ABSTRACT
Abstract Organic decomposition is a complex interaction between chemical, physical and biological processes, where the variety of aquatic vascular plants is essential for the trophic dynamics of freshwater ecosystems. The goal of this study was to determine the aquatic macrophyte Eichhornia azurea (Sw.) Kunth decomposition rate, the time relation with the limnological parameters, and whether this relationship is a result of decomposition processes. To that end, we collected water and leaves of E. azurea in Surf Leopoldo, PR. The experiment consisted of two treatments: 25 containers with 450 mL of water and 0.8 g of biomass dry weight were used with or without the addition of macrophytes. Samples were collected in triplicate at times 0, 3 h, 6 h, 12 h, 24 h, 72 h, 120 h, 168 h and 240 h. When the container was removed, the plant material was dried in an oven. After 48 h, the material was measured to obtain the final dry weight. Analyses of pH, conductivity, dissolved oxygen, total phosphorus N-ammonia (NH4), soluble reactive phosphorus (PO4) and dissolved organic carbon were performed, and the decomposition rate was calculated. The results showed significant temporal variation of limnological parameters in the study. Additionally, dissolved oxygen, conductivity, dissolved organic carbon and total phosphorus were correlated with the dry weight of the biomass, suggesting that E. azurea decomposition significantly interferes with the dynamics of these variables.
Subject(s)
Bacteria/metabolism , Eichhornia/microbiology , Bacteria/growth & development , Biodegradation, Environmental , Kinetics , Ecosystem , Eichhornia/chemistryABSTRACT
River-floodplain systems are known for their heterogeneity of habitats and the hydrological pulse, the main driving force, which increases nutrient concentrations at the onset of the flood due to leaching from the littoral region and decomposition. This decaying organic matter tends to be deposited in the sediment, where occur biogeochemical processes associated with microorganisms. This study aimed to characterize the vertical distribution of bacterial density in the sediment strata of six environments of the Upper Paraná River floodplain, checking similarity as for bacterial density and physical and chemical conditions. To this end, we analyzed the following factors: total phosphorus, total Kjeldahl nitrogen, levels of organic and inorganic material, oxidation potential and particle size. The results evidenced a gradient of vertical distribution of bacterial density, with predominance of cocci, which possibly indicates no nutrient limitation in this limnic compartment. The analysis of variance was applied to determine significant differences between the layers of the sediment and environments. It can be observed a tendency of deposition of total-P and MI within the upper layers of all environments. More reducing potentials in the initial layers indicate a higher bacterial activity, since this region possesses a greater availability of most easily decomposable material.
Sistemas rios-planície de inundação são conhecidos pela sua heterogeneidade de habitats e pelo pulso hidrológico, principal função de força atuante, que aumenta as concentrações de nutrientes no início devido à lixiviação da região litorânea e à decomposição. Essa matéria orgânica tende a ser depositada no sedimento, onde ocorrem processos biogeoquímicos associados a microrganismos. O objetivo deste estudo foi caracterizar a distribuição vertical da densidade bacteriana em estratos do sedimento de seis ambientes da planície de inundação do Alto Rio Paraná, verificando a similaridade entre os mesmos em relação à densidade bacteriana e condições físicas e químicas. Foram analisados os seguintes fatores: Fósforo total (P-total), nitrogênio total Kjeldahl (NTK), material orgânico (MO) e inorgânico (MI), potencial oxidativo e granulometria. Os resultados mostraram um gradiente de distribuição vertical da densidade bacteriana, com predomínio da forma cocos, possivelmente indicando que não há limitação de nutrientes nos estratos. Análise multivariada mostrou grupamentos por ambientes, ressaltando a grande heterogeneidade de condições limnológicas e de habitats. Pôde-se observar uma tendência de deposição de P-total e MI nas ultimas camadas de todos os ambientes. Potenciais mais redutores nas camadas iniciais indicam maior atividade bacteriana, visto que nesta região há maior disponibilidade material mais facilmente decomponível.
Subject(s)
Abiotic Factors , Bacteria , Energy-Generating Resources , PhosphorusABSTRACT
Since the introduction of the Microbial Loop concept, many studies aimed to explain the role of bacterioplankton and dissolved organic carbon (DOC) in aquatic ecosystems. Paraná River floodplain system is a very complex environment where these subjects were little explored. The aim of this work was to characterize bacterial community in terms of density, biomass and biovolume in some water bodies of this floodplain and to verify its temporal variation and its relation with some limnological variables, including some indicators of DOC quality, obtained through Ultraviolet-visible (UV-VIS) and fluorescence spectroscopic analysis. Bacterial density, biomass and biovolume are similar to those from other freshwater environments and both density and biomass were higher in the period with less rain. The limnological and spectroscopic features that showed any relation with bacterioplankton were the concentrations of N-NH4 and P-PO4, water transparency, and some indicators of DOC quality and origin. The analysis of these relations showed a possible competition between bacterioplankton and phytoplankton for inorganic nutrients and that the DOC used by bacterioplankton is labile and probably from aquatic macrophytes.