors (reactor 1 and 2) were fed with 120 and 60 mg/L of nitrate, respectively, and a different Fe(II) feed in order to respect a molar ratio Fe(II):NO3- 5:1. EDTA was supplemented at a EDTA:Fe(II) molar ratio 0.5:1. The pH, HRT and temperature were 6.5-7.0, 31 h and 22±2°C. In reactor 1, HRT was shortened from 31 to 24 h and NO3- concentration was maintained stable at 250 mg/L. Conversely, reactor 2 was operated with decreasing HRT and feed NO3- concentration, thus maintaining a stable NO3- loading rate. After approximately 80 d of incubation, nitrate removal was 88% in reactor 1 at HRT of 31 h. The highest nitrate removal achieved in reactor 2 was 80%. A HRT decrease from 31 to 24 h did not affect nitrate removal in reactor 1, whereas nitrate removal decreased to 64% in reactor 2.Moreover, the influence of heavy metals (Ni, Cu, Zn) on Fe(II)-mediated autotrophic denitrification was assessed in batch bioassays. The highest nitrate removal efficiency and rates were achieved with the Thiobacillus-dominated mixed culture, whereas Pseudogulbenkiania strain 2002 was the least effective. Cu showed to be the most inhibitory metal for mixed cultures. A lower impact was observed when Zn was supplemented. Ni showed the lowest inhibitory effect. A higher sensitivity to metal toxicity was observed for the pure cultures. Finally, the mineral characterization of the precipitates obtained in the experiments with Cu, Ni and Zn was investigated. In abiotic controls, the chemical Fe(II) oxidation resulted in hematite formation. A mixture of different Fe(III) (hydr)oxides was observed with all microbial cultures, and in particular: i) a mixture of hematite, akaganeite and/or ferrihydrite was observed in the precipitates of the experiments carried out with the Thiobacillus-dominated mixed culture; ii) on top of hematite, akaganeite and/or ferrihydrite, maghemite was identified when the T.denitrificans pure culture was used; iii) the use of the pure culture of Pseudogulbenkiania strain 2002 resulted in hematite and maghemite formation; finally, the activated sludge enrichment allowed the production of hematite and magnetite besides maghemite. No difference in the mineralogy of the precipitates was observed with the addition of Cu, whereas the addition of Ni and Zn likely stimulated the formation of maghemite. Further mineral characterization is however required

Oxydation du fer ferreux

Dénitrification autotrophe

Biorécupération de métallique

Élimination de l'azote

Biogénique Fe (III) (hydr) oxyde

Ferrous iron oxidation

Autotrophic denitrification

Metal biorecovery

Nitrogen removal

Biogenic Fe(III)(hydr)oxide

Effet de la stratégie de gestion des ressources des plantes sur l’investissement dans l’exsudation racinaire, et les conséquences sur les communautés bactériennes / The effect of plant nutrient resource strategies on the investment into exudation, and the consequences on active rhizospheric microbiote

Guyonnet, Julien

09 February 2017

L'exsudation racinaire est connue pour avoir une influence sur le fonctionnement des communautés microbiennes, en particulier celles impliquées dans le cycle de l'azote (Haichar et al, 2012). Elle est liée à la physiologie de la plante, cette dernière pouvant être évaluée via les traits fonctionnels végétaux, permettant une classification des plantes en fonction de leur performance dans leur environnement. Ainsi, nous pouvons distinguer d'une part les espèces exploitatrices, avec une efficience de la photosynthèse élevée et une acquisition rapide de l'azote dans les sols, et d'autre part les plantes conservatrices, possédant des caractéristiques contraires (Aerts & Chapin, 1999) et des plantes intermédiaires dont les caractéristiques sont intermediaires.L'objectif de ces travaux de thèse est de déterminer l'influence de la stratégie de gestion des ressources de 6 poacées, réparties le long d'un gradient de stratégie de gestion des ressources, allant de stratégies conservatrices (Sesleria caerulea et Festuca paniculata), intermédiaires (Antoxanthum odoratum, Bromus erectus) à des stratégies exploitatrices (Dactylis glomerata et Trisetum flavescens), sur la diversité et le fonctionnement des communautés totales et dénitrifiantes. I) Dans un premier temps nous avons étudié le lien entre la stratégie de gestion de ressources des plantes et la quantité d'exsudats racinaires dans le sol adhérent aux racines (SAR). Nous avons ensuite déterminé l'influence de la quantité d'exsudats racinaire sur les activités microbiennes potentielles des communautés microbiennes du SAR (respiration et dénitrification potentielles), puis par une approche ADN-SIP (Stable Isotope Probing) couplée à du séquençage haut-débit, l'influence de l'exsudation racinaire sur la structure et la diversité des communautés bactérienne colonisant le SAR et le système racinaire. II) Dans un second temps, nous avons étudié le lien entre la stratégie de gestion des ressources des plantes et la nature des exsudats racinaires libérés au niveau du SAR et présents dans les extraits racinaires en analysant les profils des métabolites primaires chez Festuca paniculata, Bromus erectus et Dactylis glomerata, représentant respectivement des stratégies de gestion des ressources conservative, intermédiaire et exploitatrice / Root exudation is known to influence microbial communities functioning, in particular those involve in nitrogen cycle. (Haichar et al, 2012). It’s linked to plant physiology, which can be evaluated with functional traits, allowing a plant distribution in function of their performance in their environment. Thus, we can distinguish competitive species, with higher photosynthetic capacity and rapid rates of N acquisition, conservative species with the opposite characteristics (Aerts & Chapin, 1999) and intermediate plants, with intermediate characteristics.The objective of this work is to determinate the influence of nutrient management strategiy of 6 poaceae, along a strategies gradient from conservative strategy (Sesleria caerulea and Festuca paniculata), intermediate (Antoxanthum odoratum and Bromus erectus) to competitive strategy (Dactylis glomerata and Trisetum flavescens), on diversity and functioning of total and denitrifying communities.I) Firstly, we studied the link between the plant nutrient management strategy and the root exudates quantity in the root adhering soil (RAS). Then, we determined the influence of the rate of root exudation on potential microbial activities (respiration and denitrification), and with a DNA-SIP (Stable Isotope Probing) approach coupled to high-throughput sequencing, the influence of root exudation on the bacterial structure and diversity of communities colonizing the RAS and the root system. II) Secondly, we studied the link between the plant nutrient management strategy and the nature of molecules exuded in RAS and present in root extracts by analyzing primary metabolites profile to Festuca paniculata, Bromus erectus and Dactylis glomerata, respectively a conservative, an intermediate and a competitive plant. Then, we determined the influence of primary metabolites profile of each plant on semi-real denitrification of communities colonizing RAS of plants. III) Finally, an mRNA-SIP approach is in progress to determine the influence of exuded metabolites on active bacterial communities functioning and the expression of genes involved in denitrification process in RAS and root system. Our results show an influence of the nutrient management strategy on the rate of carbon exudation, the competitive plants exuding more than conservatives ones.

Rhizosphère

Exsudation racinaire

Trait fonctionnel végétaux

Dénitrification

Microbiote

Rhizosphere

Root exudation

Plant functional trait

Plant nutrient management strategy

Denitrification

Microbiote

579.3

Inhibition biologique de la dénitrification (BDI) par des métabolites secondaires du complexe d’espèces Fallopia spp. / Biological denitrification inhibition (BDI) by secondary metabolites of the complex species Fallopia spp.

Bardon, Clément

02 December 2014

L'azote est souvent considéré comme le premier facteur limitant la croissance des plantes terrestres (Vitousek & Howarth, 1991a; LeBauer & Treseder, 2008). Ainsi, les études sur le contrôle du fonctionnement microbien et la sélection des microorganismes des sols par les plantes se sont principalement intéressées au cycle de l'azote (N) (Chapman et al., 2006). Certaines plantes peuvent inhiber la nitrification ou la minéralisation de l'azote des sols par la libération de métabolites secondaires. Cependant, bien que la dénitrification soit considérée comme une voie majeure de perte d'azote des sols (25-90%) (van der Salm et al., 2007; Radersma & Smit, 2011), l'inhibition de la dénitrification par les métabolites secondaires de plantes n'a jamais été démontrée. Or il a été constaté à de nombreuses reprises qu'aux voisinages de certaines plantes la dénitrification du sol était réduite. C'est le cas du complexe d'espèces Fallopia spp. pour lequel les principaux facteurs connus pour influencer ce processus ne pouvaient expliquer cette réduction (Dassonville et al., 2011). Nos résultats démontrent pour la 1ière fois que les plantes (ici Fallopia) peuvent inhiber la dénitrification par la libération de procyanidines de type B qui induisent en anaérobiose des modifications physiologiques chez les dénitrifiants. Selon les sols, les communautés peuvent être plus ou moins sensibles notamment en fonction de leur exposition précédente à Fallopia spp.. Nos résultats apportent de nouvelles connaissances sur les interactions entre plantes et microorganismes et améliorent notre compréhension sur la capacité des plantes à modeler le fonctionnement microbien des sols / Nitrogen is often considered as the first limiting factor of plant growth (Vitousek & Howarth, 1991a; LeBauer & Treseder, 2008). Thus studies on plant-driven microbial functioning and selection by secondary metabolites have mostly focused on the effect of plant on the nitrogen (N) cycle (Chapman et al., 2006). Some plants can inhibit the nitrification and the nitrogen mineralization processes in soils through the release of secondary metabolites (Subbarao et al., 2009; Dietz et al., 2013; Heumann et al., 2013). However, while denitrification is considered as a major way of N losses in soils (25-90%) (van der Salm et al., 2007; Radersma & Smit, 2011), the denitrification inhibition by plant secondary metabolites was never demonstrated. However, it has been observed several times that the denitrification in soils near some species was reduced. The invasive complex species Fallopia spp. was shown to reduce denitrification in soils without affecting principal factors known to control this process (Dassonville et al 2011). Our, results demonstrate for the first time, that plants (here Fallopia spp.) can inhibit denitrification through the release of B-type procyanidins that induce physiological changes in denitrifying bacteria under anaerobic conditions. These compounds affect specifically the membrane-bound NO3-reductase through conformational changes. Less sensitive soils denitrifying communities may be selected in soils previously exposed to Fallopia spp. Our finding provides new insight into plant-soil interactions and improves our understanding of plants abilities to shape microbial soil functioning

Dénitrification

Inhibition biologique

Espèces invasives

Invasion biologique

Fallopia spp.

Azote

Métabolites secondaires

Polyphénols

Denitrification

Biological Inhibition

Invasive species

Invasion

Fallopia spp.

Nitrogen

Secondary metabolites

Polyphenols

579

Ecologie des bactéries N2O réductrices dans les sols agricoles / Ecology of N2O reducing bacteria in arable soils

Domeignoz Horta, Luiz A.

16 December 2016

Le protoxyde d’azote (N2O) est un gaz à effet de serre (GES) important et la principale substance attaquant la couche d'ozone. Les sols agricoles sont la principale source anthropique de ce GES. La concentration de N2O dans l'atmosphère est en constante augmentation, mais nous manquons de connaissances sur les facteurs contrôlant sa production et sa consommation dans les sols. La réduction du N2O en N2 par des microorganismes porteurs du gène codant pour la N2O réductase (nosZ) est le seul processus biologique capable de réduire ce GES. Des études récentes ont mis en évidence un clade précédemment inconnu de réducteurs du N2O qui interfère de manière significative avec la quantité de N2O produite dans les sols. Cette thèse a cherché à mieux comprendre l'écologie des réducteurs du N2O dans les sols agricoles.Une combinaison d'expériences d'incubation en laboratoire mais aussi d’expériences en plein champs a été utilisée pour essayer de mieux comprendre la production de N2O dans le sol, en analysant l’influence conjointe des producteurs et réducteurs de N2O. Nous avons aussi évalué l’impact des pratiques agricoles et leurs potentiels à modifier ces communautés microbiennes. Suite aux essais réalisés en laboratoire, nous avons montré que l'ajout d'une souche non-dénitrifiante Dyadobacter fermentans,possédant la N2O réductase NosZII, permettait de réduire la production de N2O dans 1/3 des sols testés. Certains sols sont même devenus consommateurs de N2O suite à l'ajout de la souche nosZII. Cette expérience a démontré la contribution des bactéries nosZII non-dénitrifiantes dans la consommation de N2O dans le sol.D’autre part, nos analyses en contexte agricole ont montré que les pratiques agricoles testées ont peu d’influence sur les communautés microbiennes considérées, les exceptions étant le travail du sol (labour), et le système de culture (annuel ou pérenne). L’intensifiant du travail du sol induit une augmentation de la diversité de nosZII. Nous observons le même phénomène dans le système de culture annuel comparé au système de culture pérenne. D’autres résultats nous permettent aussi d’affirmer que le clade récemment identifié de réducteurs du N2O est plus sensible aux variables environnementales que le clade précédemment connu (nosZI). Les variations de propriétés du sol, notamment pH et C:N structurent les communautés microbiennes appartenant à ces 2 clades indiquant une spécialisation de niche pour chacun de ces deux clades de N2O-réducteurs.Pour mieux comprendre les relations entre les communautés microbiennes et les processus impliqués, nous avons évalué les activités potentielles de dénitrification et de nitrification, et les émissions de N2O in situ. La production potentielle de N2O et l'activité potentielle de dénitrification ont été utilisées pour calculer le ratio de production de N2O (N2O:N2). La diversité du clade nosZII est négativement corrélée au ratio N2O:N2, et explique à elle seule la plus grande part de variance observée du ratio N2O:N2. Les variations de production potentielle de N2O et d'activité potentielle de dénitrification sont elles expliquées principalement par les variations de propriétés du sol. Afin de mieux évaluer la contribution des différents facteurs édaphiques et microbiologiques aux variations d’émission in situ de N2O, 70000 mesures ont été subdivisées en différentes gammes d’émission de N2O, d‘émissions dites de base à des émissions élevées. Fait intéressant, les variations d’émissions in situ de N2O dites de base sont seulement liées à des variations du pH du sol, alors que les variations d’émissions dites élevées sont également fortement associées aux variations de diversité des communautés microbiennes. Parmi les variables microbiennes importantes, nous avons constaté que la diversité des nosZII est négativement liée aux émissions de N2O in situ dites élevées.En conclusion, nos résultats mettent en évidence l’importance du clade nosZII pour le cycle du N2O dans le sol (...). / Nitrous oxide (N2O) is an important greenhouse gas (GHG) and the main ozone depleting substance. Agricultural soils are the main anthropogenic-induced source of this GHG. The concentration of N2O in the atmosphere is steadily increasing, but we still lack knowledge on the factors controlling its production and consumption in soils. The reduction of N2O to N2 by microorganisms harboring the N2O reductase gene (nosZ) is the only known biological process able to consume this GHG. Recent studies revealed a previously unknown clade of N2O-reducers which was shown to be important to the N2O sink capacity of soils. This thesis seeks to gain a greater understanding on the ecology of N2O-reducers in agricultural soils. A combination of laboratory incubation and field experiments were used to gain knowledge on the importance of N2O-producers and N2O-reducers to the soil N2O production. Additionally, the potential of agricultural practices to modify those microbial communities were assessed.We showed experimentally, in laboratory incubations, that the addition of a non-denitrifying strain Dyadobacter fermentans, which possesses the previously unaccounted N2O reductase NosZII, reduced N2O production in 1/3 of the tested soils. Remarkably, after addition of the nosZII strain, some soils became a N2O sink, as negative rates were recorded. This experiment provided unambiguous evidence that the overlooked non-denitrifying nosZII bacteria can contribute to N2O consumption in soil.Our evaluation of agricultural field experiments showed limited impact of agricultural practices on the microbial communities except for tillage management, and differences observed between an annual and a perennial cropping system. Increasing tillage management enhanced nosZII diversity. Higher diversity of the nosZII clade was also observed in the annual cropping system than in the perennial cropping system. Overall, the recently identified clade of N2O-reducers was more sensitive to environmental variables than the previously known clade (nosZI). The community structure of these two groups was explained by common and uncommon soil properties suggesting niche specialization between the two N2O-reducers.In an attempt to understand the relationship between the microbial communities and process rates, we assessed the potential denitrification and nitrification rates, and in situ N2O emissions. Potential N2O production and potential denitrification activity were used to calculate the denitrification end-product ratio. The diversity of nosZII was negatively related to the N2O:N2 ratio and explained the highest fraction of its variation (26%), while the potential N2O production and potential denitrification activity were mainly explained by the soil properties. To better evaluate the contribution of different factors to the in situ emissions, more than 70000 N2O measurements were subdivided into different ranges, from low to high rates. Interestingly, the low range of in situ N2O emissions was only related to soil pH, while the high ranges were also strongly related to the microbial communities. This result suggests that the “base-line” N2O emissions might be more regulated by soil edaphic conditions than by microorganisms, the lasts being more important for the high emissions ranges. Among the significant microbial variables, we found that the diversity of nosZII was negatively related to the high ranges of in situ N2O emissions.In conclusion, our results highlight the relevance of the second clade of N2O-reducers to the fate of N2O in soil. Our results also suggest niche differentiation between the two N2O-reducing clades with nosZII being more responsive to environmental variables. Agricultural practices showed limited impact on the two guilds. Further research is needed to test the niche specialization between the two groups, to disentangle their controlling factors, and to evaluate their potential for N2O mitigation.

Écologie microbienne

Azote

Gaz à effet de serre

Les pratiques agricoles

La dénitrification

L'oxyde nitreux

NosZ

Microbial ecology

Nitrogen

Greenhouse gas

Agricultural practices

Denitrification

Nitrous oxide

NosZ

579

577.3

Technologie odstranění oxidů dusíku (NOx) ze spalin pro velká spalovací zařízení / Technology to remove nitrogen oxides (NOx) from flue gases for large combustion plants

Kučera, Jan

January 2020

This diploma thesis deals with selected abatement techniques of nitrogen oxides (NOx) developed for large combustion plants. The first part describes selected NOx, their properties and explains the formation during combustion. Furthermore, there is an analysis of current legal legislation regulating the issue of emission limits. The third part presents selected primary and secondary measures that are widely used. The emphasis is placed on the description of selective catalytic (SCR) and non-catalytic reduction (SNCR). Finally, the basic design of these technologies for model combustion equipment is performed. The consumption of reducing medium and the volume of the catalyst for the mentioned techniques are calculated here. The estimate of selected operating and investment costs is a part of the basic scheme.

Dynamic hyporheic responses to transient discharge, temperature and groundwater table

Wu, Liwen

22 December 2020

Obwohl der Bedeutung von hyporheischen Zonen als Übergangsbereiche zwischen Flüssen und angrenzenden alluvialen Aquiferen eine wachsende Anerkennung zuteilwird, sind dynamische hyporheische Reaktionen auf instationäre hydrologische Bedingungen weiterhin signifikant untererforscht. Um diese Lücke zu schließen, liegt der Fokus dieser Doktorarbeit insbesondere auf den Effekten transienter Abflussverhalten und Temperaturschwankungen in Flüssen auf die raumzeitliche Variabilität von hyporheischen Austauschprozessen. Unter Beachtung dieser Ziele wird ein neues physikalisch basiertes numerisches Modell vorgeschlagen und schließlich angewandt, um systematisch die hyporheischen, durch Sedimentoberflächenstrukturen ausgelösten Reaktionen auf eine Reihe von künstlichen und natürlichen Abflussregimen abzuschätzen. Parameter wie das räumliche Ausmaß der hyporheischen Zone, hyporheische Austauschrate, mittlere Aufenthaltszeit, Temperatur des hyporheischen Flusses sowie das Denitrifikationspotenzial werden definiert, um den Einfluss der Antriebskräfte und Regulatoren auf dynamische hyporheische Reaktionen zu quantifizieren. Die Ergebnisse zeigen, dass mit zunehmendem Abfluss generell das räumliche Ausmaß der hyporheischen Zone vergrößert wird; jedoch bestimmen geomorphologische Bedingungen und Grundwasserflüsse erheblich das Ausdehnen und Zusammenziehen hyporheischer Zonen zusammen mit Strömungen, Wärme- und Stoffaustausch zwischen Fluss und Grundwasser. Temperaturvariabilität, ein wichtiger Faktor, welcher oft in hydrodynamischen Studien vernachlässigt wird, zeigt direkte kontrollierende Effekte beim Bestimmen hyporheischer Austauschraten und mittlerer Aufenthaltszeiten. Weiterhin spielt die Dynamik von Grundwasserständen eine entscheidende Rolle bei hyporheischen Austauschprozessen. Das Optimieren der Terminierung von Grundwasserförderung ist ausschlaggebend für die Regulierung von Wasserqualität, Nährstoffkreisläufen und der Entstehung thermischer hyporheischer Refugien. / Although there is a growing recognition of the importance of hyporheic zones as transitional areas connecting rivers and adjacent alluvial aquifers, the dynamic hyporheic responses to unsteady hydrological conditions are still significantly understudied. To bridge this gap, the present PhD thesis primarily focuses on the effects of transient river discharge and temperature fluctuations on the spatiotemporal variability of hyporheic exchange processes. With these objectives in mind, a novel physically based numerical model is proposed and then applied to systematically evaluate bedform-induced hyporheic responses to a series of synthetic and natural hydrological regimes. Metrics including spatial hyporheic extent, hyporheic exchange rate, mean residence time, temperature of hyporheic flux, and denitrification potential are defined to quantify the impact of drivers and modulators of dynamic hyporheic responses. Results indicate that increasing river discharge generally enlarges the spatial hyporheic extent; however, geomorphological settings and groundwater fluxes substantially modulate the expansion and contraction of hyporheic zones along with flow, heat and solute exchange between river and groundwater. Temperature variability, an important factor which is often neglected in hydrodynamic studies, displays direct controlling effects in determining hyporheic exchange rates and mean residence times. Groundwater table dynamics also play a critical role in hyporheic exchange processes. Optimizing the timing of aquifer pumping is crucial for regulation of water quality, nutrient cycling, and the formation of thermal hyporheic refugia. The findings largely advanced our mechanistic understandings of dynamic hyporheic responses to varying transient flow and temperature conditions, and therefore shed lights on improving river management and restoration strategies.

hyporheischen Zone

transienter Abfluss

Denitrifikation

ökologische Funktionsweise

Hyporheic Zone

transient flow

denitrification

ecological functioning

551 Geologie, Hydrologie, Meteorologie

RB 10357

RB 10354

RB 10363

ddc:551

Návrh čistírny odpadních vod v lokalitě s extrémními požadavky na jakost vyčištěných vod. / Design of WWTP at locality with extreme demands on quality of treated wastewater

Krupica, Radek

January 2013

This diploma thesis deals with the wastewater treatment technologies by means of which high quality of the treated wastewater is attained, especially with regard to removing nutrients. The introduction of the thesis contains, among others, descriptions of the reserves in the Czech Republic where it is extremely important to insist on the highest quality of the discharged wastewaters. Then follows a summary of the quality requirements on the discharged wastewaters as stipulated in the legislation. Furthermore, I analyse the impact of the nutrients – nitrogen and phosphorus – on the environment and the principles of their removal from the wastewaters. In the next section I concentrate on the technological processes by means of which the required quality of the wastewater is achieved. The conclusion includes a list of technologies used as the tertiary wastewater treatments with emphasis on membrane technologies. The second part of my thesis is a study of a project of a wastewater treatment plant (WWTP) with membrane technology for the villages of Sloup and Šošůvka located within the protected landscape area of Moravian Karst.