4 Material und Umwelt
Filtern
Dokumenttyp
- Zeitschriftenartikel (84)
- Vortrag (73)
- Posterpräsentation (62)
- Beitrag zu einem Tagungsband (9)
- Buchkapitel (2)
- Dissertation (2)
- Sonstiges (2)
- Forschungsbericht (2)
- Beitrag zu einem Sammelband (1)
- Video (1)
Sprache
- Englisch (238) (entfernen)
Schlagworte
- Biocides (44)
- Antimicrobial resistance (34)
- Bacteria (22)
- Biofilms (22)
- Corrosion (20)
- MIC (18)
- Evolution (13)
- Methanogens (13)
- Microbiologically influenced corrosion (13)
- Biofilm (12)
- Disinfection (11)
- E. coli (11)
- NAP-XPS (11)
- Antimicrobial coating (10)
- Biocide (9)
- Persistence (9)
- Resistance (9)
- Archaea (8)
- Ectoine (8)
- Microbiology (8)
- Standardization (8)
- Horizontal gene transfer HGT (7)
- Laser-induced periodic surface structures (LIPSS) (7)
- Resistance evolution (7)
- Antibiotics (6)
- Bacterial adhesion (6)
- Biocide tolerance (6)
- Horizontal gene transfer (6)
- Termites (6)
- Tolerance (6)
- Wood protection (6)
- Alginate (5)
- Cross-resistance (5)
- Environmental Simulation (5)
- Heterogeneity (5)
- Korrosion (5)
- Methanogen (5)
- Mutation rate (5)
- Risk assessment (5)
- Sc-ICP-ToF-MS (5)
- Single cell analysis (5)
- XPS (5)
- Anobium punctatum (4)
- Antimicrobials (4)
- Biocorrosion (4)
- Biofilm formation (4)
- Carbon steel (4)
- Corrosion products (4)
- Glutaraldehyde (4)
- Method development (4)
- NanoSIMS (4)
- Polyethylene (4)
- Tineola bisselliella (4)
- Antimicrobial (3)
- Antimicrobial surfaces (3)
- Carbon steel corrosion (3)
- Environmental simulation (3)
- FIB/SEM (3)
- Flow Model (3)
- Halomonas elongata (3)
- Immunity (3)
- Ir DNA staining approach (3)
- LIPSS (3)
- Laser processing (3)
- Metabolism (3)
- Methanogen-induced microbiologically influenced corrosion (3)
- Microbiological influenced corrosion MIC (3)
- Modelling (3)
- Modelling studies (3)
- Nanoparticles (3)
- Osmoadaptation (3)
- Phenotypic diversity (3)
- SC-ICP-ToF-MS (3)
- Single cell (3)
- Sulfate reducing bacteria (3)
- Termite (3)
- Wastewater (3)
- Wood Protection (3)
- Anoxia (2)
- Antagonism (2)
- Antibiotic resisitance (2)
- Apanteles carpatus (2)
- Bacterial adhesion tests (2)
- Bacterial attachment (2)
- Baryscapus tineivorus (2)
- Biodiversity (2)
- Biofilm growth (2)
- Bioinformatics (2)
- Biological pest control (2)
- Biotechnology (2)
- Brown-rot fungi (2)
- Compatible solute (2)
- Condensed Matter Physics (2)
- Corynetes caeruleus (2)
- Cultural heritage (2)
- DNA (2)
- Degradation (2)
- Desinfectant (2)
- Disinfectants (2)
- E.coli (2)
- Energy Engineering and Power Technology (2)
- Environmental condition (2)
- Flow system (2)
- Fuel Technology (2)
- HAXPES (2)
- Halomonas CRISPR Ectoine (2)
- Halophile (2)
- Hi-Tension (2)
- Insect biotechnology (2)
- Iron (2)
- Isoptera (2)
- Keratin (2)
- Korynetes caeruleus (2)
- Leaching (2)
- Life history data (2)
- Microbiologically influenced corrosion (MIC) (2)
- Microorganism (2)
- Mikrobiell beeinflusste Korrosion (2)
- Model (2)
- Nitrogen (2)
- Nosema ceranae (2)
- Optics (2)
- Osmia bicornis (2)
- Persister cells (2)
- Pollutants (2)
- Pseudomonas aeruginosa (2)
- Reactive oxygen species (2)
- Renewable Energy, Sustainability and the Environment (2)
- Risk assesment (2)
- Shale (2)
- Social (2)
- UV-irradiation (2)
- Wild bees (2)
- 2D nanomaterials (1)
- 3D printing (1)
- A-DNA conformation (1)
- AMR (1)
- Academia (1)
- Acidobacteria (1)
- Agarose (1)
- Alkylating agents (1)
- Amphiphilic polymer (1)
- Anaerobic pathways (1)
- Analytical standards (1)
- Anti-microbial effects (1)
- Antiadhesive surfaces (1)
- Antibacterial (1)
- Antibacterial polymer (1)
- Antibacterial surfaces (1)
- Antibiotic (1)
- Antibiotic resistance (1)
- Antifouling (1)
- Antimicrobial Resistance (1)
- Antimicrobial test (1)
- Antiseptic agents (1)
- Artificial weathering (1)
- Aspergillus (1)
- Aspergillus flavus (1)
- Atomic and Molecular Physics and Optics (1)
- Atomic force microscopy (1)
- Automated analysis (1)
- BODIPY (1)
- Bacillus subtilis (1)
- Bacteria repellent surfaces (1)
- Bacteria-repellent surfaces (1)
- Bacterial cell cycle (1)
- Bacterial growth (1)
- Bacterial second messenger (1)
- Bankia sp (1)
- Basidiomycetes (1)
- Bee diseases (1)
- Bee health (1)
- Beneficial microbes (1)
- Biodeterioration (1)
- Biodeterioration and biodegradation (1)
- Biofilm quantification (1)
- Biofouling (1)
- Bioilm (1)
- Bioinformatics virology viruses software (1)
- Biokorrosion (1)
- Biological Control (1)
- Biological control (1)
- Biomimetic (1)
- Biosynthesis (1)
- Biphasic growth (1)
- C-di-GMP (1)
- COST Action (1)
- COST action CA15114 AMICI (1)
- CRISPR dCas9 (1)
- Calcareous deposits (1)
- Cast iron (1)
- Cathodic protection (1)
- Cell appendages (1)
- Cell studies (1)
- Cell-envelope (1)
- Cellulose synthase (1)
- Chemicals (1)
- Cleridae (1)
- Coleoptera (1)
- Conditioning layer (1)
- Coniophora puteana (1)
- Conjugate (1)
- Conjugation (1)
- Contamination (1)
- Controlled atmosphere (1)
- Coptotermes (1)
- Core microbiome (1)
- Corrosion product (1)
- Cribellate spiders (1)
- Cross-feeding (1)
- Cryo XPS (1)
- CuNPs (1)
- Cultural Heritage (1)
- Cupriavidus campinensis (1)
- DNA barcode (1)
- DSM 5009 (1)
- Decomposition point (1)
- Degradable polymer (1)
- Denitrification (1)
- Desert ecology (1)
- Deterioration (1)
- Dielectric heating (1)
- Dietary adaptation (1)
- Diffractive gratings (1)
- Direct laser writing (1)
- Disinfection Fuel (1)
- Disposal (1)
- Diversity (1)
- Drywood termite (1)
- Durability (1)
- Dye (1)
- E$volution (1)
- Ecology (1)
- Efficacy (1)
- Efflux (1)
- Electronic (1)
- Environment (1)
- Environmental conditions (1)
- Environmental simulations (1)
- Essential oils (1)
- Exocrine gland (1)
- Experimental evolution (1)
- External (1)
- Extremophile (1)
- F pili (1)
- Femtosecond laser processing (1)
- Fenton-like reaction (1)
- Flow chamber system (1)
- Flow-System (1)
- Flow-system (1)
- Fluorescence (1)
- Fluorescence spectroscopy (1)
- Fluoride (1)
- Fluoride nanoparticles (1)
- Fluorides (1)
- Fluorolytic sol-gel synthesis (1)
- Fluorolytic sol−gel (1)
- Food fermentation (1)
- Food safety (1)
- Force distance curve (1)
- Fuel sorption (1)
- Functionalized graphene (1)
- Fungal decay (1)
- Fungi (1)
- Fungicidal property (1)
- Fungiculture (1)
- Fungus (1)
- Fusarium (1)
- Gas storage (1)
- Gene expression (1)
- Genome sequence (1)
- Geological formation (1)
- Geology (1)
- Graphene (1)
- Graphene–bacteria interaction (1)
- Growth-rate homeostasis (1)
- Gut symbionts (1)
- HI-Tension (1)
- Halogenation (1)
- Halophilic (1)
- Halophilic bacteria (1)
- Healthcare (1)
- Herteogeneous phenotypes (1)
- High density polyethylene (1)
- High salinity (1)
- Holzschutzmittel (1)
- Hospital premises (1)
- Hydrogen (1)
- Hydrogen permeation (1)
- Hydrogen storage (1)
- Hydrogenasen (1)
- Hydrophobic interaction (1)
- Hylotrupes bajulus (1)
- Hylotrupes bajulus, Anobium punctatum, natural durability, tropical wood, native wood. (1)
- Hyperarid (1)
- Hypopharynx (1)
- IPM in museums (1)
- IR spectroscopy (1)
- ISO22196 (1)
- Implants (1)
- In situ (1)
- Industrial applications (1)
- Infections (1)
- Initial attachment (1)
- Insect evolution (1)
- Insecticide (1)
- Interdisciplinarity (1)
- Interdisciplinary (1)
- Iodine (1)
- Ionic liquid (1)
- Ionizing radiation (1)
- Issues (1)
- Laboratory breeding (1)
- Labrum (1)
- Lake Cadagno (1)
- Laser structuring (1)
- Laser-induced nanostructures (1)
- Laser-induced pariodic surface structures (1)
- Laser-induced periodic surface structueres (LIPPS) (1)
- Laser-modified surface (1)
- Library pests (1)
- Lifetime (1)
- Lightning talk (1)
- Limnoria spp (1)
- Low alloy steel (1)
- MDG ICP-ToF-MS (1)
- MIC Island (1)
- MIC projekt (1)
- Marek's virus (1)
- Marine borers (1)
- Material degradation (1)
- Materials (1)
- Mechanosensitive channel (1)
- Melting point (1)
- Melting temperature (1)
- Metabolic engineering (1)
- Metabolic flux analysis (1)
- Metabolic modeling (1)
- Metabolomics (1)
- Metal organic frameworks (1)
- Metal reducing bacteria (1)
- Metalls (1)
- Methane (1)
- Methanogenesis (1)
- Microbial (1)
- Microbial adhesions (1)
- Microbial community modelling (1)
- Microbial simulation, (1)
- Microbially Induced Corrosion (1)
- Microbiologically Influrenced Corrosion (MIC) (1)
- Microdroplet generator (1)
- Microfluidics (1)
- Micromonospora aurantiaca (1)
- Micropatterning (1)
- Microwaves (1)
- Migration (1)
- Mircobially influcenced corrosion (1)
- Modeling (1)
- Modified mycotoxins (1)
- Moisture (1)
- Moisture performance (1)
- Molecular (1)
- Molecular clock (1)
- MscS (1)
- Mud volcanoe fluids (1)
- Multi-resistant bacteria (1)
- Multiple lines of evidence (1)
- Multiport (1)
- Museum Pests (1)
- Museum insect pest (1)
- Museum pests (1)
- Mussel-inspired coating (1)
- Mussel-inspired materials (1)
- Mycotoxin (1)
- Mycotoxins (1)
- Nano Particles (1)
- Nano characterization (1)
- Nano metal fluorides (1)
- Nanobiocide (1)
- Nanocoating (1)
- Nanorods (1)
- Natural durability (1)
- Natural products discovery (1)
- Near ambient pressure XPS (1)
- Near ambient x-ray photoelectron spectroscopy (1)
- Next generation sequencing (1)
- Nitrous oxide (1)
- Nonvolatile (1)
- Nuclear waste disposal (1)
- Oil and gas industry (1)
- Oil and gas reservoir (1)
- Oilfield (1)
- One-step ionic liquids synthesis (1)
- Optical and Magnetic Materials (1)
- Osmophobic effect (1)
- Osmotic shock (1)
- Osteogenesis (1)
- P. Fluorescens (1)
- PE-HD (1)
- Paper sizings (1)
- Particle synthesis (1)
- Pathogen spillover (1)
- Pathogen transmission (1)
- Performance (1)
- Permeability (1)
- Persian historical recipes (1)
- Persian manuscripts (1)
- Pest control (1)
- Phenotypic heterogeneity (1)
- Phenotypic variation (1)
- Photodynamic therapy (1)
- Photonics (1)
- Physical and optical characteristics (1)
- Plastic degradation (1)
- Polydopamine (1)
- Polyethylene terephthalate (1)
- Polyglycerol (1)
- Polyioinic liquid (1)
- Polymer foils (1)
- Polymer-based products (1)
- Poster presentation (1)
- Preferential binding (1)
- Preferential exclusion (1)
- Proteome (1)
- Pseudomonas (1)
- Pseudomonas fluorescens (1)
- Pseudomonas veronii (1)
- Ptinidae (1)
- Quasispecies (1)
- RNA-Sequencing (1)
- Radio waves (1)
- Reactor conditions (1)
- Resistance model (1)
- Rhizopus (1)
- Rhizopus and Aspergillus oryzae (1)
- Rhodonia placenta (1)
- Round robin test (1)
- Ruthenium (1)
- SEM (1)
- SEM micrography (1)
- SEM wood characterization (1)
- SEM-EDS (1)
- SIMS (1)
- SRB (1)
- Selection (1)
- Self-assembled monolayer (1)
- Sensors (1)
- Silica and polystyrene nanoparticles (1)
- Silver (1)
- Single cell microbiology (1)
- Sizing (1)
- Social immunity (1)
- Social insects (1)
- Software (1)
- Soil contact (1)
- Soldier (1)
- Solitary bees (1)
- Solubility (1)
- Solute excretion (1)
- Spectral imaging (1)
- Stainless steel (1)
- Stakeholder (1)
- Standardisation (1)
- Standardized test and quantification procedure (1)
- Structural color (1)
- Superhydrophilic surface (1)
- Superhydrophobic surface (1)
- Suppression (1)
- Surface functionalization (1)
- Survival rates (1)
- Symbiosis (1)
- Synchrotron-XPS (1)
- Synergy (1)
- Synthetic metabolism (1)
- Teredo sp (1)
- Termite control (1)
- Termite-associated microbes (1)
- Termitoidae (1)
- Thermodynamic (1)
- Thioimidazolium (1)
- ToF SIMS (1)
- ToF-SIMS (1)
- Touch surfaces (1)
- Trait-based ecology (1)
- Transcriptomics (1)
- Ultrashort laser processing (1)
- Ultrastructure (1)
- Velocimetry (1)
- Virology (1)
- Virulence (1)
- Viruses (1)
- Water (1)
- Water atmosphere (1)
- Water stable isotope analysis (1)
- Water uptake (1)
- White-rot fungi (1)
- Wood Modification (1)
- X-ray spectroscopic techniques (1)
- X-ray tomographic (1)
- XANES (1)
- Xestobium rufovillosum (1)
- Zearalenone (1)
- Zearalenone sulfate (1)
- a-zearalenol (1)
- biocide tolerance (1)
- disinfection (1)
- dsDAN monolayer (1)
- evolution (1)
- fs-laser processing (1)
- heterogeneity (1)
- iChip (1)
- pH probe (1)
- underexplored phyla (1)
Organisationseinheit der BAM
- 4.1 Biologische Materialschädigung und Referenzorganismen (238) (entfernen)
Paper des Monats
- ja (6)
Eingeladener Vortrag
- nein (73)
Soil microbes are exposed to different environmental stressors originating from various sources. Biocides used as material preservatives can represent environmental stressors since they are in direct contact with the environment including soil. Microorganism in soils can adapt to stress by different mechanisms; for example, by transferring mobile genetic elements via horizontal gene transfer (HGT). Here, we hypothesize that material preservatives can cause increased frequencies of HGT (i.e. altered community permissiveness) facilitating microbial community adaptation to stress. Furthermore, we hypothesize that soil microbial communities are primed by biocide exposure facilitating the response to different types of stresses. We will incubate soil mesocosms with selected biocides to investigate if these compounds promote HGT of plasmids that carry resistance genes in soil microbial communities. Subsequently, we will prime the soil microbial community with sub-inhibitory concentrations of biocides followed by exposure to toxic biocide concentrations or other types of common environmental stresses including metals, antibiotics, and salt. Using suitable control experiments, a shift in the functional response of the primed as compared to the non-primed community would indicate that biocides prime microbial communities via HGT. Together these results will elucidate the effect of biocides on HGT-mediated adaptation to environmental stressors in soil microbial communities.
Soil microbes are exposed to different environmental stressors originating from various sources. Biocides used as material preservatives can represent environmental stressors since they are in direct contact with the environment including soil. Microorganism in soils can adapt to stress by different mechanisms; for example, by transferring mobile genetic elements via horizontal gene transfer (HGT). Here, we hypothesize that material preservatives can cause increased frequencies of HGT (i.e. altered community permissiveness) facilitating microbial community adaptation to stress. Furthermore, we hypothesize that soil microbial communities are primed by biocide exposure facilitating the response to different types of stresses. We will incubate soil mesocosms with selected biocides to investigate if these compounds promote HGT of plasmids that carry resistance genes in soil microbial communities. Subsequently, we will prime the soil microbial community with sub-inhibitory concentrations of biocides followed by exposure to toxic biocide concentrations or other types of common environmental stresses including metals, antibiotics, and salt. Using suitable control experiments, a shift in the functional response of the primed as compared to the non-primed community would indicate that biocides prime microbial communities via HGT. Together these results will elucidate the effect of biocides on HGT-mediated adaptation to environmental stressors in soil microbial communities.
A fundamental question in ecology is how biodiversity affects ecosystem function. Biodiversity is commonly estimated based on genetic variation. We investigated a new approach that defines and measures biodiversity in complex microbial communities. We used the variation in multiple functionally-relevant, phenotypic traits measured in parallel in single cells as a metric for microbial phenotypic diversity. We studied phenotypic diversity and ecosystem functioning throughout different photosynthetic layers dominated by divergent microbial communities in the gradient of Lago di Cadagno. We determined genetic diversity by 16S and 18S amplicon sequencing and bulk ecosystem functioning (photosynthesis). In addition, we determined phenotypic diversity using single-cell technologies such as nanometer-scale secondary ion mass spectrometry (NanoSIMS) correlated with confocal laser scanning microscopy (CLSM) and scanning flow-cytometry. We measured functional trait variation between individuals in 13CO2 fixation, 15NH4+ uptake, and variation in physio-morphological cell traits, such as cell size, shape, and auto-fluorescence for various pigments related to photosynthesis. We used the distances between individuals in a multidimensional trait space to derive phenotypic trait-based diversity indices, such as trait richness, trait evenness, and trait divergence. We find that phenotypic trait divergence associates with ecosystem functioning, whereas genetic diversity does not. Including activity-based, single-cell phenotypic measurements with NanoSIMS provided an additional accuracy to the trait-based diversity assessment and allowed us to formulate hypotheses on the mechanisms that shape the correlation between phenotypic diversity and eco-system function. Together, our results show that phenotypic diversity is a meaningful concept to measure microbial biodiversity and associate it with ecosystem functioning.
X-ray photoelectron spectroscopy (XPS) provides elemental and chemical information from the outermost ~10 nm of the sample surface. This is in the same order of magnitude as the thickness of the outer bacterial membrane of gram-negative bacteria, as well as outer membrane molecules as exopolysaccharides and lipopolysaccharides, commonly attached to the cell surface. With the development of near-ambient pressure (NAP)-XPS, bacteria can be analysed with minimal sample preparation.
EnviroESCA is a laboratory based NAP-XPS instrument, equipped with a monochromated Al Kα radiation source and a differentially pumped energy analyser connected to an exchangeable sample environment. It allows for measurements in various gas-atmospheres, including water vapor, which makes it possible to characterise bacteria and other biological samples close to their natural, hydrated state. Artificial model-biofilms of exopolysaccharides, planktonic Pseudomonas Fluorescens and biofilms of Escherichia Coli have been characterised in hydrated and dried state.
High-resolution XPS-spectra from carbon, oxygen, nitrogen and phosphorous can be assigned to carbohydrates, lipids and proteins in general agreement with literature. Especially the carbon 1s peak is of interest. A series of measurements of an E. coli biofilm from 11 mbar in humid environment to 1 mbar air reveal changes in the C1s peak, which suggests that the bacterial surface undergo substantial Change.
The halophilic bacterium Halomonas elongata can tolerate salt concentrations above 10% NaCl and uses the accumulation of the compatible solute ectoine as a major osmoregulatory mechanism. Ectoine can be accumalted inside the cell through import from the medium or de novo synthesis and establishes an osmotic equilibrium with the surrounding1. Ectoine also protects proteins from the effects of freezing, drying and high temperatures4 and DNA from ionizing radiation2. These features make ectoine a valuable compound for cosmetics and medical devices.
H. elongata was originally isolated from a solar salt facility, where it thrives under high salt concentrations. It was found that marine prokaryotes, which are exposed to high oxidative stress in their environment, vary glycolytic strategies5. A variation in the use of the glucose metabolic pathways is also assumed for H. elongata.
The halophilic bacterium Halomonas elongata can tolerate salt concentrations above 10% NaCl and uses the accumulation of the compatible solute ectoine as a major osmoregulatory mechanism. Ectoine can be accumalted inside the cell through import from the medium or de novo synthesis and establishes an osmotic equilibrium with the surrounding1. Ectoine also protects proteins from the effects of freezing, drying and high temperatures4 and DNA from ionizing radiation2. These features make ectoine a valuable compound for cosmetics and medical devices.
H. elongata was originally isolated from a solar salt facility, where it thrives under high salt concentrations. It was found that marine prokaryotes, which are exposed to high oxidative stress in their environment, vary glycolytic strategies5. A variation in the use of the glucose metabolic pathways is also assumed for H. elongata.
Microbiologically influenced corrosion (MIC) is an expensive but unpredictable problem for the industries. The most well-known culprit for MIC is the sulfate-reducing microorganisms (SRM), such as members from the genus Desulfovibrio. It has been widely accepted that SRM can contribute significantly to MIC through the production of hydrogen sulfide (HS-) or in some cases a direct electron uptake from the metal surface. However, in a real environmental system, SRM is not exclusive and often involved with other microorganisms that may also contribute to MIC, such as methanogens.
Methanogenic archaea can produce methane (CH4) using H2+CO2, formate, methylated amines or acetate. Methanogens are highly abundant in the environment and many are found in very extreme conditions, such as high temperature and high salinity. Previous researches have demonstrated that methanogens are capable of MIC, though the specific mechanisms are still under investigation. In the oil and gas industry, methanogens are not considered as the main contributor for MIC since the corrosion rates are often too low. However, the tests for methanogen-induced MIC are usually performed at static conditions, which cannot represent the system accurately. Here, we developed a novel anaerobic system to evaluate the corrosion potential of methanogens under flow conditions. We will use the Methanococcus maripaludis KA1 strain, which was isolated from a crude oil tank, as the organism of interest. A separate system for Desulfovibrio alaskensis will be established for corrosion rate comparisons. Furthermore, we will study the synergistic effects of M. maripaludis and D. alaskensis on MIC under flow.
Microbiologically influenced corrosion (MIC) is the deterioration of metals due to the metabolic activities of microorganisms. Microorganisms can take electrons directly from the metal surface (EMIC) thereby causing corrosion. Well known culprits of EMIC are: sulfate-reducing bacteria (SRB), acetogens and methanogens.
Our aims
- Develop a novel flow system to study MIC by methanogens to mimic industrial Environments
- Investigate the inhibitory concentrations of biocides targeting SRB on corrosive methanogenic strains
- Investigate the inhibitory effects of corrosion inhibitors on methanogens
- Compare the inhibitory concentrations to SRB