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Anwendung stabiler Isotope zur Beschreibung des mikrobiellen Abbaus organischer Schadstoffe in kontaminierten AquiferenVieth, Andrea. Unknown Date (has links) (PDF)
Universiẗat, Diss., 2003--Kiel. / Enth. 9 Sonderabdr. aus verschiedenen Zeitschr. und Publ. Beitr. teilw. dt., teilw. engl.
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The role of detrital subsidies for biological control by generalist predators evaluated by molecular gut content analysisBerg, Karsten von. Unknown Date (has links) (PDF)
Darmstadt, Techn. University, Diss., 2007.
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Trophic interactions as indicators of ecosystem regeneration in disturbed grassland a stable isotope approach /Rothe, Jan. Unknown Date (has links) (PDF)
University, Diss., 2004--Jena.
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A single-cell view on the intra- and inter-population metabolic heterogeneity and ecophysiology of microorganisms at different ecological scalesCalabrese, Federica 04 November 2021 (has links)
Metabolic heterogeneity (MH) occurs when isogenic microbial populations display cell-to-cell differences in metabolic traits, albeit exposed to homogeneous conditions. Despite the increasing focus on MH, its triggering factors remain largely unknown. In the present thesis, I used stable isotope probing and chemical imaging with nanoscale Secondary Ion Mass Spectrometry (nanoSIMS) to study MH at single-cell level, in model organisms, synthetic and natural communities, to understand i) how abiotic factors, biotic interactions and antibiotics exposure influence MH and ii) its potential ecological role. Moreover, I optimized sample preparation for chemical and high-resolution imaging and suggested two different indices as ‘unit measure’ of MH. As results, I have shown for the first time that MH is displayed by microorganisms under favorable growth conditions, although none of the tested abiotic factors prevailed as the main trigger of MH. I brought insights on how biotic interactions play a role in the functional heterogeneity using bacteria pseudo-fungi co-cultures. I found that antibiotics reduce Carbon and Nitrogen assimilation rates of targeted phylogenetic groups in river-water communities, while increasing their MH, pointing to its ecological importance in natural environments. To conclude, I provided novel insights on the phenomenon of MH and its dynamics at different ecological scales.:Abbreviation list
Summary
Introduction
Knowledge gaps
Results and discussion
- Optimization of sample preparation
- Validation of quantitation methods
- Abiotic factors shaping metabolic heterogeneity in bacterial populations
- Influence of biotic factors in shaping heterogeneity
- Metabolic Heterogeneity and ecophysiology of natural microbial populations
influenced by emerging contaminants
Conclusions
Outlook
Bibliography
Appendix
Acknowledgments
Curriculum Vitae
List of publications
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