Temporal regularity effects on pre-attentive and attentive processing of deviance

Temporal regularity allows predicting the temporal locus of future information thereby potentially facilitating cognitive processing. We applied event-related brain potentials (ERPs) to investigate how temporal regularity impacts pre-attentive and attentive processing of deviance in the auditory modality. Participants listened to sequences of sinusoidal tones differing exclusively in pitch. The inter-stimulus interval (ISI) in these sequences was manipulated to convey either isochronous or random temporal structure. In the pre-attentive session, deviance processing was unaffected by the regularity manipulation as evidenced in three event-related-potentials (ERPs): mismatch negativity (MMN), P3a, and reorienting negativity (RON). In the attentive session, the P3b was smaller for deviant tones embedded in irregular temporal structure, while the N2b component remained unaffected. These findings confirm that temporal regularity can reinforce cognitive mechanisms associated with the attentive processing of deviance. Furthermore, they provide evidence for the dynamic allocation of attention in time and dissociable pre-attentive and attention-dependent temporal processing mechanisms

BKM-react, an integrated biochemical reaction database

<p>Abstract</p> <p>Background</p> <p>The systematic, complete and correct reconstruction of genome-scale metabolic networks or metabolic pathways is one of the most challenging tasks in systems biology research. An essential requirement is the access to the complete biochemical knowledge - especially on the biochemical reactions. This knowledge is extracted from the scientific literature and collected in biological databases. Since the available databases differ in the number of biochemical reactions and the annotation of the reactions, an integrated knowledge resource would be of great value.</p> <p>Results</p> <p>We developed a comprehensive non-redundant reaction database containing known enzyme-catalyzed and spontaneous reactions. Currently, it comprises 18,172 unique biochemical reactions. As source databases the biochemical databases <it>BRENDA</it>, <it>KEGG</it>, and <it>MetaCyc </it>were used. Reactions of these databases were matched and integrated by aligning substrates and products. For the latter a two-step comparison using their structures (<it>via InChIs</it>) and names was performed. Each biochemical reaction given as a reaction equation occurring in at least one of the databases was included.</p> <p>Conclusions</p> <p>An integrated non-redundant reaction database has been developed and is made available to users. The database can significantly facilitate and accelerate the construction of accurate biochemical models.</p

Flexibilisierung von Studiengängen : Lernen im Zwischenraum von formellen und informellen Kontexten

Die School of Management and Law der ZHAW transformiert derzeit einen ganzen Studiengang in ein flexibilisiertes Lernformat. Die Studienform FLEX sieht vor, dass der Präsenzunterricht vor Ort um die Hälfte reduziert und durch dreiwöchige Online-Phasen ersetzt wird. Damit entsteht ein neuer Lernraum, der das formelle Lernen in informellen Kontexten stärkt. Der vorliegende Bericht beschreibt, wie die Transformation des Studienganges über alle 34 Module vollzogen und wie das Spannungsfeld zwischen informellen und formellen Kontext gestaltet wird

Microbial community and inorganic fluid analysis during CO2 storage within the frame of CO2SINK–Long-term experiments under in situ conditions

AbstractMicroorganisms play an important role in the transformation of material within the earth’s crust. The storage of CO2 could affect the composition of inorganic and organic components in the reservoir, consequently influencing microbial activities. To study the microbial induced processes together with geochemical, petrophysical and mineralogical changes, occurring during CO2 storage, long-term laboratory experiments under simulated reservoir P-T conditions were carried out. Clean inner core sections, obtained from the reservoir region at the CO2 storage site in Ketzin (Germany) from a depth of about 650 m, were incubated in high pressure vessels together with sterile synthetic formation brine under in situ P-T conditions of 5.5 MPa and 40 °C. A 16S rDNA based fingerprinting method was used to identify the dominant species in DNA extracts of pristine sandstone samples. Members of the α- and β-subdivisions of Proteobacteria and the Actinobacteria were identified. So far sequences belonging to facultative anaerobic, chemoheterotrophic bacteria (Burkholderia fungorum, Agrobacterium tumefaciens) gaining their energy from the oxidation of organic molecules and a genus also capable of chemolithoautotrophic growth (Hydrogenophaga) was identified.During CO2 incubation minor changes in the microbial community composition were observed. The majority of microbes were able to adapt to the changed conditions. During CO2 exposure increased concentrations of Ca2+, K+, Mg2+ and SO42− were observed. Partially, concentration rises are (i) due to equilibration between rock pore water and synthetic brine, and (ii) between rock and brine, and are thus independent on CO2 exposure. However, observed concentrations of Ca2+, K+, Mg2+ are even higher than in the original reservoir fluid and therefore indicate mineral dissolution due to CO2 exposure

Design and Manufacturing of the Carbon Fiber Roll Table

Backpacking and exploration of the great outdoors has surged in popularity in the 21st century, especially after the COVID-19 pandemic called for many to change their hobbies and interests. Additionally, many people explore new, remote locations as a way of breaking free from the chains of addiction to media and reliance on technology. Our team experienced this shift firsthand as our interest in backpacking and exploration has grown in recent years. Upon our reflection of this newfound hobby, we realized that the camping equipment market was missing one thing: a “do it all” backpacking table. Our team wanted to address this need in the backpacking community by creating a versatile, lightweight, and durable camping table that will help people experience the beauty found in nature. The product design, cost, and manufacturing process were all developed and chosen with these criteria in mind. In spring of 2022, we conducted market research through public polls and think tanks. From this research, we established a target market of individuals between the ages of 18-30 years old that are active backpackers and outdoor enthusiasts. This target market is a niche sub-category of the camping equipment and accessory market. Additionally, market research identified four consumer considerations: durability, versatility, weight, and affordability, all of which were considered during each phase of the design and production process. After establishing a market for our product concept, an outline of future work and procedures was established to manufacture our product. To begin, we would need to convert our drawings and ideas into an initial prototype. This phase of the manufacturing process was critical for success because it served as the foundation of what our product would be down the road. Additionally, this initial prototype was a proof of concept to prove that our design drawing was feasible. Next, our timeline called for product design and material changes based on our review of the initial prototype. These changes factored in physical limitations and manufacturing process restrictions that would be problematic in the future. For example, the primary design change was related to the coupler that holds all three table legs together at a single point. The initial design was bulky and expensive, so creating a more efficient coupler was necessary. All three previous stages of our process lead to a final product that resembled the product we set out to create. The final product was lightweight, versatile, and strong. The product itself was nearly flawless. In review of our final product, the next stage was completing a holistic profitability analysis of the end product since the primary mission of all businesses is to create income for stakeholders. We were able to complete this holistic analysis by combining data from processing time studies, material purchase orders, industry research, and target market surveys. Although we utilized this same data when making design and material decisions, the result of this end-stage financial study proved that our final product and design would be profitable

Learning novel skills from iconic gestures : a developmental and evolutionary perspective

This research was supported by Horizon 2020 European Research Council Grant Nos. 609819 and 749229.Cumulative cultural learning has been argued to rely on high fidelity copying of others’ actions. Iconic gestures of actions have no physical effect on objects in the world but merely represent actions that would have an effect. Learning from iconic gestures thus requires paying close attention to the teacher’s precise bodily movements – a prerequisite for high fidelity copying. Three studies investigated whether 2- and 3-year-old children (N=122) and great apes (N=36) learn novel skills from iconic gestures. When faced with a novel apparatus, participants either watched an experimenter perform an iconic gesture depicting the action necessary to open the apparatus or a gesture depicting a different action. Children, but not great apes, profited from iconic gestures, with older children doing so to a larger extent. These results suggest that high fidelity copying abilities are firmly in place in humans by at least three years of age.PostprintPeer reviewe

Atom Interferometric Imaging of Differential Potentials Using an Atom Laser

Interferometry is a prime technique for modern precision measurements. Atoms, unlike light, have significant interactions with electric, magnetic, and gravitational fields, making their use in interferometric applications particularly versatile. Here, we demonstrate atom interferometry to image optical and magnetic potential landscapes over an area exceeding $240 \mu m \times 600 \mu m$. The differential potentials employed in our experiments generate phase imprints in an atom laser that are made visible through a Ramsey pulse sequence. We further demonstrate how advanced pulse sequences can enhance desired imaging features, e.g. to image steep potential gradients. A theoretical discussion is presented that provides a semiclassical analysis and matching numerics.Comment: Updated to match published version. 13 pages, 9 figure

Artifacts from manganese reduction in rock samples prepared by focused ion beam (FIB) slicing for X-ray microspectroscopic analysis

Abstract. Manganese (Mn)-rich natural rock coatings, so-called rock varnishes, are discussed controversially regarding their genesis. Biogenic and abiogenic mechanisms, as well as a combination of both, have been proposed to be responsible for the Mn oxidation and deposition process. We conducted scanning transmission X-ray microscopy - near edge X-ray absorption fine structure spectroscopy (STXM-NEXAFS) measurements to examine the abundance and spatial distribution of the different oxidation states of Mn within these nano- to micrometer thick crusts. Such microanalytical measurements of thin and hard rock crusts require sample preparation with minimal contamination risk. Focused ion beam (FIB) slicing, a well-established technique in geosciences, was used in this study to obtain 100–200 nm thin slices of the samples for X-ray transmission spectroscopy. However, even though this preparation is suitable to investigate element distributions and structures in rock samples, we observed that, using standard parameters, modifications of the Mn oxidation states occur in the surfaces of the FIB slices. Based on our results, the preparation technique likely causes the reduction of Mn4+ to Mn2+/3+. We draw attention to this issue, since FIB slicing, SEM imaging, and other preparation and visualization techniques operating in the keV range are well-established in geosciences, but researchers are often unaware of the potential for reduction of Mn and possibly other elements in the samples’ surface layers