Belowground Fungal Community Change Associated with Ecosystem Development

Pineda Tuiran, Rosana P.

January 2017

Numerous studies have looked at biotic succession at the aboveground level; however, there are no studies describing fungal community change associated with long-term ecosystem development. To understand ecosystem development, the organisms responsible for shaping and driving these systems and their relationships with the vegetation and soil factors, it is critical to provide insight into aboveground and belowground linkages to ultimately include this new information into ecosystem theory. I hypothesized that fungal communities would change with pedogenesis, that these changes would correlate with vegetation community change, and that they should show change of composition and diversity as the seasons change. Chapter 1 discusses the main topics related to this dissertation. Chapter 2 includes a publication draft that describes a study of sand-dune soil samples from northern Michigan that were analyzed to pinpoint the structural change in the fungal community during the development of the ecosystem. The samples were analyzed by pyrosequencing the soil DNA, targeting the internal transcribed spacer region. Chapter 3 contains a coauthored published paper that describes plant invasion of fields in Virginia to determine how they impact soil bacterial and fungal communities. The bacterial and fungal communities that were invaded by 3 different plant species exhibited similar changes, regardless of plant species, suggesting that some functional traits of invasives may have similar impacts on belowground communities. Chapter 4 remarks the conclusions of this research. / Master of Science / Ecosystems, including the soils underneath, are the environments that surround us perform a large number of critical human-relevant functions (playing roles in production of food, filtration of water for drinking, sequestration of carbon and nitrogen to build soil organic matter, and buffer against flooding). Yet, how these systems naturally develop over time are still in need of detailed study. One particular area of interest and need is the study of belowground fungal communities. It is not commonly known, but plants and ecosystems are highly dependent on the underground web of fungal hyphae that transform nutrients and provide water to plants. A first step in gaining this understanding utilized a natural ecosystem development gradient known as a chronosequence. It was expected that fungal communities would change as soil and ecosystem development progressed and that they would mimic changes in soil and vegetative properties. Discerning if these linkages occur is the first step to assessing how they work together to create ecosystems and their valuable environmental services. Chapter 1 provides a discussion of the main topics in this dissertation. Chapter 2 is at the heart of the dissertation via a study of fungal communities in a developmental soil ecosystem in northern Michigan in addition, in Chapter 3, I include a coauthored published paper that describes plant invasion of fields in Virginia. Chapter 4 remarks on the major conclusions of this Master thesis, supporting the role that vegetation and fungal community change in soil are associated with one another.

Soil fungal community

Wilderness Park Chronosequence

Ecosystem Development

Season

ITS

Pyrosequencing

Microbial Community Structure

Plant Invasions

Investigating prevalence and transmission of antibiotic resistance in the environment at multiple scales

Fang, Peiju

25 April 2024

The discovery of antibiotics has been considered as one of the most remarkable scientific accomplishments of the last century. However, the extensive usage of antibiotics has led to the rapid emergence of antibiotic resistance genes (ARGs) and antibiotic resistant bacteria (ARB), which have been recognized as one of the biggest threats to human and environmental health. While ARGs and ARB are ubiquitous in diverse environments, aquatic environments play a particularly crucial role in their prevalence and dissemination. Furthermore, the microbial complexity and various pollutants persisting in aquatic environments significantly contribute to the evolution and spread of ARGs and ARB. However, the knowledge regarding the distribution pattern of ARGs on a large scale, as well as the interaction between microbial community, specific pollutants, and ARGs and ARB, is currently limited. In this study, I conducted systematic work at multiple scales, to fill crucial knowledge gaps that could support the future management of the spread of antimicrobial resistance. In particular, on the ecosystems level I depict the biogeographical patterns of ARGs in freshwater reservoirs, on the community level I explored the selection patterns of combinations of antibiotics on multidrug resistant strains in complex community context, and finally, on the population level I investigated the impact of cigarette smoke, and waste products on the dissemination of ARGs. In my first study, samples were collected from 24 freshwater reservoirs across southeast China and the biogeographical patterns of bacterial communities and ARG profile were characterized using 16S rRNA gene high-throughput sequencing and high-throughput-quantitative PCR. A distance-decay pattern for both, microbial communities and ARG profiles, were observed. However, larger differences between reservoir ARG profiles than microbial community compositions were detected. Further, I found that the biogeographical patterns of bacterial communities were simultaneously driven by stochastic and deterministic processes, while ARG profiles were not explained by stochastic processes, and the relationship between bacterial communities and ARG profiles was weak. In summary, this study indicated a decoupling of bacterial community composition and ARG profiles in inland waters under relatively low-human-impact at a large scale. In a second study, the selection dynamics for multidrug resistance between isogenic pairs of E. coli strains under exposure to multiple selective agents in the absence and presence of the microbial community were investigated using microcosm experiments. The presence of the community significantly decreased the selection for multidrug resistant strain under exposure to a single antibiotic. While pressure through the second antibiotic significantly decreased the activity and diversity of the community, its ability to reduce selection was consistently maintained at levels comparable to those recorded in the absence of the second antibiotic. This indicates that the observed effects of community context on selection dynamics are rather based on competitive or protective effects between the focal strains and a small proportion of bacteria within the community, than on general competition for nutrients. Last but not least, the effect of cigarette-derived pollutants on the proliferation of ARGs was explored using multifaced approaches. Cigarette smoke condensate in an artificial lung sputum medium significantly elevated the transfer rates of a multi-drug-resistance encoding plasmid between Pseudomonas strains. The overproduction of reactive oxygen species (ROS) as part of the bacterial stress response was directly connected to the increasing transfer rates. Similarly, cigarette ash leachate in an environmental medium significantly increased the plasmid transfer rates, and overproduction of ROS was equally detected. Furthermore, used cigarette filters with entrapped toxicants were submerged in a wastewater stream and colonized by distinct microbial communities compared to those colonizing unused control filters. The microbial communities colonizing used cigarette filters were significantly enriched in AMR, potential pathogenic bacteria and mobile genetic elements. Overall, the insights gained within this thesis into the spread of AMR at multiple scales constitute a valuable contribution to support future management and monitoring of ARGs in diverse ecosystems.

info:eu-repo/classification/ddc/577

ddc:577

The use of different ecosystem components as indicators of ecosystem development during platinum mine tailings rehabilitation / Johanna Martina (Juanita) Rossouw

Rossouw, Johanna Martina

January 2005

Platinum mining activities contribute substantially to South Africa's economy since it exceeded gold as economical contributor in 2001. Mining activities contribute to large amounts of waste production in the form of tailings and rock waste, deposited in the surrounding environment of the mine premises. Mining companies are held responsible for damages caused to the surrounding environment. These companies are required to introduce the cost of ecological rehabilitation in their operation costs as well as compile an environmental management plan. Numerous attempts to rehabilitate mine waste have proven unsuccessful. New and improved rehabilitation techniques are required to facilitate in the rehabilitation of these mine spoils. Woodchip-vermicompost produced from platinum mining wastes (woodchips and sewage sludge) was used as an alternative amendment to inorganic fertilisers during the rehabilitation of platinum mine tailings. The effectiveness of the woodchip-vermicompost as an alternative amendment during the platinum mine tailings rehabilitation were monitored using different ecosystem components. A natural veldt in the vicinity of the mine area was randomly selected to serve as a reference site. These ecosystem components selected have previously been shown to be effective as indicators of ecosystem quality. The components selected for this study includes the use of microbial enzymatic activity, microbial community structure, nematode trophic structures, and other mesofaunal groups such as micro-arthropods. The physical and chemical properties of the platinum mine tailings and reference area as well as the vegetation cover of the platinum mine tailings were determined. Statistical and multivariate analyses were use to determine the correlation between the dependent microbial components and dominate independent chemical properties. Nematode trophic structure, Maturity Index, and Plant-Parasitic nematode Index were used to compare the two rehabilitation techniques in terms of nematodes as indicators. Microarthropods family structures were used to compare the two amendments in terms of diversity and abundance. Enzymatic activity was positively affected by the addition of woodchip-vermicompost, than in the sites treated with inorganic fertilisers. The microbial community structure showed no statistically significant (p < 0.05) differences between the two amendments. A higher abundance of nematodes especially plant-parasitic nematodes and bacterivorous nematodes were observed in the woodchip-vermicompost sites than in the inorganic fertilised sites. According to the Maturity Index, both amendments became more enriched during the study period, while the Plant-Parasitic nematode Index showed that the carrying capacity for plantparasitic nematodes on the woodchip-vermicompost sites increased while it decreased in the inorganic fertilised sites, which can be related to the decrease in vegetation cover on the inorganic fertilised sites. Both coloniser (Prostigmata) and persister (Cryptostigmata and Mesostigmata) groups of the micro-arthropods, as well as a higher diversity of micro-arthropods, were present on the woodchip-vermicompost sites whereas the inorganic fertilised sites showed only the presence of colonisers, with a decrease in diversity and abundance of micro-arthropods over the study. The colonisation of micro-arthropods may have been affected by the addition of woodchip-vermicompost and vegetation cover, which contribute to the establishment of suitable microhabitats for these soil biota. By intercorrelating the results, it may be concluded that the addition of woodchip-vermicompost may be an essential part of the rehabilitation process, by contributing to soil organic material to the ecosystem system, which may improve the recolonisation of soil biota and ecosystem processes. However further studies need to be conducted in order to determine the long-term sustainability of the woodchip-vermicompost in providing organic material and sustaining the ecosystem processes. The study also showed the necessity to integrate various ecosystem components when evaluating ecosystem development due to the unique role each component plays and the impact it may have on other components. / Thesis (M. Environmental Science)--North-West University, Potchefstroom Campus, 2006.

Inorganic fertilisers

Mesofauna

Microbial community structure

Microbial enzymatic activity

Nematode trophic structure

Platinum mine tailings

Woodchip-vermicompost

MICROBIAL COMMUNITY FUNCTION IN FRESHWATER WETLAND SOILS: USING EXTRACELLULAR ENZYME ANALYSIS TO STUDY THE EFFECT OF MOISTURE AND VEGETATION

Porter, Aaron

23 June 2011

Differences in microbial function via extracellular enzyme activity (EEA) were investigated to determine the potential effects of hydrology and plant-soil-microbe interactions in a young non-tidal freshwater riparian wetland. To study these relationships, three plots were established along a moisture gradient (Wet, Intermediate, Dry) within VCU Rice Center Within each main plot, five subplots were left undisturbed while another five were cleared of all above-ground plant biomass. Homogenized soil cores (top 10 cm) were analyzed for pH, redox, C:N, soil organic matter (SOM) content, saturation, and temperature. Microbial function was assessed using extracellular enzyme analysis. For most enzymes, a site difference was observed due to soil moisture content, which had an effect on soil pH, redox potential, and plant community composition. For most extracellular enzymes the presence of vegetation was associated with higher activity. It is important to note that reestablishing native hydrologic and vegetated conditions are paramount in achieving previous functionality.

Microbial ecology

extra-cellular enzymes

wetland restoration

VCU rice center

microbial community

microbial function

Environmental Sciences

Physical Sciences and Mathematics

Characterization of microbial communities in Technosols constructed for industrial wastelands restoration / Caractérisation des communautés microbiennes dans les technosols construits pour la restauration des friches industrielles

Hafeez, Farhan

06 September 2012

L'augmentation de la dégradation des sols et ses conséquences sur les services écosystémiques nécessite le développement de stratégies de restauration de ces sols. La constitution de Technosols, résultant de l’assemblage de sols pollués et de déchet industriels, est une approche innovatrice pouvant à la fois permettre de restaurer les sols et de recycler des sous-produits industriels. Des études récentes ont mis en évidence que les Technosols pouvaient assurer des services écosystémiques tels que la production primaire. Toutefois, notre connaissances des autres services écosystémiques rendus par les Technosols tels que les cycles biogéochimiques est limitée. En raison de la contribution significative des communautés microbiennes aux cycles biogéochimiques dans les sols, l’objectif de ce travail de thèse était l’effet du type de Technosol sur les communautés microbiennes et plus particulièrement les communautés fonctionnelles impliquées dans le cycle de l’azote. Dans ce contexte, (i) la densité et la diversité de la communauté bactérienne totale, (ii) la densité de la communauté crenarchéenne ainsi que (iii) la densité et les activités des communautés nitrifiante et dénitrifiante ont été étudiées dans deux types de Technosols différents. Les résultats obtenus montrent que la diversité et la composition de la communauté bactérienne des deux Technosols n'étaient pas significativement différentes entre elles, et similaires à celles de ‘sols naturels’, les Proteobacteria étant le phylum dominant (50-80%). La densité de la communauté bactérienne oxydant l’ammonium était non seulement plus importante que celle des crenarcheae qui oxyde l’ammonium, mais est également corrélée avec l'activité potentielle de nitrification suggérant ainsi que les bactéries sont responsables de l’oxydation de l’ammonium dans les Technosols. La densité des dénitrifiants et de la communauté oxydant l’ammonium sont du même ordre de grandeur que celles observées dans les sols agricoles. L’analyse de la distribution de l'activité et de la densité des communautés nitrifiante et dénitrifiante dans les différents horizons des Technosols montre un effet négatif de la profondeur, cet effet étant plus marqué que l’effet du type de Technosol étudié. Les propriétés physico-chimiques des Technosols et la densité de la communauté bactérienne oxydant l’ammonium sont corrélés à l'activité de nitrification alors que l'activité de dénitrification était contrôlée principalement par les propriétés physico-chimiques des Technosols, et dans une moindre mesure par la densité de la communauté dénitrifiant possédant le gène nirS. L'estimation de la stabilité fonctionnelle du processus de dénitrification vis-à-vis de périodes stress hydrique et thermique a montré que les Technosols présentaient une plus haute résistance et une meilleure résilience que des sols remédiés par traitement thermique uniquement. Ce travail souligne le potentiel des Technosols à assurer les services écosystémiques tels que le cycle de l’azote, ainsi que leur forte capacité à résister et à se remettre de stress environnementaux. Tout ceci semble donc indiquer que la construction de Technosols est une technologie prometteuse qui pourrait permettre la restauration de friches industrielles et le recyclage des déchets industriels / Increasing soil degradation and its consequences on overall ecosystem services urge for restoration strategies. Construction of Technosols through assemblage of treated soil and industrial wastes is an innovative technology for the restoration of polluted land and re-use of industrial by-products. Recent studies have evidenced that Technosols could support ecosystemic services such as primary production but the knowledge about other soil functions, such as biogeochemical cycling, is limited. Due to the significant contribution of microbial communities to soil functioning, this PhD work was carried out to study the effect of the type of Technosol on microbial communities with a focus on functional guilds involved in N cycling. For this purpose, the abundance and diversity of the total bacterial community and the abundance of crenarchaeal community together with the abundance and activities of the nitrifying and denitrifying communities were investigated in two types of Technosols. Results demonstrated that diversity and composition of the bacterial community were similar to ‘natural soils’ and were not significantly different between the two Technosols with Proteobacteria being the dominant phylum (50-80%). The bacterial ammonia oxidizers were greater in number than crenarchaeal ammonia oxidizers but also correlated to the potential nitrification activity suggesting that bacteria are the dominant ammonia oxidizers in Technosols. The abundance of both the ammonia oxidizers and the denitrifiers were in the same range than that observed in other soil systems. Analyses of the vertical distribution of the activity and abundance of N-cycling communities in the Technosols showed a significant depth-effect, which was more important than the Technosol type-effect. Technosols physicochemical properties and the abundance of the bacterial ammonia oxidizers were the main drivers of the nitrification activity whereas the denitrification activity was controlled mainly by the Technosols physicochemical properties and, to a minor extent, by the abundances of the nirS denitrifiers. The estimation of the functional stability of the denitrification process against the heat-drought stresses revealed that Technosol exhibited the high resistance and resilience in comparison to the thermally treated soil. This work highlighted the potential of constructed Technosols to ensure the N cycling ecosystem services, along with a high capacity to resist and recover from environmental stresses, suggesting that construction of Technosols is a promising technology and a solution for the restoration of industrial wastelands and waste recycling

Sols pollués

Cycle de l'azote

Communauté microbienne

Services écosystémiques

Technosols

Contaminated soils

Nitrogen cycling

Microbial community

Ecosystem services

Technosols

628.5

577

Etude d'un écosystème bactérien synthétique anaérobie producteur d'hydrogène : Impact des interactions bactérie-bactérie sur le métabolisme

Benomar, Saida

07 December 2012

Un grand nombre d'espèces microbiennes, issues d'environnements divers et présentant une large gamme de métabolismes différents, peuvent produire de l'hydrogène par voie fermentaire. Jusqu'à présent, les études ont principalement porté sur l'utilisation de cultures microbiennes pures, voire génétiquement modifiées, en vue d'optimiser la production de biohydrogène à partir de sucres simples ou peu complexes. Les efforts de recherche portent désormais sur l'utilisation de cultures microbiennes mixtes pour produire du biohydrogène à partir de sources organiques plus complexes issus par exemple du traitement de la biomasse. Toutefois, la présence de voies métaboliques alternatives tout comme l'instabilité du processus biologique constitue des verrous scientifiques et techniques qu'il conviendra de lever pour une application potentielle. Ceci nécessite entre autre une meilleur connaissance des interactions bactériennes et donc métaboliques présentent au sein du consortium.Pour cela, nous avons développé une approche innovante et pluridisciplinaire d'ingénierie écologique qui consiste en la conception, la construction et l'étude d'un consortium microbien synthétique afin d'établir les paramètres régissant les réseaux d'interactions métaboliques avec pour objectif d'optimiser la production d'hydrogène. Dans un premier temps nous avons choisit d'étudier les réseaux d'interactions métaboliques entre deux souches modèles connues comme partie prenante d'un consortium bactérien naturel, une bactérie du genre Clostridie et une du genre Desulfovibrio, la première étant productrice d'hydrogène par fermentation / Numerous microorganisms can produce hydrogen by “dark fermentation”. Isolated from various environments, they present a broad range of different metabolisms. Until now, literature reports have mainly dealt with the use of pure microbial cultures producing biohydrogen from simple sugars, such as glucose and sucrose. More recently, studies on biohydrogen production by mixed cultures from complex organic sources have been developed. Even though biohydrogen productivities and conversion yields can be interesting for industrial purposes, several scientific and technical constraints remain to be addressed. In particular, the presence of alternative metabolic ways of hydrogen consumption generally results in chronic instability of the biological processes. To increase the stability and the efficiency of dark fermentative processes, it is now necessary to acquire a better understanding of the metabolic interaction networks existing between producing and consuming microorganisms.We have developed an innovative and multidisciplinary approach to ecological engineering, which consists of the construction and study of synthetic microbial consortia to establish the metabolic networks existing between microorganisms for further optimization of biohydrogen production. First we have studied the networks of metabolic interactions between two bacterial models known as involved in a natural bacterial consortium: a bacterium from Clostridium genus; Clostridium acetobutylicum and one from Desulfovibrio genus, Desulfovibrio vulgaris Hildenborough. The first one being producing of hydrogen by fermentation of complex sugars and the second

Communauté microbienne

Bioénergie et hydrogène

Microbiologie

Interaction cell-cell

Anaérobie

Biofilm

Microbial community

Bioenergy and hydrogen

Microbiology

Cell-cell interaction

Anaerobic

Biofilm

Impact des fluctuations de salinité sur le cycle de l'azote dans les sédiments de l'étang de berre

Zaghmouri, Imen

07 March 2013

Dans l'étang de Berre, les apports excessifs en eau douce entraînent souvent des variations brusques de la salinité et des apports en azote parfois abondants. Les processus de régénération sédimentaire et d'élimination d'azote constituent des phénomènes majeurs pouvant expliquer le développement phytoplanctoniques et contrôler l'eutrophisation. L'étude de ces processus a été réalisée dans 2 stations ayant subi des historiques de variations de salinité différents. RDNA et anammox étaient négligeables. La dénitrification (couplée à la nitrification) serait le principal processus de sortie de N2 de l'étang. La forte production primaire pélagique utilisant l'ammonium a pu être expliquée par les processus de régénération, contrairement au nitrate dont la demande pélagique serait soutenue par des apports externes. Comme la salinité est susceptible d'influencer les processus d'azote, des microcosmes ont été utilisés afin d'évaluer la sensibilité de ces processus (résistance, résilience, shift) face aux variations à court terme de la salinité. Les 2 stations ont présenté des réponses différentes (dénitrification et nitrate réduction plus résilientes que la nitrification), suggérant que les stress halins à long terme influencent les réponses à court terme. Une hypothèse serait que la diversité et la structure des communautés joueraient un rôle crucial dans le maintien des taux d'activité. Dans cette étude, seule la communauté nitrifiante (AO) a été étudiée. Les AO et leurs transcrits étaient spécifiques aux sites et leurs abondances changeaient faiblement entre les microcosmes (résistance plus forte dans le site fréquemment soumis à des fluctuations de salinité). / The Berre lagoon receives excess freshwater leading to strong changes in the ecosystem salinity and in the nutrient inputs. Regeneration processes and the N2 removal of nitrogen are of a particular interest as they can explain the planktonic development and control the eutrophication state. These processes were studied in 2 stations with different patterns of long term stresses. DNRA and anammox were negligible. Denitrification (particularly the one coupled to nitrification) would be the main N2 removal in the lagoon. The high primary production based on N-NH4+ can be explained by the regeneration processes, while the primary production based on N-NO3- might be sustained by external inputs. As salinity susceptible to influence directly or indirectly the nitrogen processes, a microcosm approach was used in order to assess their sensitivity (resistance, resilience, shifts) to short term salinity fluctuations. Overall, towards the same kind of perturbations, the two stations responded differently (denitrification and nitrate reduction exhibited showed higher resilience than nitrification.), suggesting that long-term saline stresses would influence short-term responses. We suggest that the diversity and the structure of the communities would be crucial in their functional redundancy and thereby in the maintenance of the rates. In this study, we focused on the total structure of the nitrifying community (AO). AO and their transcripts were site-specific and their abundances changed slightly between microcosms (higher resistance in the site subject to frequent salinity fluctuations compared to the other site which is not affected by changes in the in situ salinity).

Nitrification

Dénitrification,

Fluctuations de salinité

Microcosmes

Sédiment

Réponse des communautés

Nitrification

Denitrification

Salinity fluctuations

Microcosms

Sediment

Microbial community response

550

Estudo de perturbações do equilíbrio de ecossistemas aquáticos microscópicos como método para a avaliação de contaminação por substâncias tóxicas / Study of disturbances of the balance of aquatic microscopic ecosystems as a method for the evaluation of contamination by toxic substances

Ribeiro, Izabel Adelina

17 September 2002

Sistemas de testes biológicos com espécies representativas têm sido utilizados para avaliar os efeitos causados por substâncias tóxicas no meio aquático. Os bioensaios contam com protocolos definidos, porém os organismos estão isolados de seu meio. O objetivo deste trabalho é desenvolver um sistema de testes capaz de avaliar os efeitos adversos, não apenas sobre uma única espécie, mas sobre um ecossistema. Para esta finalidade foi construído em laboratório um ecossistema aquático microbiano experimental capaz de gerar uma comunidade microbiológica e reproduzir em escala reduzida os componentes de um ecossistema natural, formando uma estrutura ecológica. Dois grupos morfológicos foram observados em sequência ecológica na medida em que as condições do meio eram alteradas. Curvas de dinâmicas de crescimento indicaram comportamento típico para o grupo de protozoários ciliados e apresentaram crescimento logarítmico em torno do quarto dia de aeração. Inibição no crescimento fora observada quando concentrações de 12,28 mg/l de cobre (3,12 ppm) e 2,5 ml/l de inseticida DDVP 20 são introduzidos nos sistemas. Não foi observada dinâmica típica para o grupo de bactérias filamentosas. Para análise dos resultados foi aplicado teste estatístico de análise de variância. O método não permitiu o estudo de relações ecológicas que se estabelecem, mas fornece informações sobre aspectos teóricos da ecologia referentes ao funcionamento dos ecossistemas e seus atributos como a capacidade de auto-organização e o processo de sucessão ecológica. Para maior precisão do método, sugere-se estudo da composição da comunidade incluindo métodos de biologia molecular, alongamento do período do experimento e aplicação de modelos populacionais. / Biological testing systems with representative species have been used to assess the effects caused by toxic substances in the aquatic environment. Bioassays rely on defined protocols, but organisms are isolated from their environment. The objective of this work is to develop a test system capable of evaluating adverse effects, not only on a single species, but on an ecosystem. For this purpose an experimental microbial aquatic ecosystem was built in the laboratory capable of generating a microbiological community and reproducing the components of a natural ecosystem in a reduced scale, forming an ecological structure. Two morphological groups were observed in ecological sequence as the conditions of the environment were altered. Growth dynamics curves indicated typical behavior for the group of ciliate protozoa and presented logarithmic growth around the fourth day of aeration. Growth inhibition was observed when concentrations of 12.28 mg / l copper (3.12 ppm) and 2.5 ml / l DDVP 20 insecticide are introduced into the systems. No typical dynamics were observed for the group of filamentous bacteria. Statistical analysis of variance was applied to analyze the results. The method did not allow the study of established ecological relations, but provides information on the theoretical aspects of ecology related to the functioning of ecosystems and their attributes such as the capacity of self-organization and ecological succession process. For better precision of the method, we suggest a study of community composition including methods of molecular biology, elongation of the experiment period and application of population models.

Aquatic Ecosystem

Assessment

Avaliação

Comunidade Microbiana

Ecological Principals

Ecological Succession

Ecossistemas Aquáticos

Microbial Community

Microcosm

Microcosmo

Princípios Ecológicos

Sucessão Ecológica

Estrutura da comunidade microbiana (algas e bactérias) em um sistema de lagoas de estabilização em duas escalas temporais: nictemeral e sazonal / Microbial structure (algae and bacteria) from a wastewater stabilization ponds system in two different temporal scale: nictemeral and seasonal

Falco, Patrícia Bortoletto de

20 December 2005

O estudo da comunidade microbiana que participa do processo de estabilização da matéria orgânica presente nos efluentes sanitários é fundamental para o melhor conhecimento dos tipos de sistemas de tratamento biológico. A avaliação da dinâmica de algas e bactérias presentes no sistema australiano de lagoas de estabilização da cidade de Novo Horizonte (SP) foi o principal objetivo deste trabalho. Para esta avaliação foram determinadas as densidades destes organismos (contagem direta) e a taxa de produção fitoplanctônica (medida pela produção de oxigênio dissolvido) e comparadas às condições abióticas, em escala nictemeral (coletas a cada 6 horas), sazonal (4 épocas do ano), espacial longitudinal (5 estações ao longo do sistema) e vertical (3 profundidades nas lagoas facultativas). Os resultados obtidos indicaram diferenças sazonais na qualidade do efluente final e no desempenho das lagoas. Mesmo com estas diferenças, o efluente final pode ser considerado como potencialmente eutrofizante quanto à concentração de matéria orgânica e de fósforo total. As lagoas facultativas apresentaram condição de anaerobiose na maior parte da coluna de água, o que contribuiu com a não eficiência do sistema / The study of the microbial community (algae and bacteria) that participates of the organic matter stabilization process in the effluent sanitary it is important for the best knowledge of the types of the biological treatment systems. The evaluation of the dynamics of the algae and bacteria in the Australian wastewater stabilization ponds of the Novo Horizonte city (SP) was the main objective of this research. For this evaluation, the densities of these organisms (direct counting) and the primary production rate were determined (measured for the production of oxygen dissolved) and compared to the abiotics conditions, in nictemeral scale (it collects to each 6 hours), seasonal (four periods of the year), longitudinal (5 stations through the system) and vertical spatial (three depths in the facultative ponds). The results indicated seasonal differences in the final effluent quality and in the ponds performance. Although these differences, the final effluent can be considered as potentially eutrophic according to the organic matter and total phosphorus concentrations. The facultative ponds showed an anaerobic condition on the great part of the water column, which contributed with the low efficiency of the system

ciclos nictemerais e sazonais

lagoas de estabilização

microbial community (algae and bacteria)

seasonal and nictemeral cycles

wastewater stabilization ponds

LONG-TERM LAND MANAGEMENT PRACTICES AND THEIR EFFECT ON SOIL HEALTH AND CROP PRODUCTIVITY

Muratore, Thomas Joseph, Jr.

01 January 2019

Agricultural intensification reliant on monocrops could change soil health in a way that does not support maximum crop productivity. Twenty-nine-year-old no-till field plots at the University of Kentucky Spindletop research farm showed a significant reduction in corn yields from continuous corn plots compared to those from plots in various types of rotation. The objective of this study was to determine what role soil microbes might play in yield reduction and how management and time effects microbial community structure. Samples were collected from the following treatments: continuous corn (CC), continuous soybean (SS), a 2-year corn/soybean rotation (CCSS), Corn in rotation with soybean with winter wheat cover (C/W/S), and sod controls (SOD). Soil health-related parameters were determined along with microbial community structure using phospholipid fatty acid analysis (PLFA). Results show that there is a strong seasonal dynamic in microbial communities with May, July and September showing the greatest differentiation between treatments. Nonparametric multidimensional analysis (NMDS) shows that microbial communities under SS, CC treatments were significantly different from the CS and CWS treatments across all four years of the study. My findings will prove useful for assessing the contribution of biological indicators to agroecosystem function and will aid in making recommendations of when and how to manage these parameters to improve soil health and maximize yield.

PLFA

Microbial Community Structure

Crop Rotation

Corn Yield

Temporal Dynamics

Agricultural Science

Soil Science