Your search keyword '"WAGNER, NORMAN"' showing total 18 results

1. Physiology-based parameterization of human blood steady shear rheology via machine learning: a hemostatistics contribution.

Author

Farrington, Sean, Jariwala, Soham, Armstrong, Matt, Nigro, Ethan, Wagner, Norman J., and Beris, Antony N.

Subjects

HEMORHEOLOGY, MACHINE learning, RHEOLOGY, BLOOD flow, YIELD stress, PARAMETERIZATION

Abstract

Hemorheology is the study of blood flow and the mechanical stresses and kinematics involved. The Casson constitutive equation is a popular and simple model used to describe the steady shear rheology of blood, with only two parameters that specify an infinite shear viscosity and a yield stress that depend on blood physiology. Previous literature has identified hematocrit and fibrinogen concentration as the two most important physiological factors that affect blood flow, but previous parameterizations of the Casson model may not be reliable due to the use of non-standardized data sets. This study uses machine learning and the largest standardized dataset to improve the parameterization of the Casson model with respect to hematocrit and fibrinogen concentration for healthy individuals. The study also employs machine learning to identify a potential additional factor, the mean corpuscular hemoglobin (MCH), that may affect blood rheology. The proposed approach demonstrates the potential for machine learning to improve the connection between physiology and blood rheology with possible implications in cardiovascular diagnostics. [ABSTRACT FROM AUTHOR]

Published

2023

2. Rheokinetic modeling of N-A-S–H gel formation related to alkali-activated aluminosilicate materials.

Author

Mills, Jennifer and Wagner, Norman

Subjects

*AUTOCATALYSIS, *DISCONTINUOUS precipitation, *NEUTRON scattering, *MODULUS of rigidity, *FRACTAL dimensions, *CRYSTALLIZATION kinetics

Abstract

Alkali-activated aluminosilicate (N-A-S–H) gels are models for understanding structure formation in sustainable cement alternatives known as geopolymers. Temporal measurements of elastic shear moduli development of these aluminosilicate gels show systematic trends in kinetics with respect to silicon to aluminum (Si/Al) ratio. This behavior can be reduced to a single master curve when nondimensionalized with the Si/Al-dependent gel time and equilibrium modulus. An autocatalytic reaction model and Avrami model fit the master curve well. The Avrami exponent is 1.5, consistent with the nucleation and growth steps separately modeled in the autocatalytic reaction model, and further is within the expected values for diffusion-limited growth suggested from independent measurements of the structural fractal dimension by neutron scattering. These results unifying rheokinetic behavior over a range of gel compositions suggest a common underlying microstructure development in such gels and the possibility of developing predictive models for property development in geopolymers more broadly. An autocatalytic reaction kinetic model describing nucleation and growth is fit to the evolution of the storage modulus, G', of alkali-activated aluminosilicate gels with varying concentration of aluminum ( S i / A l / N a = 2 / n Al / 1.5 ). A master curve is constructed by nondimensionalizing the timescale and storage modulus of each dataset. [ABSTRACT FROM AUTHOR]

Published

2022

3. A near-natural experiment on factors influencing larval drift in Salamandra salamandra.

Author

Schafft, Malwina, Wagner, Norman, Schuetz, Tobias, and Veith, Michael

Subjects

*EUROPEAN integration, *BODY size, *NUTRITIONAL status, *SALAMANDERS, *LARVAE

Abstract

The larval stage of the European fire salamander (Salamandra salamandra) inhabits both lentic and lotic habitats. In the latter, they are constantly exposed to unidirectional water flow, which has been shown to cause downstream drift in a variety of taxa. In this study, a closed artificial creek, which allowed us to keep the water flow constant over time and, at the same time, to simulates with predefined water quantities and durations, was used to examine the individual movement patterns of marked larval fire salamanders exposed to unidirectional flow. Movements were tracked by marking the larvae with VIAlpha tags individually and by using downstream and upstream traps. Most individuals showed stationarity, while downstream drift dominated the overall movement pattern. Upstream movements were rare and occurred only on small distances of about 30 cm; downstream drift distances exceeded 10 m (until next downstream trap). The simulated flood events increased drift rates significantly, even several days after the flood simulation experiments. Drift probability increased with decreasing body size and decreasing nutritional status. Our results support the production hypothesis as an explanation for the movements of European fire salamander larvae within creeks. [ABSTRACT FROM AUTHOR]

Published

2022

4. Connectivity of Alpine newt populations (Ichthyosaura alpestris) exacerbates the risk of Batrachochytrium salamandrivorans outbreaks in European fire salamanders (Salamandra salamandra).

Author

Beninde, Joscha, Keltsch, Florian, Veith, Michael, Hochkirch, Axel, and Wagner, Norman

Subjects

SALAMANDERS, NEWTS, VECTOR valued functions, DISEASE vectors, PET industry

Abstract

The pathogenic chytrid fungus Batrachochytrium salamandrivorans (Bsal) was introduced from Asia to Europe, most likely via the pet trade. It is currently causing a severe local decline in populations of the European fire salamanders (Salamandra salamandra). Laboratory tests confirmed that all infected individuals succumbed to the disease within two weeks. Furthermore, mass mortality events in the wild were observed in Germany, Belgium and the Netherlands. Some newt species, including the Alpine newt (Ichthyosaura alpestris), can also become infected with Bsal. However, they seem to be 'tolerant' and can often survive the disease, but maintain an infectious load, which they could spread among connected populations. It is, therefore, hypothesized that this species functions as a vector of the disease and threatens syntopic populations of susceptible species such as the European fire salamander. To assess the risk of Alpine newts as vectors for Bsal, we sampled 233 individuals from 50 sites in 2017 and performed a genetic population connectivity analysis using microsatellites. The results showed that populations of Alpine newts are not spatially structured, suggesting high gene flow across the study area. Tests for Bsal of all Alpine newts and 150 individuals of two other newt species confirmed five infected individuals. Infected newts can thus function as reservoirs and vectors of Bsal and spread it through dispersal. As a result, the risk of European fire salamander declines in this region is further exacerbated by the connectivity of syntopic Alpine newt populations. [ABSTRACT FROM AUTHOR]

Published

2021

5. One-step, in situ jamming point measurements by immobilization cell rheometry.

Author

Luo, Yimin, Lee, Yu-Fan, Dennis, Kimberly A., Velez, Carlos, Brown, Scott C., Furst, Eric M., and Wagner, Norman J.

Subjects

SHEARING force, COLLOIDAL suspensions, GRAFT copolymers, POINT processes, VISCOSITY

Abstract

Dense colloidal suspensions are processed in a wide variety of industries. Challenges for pumping suspensions and slurries at high concentrations include shear thickening and dilation, which can have deleterious consequences. These systems are shear sensitive close to the jamming point, meaning that a significant increase in high shear viscosity can be observed with just a few percent change in volume fractions. Therefore, accurate and rapid determination of the jamming point can greatly aid formulation. Typically, conventional rheometry identifies the jamming point by a time-consuming process, whereby multiple flow curves of suspensions of different volume fraction are measured and extrapolated to the volume fraction where the viscosity diverges. We present an alternative approach for rapid, one-step, experimental determination of the jamming point for aqueous suspensions. The procedure monitors the shear stress under constant shear stress or shear rate as the sample is dewatered using immobilization cell rheometry, until the viscosity diverges. The method is validated by comparing the results of this work with conventional rheometry for a model suspension. Then it is applied to examine the effect of grafting a short-chain polymer to particles, comprising an industrial suspension of silica-coated titania. Polymeric coating of the particles increases the jamming concentration and mitigates shear thickening, qualitatively consistent with predictions from simulations. [ABSTRACT FROM AUTHOR]

Published

2020

6. Drift compensation in larval European fire salamanders, Salamandra salamandra (Amphibia: Urodela)?

Author

Veith, Michael, Baubkus, Mark, Kugel, Simone, Kulpa, Caren, Reifenrath, Tanja, Schafft, Malwina, and Wagner, Norman

Subjects

SALAMANDERS, POPULATION biology, RIVER ecology, ABIOTIC environment, AMPHIBIAN populations

Abstract

Organismic drift in lotic waters can have major impact on population dynamics. It is influenced by a variety of interacting abiotic and biotic factors, and species often have evolved specific strategies for drift avoidance and compensation. We studied downstream and upstream movements of larval fire salamanders (Salamandra salamandra) within three first-order streams in Germany using up- and downstream traps. We tested several predictions related to the influence of body size, water flow and inclination on the number of upstream and downstream moving larvae. Larval fire salamanders actively moved upstream in all creeks, however, in much lower numbers than downstream. The total body lengths of upstream and downstream moving larvae did not differ significantly; in contrast, downstream drifting larvae were smaller compared to non-drifting larvae collected randomly from the creeks in-between traps. There was no negative effect of the amount of water flow on larval upward movements, but significantly more larvae drifted downstream with the increasing water flow volume. There was no effect of inclination on the amount of either upstream or downstream movements. Our results indicate that upstream movements are a side product of a principle rheotactic behaviour, which prevents larvae from being drifted downstream. [ABSTRACT FROM AUTHOR]

Published

2019

7. An experimental study of multimodal glass suspension rheology to test and validate a polydisperse suspension viscosity model.

Author

Mwasame, Paul, Mertz, Cameron, Rosario, Evan, Beris, Antony, and Wagner, Norman

Subjects

POLYDISPERSE media, VISCOSITY, SUSPENSIONS (Chemistry), GLASS, RHEOLOGY

Abstract

Experimental measurements of non-colloidal multimodal suspension viscosities are performed over a wide range of mixing ratios and used to test the robustness and predictive capability of a recent viscosity model (Mwasame et al. in Phys Fluids 28:061701, 2016b), subsequently referred to as the MWB model. Three unimodally distributed particle suspensions with narrow size distributions are blended to make the bimodal and trimodal suspensions used in the rheological experiments. We demonstrate how predictions for mixture viscosities can be made using the MWB model only requiring the volume-weighted average particle sizes and viscosity correlations of the individual unimodal suspensions comprising the blend. The resultant model predictions are found to be in good agreement with measured bimodal and trimodal viscosity data to within expected experimental uncertainty. The datasets provided here can be used to validate future modeling efforts, and the MWB model can be used to optimize the viscosity of multimodal suspension mixtures for specific performance criteria. [ABSTRACT FROM AUTHOR]

Published

2017

8. Dynamic shear rheology and structure kinetics modeling of a thixotropic carbon black suspension.

Author

Armstrong, Matthew, Beris, Antony, Rogers, Simon, and Wagner, Norman

Subjects

SHEAR (Mechanics), CARBON-black, SUSPENSIONS (Chemistry), THIXOTROPY, SHEAR flow, MICROSTRUCTURE

Abstract

The rheological characterization of a model, nearly ideal thixotropic carbon black suspension first proposed by Dullaert and Mewis (JNNFM 139: 21-30, 2006) is extended to include large amplitude oscillatory shear (LAOS) flow, shear flow reversal, and unidirectional LAOS flow (UD-LAOS). We show how this broader data set is useful for validating and improving constitutive models of thixotropy. We apply this new data to further test a recently developed structure-kinetics model, the Modified Delaware Thixotropy Model (Armstrong et al., J Rheol. 60: 433-450, 2016a), as well as to better understand the microstructural basis and validity of strain-rate superposition methods proposed for soft solids. This comparison identifies the limitations of models based on a scalar description of microstructure, which cannot fully capture the reversal of flow directionality inherent in LAOS flow. Further, we use the model to identify a possible microstructural justification for the hypothesized technique of strain-rate frequency superposition in soft solids. [ABSTRACT FROM AUTHOR]

Published

2017

9. Effects of a commonly used glyphosate-based herbicide formulation on early developmental stages of two anuran species.

Author

Wagner, Norman, Müller, Hendrik, and Viertel, Bruno

Subjects

GLYPHOSATE -- Environmental aspects, HERBICIDES & the environment, PHYSIOLOGICAL effects of pollution, HERBICIDE toxicology, AMPHIBIANS

Abstract

Environmental contamination, especially due to the increasing use of pesticides, is suggested to be one out of six main reasons for the global amphibian decline. Adverse effects of glyphosate-based herbicides on amphibians have been already discussed in several studies with different conclusions, especially regarding sublethal effects at environmentally relevant concentrations. Therefore, we studied the acute toxic effects (mortality, growth, and morphological changes) of the commonly used glyphosate-based herbicide formulation Roundup® UltraMax on early aquatic developmental stages of two anuran species with different larval types (obligate vs. facultative filtrating suspension feeders), the African clawed frog ( Xenopus laevis) and the Mediterranean painted frog ( Discoglossus pictus). While X. laevis is an established anuran model organism in amphibian toxicological studies, we aim to establish D. pictus as another model for species with facultative filtrating larvae. A special focus of the present study lies on malformations in X. laevis embryos, which were investigated using histological preparations. In general, embryos and larvae of X. laevis reacted more sensitive concerning lethal effects compared to early developmental stages of D. pictus. It was suggested, that especially the different morphology of their filter apparatus and the higher volume of water pumped through the buccopharynx of X. laevis larvae lead to higher exposure to the formulation. The test substance induced similar lethal effects in D. pictus larvae as it does in the teleost standard test organism used in pesticide approval, the rainbow trout ( Oncorhynchus mykiss), whereas embryos of both species are apparently more tolerant and, conversely, X. laevis larvae about two times more sensitive. In both species, early larvae always reacted significantly more sensitive than embryos. Exposure to the test substance increased malformation rates in embryos of both species in a concentration-dependent manner, but not at environmentally relevant concentrations. However, the assumed field safety, based on calculated surface water concentrations of the active ingredient (glyphosate), should be validated with realistic field data and buffer strips have to be urgently regarded to any aquatic amphibian habitat. [ABSTRACT FROM AUTHOR]

Published

2017

10. Acute Toxic Effects of the Herbicide Formulation Focus Ultra on Embryos and Larvae of the Moroccan Painted Frog, Discoglossus scovazzi.

Author

Wagner, Norman, Lötters, Stefan, Veith, Michael, and Viertel, Bruno

Subjects

HERBICIDE research, EMBRYOS, AMPHIBIANS, TOXICITY testing, CHEMICALS

Abstract

For regulatory and scientific purposes, there is a need to understand the sensitivity of a wider variety of wild species of amphibians and the sensitivities within their life stages to chemicals of widespread use such as herbicides. We investigated the acute toxic effects of the herbicide formulation Focus Ultra [with the active ingredient (a.i.) cycloxydim plus solvent naphtha and sodium dioctylsulphosuccinate as added substances] on embryos and early stage larvae of the Moroccan painted frog ( Discoglossus scovazzi). Different clinical signs (twitching, convulsion, and narcosis) occurred at 40 and 80 mg/L in embryos (4 and 8 mg a.i./L) and narcotic effects (total immobilization or irregular escape responses) at 10, 15, and 20 mg/L in larvae (1, 1.5, and 2 mg a.i./L). Growth inhibition (total length), starting at 20 mg/L in embryos and 2.5 mg/L in larvae (2 and 0.25 mg a.i./L, respectively) was understood as sign of toxicity (retardation) and not as sign of teratogenicity. However, the connection to teratogenesis remained unclear though total length reduction occurred at concentrations <20 % of the 96-h LC value and at a minimum concentration that inhibits growth of only 17 % of the 96-h LC value. Starting at 20 mg/L, mortality in embryos significantly increased and at 15 mg/L in early larvae (2 and 1.5 mg a.i./L, respectively). Mortality of larvae was enhanced during the first 24 h of exposure to 15 and 20 mg/L (1.5 and 2 mg a.i./L). Morphology of the embryos remained unobtrusive. In contrary, axial malformations significantly increased in the early larvae starting at 10 mg/L (1 mg a.i./L), a concentration free of lethal effects. In all considered end points, larvae were significantly more sensitive than embryos, probably because of developmental and physiological properties or different exposure and bioavailability of the compound. Focus Ultra induced comparable lethal and immobilization effects in D. scovazzi as it does to standard test organisms in pesticide approval. However, to validate the apparent safety in the field, which is based on calculated surface water concentrations of the a.i., more data on real contamination levels is necessary (e.g., peak concentrations, concentrations of added substances). Furthermore, sufficient buffer strips between the farmland and amphibian ponds must be considered, and the effects of the substance on terrestrial life stages have not been assessed yet. [ABSTRACT FROM AUTHOR]

Published

2015

11. Acute Toxic Effects of the Herbicide Formulation and the Active Ingredient Used in Cycloxydim-Tolerant Maize Cultivation on Embryos and Larvae of the African Clawed Frog, Xenopus laevis.

Author

Wagner, Norman, Lötters, Stefan, Veith, Michael, and Viertel, Bruno

Subjects

HERBICIDE toxicology, XENOPUS laevis, HERBICIDE-resistant crops, HERBICIDES & the environment, AMPHIBIAN declines

Abstract

Most genetically engineered herbicide-tolerant crops are still awaiting approval in Europe. There is, however, a recent trend for the cultivation of cycloxydim-tolerant maize hybrids for use in maize production. We studied the acute toxic effects of the complementary herbicide Focus Ultra and its active ingredient cycloxydim on embryos and early-stage larvae of the African clawed frog ( Xenopus laevis). The results indicate that the herbicide formulation is significantly more toxic than the active ingredient alone. Therefore, it is suggested that the added substances either solely or in a synergistic action with the active ingredient are responsible for adverse effects. The formulation was found to be moderately toxic to embryos but highly toxic to early larvae. Based on calculated teratogenic indices, both cycloxydim and Focus Ultra seem to be non-teratogenic and also the minimum Focus Ultra concentration to inhibit growth in embryos and larvae was close to the LC50 values. The data suggest that tests with the rainbow trout are not in all cases appropriate to assess the risk in aquatically developing anurans. This is demonstrated by 96-h LC50 values, which are for rainbow trout more than 50- to 20-fold higher than for early X. laevis larvae. However, based on worst-case predicted environmental concentrations for surface waters, there is apparently a large safety margin in field use of Focus Ultra if buffer strips between the farm land and the amphibian habitats are regarded. [ABSTRACT FROM AUTHOR]

Published

2015

12. Hypothesizing if responses to climate change affect herbicide exposure risk for amphibians.

Author

Lötters, Stefan, Filz, Katharina, Wagner, Norman, Schmidt, Benedikt, Emmerling, Christoph, and Veith, Michael

Published

2014

13. Effects of Water Contamination on Site Selection by Amphibians: Experiences from an Arena Approach With European Frogs and Newts.

Author

Wagner, Norman and Lötters, Stefan

Subjects

HERBICIDES & the environment, WATER pollution, GLYPHOSATE in water, RANA temporaria, LISSOTRITON helveticus, AMPHIBIAN declines

Abstract

Pesticide residues in breeding ponds can cause avoidance by at least some amphibian species. So far, outdoor experiments have been performed only with artificial pools in areas where the focus species usually occur and new colonization has been observed. Results of this kind of study are potentially influenced by natural disturbances and therefore are of limited comparability. We used an easily manufactured and standardizable arena approach, in which animals in reproductive condition for some hours had a choice among pools with different concentrations of a contaminant. Because there has been much debate on the potential environmental impacts of glyphosate-based herbicides, we investigated the impact of glyphosate isopropylamine salt (GLY-IS), Roundup LB PLUS (RU-LB-PLUS), and glyphosate's main metabolite aminomethylphosphonic acid (AMPA) on individual residence time in water. The following European amphibian species were tested: Common frog ( Rana temporaria), Palmate newt ( Lissotriton helveticus), and Alpine newt ( Ichthyosaura alpestris). The residence time in water was not significantly affected by concentrations below or slightly above the European Environmental Quality Standards for AMPA or the German 'worst-case' expected environmental concentrations for GLY-IS and RU-LB-PLUS. Occasionally, microclimatic cofactors (nightly minimum ground temperature, water temperature) apparently influenced the residence time. The major drawback of such quick behavior studies is that results can only be transferred to perception and avoidance of contaminated water but not easily to site selection by amphibians. For example, testing oviposition site selection requires more natural water bodies and more time. Hence, to develop a standard procedure in risk assessment, an intermediate design between an arena approach, as presented here, and previously performed field studies should be tested. [ABSTRACT FROM AUTHOR]

Published

2013

14. Investigating the transient response of a shear thickening fluid using the split Hopkinson pressure bar technique.

Author

Lim, Amanda, Lopatnikov, Sergey, Wagner, Norman, and Gillespie, John

Subjects

TRANSIENTS (Dynamics), SUSPENSIONS (Chemistry), COLLOIDS, LOGARITHMS, STRAINS & stresses (Mechanics), RHEOLOGY, SIMULATION methods & models

Abstract

The split Hopkinson pressure bar (SHPB) technique is implemented to evaluate the transient response of a colloidal suspension exhibiting shear thickening at strain rates and timescales never before explored in a laboratory instrument. These suspensions are shown to exhibit a discontinuous transition from fluid-like (shear thinning) to solid-like (shear thickening) behavior when evaluated using rotational rheometry. The effect of loading rate on this transition time is studied for a particle volume fraction of 0.54 using the SHPB technique. It is shown that the time required for transition to occur decreases logarithmically with loading rate. From these results, we conclude that transition is not triggered by a characteristic shear rate, but rather a critical shear strain is required. Results from SHPB experiments performed up to Peclet numbers of order 107 are presented and discussed for 0.50, 0.52, and 0.54 particle volume fraction suspensions. [ABSTRACT FROM AUTHOR]

Published

2010

15. The Role of Nanoscale Forces in Colloid Dispersion Rheology.

Author

Wagner, Norman J. and Bender, Jonathan W.

Published

2004

16. Thermodynamic properties and rheology of sterically stabilized colloidal dispersions.

Author

Maranzano, Brent J. and Wagner, Norman J.

Abstract

A procedure for predicting thermodynamic, dynamic, and rheological properties of polymerically stabilized colloidal dispersions in good solvents by mapping onto an effective hard sphere dispersion is investigated and evaluated for its range of applicability. Configurational pressures and energies, calculted by Monte Carlo simulations, are used to assess the model's accuracy for predicting thermodynamic data. Similarly, long-time self-diffusivities, calculated by equilibrium Brownian Dynamic simulations, are used to assess the model's feasibility for predicting dynamic properties. Finally, zero shear viscosities are calculated by the method of hydrodynamic preaveraging and compared to rheological measurements. The various testing methods demonstrate the effectiveness of the procedure and suggest the model's range of applicability. [ABSTRACT FROM AUTHOR]

Published

2000

17. Instructional product evaluation using the staged innovation design.

Author

Wagner, Norman

Abstract

In instructional program evaluation, pretest scores typically are compared to posttest scores, and any change is attributed to the instructional program. Such a pretest-posttest evaluation design ignores the possible existence of threats to internal validity. In contrast, the Staged Innovation Design makes use of an experimental and a control-replication group by not introducing the program to all learners at once. Use of the Staged Innovation Design allows for posttest scores for an experimental group to be compared to both pretest and posttest scores of a control-replication group to ascertain the instructional effectiveness of the program. In the study reported here, the Staged Innovation Design was modified with the addition of a simultaneous pretest for both groups prior to the introduction of the program to the control group. As altered, this design controls for threats to internal validity while providing options for multiple comparisons on which to base a contention that the program is instructionally effective. [ABSTRACT FROM AUTHOR]

Published

1984

18. Workshop-Bericht: 'Anthropogene Störung mariner Ökosysteme in Deutschland - eine natur- und rechtswissenschaftliche Bewertung'.

Author

Beninde, Joscha, Hänsch, Mathias, Hiery, Marietta, Kinitz, Tim, Kirschey, Jenny, Matenaar, Daniela, Rohde, Katja, Stöfen, Aleke, Wagner, Norman, and Zink, Andres

Abstract

Copyright of Natur und Recht is the property of Springer Nature and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2013