Mecanismos de toxicidade do inseticida imidacloprido no fígado de rato

Bizerra, Paulo Francisco Veiga

January 2018

Orientador: Fábio Erminio Mingatto / Resumo: O imidacloprido (IMD) é um inseticida neonicotinóide largamente utilizado em diversas culturas agrícolas e em animais para o controle de pragas. O IMD é rapidamente absorvido pelo trato gastrointestinal e por contato, sendo rápida e uniformemente distribuído nos órgãos e tecidos. Dados da literatura mostram que as concentrações mais elevadas foram observadas nos órgãos de eliminação: fígado e rins. O fígado é o principal órgão envolvido na biotransformação de substâncias exógenas (xenobióticos), convertendo compostos hidrofóbicos em hidrossolúveis, mais facilmente eliminados pelo organismo. Vários estudos vêm sendo conduzidos sobre os efeitos tóxicos do IMD em animais, causando danos ao fígado. Nesse sentido, o objetivo desse estudo foi avaliar os mecanismos envolvidos na toxicidade do IMD sobre a bioenergética de mitocôndrias e hepatócitos isolados de rato e ações do IMD sobre o metabolismo de carboidratos e proteínas em fígado de rato em perfusão. Em mitocôndrias isoladas, o IMD promoveu uma diminuição dose-dependente no estado 3 da respiração e na produção de ATP, sem afetar o potencial de membrana mitocondrial. Experimentos subsequentes medindo o consumo de oxigênio mostraram que o IMD não afeta a cadeia respiratória e que seu efeito é semelhante ao da oligomicina (inibidora da FoF1-ATP sintase) e/ou ao do atractilosídeo (inibidor do translocador de nucleotídeos de adenina, ANT). IMD inibiu a atividade da FoF1-ATP sintase em mitocôndrias rompidas e inibiu parcialmente a d... (Resumo completo, clicar acesso eletrônico abaixo) / Mestre

Bioenergética.

biotransformação

inseticida

Metabolismo.

toxicidade

bioenergetics

biotransformation

insecticide

metabolism

toxicity

Estudo da bioenergética mitocondrial de cardiomiócitos de camundongos obesos / Study of mitochondrial bioenergetics of cardiomyocytes of obese mice

Amélia Faustino Bernardo

01 June 2011

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / A obesidade é uma doença crônica, resultante do excesso de gordura no organismo. O aumento da obesidade no mundo, tem se revelado como um dos fenômenos clínicos e epidemiológicos da atualidade. Estudos populacionais e em modelos animais demonstram que a origem da epidemia da obesidade está relacionada a fatores genéticos, modificações de hábitos nutricionais, redução da atividade física, e alterações nutricionais durante a lactação, desempenhando um papel relevante no desenvolvimento da obesidade, DM2 e cardiomiopatias. As mitocôndrias são os coordenadores centrais do metabolismo energético, assim, alterações funcionais e estruturais dessa organela têm sido associadas à desordens metabólicas. Elas exercem um papel na sobrevivência e função dos cardiomiócitos devido à alta demanda energética do miocárdio. Desta forma, disfunções mitocondriais estão relacionadas com disfunções no miocárdio e conseqüente progressão de cardiomiopatias. Neste estudo, avaliamos a bioenergética e a ultraestrutura de cardiomiócitos de camundongos obesos e controle hiperalimentados durante a lactação. O consumo de oxigênio das fibras cardíacas foi avaliado por respirometria de alta-resolução, utilizando um oxígrafo-2K-Oroboros. A ultraestrutura dos cardiomiócitos foi analisada por microscopia eletrônica de transmissão e o conteúdo das proteínas Carnitina palmitoil transferase 1 (CPT1), Proteína desacopladora 2 (UCP2) , Transportador de glicose 1 e 4 (GLUT1) e (GLUT4), Proteína Kinase ativada por AMP (AMPK) e Proteína kinase ativada por AMP fosforilada p(AMPK) por Western blotting (WB). Além disso, o peso dos animais, a gordura retroperitoneal, epididimal e a glicemia em jejum foram determinadas. Nossos resultados confirmaram que os animais do grupo hiperalimentados (GH), aos 90 dias de vida, apresentaram aumento da massa corporal, de gordura epididimária e retroperitoneal comparado ao grupo controle (GC). As taxas respiratórias foram semelhantes nos dois grupos quando foram utilizados os substratos dos complexos I e II. Entretanto, quando o ácido graxo palmitoil-L-carnitina foi utilizado, a taxa respiratória máxima do GH foi significativamente menor. A análise ultraestrutural dos cardiomiócitos do GH demonstrou intenso dano na matriz mitocondrial e maior presença de gotículas de lipídios, caracterizando deposição ectópica. Os resultados do WB mostraram aumento significativo do conteúdo de CPT1 e UCP2 no GH comparado ao GC. Não foram encontradas diferenças significativas no conteúdo de GLUT1 entre os grupos, entretanto, observamos maior conteúdo do GLUT4 no GH. Além disso, encontramos maior conteúdo de AMPK no GH, ao passo que o conteúdo de pAMPK foi semelhante entre os grupos. Entretanto, a razão pAMPK/AMPK é significativamente menor no GH. Esses resultados sugerem que a hiperalimentação durante a lactação leva a obesidade na vida adulta com alterações na bioenergética e ultraestrutura dos cardiomiócitos. / Obesity is a chronic disease resulting from the excess of fat in the body. The increase of obesity in the world has been on the clinical and epidemiological phenomenon of the present. Population studies and animal models, show that the origin of the "obesity epidemic", is related to genetic factors and habits acquired during early and adult life, such as changes in dietary habits and reduction in physical activity. In this context, nutritional changes during the period of lactation play an important role in the development of obesity, type 2 Diabetes Mellitus and cardiovascular diseases. Mitochondria are the central coordinators of energy metabolism, playing a role in the survival and function of the cardiomyocytes due to high energy demand of the myocardium. Functional and structural alterations of this organelle have been associated with metabolic disorders as well to myocardium dysfunction, and consequent progression of cardiomyopathies. In this study, we evaluated the bioenergetics and the ultrastructure of cardiomyocytes from obese (OG) and control (CG) mice overfed during lactation. The oxygen consumption of cardiac fibers was assessed by high resolution respirometry, using a 2K-oxigraph-Oroboros. The ultrastructure of the cardiomyocytes was analyzed by transmission electron microscopy, and the content of proteins carnitine palmitoyltransferase 1 (CPT1), uncoupling protein 2 (UCP2), glucose transporter 1 and 4, (GLUT1) and (GLUT4), activated Protein kinase by AMP (AMPK) and AMP-activated protein kinase phosphorylated (pAMPK) was assessed by Western Blotting (WB). In addition, animal body mass, retroperitoneal and epididymal fat, and fasting blood glucose were determined. Our results confirmed that animals in group OG, at 90 days of life, showed an increase in body mass and mediastinun and retroperitoneal fat when compared with CG. Respiratory rates were similar in both groups when we used complexes I and II substrates. However, when palmitoil-L-carnitine fatty acid was used, the maximum respiratory rate of OG was significantly lower than CG. The ultrastructural analysis of the cardiomyocytes of OG showed intense damage in mitochondrial matrix and greater presence of lipid droplets, characterizing ectopic deposition. WB analyses showed a significant increase of CPT1 and UCP2 contents in OG compared to CG. There were no significant differences in GLUT1 content between groups; however, we observed a greater content of GLUT4 in OG. In addition, we found a higher content of AMPK in OG, while the content of pAMPK was similar between groups. However, the pAMPK/AMPK ratio was significantly lower in OG. These results suggest that overfeeding during lactation leads to obesity in adult life with changes in bioenergetics and ultrastructure of cardiomyocytes.

Bioenergética

Obesidade

Disfunção mitocondrial

Bioenergetics

Obesity

Mitochondrial dysfunction

FISIOLOGIA ENDOCRINA

Movement and consumptive demand of the introduced flathead catfish Pylodictis olivaris in the upper Gila River basin, New Mexcio, and potential impacts on native fishes

Hedden, Skyler C.

January 1900

Master of Science / Biology / Keith B. Gido / Negative interactions with nonnative fish are often cited as a leading cause of declining native fish populations, but quantifying these interactions is difficult. Movement ecology and consumptive demand estimates of nonnative fish predators is needed to better understand potential impacts these organisms are having on native species. The objective of this thesis were to estimate the consumptive demand of Flathead Catfish Pylodictis olivaris on native fishes across an elevational gradient, and characterize the movement at hourly, daily, and seasonal scales of this introduced predator. This research was conducted in the upper Gila River basin of southwestern New Mexico. Bioenergetics modeling was used to estimate consumptive demand; model results were coupled with measured densities and size structure of Flathead Catfish populations, and water temperatures, to predict its predatory threat. Potential consumption was highest at lower elevation sites because of higher water temperatures, but actual consumption was highest at mid-elevation sites because of the prevalence of large-bodied individuals. Potential annual consumptive demand of Flathead Catfish on native fish across our nine sampling sites ranged from 0.0 to 3.1 g/m²/yr, which exceeded native fish productivity at one site. To characterize the movement of Flathead Catfish, we used radio telemetry and tracked individuals from May 2014 to June 2015. Movement behaviors varied among individuals with a majority moving <150 m from capture location and some more mobile, moving substantial distances (692-42,840 m). During the course of the study, activity was greatest in summer and fall, and individuals moving substantial distances moved downstream to warmer river reaches before the winter. Nightly movements only involved short distances (5 m) and no fish exceeded a single movement >80 m. Daily activity was greatest during evening but late afternoon activity was observed in summer and fall. Results from this study identify areas within the upper Gila River where introduced Flathead Catfish consumption is likely to negatively impact native fish populations and managers can use this information to understand potential overlap with native species, target future removal efforts in areas where these fish are concentrated, and avoid stocking native fishes in reaches where Flathead Catfish tend to aggregate.

Bioenergetics

Fish movement

Native fish conservation

Biology (0306)

Mecanismos de toxicidade do inseticida imidacloprido no fígado de rato / Mechanisms of toxicity of the insecticide imidacloprid in the rat liver

Bizerra, Paulo Francisco Veiga

16 February 2018

Submitted by PAULO FRANCISCO VEIGA BIZERRA null (paulo_veiga22@hotmail.com) on 2018-03-10T16:15:00Z No. of bitstreams: 1 003-2018-Paulo Francisco Veiga Bizerra2.pdf: 2018178 bytes, checksum: a64e6835d0947709c560109bd815c3e7 (MD5) / Approved for entry into archive by Fabio Sampaio Rosas null (fabio@dracena.unesp.br) on 2018-03-14T11:58:06Z (GMT) No. of bitstreams: 1 bizerra_pfv_me_dra.pdf: 2018178 bytes, checksum: a64e6835d0947709c560109bd815c3e7 (MD5) / Made available in DSpace on 2018-03-14T11:58:06Z (GMT). No. of bitstreams: 1 bizerra_pfv_me_dra.pdf: 2018178 bytes, checksum: a64e6835d0947709c560109bd815c3e7 (MD5) Previous issue date: 2018-02-16 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) / O imidacloprido (IMD) é um inseticida neonicotinóide largamente utilizado em diversas culturas agrícolas e em animais para o controle de pragas. O IMD é rapidamente absorvido pelo trato gastrointestinal e por contato, sendo rápida e uniformemente distribuído nos órgãos e tecidos. Dados da literatura mostram que as concentrações mais elevadas foram observadas nos órgãos de eliminação: fígado e rins. O fígado é o principal órgão envolvido na biotransformação de substâncias exógenas (xenobióticos), convertendo compostos hidrofóbicos em hidrossolúveis, mais facilmente eliminados pelo organismo. Vários estudos vêm sendo conduzidos sobre os efeitos tóxicos do IMD em animais, causando danos ao fígado. Nesse sentido, o objetivo desse estudo foi avaliar os mecanismos envolvidos na toxicidade do IMD sobre a bioenergética de mitocôndrias e hepatócitos isolados de rato e ações do IMD sobre o metabolismo de carboidratos e proteínas em fígado de rato em perfusão. Em mitocôndrias isoladas, o IMD promoveu uma diminuição dose-dependente no estado 3 da respiração e na produção de ATP, sem afetar o potencial de membrana mitocondrial. Experimentos subsequentes medindo o consumo de oxigênio mostraram que o IMD não afeta a cadeia respiratória e que seu efeito é semelhante ao da oligomicina (inibidora da FoF1-ATP sintase) e/ou ao do atractilosídeo (inibidor do translocador de nucleotídeos de adenina, ANT). IMD inibiu a atividade da FoF1-ATP sintase em mitocôndrias rompidas e inibiu parcialmente a despolarização do potencial de membrana induzida pelo ADP. Esses resultados indicam que o IMD afeta a bioenergética mitocondrial por meio da inibição da FoF1-ATP sintase. Em Experimentos com hepatócitos isolados de rato os resultados da respiração foram semelhantes aos encontrados nas mitocôndrias isoladas, porém o IMD afetou a produção intracelular de ATP e induziu a morte celular somente nos hepatócitos isolados de ratos previamente tratados com dexametasona, um ativador do citocromo P450. No fígado de rato em perfusão o IMD também inibiu a produção de glicose por meio da gliconeogênese. Esses resultados sugerem que a toxicidade do IMD pode estar associada a alterações no metabolismo energético celular sendo a enzima FoF1-ATP sintase o principal alvo da ação tóxica deste inseticida, e que os metabólitos formados na biotransformação do IMD podem ser mais tóxicos do que o próprio IMD. / Imidacloprid (IMD) is a neonicotinoid insecticide widely used in various crops and animals for pest control. IMD is rapidly absorbed by the gastrointestinal tract, being rapidly and evenly distributed in the organs and tissues. The highest concentrations were observed in the elimination organs: liver and kidneys. The liver is the main organ involved in the biotransformation of exogenous substances (xenobiotics), with the capacity to convert hydrophobic compounds into water soluble metabolites, which are more easily eliminated by the organism. Studies have been conducted on the toxic effects of IMD on animals, causing damage to the liver. In this sense, the objective of this study was to evaluate the mechanisms involved in the toxicity of IMD on the bioenergetics of mitochondria and isolated hepatocytes of rats and its actions on the metabolism of carbohydrates and proteins in liver of rats in perfusion. In isolated mitochondria, IMD promoted a dose-dependent decrease in the state 3 of mitochondrial respiration and ATP levels, without affecting mitochondrial membrane potential. Subsequent experiments measuring oxygen consumption have shown that IMD does not affect the electron transport chain and that its effect is similar to that of oligomycin (FoF1-ATP synthase inhibitor) and/or atracytoside (ANT adenine nucleotide translocator inhibitor). In the perfusion rat liver IMD inhibited the activity of FoF1-ATP synthase in freeze/thaw-disrupted mitochondria and partially inhibited the depolarization of the membrane potential induced by ADP. These results indicate that IMD affects in mitochondrial bioenergetics by inhibiting FoF1-ATP synthase. In experiments with isolated hepatocytes respiration results were similar to those found in isolated mitochondria, but IMD affected the intracellular production of ATP and induced cell death only in hepatocytes isolated from rats previously treated with dexamethasone, a cytochrome P450 activator. IMD also inhibited the production of glucose by gluconeogenesis. These results suggest that IMD toxicity may be associated with changes in cellular energy metabolism with the enzyme FoF1-ATP synthase being the main target of the toxic action of this insecticide, and that the metabolites formed in the biotransformation of the IMD may be more toxic than the IMD itself. / FAPESP: 2015/19549-8

bioenergética

biotransformação

inseticida

metabolismo

toxicidade

bioenergetics

biotransformation

insecticide

metabolism

toxicity

Avaliação da toxicidade dos congêneres BDE-47 e BDE-99 de éter de bifenilas polibromadas (PBDEs) utilizando ensaios mitocondriais / Evaluation of the toxicity of BDE-47 and BDE-99 congeners of polybrominated biphenyl ether (PBDE) using mitochondrial assays

Murilo Pazin Silva

24 January 2014

Os éteres de bifenilas polibromados (PBDEs) são largamente usados como retardadores de chama e têm sido detectados no sangue humano, tecido adiposo e leite materno devido às suas propriedades físico-químicas e bioacumuladoras e à sua elevada persistência no meio ambiente. Muitos estudos têm relatado toxicidade hepática relacionada à exposição aos PBDEs. Como efeitos citotóxicos são frequentemente associados à disfunção mitocondrial,no presente estudo, investigamos a toxicidade do BDE-47 em mitocôndrias isoladas de fígado de rato. Nos seguintes parâmetros: potencial de membrana mitocondrial, consumo de oxigênio, interação com a membrana mitocondrial, liberação de cálcio, inchamento mitocondrial e os níveis de ATP da suspensão mitocondrial com a finalidade de observar a capacidade do composto em interferir com a bioenergética da organela. Avaliou-se ainda a formação de espécies reativas de oxigênio (ROS), dos níveis de GSH/GSSG, níveis mitocondriais de grupos sulfidrila de proteínas e níveis mitocondriais de NAD(P)H com o intuito de analisar o estado redox mitocondrial. Os congêneres BDE-47 e BDE-99 foram avaliados em concentrações que variaram entre 0,1 e 50 ?mol/L. Os dois congêneres de PBDEsapresentaram toxicidade mitocondrial afetando todos os parâmetros que avaliam a bioenergética mitocondrial culminandoum uma depleção do ATP. Por outro lado, nos ensaios de avaliação do estresse oxidativo os PBDEs estudados não demonstraram qualquer efeito, no entanto, afetaram a cadeia respiratória mitocondrial, o que normalmente reflete em um acúmulo de espécies reativas de oxigênio. Estes resultados são explicados pelo mecanismo de ação destes compostos como retardante de chama, pois durante a combustão os retardantes de chama bromados realizam a neutralização de radicais livres (OHo e Ho). Conclui-se assim que os PBDEs podem levar à disfunção bioenergética e assim induzir a morte celular pela diminuição do ATP. Observou-se ainda que BDE-47 apresentou maior toxicidade do que o BDE-99 sobre os parâmetros estudados. / Polybrominated biphenyls ethers (PBDE) , widely used as flame retardants, have been detected in human blood, adipose tissue and breast milk due to their physicochemical and high bioaccumulative properties and environmental persistence. Many studies have reported liver toxicity related to exposure to PBDEs. As cytotoxic effects are often associated with mitochondrial dysfunction,in the present study, we investigated the toxicity of the BDE-47 and BDE-99 on isolated rat liver mitochondria. Assessing mitochondrial membrane potential, oxygen consumption, interaction with the mitochondrial membrane, calcium release, mitochondrial swelling and ATP levels of the mitochondrial suspension in order to observe the ability of the compounds to interfere with the bioenergetic organelle, and the formation of reactive oxygen species (ROS), GSH/GSSG levels, mitochondrial sulfhydryl groups and levels of mitochondrial NAD(P)H in order to analyze mitochondrial redox state. The congeners BDE-47 and BDE -99 were evaluated at concentrations ranging between 0.1 and 50 ?mol/L. Both PBDEs congeners showed mitochondrial toxicity affecting all parameters that assess mitochondrial bioenergetics and culminating with ATP depletion. On the other hand, no effect was observed in tests assessing oxidative stress, although they were able to inhibit the mitochondrial respiratory chain, which is usually reflected in an accumulation of reactive oxygen species. These results are explained by the mechanism of action of this compounds as flame retardants, because during the combustion brominated flame retardants perform the neutralization of free radicals (OHo and Ho). It follows that PBDEs can lead to mitochondrial dysfunction and thus induce bioenergetic cell death. It was also observed that The BDE-47 showed higher toxicity than BDE-99 in the studied model

Bioenergética

Éter de bifenilas polibromadas

Mitocôndrias

Bioenergetics

Mitochondria

Polybrominated biphenyls ethers

Padrões bioenergéticos das aranhas de teia: considerações sobre a unidade e a diversidade do fenômeno / Patterns of bioenergetic of web spiders: considerations about the unity and diversity of the phenomenon

Tatiana Hideko Kawamoto

30 March 2012

A mecanismos fisiológicos é frequentemente usada para explicar fenômenos importantes da evolução (p.e. endotermia) e ecologia (p.e. limitações fisiológicas para ocupação de determinado microhabitat) dos vertebrados. Apesar de ser uma área promissora para fornecer explicações e mecanismo que tornam hipóteses evolutivas e ecológicas mais robustas, como já é amplamente praticado no estudo dos vertebrados, ela é raramente usada nas hipóteses elencadas para explicar a megadiversidade das aranhas de teia. Por outro lado, as leis da fisiologia são baseadas fortemente em dados de vertebrados que consistem em menos de 1% da biodiversidade existente no planeta. As aranhas são o sétimo maior táxon em número de espécies e são um bom modelo para testar a validade das regras gerais propostas para os vertebrados. Com insto em mente, o presente trabalho investigou três tipos de taxa metabólica - Metabolismo Padrão, Metabolismo Espontâneo Máximo e Metabolismo Diário - em aranhas de teia. Todas estas taxas foram obtidas através de respirometria intermitente Em um primeiro experimento, usando como modelo Loxosceles, um gênero de aranhas especialmente homogêneo em sua morfologia, testou-se o efeito de sedentarismo e intensidade de construção da teia nas taxas metabólicas. Em um segundo experimento, testou-se como as taxas metabólicas se apresentariam frente a grande diversidade das aranhas do clado Orbiculariae. Os resultados mostram que: as diferenças comportamentais analisadas não afetam significativamente as taxas metabólicas; as taxas metabólicas não possuem sinal filogenético; e o melhor modelo é o que ajusta uma relação alometrica diferente para cada gênero em detrimento de um coeficiente exponencial da massa único para toda a amostra. As diferenças comportamentais de Loxosceles provavelmente apresentam-se na distribuição de gasto energético ao longo do dia partindo de um mesmo montante energético. Os dados de diversidade de Orbiculariae provavelmente precisam ser investigados futuramente sob o aspecto das diferenças morfológicas subjacente à diversidade do clado. / The physiological mechanisms are often applied to explain important evolutionary adaptations (e.g. endothermy) and ecology (e.g. physiological limitations to occupy a particular microhabitat) of vertebrates. Despite the fact that it improves vertebrates ecological and evolutionary hypotheses with possible processes and mechanisms, it is scarcely used to understand the megadiversity of web spiders. On the other hand, the physiological rules are based mainly on vertebrates data, an animal group that represents less than 1% of the world biodiversity. Spiders group is the seventh most diverse taxon in terms of species number on the world and are a good model to test the validity of the general rules proposed for vertebrates. Accordingly, this study investigated three types of metabolic rate - Standard Metabolism, Maximum Spontaneous Metabolism, Daily Metabolism - on web spiders. All these rates were obtained by intermittent respirometry. In the first experiment, the Loxosceles model was chosen, a genus of spider with a especially homogeneous morphology, with whom we tested the differences on metabolic rates of spiders with different sedentarity and web building expenditure. In a second experiment we tested how metabolic rates would vary under the high diversity of Orbiculariae spiders clade. The results show that: behavioral differences do not affect significantly the metabolic rates examined, metabolic rates do not have any significant phylogenetic signal and the best model is the one that adjusts a separate allometric relation for each genus at the expense of an unique allometric model for the whole sample. The behavioral differences of Loxosceles probably could be explained by the distribution of energy expenditure throughout the day under the same amount of energy. The diversity of data of Orbiculariae clade probably need to be investigated in the future under the aspect of morphological differences underlying the diversity of the clade

Aranhas

Bioenergética

Respirometria intermitente

Bioenergetics

Flow respirometry

Spiders

A Combined Microbiome and Geochemical Approach, Assessing Drivers of Microbial Diversity, Distribution and Activity

January 2020

abstract: Evaluations of chemical energy supplies for redox reactions used by chemotrophs in water-rock hosted ecosystems are often done separately from evaluations of chemotroph diversity. However, given that energy is a fundamental and unifying parameter for life, much can be gained by evaluating chemical energy as an ecological parameter of water-rock hosted ecosystems. Therefore, I developed an approach that combines evaluation of chemical energy supplies with 16S and 18S rRNA gene amplicon sequencing. I used this approach to assess drivers of microbial distribution, diversity and activity in serpentinized fluids of the Samail Ophiolite of Oman and in hot springs in Yellowstone National Park. Through the application of the approach, microbiological interactions in serpentinized fluids were found to be more complex than anticipated. Serpentinized fluids are hyperalkaline and pH is often considered the driving parameter of microbial diversity, however hydrogenotrophic community composition varies in hyperalkaline fluids with similar pH. The composition of hydrogenotrophic communities in serpentinized fluids were found to correspond to the availability of the electron acceptor for hydrogenotrophic redox reactions. Specifically, hydrogenotrophic community composition transitions from being dominated by the hydrogenotrophic methanogen genus, Methanobacterium, when the concentration of sulfate is less than ~10 μm. Above ~10 μm, sulfate reducers are most abundant. Additionally, Methanobacterium was found to co-occur with the protist genus, Cyclidium, in serpentinized fluids. Species of Cyclidium are anaerobic and known to have methanogen endosymbionts. Therefore, Cyclidium may supply inorganic carbon evolved from fermentation to Methanobacterium, thereby mitigating pH dependent inorganic carbon limitation. This approach also revealed possible biological mechanisms for methane oxidation in Yellowstone hot springs. Measurable rates of biological methane oxidation in hot spring sediments are likely associated with methanotrophs of the phylum, Verrucomicrobia, and the class, Alphaproteobacteria. Additionally, rates were measurable where known methanotrophs were not detected. At some of these sites, archaeal ammonia oxidizer taxa were detected. Ammonia oxidizers have been shown to be capable of methane oxidation in other systems and may be an alternative mechanism for methanotrophy in Yellowstone hot springs. At the remaining sites, uncharacterized microbial lineages may be capable of carrying out methane oxidation in Yellowstone hot springs. / Dissertation/Thesis / Doctoral Dissertation Microbiology 2020

Microbiology

Ecology

Geochemistry

Bioenergetics

Diversity

Hydrogenotrophy

Hydrothermal

Methanotrophy

Serpentinization

Effect of acute and chronic cocaine administration on food intake, body weight gain and energy substrate homeostasis in rats

Xu, Yvette Yi-Wei

01 January 1990

In light of the limited and conflicting experimental data on food intake, body weight change and body energy metabolism following single-dose or long-term cocaine administration, the purpose of the present study was to further evaluate the dose-dependent acute and chronic (27 day) effects of two dose levels of cocaine on the following questions: i) Does chronic cocaine administration decrease food consumption and weight gain?; ii) To what extent does acute or chronic cocaine administration alter body carbohydrate stores (liver and skeletal muscle glycogen content)?; and iii). To what extent does acute or chronic cocaine administration affect plasma glucose and free fatty acid levels and thus hepatic glycogenolysis and adipose tissue lipolysis?

Cocaine Physiological effect

Body weight

Bioenergetics

Medicine and Health Sciences

Predicting the Growth Potential of a Shallow, Warm-Water Sport Fishery: A Spatially Explicit Bioenergetics Approach

Dahle, Samuel Kirk

01 May 2009

Capturing the range of fish consumption and growth potential of large, heterogeneous lentic systems can be challenging due to strong gradients in productivity, the diversity of habits types present, and in some cases, site-specific water quality issues. Cutler Reservoir (Utah, USA) displays a high degree of spatial and temporal variation in physical conditions and potential water quality limitations for fish, including high summertime water temperature and large, diel fluctuations in dissolved oxygen concentrations. The combination of bioenergetics modeling and GIS spatial analysis offers a promising interface for quantifying the fish consumptive and growth potential across a spatially and temporally heterogeneous system like Cutler Reservoir, as well as identifying the role of potential water quality impairment on fish population abundance and condition. Within a bioenergetics framework, we combined empirical field estimates of fish growth and diet composition with a novel use of Thermal Remote Imaging (TIR) as a measure of spatially explicit thermal regime across a very large spatial scale (9,601,200 m2). We used these data inputs and a Geographic Information System (GIS) to generate spatially explicit, high-resolution maps of the growth potential of the primary sport fishes of Cutler Reservoir across spring, summer, and autumn seasons. The predicted growth potential of these fishes varied widely according to spatial and temporal differences in temperature and food availability, acting in concert with species-specific physiological tolerances and habitat preferences. Walleye (Sander vitreus) and black crappie (Pomoxis nigromaculatus) experience high growth potential throughout much of the reservoir during spring and fall, but are constrained to small thermal refugia during the heat of the summer. In contrast, channel catfish (Ictalurus punctatus) growth potential is low during spring and fall, but peaks strongly during the warm summer period. The proportion of habitat suitable for each primary sport fish ranged from highs of > 90% for channel catfish for most of the summer season to lows < 5% for crappie in July. Our approach provides a useful tool for analyzing factors that control fish growth in complex water bodies such as Cutler Reservoir as well as identifying the role of water quality in structuring fish community composition.

bioenergetics

cutler reservoir

fisheries

thermal remote imaging

Biology

Environmental Sciences

Evaluation of Macroinvertebrates as a Food Resource in the Assessment of Lotic Salmonid Habitat

Weber, Nicholas P.

01 May 2009

Criteria used to characterize lotic salmonid habitat are often based on observed correlations between physical habitat characteristics and salmonid abundances. A focus on physical habitat features ignores other habitat components, such as an adequate supply of food that set the physiological limitations on salmonid growth and survival. This study outlines the development of a habitat assessment approach that focuses on how invertebrate food availability interacts with stream temperatures to determine salmonid growth potentials. Abundances of benthic and drifting invertebrate communities, stream temperatures, and juvenile steelhead trout (Onchorhynchus mykiss gairdneri) summer growth rates and abundances were measured within 10 distinct stream segments in central Oregon. Stream temperatures and growth rates were used as inputs for bioenergetics model simulations to produce estimates of O. mykiss summer consumption rates. Measures of invertebrates providing the best description of food availability were chosen based on their ability to explain observed variation in salmonid consumption. Much of the variation in O. mykiss consumption estimates was explained by measurements of total drift biomass along a type II predator response curve. A random effects analysis of variance (ANOVA) was used to partition variation in invertebrate abundances across spatial and temporal scales. Quantification of variation at multiple scales allowed identification of a relevant spatial scale at which to assess macroinvertebrates relevant to salmonid populations, and compare the precision associated with measures of benthic and drifting invertebrate abundances. Results suggested that spatial variation in drifting and benthic invertebrate abundances are greatest at the scale of streams. Total drift biomass and total benthic biomass were more precise at the stream and stream reach scale than drift and benthic density. The information provided by this study will be used to guide the development of sampling approaches that describe invertebrates in a manner more directly related to salmonid production.

Bioenergetics

food availability

habitat monitoring

lotic salmonids

macroinvertebrate drift

Biology