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41	Atributos microbiológicos em ecossistemas costeiros da Ilha do Cardoso, SP Pupin, Breno [UNESP] 13 June 2013 (has links) (PDF) Made available in DSpace on 2014-06-11T19:32:53Z (GMT). No. of bitstreams: 0 Previous issue date: 2013-06-13Bitstream added on 2014-06-13T19:03:35Z : No. of bitstreams: 1 000737578.pdf: 3803187 bytes, checksum: b8c4f772c3838e4786b19e09a8dc45b5 (MD5) / Os manguezais apresentam características que os diferenciam dos demais ecossistemas. O objetivo deste trabalho foi estudar os grupos microbianos (bactérias totais, esporuladas, Gram-negativas, actinobactérias, nitrificantes, desnitrificantes e fungos), as atividades metabólicas de bactérias e fungos, as atividades microbianas relacionadas ao ciclo do C, N, P (atividade respiratória, da desidrogenase, amonificante, nitrificante, da urease, da protease, solubilizadora de fosfato e da fosfatase ácida), além das análises químico-físicas (umidade, matéria orgânica, carbono orgânico total, carbono solúvel, carboidratos totais, fracionamento do fósforo, pH e salinidade) do solo de manguezal e compará-las com os de floresta e restinga. As amostras de solos foram coletadas durante o verão e o inverno, nas profundidades de 0 – 2 cm, 2 – 5 cm e 5 – 10 cm. Os micro-organismos isolados foram testados quanto à habilidade de produzir amilase, fosfatase ácida e/ou solubilizar fosfato inorgânico. Os resultados foram interpretados com análise estatística univariada. Excetuando os fungos totais, as contagens dos demais grupos microbianos decresceram significativamente (p < 0,05) na seguinte ordem: floresta > manguezal > restinga. As populações de actinobactérias predominaram no solo de floresta, porém foram semelhantes (p < 0,05) nos solos de manguezal e de restinga. O número das bactérias desnitrificantes foi similar nos solos de floresta e de manguezal e maior que o do solo de restinga. As contagens dos micro-organismos decresceram significativamente 11 e 21% da camada superficial para a 2 – 5 cm e 5 – 10 cm, porém as desnitrificantes aumentaram 44 e 166%. Enquanto o número de bactérias totais, esporuladas, Gram-negativas, nitrificantes e desnitrificantes decresceu (p < 0,05) 32% em média do verão para o inverno, o das actinobactérias permaneceu invariável e dos fungos aumentou 29%... / Mangroves has characteristics that differentiate them from other ecosystems. The objective of this study was to evaluate the frequency of microbial groups (total, sporulating, Gram-negative, actinomycetes, nitrifying, denitrifying bacteria and fungi), the bacteria and fungi metabolic activities, microbial activities related to the cycle of C, N, P (respiration, dehydrogenase, ammonium-oxidizing, urease, protease, solubilizing phosphate and acid phosphatase activities), and chemical-physical analysis (moisture, organic matter, total organic carbon, soluble carbon, carbohydrates, fractionation phosphorus, pH and salinity) from mangrove soil, comparing them with the restinga and forest soils. Soil samples were collected during the summer and winter, at depths of 0 – 2 cm, 2 – 5 cm and 5 - 10 cm. The microorganisms isolated were tested for their ability to produce amylase, acid phosphatase and/or solubilize inorganic phosphate. Results were interpreted with univariate statistical analysis. Except fungi total scores of other microbial groups decreased significantly (p < 0.05) in the following order: forest > mangrove > restinga. Populations of actinomycetes predominated in the forest soil, but were similar (p < 0.05) in mangrove soils and restinga. The denitrifying bacteria number was similar in forest and mangrove soil and higher than restinga soils. The microorganism counts decreased significantly 11 and 21% the surface layer for 2 - 5 cm and 5 - 10 cm, however, denitrifying increased 44 and 166%. While total number, sporulating, Gram-negative, nitrifying and denitrifying bacteria decreased (p < 0.05), on average 32% from summer to winter, actinomycetes remained unchanged and fungi increased 29%... Ciclos biogeoquimicos Ecossistemas costeiros Florestas Manguezais Biogeochemical cycles
42	Estudo da diversidade e atividade bacteriana em solos de floresta e sob cultivo de cana-de-açúcar / Moreira, Wellington Marcelo Queixas. January 2013 (has links) Orientadora: Lúcia Maria Carareto Alves / Banca: Antonio Carlos Monteiro / Banca: Haroldo Alves Pereira Júnior / Banca: Luciano Takeshi Kishi / Banca: Mariana Carina Frigieri Salaro / Resumo: A composição e a diversidade de comunidades microbianas podem ser usadas como indicadores da qualidade do solo, pois respondem rapidamente às mudanças ambientais. A intensificação da agricultura causa significante perda de diversidade, reduzindo a habilidade do ecossistema resistir a períodos de estresse e efeitos ambientais indesejáveis. Esta redução é mais evidente quando se trata de sistemas de monocultura, impactando os microrganismos e diversos invertebrados, e também reduz a capacidade de auto-regulação do solo. Assim, este trabalho tem como objetivo analisar a diversidade bacteriana em solos de floresta e em solos cultivados com canade- açúcar (Saccharum spp.) em diferentes períodos do ano que possa estar relacionada com a dinâmica dos ciclos biogeoquímicos, bem como um estudo comparativo entre diferentes áreas de cultivo e técnicas de sequenciamento. As amostras de solo foram coletadas no município de Santa Rita do Passa Quatro, SP. Amostras de DNA metagenômico de cada solo foram extraídas e construídas quatro bibliotecas com amplicons do gene 16S rRNA e quatro bibliotecas com amplicons da região V1 e V2 (Vi) do gene 16S rRNA. Um estudo comparativo com sequencias obtidas nas mesmas condições em outra área situada no município de Mococa, SP também foi analisado. Através dos dados obtidos, foi verificado que em solos de Floresta, independente do período do ano e área analisada, os filos bacterianos e a atividade dos organismos em relação aos ciclos biogeoquímicos, permaneceram praticamente inalterados. Este fato pode ser atribuído à estabilidade desde tipo de ecossistema, no qual existe ciclagem constante de nutrientes. Nas amostras de cana-de-açúcar, observou-se variação na frequência dos organismos encontrados em relação a diferentes coletas... / Abstract: Microbial communities diversity and composition can be used as soil quality indicators, because respond quickly to environmental changes. Agriculture intensification causes significant loss of diversity, reducing the ability of the ecosystem to resist to periods of stress and undesirable environmental effects. This reduction is more evident when dealing with monoculture systems, impacting the microorganisms and several invertebrates, and also reduce the capacity of the soil self regulation. So, this study aims to analyze the bacterial diversity in forest soils and in soils cultivated with sugar cane (Saccharum spp.) in different periods of the year that can be related to biogeochemical cycles dynamic, as well as a comparative study between farming areas and sequencing techniques. Metagenomic DNA samples of each soil were extracted and built four libraries with gene 16S rRNA amplicons and four libraries with amplicons from gene 16S rRNA region Vi. A comparative study with obtained sequences in same conditions in another area situated in the municipality of Mococa, SP was also analyzed. Through the obtained data, it was found that in forest soils, regardless of the period of year and the area analyzed, bacterial phyla and organisms' activity in relation to biogeochemical cycles, remained practically unchanged. This fact can be assigned to this type of ecosystem stability, in which there is a constant nutrients cycling. In soil samples cultivated with sugar cane, was observed variation in organisms frequency found in relation to different collections... / Doutor Ciclos biogeoquimicos. Cana-de-açúcar. Florestas. Bactérias. Biogeochemical cycles.
43	Atributos microbiológicos em ecossistemas costeiros da Ilha do Cardoso, SP / Pupin, Breno. January 2013 (has links) Orientador: Ely Nahas / Banca: Marli de Fátima Fiori / Banca: Diva de Souza Andrade / Banca: José Eduardo Corá / Banca: Jackson Antônio Marcondes de Souza / Resumo: Os manguezais apresentam características que os diferenciam dos demais ecossistemas. O objetivo deste trabalho foi estudar os grupos microbianos (bactérias totais, esporuladas, Gram-negativas, actinobactérias, nitrificantes, desnitrificantes e fungos), as atividades metabólicas de bactérias e fungos, as atividades microbianas relacionadas ao ciclo do C, N, P (atividade respiratória, da desidrogenase, amonificante, nitrificante, da urease, da protease, solubilizadora de fosfato e da fosfatase ácida), além das análises químico-físicas (umidade, matéria orgânica, carbono orgânico total, carbono solúvel, carboidratos totais, fracionamento do fósforo, pH e salinidade) do solo de manguezal e compará-las com os de floresta e restinga. As amostras de solos foram coletadas durante o verão e o inverno, nas profundidades de 0 - 2 cm, 2 - 5 cm e 5 - 10 cm. Os micro-organismos isolados foram testados quanto à habilidade de produzir amilase, fosfatase ácida e/ou solubilizar fosfato inorgânico. Os resultados foram interpretados com análise estatística univariada. Excetuando os fungos totais, as contagens dos demais grupos microbianos decresceram significativamente (p < 0,05) na seguinte ordem: floresta > manguezal > restinga. As populações de actinobactérias predominaram no solo de floresta, porém foram semelhantes (p < 0,05) nos solos de manguezal e de restinga. O número das bactérias desnitrificantes foi similar nos solos de floresta e de manguezal e maior que o do solo de restinga. As contagens dos micro-organismos decresceram significativamente 11 e 21% da camada superficial para a 2 - 5 cm e 5 - 10 cm, porém as desnitrificantes aumentaram 44 e 166%. Enquanto o número de bactérias totais, esporuladas, Gram-negativas, nitrificantes e desnitrificantes decresceu (p < 0,05) 32% em média do verão para o inverno, o das actinobactérias permaneceu invariável e dos fungos aumentou 29%... / Abstract: Mangroves has characteristics that differentiate them from other ecosystems. The objective of this study was to evaluate the frequency of microbial groups (total, sporulating, Gram-negative, actinomycetes, nitrifying, denitrifying bacteria and fungi), the bacteria and fungi metabolic activities, microbial activities related to the cycle of C, N, P (respiration, dehydrogenase, ammonium-oxidizing, urease, protease, solubilizing phosphate and acid phosphatase activities), and chemical-physical analysis (moisture, organic matter, total organic carbon, soluble carbon, carbohydrates, fractionation phosphorus, pH and salinity) from mangrove soil, comparing them with the restinga and forest soils. Soil samples were collected during the summer and winter, at depths of 0 - 2 cm, 2 - 5 cm and 5 - 10 cm. The microorganisms isolated were tested for their ability to produce amylase, acid phosphatase and/or solubilize inorganic phosphate. Results were interpreted with univariate statistical analysis. Except fungi total scores of other microbial groups decreased significantly (p < 0.05) in the following order: forest > mangrove > restinga. Populations of actinomycetes predominated in the forest soil, but were similar (p < 0.05) in mangrove soils and restinga. The denitrifying bacteria number was similar in forest and mangrove soil and higher than restinga soils. The microorganism counts decreased significantly 11 and 21% the surface layer for 2 - 5 cm and 5 - 10 cm, however, denitrifying increased 44 and 166%. While total number, sporulating, Gram-negative, nitrifying and denitrifying bacteria decreased (p < 0.05), on average 32% from summer to winter, actinomycetes remained unchanged and fungi increased 29%... / Doutor Ciclos biogeoquimicos. Ecossistemas costeiros. Florestas. Manguezais. Biogeochemical cycles
44	Análise metagenômica e potencial biotecnológico de microrganismos de solo e água de uma área agrícola com adubação orgânica / Metagenomic analysis and biotechnological potential of microorganisms from soil and freshwater of an agricultural area with organic fertilization Meneghine, Aylan Kener [UNESP] 16 December 2016 (has links) Submitted by AYLAN KENER MENEGHINE (aylankm@gmail.com) on 2017-01-10T01:14:02Z No. of bitstreams: 1 Tese_Aylan_Kener_Meneghine.pdf: 2274173 bytes, checksum: 058fc5159e6fa34a7c970ce061ce70c5 (MD5) / Approved for entry into archive by LUIZA DE MENEZES ROMANETTO (luizamenezes@reitoria.unesp.br) on 2017-01-12T19:08:55Z (GMT) No. of bitstreams: 1 meneghine_ak_dr_jabo.pdf: 2274173 bytes, checksum: 058fc5159e6fa34a7c970ce061ce70c5 (MD5) / Made available in DSpace on 2017-01-12T19:08:55Z (GMT). No. of bitstreams: 1 meneghine_ak_dr_jabo.pdf: 2274173 bytes, checksum: 058fc5159e6fa34a7c970ce061ce70c5 (MD5) Previous issue date: 2016-12-16 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / O composto orgânico produzido a partir de carcaças, resíduos animais e vegetais é uma alternativa viável para a substituição total ou parcial dos fertilizantes minerais utilizados na atualidade. No processo de compostagem participam diferentes populações microbianas, e com isso o composto torna-se um sistema rico para utilização como fertilizante no solo, complementando assim as necessidades nutricionais e microbianas do meio ambiente. Entretanto, há poucos trabalhos envolvendo análise da diversidade bacteriana em solos sob uso de composto orgânico feito a partir de carcaças, e também pouco se conhece sobre o impacto ambiental do uso agrícola de composto orgânico na qualidade da água. Existe também a questão se há influência da água utilizada para irrigação na qualidade do solo. O objetivo central desse trabalho foi analisar a diversidade bacteriana e perfil funcional de um solo de horta e da água de um córrego utilizada para irrigação. E como objetivo secundário, através do isolamento de bactérias da água verificar o potencial biotecnológico de produção e uso de exopolissacarídeo como bioemulsificante de óleo e hidrocarbonetos. As amostras de solo e água utilizadas nesse trabalho foram coletadas na área do departamento rural da Fundação Parque Zoológico de São Paulo, em setembro de 2014. Todo material coletado foi transportado até o Laboratório de Bioquímica de Micro-organismos e de Plantas, onde realizou-se a extração de DNA total e sequenciamento através de tecnologia Ion Proton (Life Technologies), isolamento bacteriano, produção e aplicação de exopolissacarídeo como bioemulsificante. Ao analisar o DNA metagenômico observou-se que tanto na água quanto no solo há uma abundância de bactérias encontradas normalmente em áreas agrícolas sob influência de composto orgânico feito a partir de outras fontes. Verificou-se também, através da análise dos genes relacionados com os ciclos biogeoquímicos, abundância de genes do processo de desnitrificação na amostra de solo. Além de se observar que na análise da estrutura taxonômica dos ciclos biogeoquímicos, não há bactérias em comum entre as amostras de solo e água com do composto orgânico. Porém ao avaliar o perfil funcional total da água, solo e outros dez metagenomas, através de uma análise de agrupamento hierárquico, notou-se que a água causa maior influência no solo do que o próprio composto orgânico. Com relação ao isolamento bacteriano, foi possível isolar a bactéria Sphingomonas sp., sendo que o isolado identificado demonstrou produzir grande quantidade de exopolissacarídeo (EPS). O EPS formou emulsões estáveis após 24 horas e 168 horas. Além disso o EPS foi um melhor agente emulsificante para hexano e querosene dentre todos os óleos analisados. Os resultados mostraram contribuição significativa com relação ao potencial do EPS como agente bioemulsificante que aumentaria a degradação de hidrocarbonetos e efeitos de emulsificação em biotecnologia ambiental. / The organic compost produced from carcasses, animal and vegetable waste is a viable alternative to full or partial replacement of mineral fertilizers used nowadays. In the composting process there are involved different microbial populations, and the compost becomes a rich system for use as a fertilizer in the soil, thereby supplementing the nutritional and microbial requirements of the medium. However, there are few studies involving the analysis of bacterial diversity in soil under use of organic compost made from carcasses, and also little is known about the environmental impact of agricultural use of organic compost in water quality. Furthermore, there is also the question of whether there is influence of the water used for irrigation on soil quality. Because of these questions, the central objective of this study was to analyze the bacterial diversity and functional profile of a soil from vegetable garden and freshwater used for irrigation from a local stream. As a secondary objective, we aimed to verify the production and biotechnology potential of a bacterial exopolysaccharide as oil and hydrocarbons bioemulsifier. Soil and freshwater samples used in this study were collected at rural department of the Zoo Foundation Park of São Paulo, in September 2014. All material collected was transported to the Laboratório de Bioquímica de Micro-organismos e de Plantas where we proceeded with the total DNA extraction experiments, sequencing through Ion Proton technology (Life Technologies), bacterial isolation, production and application of exopolysaccharide as bioemulsifier. By analyzing the metagenomic DNA it was observed that both freshwater and soil were plenty of bacterial communities normally found in agricultural areas under influence of organic amendments. Through the analysis of genes related to biogeochemical cycles, it was found abundance of genes about denitrification process in the soil sample. Also it can be noted by the analysis of the taxonomic structure of biogeochemical cycles, there was no bacteria shared between soil and freshwater samples with the organic compost. But when evaluating the functional profile of freshwater, soil and other ten metagenomes, we observed that freshwater causes greater influence on the soil than the organic compost. Regarding the bacterial isolation, it was possible to identify the bacteria Sphingomonas sp., and it has been shown to produce large amount of exopolysaccharide (EPS). The EPS has shown stability in its emulsions after 24 hours and 168 hours. Additionally, it’s a better emulsifying agent for hexane and kerosene among other oils analysed. Furthermore, our findings promoted significant contribution by showing EPS potential as a bioemulsifier agent that would enhance hydrocarbon degradation and emulsification effects in environmental biotechnology. Bioemulsificante Ciclos biogeoquímicos Exopolissacarídeo Bioemulsifier Biogeochemical cycles Exopolysaccharide
45	Investigating the distributions of zinc and cadmium in the subarctic northeast Pacific Ocean Janssen, David 22 March 2017 (has links) Zinc (Zn) and cadmium (Cd) have nutrient-type vertical distributions reflecting control driven by biological uptake in surface waters and remineralization of sinking biogenic particles at depth. Both metals show strong correlations with major algal nutrients (Cd with phosphate (PO43-) and Zn with silicic acid (Si)) in the world ocean. Through their roles as micronutrients and toxins to marine phytoplankton, Zn and Cd can influence surface biological community composition. Preserved Zn and Cd records have been employed as proxies to gain insight into nutrient distributions, circulation, and organic carbon export in the paleocean. A thorough and mechanistic understanding of the biogeochemical cycling of Zn and Cd is necessary for accurate paleoceanographic reconstructions as well as predicting alterations in metal supply to the modern surface ocean and its impacts on primary productivity due to oceanic changes. My dissertation aims to further this understanding through an investigation of Zn and Cd distributions in the subarctic northeast Pacific through samples collected along the Line P transect. A major focus of this dissertation was identifying and characterizing depletions of metals in O2-depleted waters relative to global and basin scale metal:macronutrient correlations. Dissolved Cd profiles from the subarctic northeast Pacific and the eastern North Atlantic show a deficit of Cd relative to regional Cd:PO43- relationships. Particulate Cd and Cd stable isotopes (ε112/110Cd) from low-O2 North Atlantic waters and published sedimentary data from the subarctic northeast Pacific point to a previously undocumented water-column metal removal process acting in O2-depleted waters. Metal sulphide formation, likely in association with particulate microenvironments, can explain the observed deficits. Other metals with similar sulphide coordination chemistry should also form metal sulphides if this process is occurring. Dissolved Zn from Line P showed distributions and Zn:Si relationships that are consistent with the removal of metal in O2-depleted waters through sulphide formation. A first order approximation of the Cd deficit suggests that sulphide formation may be an important sink term in the global Cd cycle. Surface and upper nutricline Zn:Si and Cd:PO43- relationships in the chronically iron (Fe)-limited subarctic northeast Pacific showed distinct trends, which differ from those seen in Fe-replete regions. Distributions suggest the formation of surface biogenic particles with high Cd:PO43- and Zn:Si, leaving surface waters depleted in metals relative to macronutrients and resulting in high metal:macronutrient ratios in the nutricline as these particles sink and are remineralized. This is consistent with understandings of phytoplankton physiology and uptake of divalent metals under Fe-limitation, and corresponds well with global data for dissolved Cd:PO43- patterns in Fe-limited regions. Subsurface high Cd:PO43- and Zn:Si may also be influenced by the advection of water enriched in trace metals. The distinct shallow remineralization horizon observed for Zn compared to Si in the subarctic northeast Pacific by this and previous work presents a fundamentally different distribution than observed in global Zn:Si compilations. Directed sampling in the subarctic northeast Pacific should help elucidate the mechanism behind the oceanographically distinct distributions in this basin. Dissolved ε112/110Cd from Line P demonstrates a remarkably uniform subarctic northeast Pacific deepwater reflecting an advected source signal. Particulate ε112/110Cd samples show an active Cd cycle, which is not imprinted upon the dissolved phase. Particulate ε112/110Cd from 200-600 m depth is among the lightest ε112/110Cd ever reported for natural telluric samples. This may be an important sink for light Cd in the global ocean, which at present is heavy with respect to known sources. Line P surface waters with very low Cd concentrations are not accurately represented by a closed-system Rayleigh model, which can describe ε112/110Cd in the Southern Ocean. This suggests spatially and/or temporally variable surface ε112/110Cd fractionation. A large difference is observed in reported dissolved ε112/110Cd at very low Cd concentrations between different instrumentations. An intercalibration is necessary to determine if this is an analytical artefact or reflects real oceanic variability. / Graduate Zinc Cadmium Cadmium isotopes northeast Pacific GEOTRACES biogeochemical cycles
46	Iron acquisition by marine phytoplankton Maldonado-Pareja, Maria Teresa. January 1999 (has links) No description available. Iron -- Metabolism. Iron -- Physiological transport. Biogeochemical cycles. Marine phytoplankton. Thalassiosira.
47	A comparative study of food-web processes in aquatic systems using stable isotopes / Cabana, Gilbert January 1997 (has links) No description available. Aquatic ecology. Nitrogen -- Isotopes. Biogeochemical cycles. Food chains (Ecology)
48	Phosphate-associated phenotype plasticity as a driver of cattail invasion in the sawgass-dominated Everglades Unknown Date (has links) In plants, phenotypic plasticity, the ability to morphologically adapt to new or broad environmental conditions, is a consequence of long-term evolutionary genetic processes. Thus, plants adapted to low phosphate (P) environments exhibit only limited plasticity to take advantage of nutrient enrichment, a global phenomenon in terrestrial and aquatic environments. In the face of anthropogenic P-enrichment, low nutrient adapted resident plant species are frequently displaced by species with high morphological and genetic plasticity. However, it remains unclear whether plasticity is systemically expressed across molecular, biochemical, physiological, and morphological processes that ultimately contribute to the root and shoot phenotypes of plants. In this study, we demonstrated high plasticity in root-borne traits of sawgrass (Cladium jamaicense), the dominant plant species of the P-impoverished Everglades, and counter the idea of inflexibility in low P adapted species. However, sawgras s expressed inflexibility in processes contributing to shoot phenotypes, in contrast to cattail, which was highly plastic in shoot characteristics vii in response to P enrichment. In fact, plasticity in cattail shoots is likely a function of its growth response to P that was globally regulated by P-availability at the level of transcription. Plasticity and inflexibility in the growth of both species also diverged in their allocation of P to the chloroplast for growth in cattail versus the vacuole for P storage in sawgrass. In the Everglades, anthropogenic P-enrichment has changed the environment from a P-limited condition, where plasticity in root-borne traits of sawgrass was advantageous, to one of light-competition, where plasticity in shoot-borne traits drives competitive dominance by cattail. / We hypothesize that these shifts in plasticity competitive advantage from root to shoots has been a major driver of cattail expansion in the Everglades ecosystem. Further, this understanding of how natural plant species adapt and shift in response to nutrient availability could also be used a model system to optimize agricultural systems to increase efficiencies in food production and protect low nutrient adapted natural systems from cultural eutrophication. / by James Webb. / Vita. / Thesis (Ph.D.)--Florida Atlantic University, 2010. / Includes bibliography. / Electronic reproduction. Boca Raton, Fla., 200?. Mode of access: World Wide Web. Ecosystem management Vegatation dynamics Phosphorous--Physiological transport Biogeochemical cycles
49	Patterns of inorganic phosphate and carbohydrate allocation in sawgrass (Cladium jamaicense Crantz) and southern cattail (Typha domingensis Pers.) grown at low and high phosphate levels Unknown Date (has links) In recent history, C. jamaicense has been displaced by another native monocot, T. domingensis, predominantly resulting from increased phosphorous enrichment in the Everglades. This study aimed to elucidate these two species responses to low and high [Pi] in terms of allocation, photosynthate partitioning and growth. C. jamaicense growth was independent of Pi, while T. domingensis growth increased with [Pi]. Under high [Pi], allocation to younger T. domingensis shoots occurred, while C. jamaicense shoots retained more [Pi], while low [Pi] resulted in homogeneous allocation patterns for both species. Additionally, Pi deficiencies induced carbohydrate levels in older shoots of T. domingensis, while [Pi] had no effect on photosynthate partitioning patterns in C. jamaicense. ACP activity was induced by Pi deficiency in all T. domingensis shoots and increased with shoot age, while no effect was observed in C. jamaicense. Results indicate these two species differ in allocation strategies when [Pi] is altered. / by Brian Hill. / Vita. / Thesis (Ph.D.)--Florida Atlantic University, 2009. / Includes bibliography. / Electronic reproduction. Boca Raton, Fla., 2009. Mode of access: World Wide Web. Nitrogen-fixing algae Biogeochemical cycles Phosphorus--Psychological transport Soil stabilization Ecosystem management Vegetation dynamics
50	Estudo do balanço biogeoquímico dos nutrientes dissolvidos principais como indicador da influência antrópica em sistemas estuarinos do Nordeste e Sudeste do Brasil / Study of biogechemical ratios of dissolved nutrients as indicator of the anthropogenic influence in Northeastern and Southeastern estuarine systems of Brazil Eschrique, Samara Aranha 10 October 2011 (has links) Este trabalho teve como proposta principal avaliar os efeitos de ações antrópicas sobre sistemas estuarinos com base no balanço biogeoquímico entre as formas de nutrientes (N, P e Si). Foram estudados dois sistemas estuarinos localizados em pontos extremos da costa, um no nordeste, o estuário do Rio Jaguaribe, no Ceará, e outro no sudeste, o complexo estuarino-lagunar de Cananéia e Iguape, em São Paulo. Estes sistemas estão sob os diferentes regimes climáticos e o estudo envolveu: aspectos dos períodos de seca e chuva nos dois locais; o efeito da maré; e, o aporte de águas doces quer sob a forma de chuva, quer via drenagem continental e barragens. A influência antrópica mostrou a ação sobre o excesso de silício nos dois sistemas. O fósforo foi o elemento dissolvido que recebeu maior ação neutralizadora, sendo \"tamponado\" de forma que não ofereceu sinais de eutrofização. Este não é o caso das formas nitrogenadas, que mostraram uma assinatura relativa às atividades antrópicas que mais impactam cada região. No caso do Rio Jaguaribe, o aporte de matéria orgânica e de nutrientes via atividade de carcinicultura colaborou ao destaque na forma de N-amoniacal nas águas do médio e baixo estuário, onde se localizam as fazendas de carcinicultura. Os sinais mais acima no sistema estiveram ligados aos aportes via barragem e da cidade de Aracati. No caso do complexo estuarino-lagunar de Cananéia e Iguape, o nitrato recebeu destaque junto aos aportes do Rio Ribeira de Iguape, por meio do Valo Grande, representando a drenagem de zonas agrícolas. A parte sul do sistema, Cananéia, mostrou um equilíbrio entre as formas nitrogenadas, bastante naturais, dando suporte à produção primária de populações comuns a ambientes estuarinos, enquanto que, os valores de pigmentos fotossintetizantes, mostraram que a composição das comunidades fitoplanctônicas se adapta às condições abióticas do corpo hídrico. Há produção em todos os locais, porém com distinção entre as comunidades fitoplanctônicas. Ocorreu influência sazonal e a degradação de biomassa vegetal, muitas vezes somadas as influências de feopigmentos de comunidades das margens. O diagnóstico feito com o Programa ASSETS é baseado em carga de nitrogênio, valores de clorofila e presença de macroalgas, contudo o equilíbrio entre os nutrientes pode ser uma excelente ferramenta na avaliação ambiental. / The main proposal of this work was to evaluate the effects of anthropic actions upon estuarine systems, based on biogeochemical balance between forms of nutrients (N, P and Si). Two estuarine systems were studied, localized in extreme points of the coast, one in northeast, Jaguaribe River estuary, in Ceará, and the other in southeast, Cananéia-Iguape estuarine-lagoon complex, in São Paulo. These systems are under different climatic patterns and the study involved: aspects of dry and rainy periods in both locations; tide effects; and fresh water inputs, either in the form of rain, or via continental drainage and dams. The anthropic influence showed action upon the excess of silicon in both systems. Phosphorus was the dissolved element that suffered bigger neutralizing action, being buffered, and so, didn\'t show signals of eutrophication. That is not the case of nitrogen\'s forms, they showed a signature related to anthropic activities that impact each region the most. In the case of Jaguaribe River, the input of organic matter and nutrients, due to shrimp farms activities, contributed to prominent N-ammonium form in medium and lower estuary waters, where shrimp farms are located; the signals in upper estuary were connected to inputs via dam and Aracati city. In the case of Cananéia-Iguape estuarine-lagoon complex, the form nitrate was highlighted by the inputs of Ribeira de Iguape River, through Valo Grande, representing agricultural areas drainage. The south part of the system, Cananéia, showed a quite natural balance between the nitrogen forms, supporting primary production of populations common to the estuarine environment. Meanwhile, values of photosynthetic pigments showed that the composition of planktonic communities adapt itself to the abiotic conditions of the water body. There is production everywhere, but with distinctions between the communities. Seasonal influence occurred, and also degradation of microscopic vegetal biomass, often added to influence of pheopigments of margin communities. The diagnosis made by ASSETS Program is based on nitrogen input, values of chlorophyll and macroalgae presence; nevertheless the equilibrium between nutrients can be an excellent tool for environmental evaluation biogeochemical cycles ciclos biogeoquímicos estuários fósforo nitrogen nitrogênio nutrientes nutrients phosphorus silício silicium stuaries

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