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Distributional patterns of diatom communities in Mediterranean riversTornés Bes, Elisabet 03 April 2009 (has links)
Aquesta tesi tracta la jerarquia i l'heterogeneïtat dels sistemes fluvials que afecten l'estructura de les comunitats bentòniques de diatomees. A nivell regional, es van buscar diferents grups de punts i les seves espècies indicadores, es va estudiar la resposta de les comunitats de diatomees als gradients ambientals, es va avaluar la utilitat de diferents índexs de diatomees i es va buscar el millor sistema de classificació per a condicions de referència. A nivell de conca, es volien definir els factors que determinen la distribució longitudinal de la diversitat de les comunitats de diatomees. Finalment, a nivell d'hàbitat es van determinar quins factors afecten les algues i els cianobacteris a aquesta escala i es va examinar la contribució relativa de l'ambient i l'espai en la distribució de la biomassa i composició d'algues i cianobacteris. Per tant, els diferents capítols d'aquesta tesi han estat desenvolupats seguint aquest esquema. / This thesis deals with the hierarchy and heterogeneity of stream systems affecting the structure of benthic diatom communities. At a regional level, I search for different groups of sites and their indicator taxa, I studied the responses of the diatom communities to the gradients of environmental variables, I tested the usefulness of diatom indices and I searched for the best classification system for reference conditions. At a watershed level my interest was to define the factors that determined the longitudinal distribution of diversity of diatom communities. Finally, at a habitat level it was interesting to determine the factors affecting algae and cyanobacteria at this scale and examine the relative effects of environmental factors and space on the distribution of biomass and composition of benthic algae and cyanobacteria. Thus, the different chapters of the thesis had been approached following this scheme.
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Effects of Tree Composition and Soil Depth on Structure and Functionality of Belowground Microbial Communities in Temperate European ForestsPrada-Salcedo, Luis Daniel, Prada-Salcedo, Juan Pablo, Heintz-Buschart, Anna, Buscot, François, Goldmann, Kezia 19 October 2023 (has links)
Depending on their tree species composition, forests recruit different soil microbial
communities. Likewise, the vertical nutrient gradient along soil profiles impacts these
communities and their activities. In forest soils, bacteria and fungi commonly compete,
coexist, and interact, which is challenging for understanding the complex mechanisms
behind microbial structuring. Using amplicon sequencing, we analyzed bacterial and
fungal diversity in relation to forest composition and soil depth. Moreover, employing
random forest models, we identified microbial indicator taxa of forest plots composed
of either deciduous or evergreen trees, or their mixtures, as well as of three soil
depths. We expected that forest composition and soil depth affect bacterial and fungal
diversity and community structure differently. Indeed, relative abundances of microbial
communities changed more across soil depths than in relation to forest composition. The
microbial Shannon diversity was particularly affected by soil depth and by the proportion
of evergreen trees. Our results also reflected that bacterial communities are primarily
shaped by soil depth, while fungi were influenced by forest tree species composition. An
increasing proportion of evergreen trees did not provoke differences in main bacterial
metabolic functions, e.g., carbon fixation, degradation, or photosynthesis. However,
significant responses related to specialized bacterial metabolisms were detected.
Saprotrophic, arbuscular mycorrhizal, and plant pathogenic fungi were related to the
proportion of evergreen trees, particularly in topsoil. Prominent microbial indicator taxa
in the deciduous forests were characterized to be r-strategists, whereas K-strategists
dominated evergreen plots. Considering simultaneously forest composition and soil
depth to unravel differences inmicrobial communities,metabolic pathways and functional
guilds have the potential to enlighten mechanisms that maintain forest soil functionality
and provide resistance against disturbances.
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