Your search keyword '"entrainment"' showing total 7,910 results

1. Relative importance of intensity and spectrum of artificial light at night in disrupting behavior of a nocturnal rodent.

Author

Longcore, Travis, Villanueva, Sophia Anne Marie B, Nguyen-Ngo, Kyle, Ghiani, Cristina A, Harrison, Benjamin, and Colwell, Christopher S

Subjects

Biological Sciences, Neurosciences, Animals, Mice, Male, Circadian Rhythm, Female, Light, Lighting, Behavior, Animal, Motor Activity, Temperature, Activity, Masking, Entrainment, Correlated color temperature, Spectral sensitivity, Mus musculus, Medical and Health Sciences, Physiology, Biological sciences

Abstract

The influence of light spectral properties on circadian rhythms is of substantial interest to laboratory-based investigation of the circadian system and to field-based understanding of the effects of artificial light at night. The trade-offs between intensity and spectrum regarding masking behaviors are largely unknown, even for well-studied organisms. We used a custom LED illumination system to document the response of wild-type house mice (Mus musculus) to 1-h nocturnal exposure of all combinations of four intensity levels (0.01, 0.5, 5 and 50 lx) and three correlated color temperatures (CCT; 1750, 1950 and 3000 K). Higher intensities of light (50 lx) suppressed cage activity substantially, and consistently more for the higher CCT light (91% for 3000 K, 53% for 1750 K). At the lowest intensity (0.01 lx), mean activity was increased, with the greatest increases for the lowest CCT (12.3% increase at 1750 K, 3% increase at 3000 K). Multiple linear regression confirmed the influence of both CCT and intensity on changes in activity, with the scaled effect size of intensity 3.6 times greater than that of CCT. Activity suppression was significantly lower for male than for female mice. Assessment of light-evoked cFos expression in the suprachiasmatic nucleus at 50 lx showed no significant difference between high and low CCT exposure. The significant differences by spectral composition illustrate a need to account for light spectrum in circadian studies of behavior, and confirm that spectral controls can mitigate some, but certainly not all, of the effects of light pollution on species in the wild.

Published

2024

2. THE ENTRAINMENT OF TASK ALLOCATION AND RELEASE CYCLES IN OPEN SOURCE SOFTWARE DEVELOPMENT.

Author

Lindberg, Aron, Schecter, Aaron, Berente, Nicholas, Hennel, Phil, and Lyytinen, Kalle

Abstract

In this study we identify a process of "entrainment" around open source software (OSS) development release cycles to capture patterns of self-organized task allocation among developers. We conducted an abductive, computationally intensive study of eight OSS projects, using relational event modeling to analyze 1,169,489 actions covering 93 major software releases. The process of entrainment that we identify involves three task allocation mechanisms: (1) developer-issue inertia, (2) developer contribution frequency, and (3) issue popularity. Our analysis demonstrates that these mechanisms and the phases of the release cycle entrain each other. Before a major release, developers engage in a concentrated mobilization phase, whereby they democratize development activity and increasingly allocate community contributions to the set of issues related to the release. After a major release, the extended cleanup phase garners a greater share of development work from recently highly active developers and dilutes the activity of these developers across a wider range of issues. Our theorizing suggests that major releases constitute important events around which OSS communities self-organize and we characterize how this occurs. Our research contributes to theorizing on organizing in OSS communities by explaining how self-organizing task allocation interacts with release cycles through the mechanism of entrainment. We also contribute to the literature on entrainment by showing how it may unfold in the context of online peer production communities such as OSS. [ABSTRACT FROM AUTHOR]

Published

2024

3. Addressing Circadian Disruptions in Visually Impaired Paralympic Athletes.

Author

Anderson, Travis, Adams, William M., Burns, Geoffrey T., Post, Eric G., Baumann, Sally, Clark, Emily, Cogan, Karen, and Finnoff, Jonathan T.

Subjects

ATHLETES with disabilities, CIRCADIAN rhythms, PHYSICAL training & conditioning, BIOLOGICAL rhythms, MELATONIN, DIETARY supplements, PSYCHOSOCIAL factors, JET lag, QUALITY of life

Abstract

Purpose: Transmeridian travel is common for elite athletes participating in competitions and training. However, this travel can lead to circadian misalignment wherein the internal biological clock becomes desynchronized with the light–dark cycle of the new environment, resulting in performance decrement and potential negative health consequences. Existing literature extensively discusses recommendations for managing jet lag, predominantly emphasizing light-based interventions to synchronize the internal clock with the anticipated time at the destination. Nevertheless, visually impaired (VI) athletes may lack photoreceptiveness, diminishing or nullifying the effectiveness of this therapy. Consequently, this invited commentary explores alternative strategies for addressing jet lag in VI athletes. Conclusions: VI athletes with light perception but reduced visual acuity or visual fields may still benefit from light interventions in managing jet lag. However, VI athletes lacking a conscious perception of light should rely on gradual shifts in behavioral factors, such as meal timing and exercise, to facilitate the entrainment of circadian rhythms to the destination time. Furthermore, interventions like melatonin supplementation may prove useful during and after travel. In addition, it is recommended that athlete guides adopt phase-forward or phase-back approaches to synchronize with the athlete, aiding in jet-lag management and optimizing performance. [ABSTRACT FROM AUTHOR]

Published

2024

4. The Dual Nature of Entrainment-Mixing Signatures Revealed through Large-Eddy Simulations of a Convection-Cloud Chamber.

Author

Wang, Aaron, Ovchinnikov, Mikhail, Yang, Fan, Cantrell, Will, Yeom, Jaemin, and Shaw, Raymond A.

Abstract

Entrainment of subsaturated air into a cloud can influence its optical and microphysical properties in various ways, depending on the droplet evaporation and turbulent mixing time scales. Previous experiments in the Pi convection-cloud chamber have revealed that, given a fixed entrained air property, the mixing of entrained subsaturated air results in complete evaporation of some cloud droplets, with the rest remaining unchanged. This is a signature of inhomogeneous mixing. While comparing the results of entrainment with varying air properties, the mixing signature appears as if the subsaturated air is well mixed with the cloud to evenly reduce the droplets' size. In other words, taken together, the experiments appear to have the signature of homogeneous mixing. To explore these results in a greater depth, we conduct large-eddy simulations combined with a bin microphysics scheme. Our results reproduce the similar signatures of inhomogeneous and homogeneous mixing, implying that LES can resolve the inhomogeneous mixing when the grid spacing is smaller than the entrained air parcel. Additionally, we observe that increasing the aerosol injection rate enhances the signature of inhomogeneous mixing, while coarser grid spacing diminishes it. Finally, the change in wall fluxes in response to various entrained air properties confirms that the homogeneous signature seen in the analysis of an ensemble of simulations is the result of various equilibrium states. This further strengthens the suggestion that the homogeneous mixing signature found in aircraft observations near the cloud top may result from combining entrainment events of different intensities, possibly caused by various-sized eddies. Significance Statement: Large-eddy simulation and size-resolved microphysics can resolve time scales for turbulent mixing and evaporation and, therefore, are well suited for reproducing, extending, and interpreting the entrainment experiment in the Pi convection-cloud chamber. Our simulation results confirm (i) the inhomogeneous mixing signature for an individual entrainment event and (ii) the appearance of homogeneous mixing in an ensemble of entrainment episodes. Furthermore, we demonstrate that the inhomogeneous mixing signature is more pronounced in a polluted cloud, but coarser grid spacing in simulations may compromise the accuracy of this signature. Last, the homogeneous mixing signature results from various equilibrium states established for different entrainment intensities and adjusted wall fluxes, which are challenging to measure experimentally but can be easily analyzed in the simulations. [ABSTRACT FROM AUTHOR]

Published

2024

5. Optimization of entrainment and interfacial flow patterns in countercurrent air-water two-phase flow in vertical pipes.

Author

Wang, Yongzhi, Luo, Feng, Zhu, Zichen, Li, Ruijie, and Sina, Mohammad

Subjects

ANNULAR flow, PIPE flow, INTERFACIAL stresses, SHEARING force, LIQUID films

Abstract

This study investigates countercurrent air-water two-phase flow in vertical pipes with inner diameters of 26 mm and 44 mm and a height of 2000 mm, under controlled conditions to eliminate heat and mass transfer. Cutting-edge techniques were employed to measure the liquid film thickness (δ) and entrainment (e) within the annular flow pattern. The methodology involved a systematic comparative analysis of experimental results against established models, identifying the most accurate methods for predicting flow behavior. Specifically, the Schubring et al. correlation was found to most accurately predict e in 26 mm pipes, while the Wallis correlation was more accurate for 44 mm pipes. Additionally, interfacial shear stress was analyzed, confirming the high precision of the δ and e parameters. This research enhances the understanding of countercurrent air-water two-phase flow by providing reliable estimation methods for different pipe diameters and emphasizes the significance of accurately determining interfacial shear stress. Key findings include the identification of the most accurate models for different pipe sizes and addressing challenges in measuring δ and e under controlled conditions. The study's novelty lies in its comprehensive comparative analysis of existing models, leading to improved predictions of flow dynamics in vertical pipes, thereby contributing valuable insights into two-phase flow behavior in geosciences and environmental engineering. [ABSTRACT FROM AUTHOR]

Published

2024

6. A Refined Zero‐Buoyancy Plume Model for Large‐Scale Atmospheric Profiles and Anvil Clouds in Radiative‐Convective Equilibrium.

Author

Hu, Zeyuan, Jeevanjee, Nadir, and Kuang, Zhiming

Abstract

A simple analytical model, the zero‐buoyancy plume (ZBP) model, has been proposed to understand how small‐scale processes such as plume‐environment mixing and evaporation affect the steady‐state structure of the atmosphere. In this study, we refine the ZBP model to achieve self‐consistent analytical solutions for convective mass flux, addressing the inconsistencies in previous solutions. Our refined ZBP model reveals that increasing plume‐environment mixing can increase upper‐troposphere mass flux through two pathways: increased cloud evaporation or reduced atmospheric stability. To validate these findings, we conducted small‐domain convection‐permitting Radiative‐Convective Equilibrium simulations with horizontal resolutions ranging from 4 km to 125 m. As a proxy for plume‐environment mixing strength, the diagnosed entrainment rate increases with finer resolution. Consistent with a previous study, we observed that both anvil cloud fraction and upper‐troposphere mass flux increase with higher resolution. Analysis of the clear‐sky energy balance in the simulations with two different microphysics schemes identified both pathways proposed by the ZBP model. The dominant pathway depends on the relative strengths of evaporation cooling and radiative cooling in the environment. Our work provides a refined simple framework for understanding the interaction between small‐scale convective processes and large‐scale atmospheric structure. Plain Language Summary: High, anvil‐shaped clouds in the tropics significantly impact our climate, but simulating them accurately is challenging. Our study investigates how small‐scale mixing affects anvil clouds and vertical air movement in the upper atmosphere. We refined a simple analytical model, which treats convection as a single plume, to better understand these processes. Our results show that stronger mixing increases the amount of air moving upward, either through increased cloud evaporation or reduced atmospheric stability. We confirmed these findings with km‐scale numerical simulations at various grid sizes. Finer resolutions, indicating stronger mixing, led to more anvil clouds and greater upward air movement, supporting our simple plume model's predictions. These insights improve our understanding of how small‐scale processes influence the large‐scale atmosphere. Key Points: We derived a self‐consistent analytical solution for a zero‐buoyancy plume model to understand the steady‐state tropical atmosphereThe plume model suggests that increased mixing enhances convective mass flux via greater cloud evaporation or reduced atmospheric stabilitySteady‐state simulations with finer grids, indicating stronger mixing, show increased anvil cloud amount and upper‐troposphere mass flux [ABSTRACT FROM AUTHOR]

Published

2024

7. The positive F wave in lead V1 of typical atrial flutter is caused by activation of the right atrial appendage: Insight from mapping during entrainment from the right atrial appendage.

Author

Yamashita, Shu, Mizukami, Akira, Ono, Maki, Hiroki, Jiro, Miyakuni, Shota, Arashiro, Takumi, Ueshima, Daisuke, Matsumura, Akihiko, Miyazaki, Shinsuke, and Sasano, Tetsuo

Subjects

*PREDICTIVE tests, *HEART atrium, *BODY surface mapping, *QUESTIONNAIRES, *RADIO frequency therapy, *ELECTROCARDIOGRAPHY, *HEART conduction system, *CARDIOVASCULAR system physiology, *ATRIAL flutter, *CARDIAC pacing, *CATHETER ablation, *ELECTROPHYSIOLOGY

Abstract

Introduction: Typical atrial flutter (AFL) is a macroreentrant tachycardia in which intracardiac conduction rotates counterclockwise around the tricuspid annulus. Typical AFL has specific electrocardiographic characteristics, including a negative sawtooth‐like wave in the inferior lead and a positive F wave in lead V1. This study aimed to analyze the origin of the positive F wave in lead V1, which has not been completely understood. Methods: This study enrolled 10 patients who underwent radiofrequency catheter ablation for a typical AFL. Electroanatomical mapping was performed both during typical AFL and entrainment from the right atrial appendage (RAA). The 12‐lead electrocardiogram (ECG) and three‐dimensional (3D) electroanatomical maps were analyzed. Results: The positive F wave in lead V1 changed during entrainment from the RAA in all the cases. The 3D map during entrainment from the RAA revealed an area of antidromic capture around the RAA, which collided with the orthodromic wave in the anterior right atrium. This area of antidromic capture around the RAA was the only difference from the 3D electroanatomical map of AFL and is considered the cause of the change in the F wave in lead V1 during entrainment. Conclusion: The analysis of the differences in the 12‐lead ECG and 3D maps between tachycardia and entrainment from the RAA clearly demonstrated that activation around the RAA is responsible for the generation of the positive F wave in lead V1 of typical AFL. [ABSTRACT FROM AUTHOR]

Published

2024

8. Differential ventricular overdrive pacing during long‐RP supraventricular tachycardia: How can we interpret?

Author

Nakashima, Takashi, Nagase, Masaru, Usui, Takahiro, Morimoto, Mikihito, Shibahara, Taro, Ono, Daiju, Yamada, Takehiro, Suzuki, Keita, Yamaura, Makoto, Ido, Takahisa, Takahashi, Shigekiyo, and Aoyama, Takuma

Subjects

*HEART radiography, *ADENOSINES, *SUPRAVENTRICULAR tachycardia, *TREATMENT effectiveness, *HEART conduction system, *CARDIAC pacing, *CATHETER ablation, *ECHOCARDIOGRAPHY

Abstract

The article present case study of a 63‐year‐old woman with a history of palpitations and documented long-RP supraventricular tachycardia (SVT). Topics include evaluating SVT mechanisms through VOP responses; distinguishing between atypical atrioventricular nodal reentrant tachycardia (AVNRT) and atrioventricular reentrant tachycardia (AVRT); and challenges posed by inadvertent capture of the Purkinje conduction system during pacing.

Published

2024

9. Hydrodynamic investigation of a novel ultra-capacity tray, using centrifugal and inertial separation technologies.

Author

Zarei, Taleb

Subjects

*CENTRIFUGAL force, *PRESSURE drop (Fluid dynamics), *SEPARATION (Technology), *HYDRODYNAMICS, *TRAYS

Abstract

AbstractIn this study, an experimental investigation of the hydrodynamics of a novel 3-dimensional centrifugal tray was carried out. Using a high-capacity cylindrical centrifugal tray (HCC centrifugal tray), the centrifugal force and, inertial separation technologies were applied to remove the capacity limitations caused by the gravitational constraints. An air-water system was used in a rectangular cross-section plexiglass tower (30 cm × 50 cm). The pressure drop (dry and total), weeping, entrainment and clear liquid height of the tray were measured, and finally, a comparison to ConCap, sieve and, valve trays was provided. The results revealed a positive hydrodynamic behavior of the tray, particularly when a high gas velocity was used. Also, the capacity and operating window of the tray were found to be markedly larger than those of the conventional trays. This novel HCC centrifugal tray offers a promising approach to retrofit and debottleneck the tray columns in industrial applications, since it is both practical and inexpensive. [ABSTRACT FROM AUTHOR]

Published

2024

10. Quiescence and dormancy underpin plasticity and resilience: the virtue of being idle.

Author

Considine, Michael J

Subjects

*MOLECULAR biology, *PLANT phenology, *MOLECULAR structure, *OVULES, *AGRICULTURAL conservation, *SEED dormancy, *POTATOES, *LILIES

Abstract

This article discusses the concept of quiescence and dormancy in plants and their importance in plant development, acclimation, and survival. The article highlights recent research on the molecular and metabolic regulation of quiescence, as well as the ecological modeling and molecular perception of temperature in relation to dormancy. The integration of hormone and cell-to-cell signaling, as well as the role of epigenetic mechanisms in establishing and maintaining dormancy, is also explored. The article concludes by emphasizing the potential applications of this research in enhancing plant resilience in the face of climate change. [Extracted from the article]

Published

2024

11. From Seasonality to Species Conservation: Chronobiological Research on European Hamsters in Strasbourg, France.

Author

Monecke, Stefanie

Subjects

*WILDLIFE conservation, *HAMSTERS, *HIBERNATION, *RESEARCH personnel, *MELATONIN

Abstract

The first monograph on the European hamster from the Strasbourg region dates back to 1765. By the 1930s, a long and continuous chronobiological research tradition was established for this species, starting with the works of Charles Kayser, who published between 1938 and 1971. Another early key researcher in this area was Bernhard Canguilhem with publications from 1966 to 1999. From the 1980s onwards, "the Pévets," Paul Pévet and his wife, Mireille Masson‐Pévet, gave new energy to European hamster research. They broadened the research scope from basic hibernation research to mechanistic studies of circannual rhythms and from physiological aspects to molecular details. One main underlying question in their research was the role of melatonin. Thanks to their enthusiasm and vision, the European hamster is today one of the best – if not the best – studied circannual species. At least 73 parameters are described to cycle. Thirty‐two of them have been shown to be driven by a circannual clock. Moreover, ground‐breaking advances in our understanding of the mechanistic of hibernation, circannual clock functioning, and its entrainment were made. With most of this research being conducted in Strasbourg, Paul Pévet was instrumental in providing the necessary resources that made these innovative and unconventional long‐term animal studies possible, contributing to fundamental research and, ultimately, to species conservation. [ABSTRACT FROM AUTHOR]

Published

2024

12. Entrainment and mixing of unsteady gravity currents in compound channels.

Author

Vahed, Elnaz, Khosravi, Milad, and Javan, Mitra

Subjects

*REYNOLDS number, *DENSITY currents, *CHANNEL flow, *FLOODPLAINS, *COMPUTER simulation

Abstract

Compound channels are a common hydraulic section of many alluvial and fluvial systems, serving as conduits for the flow of water and sediment. The proper design of these structures requires an understanding of the entrainment and mixing mechanisms in them. This paper presents a three-dimensional numerical study of lock-exchange flow in a compound channel covering the Reynolds numbers (Re) range of 17 000–39 000. This study investigates flow structures and mixing patterns for various geometries and flow characteristics. The results show that the entrainment coefficient decreases as the dense flow progresses, and the amplitude of instantaneous mixing fluctuations decreases with an increase in the width of the floodplain and reduced gravity. The averaged flux entrainment profiles show a minimum at Re = 2 7 0 0 0 at different times in the front area. In the head area also, a downward concavity can be seen in the profiles around Re = 2 7 0 0 0. This study also reveals that changes in floodplain height do not affect the establishment of lobe-and-cleft instability. The wider the floodplain channel, the larger the lobe-and-cleft instability created. Small-scale mixing dominates at high Reynolds numbers, leading to higher fluid mixing. [ABSTRACT FROM AUTHOR]

Published

2024

13. Frequency‐Selective Suppression of Essential Tremor via Transcutaneous Spinal Cord Stimulation.

Author

Pascual‐Valdunciel, Alejandro, Ibáñez, Jaime, Rocchi, Lorenzo, Song, Joy, Rothwell, John C., Bhatia, Kailash P., Farina, Dario, and Latorre, Anna

Abstract

Background: Essential tremor (ET) is a common debilitating condition, yet current treatments often fail to provide satisfactory relief. Transcutaneous spinal cord electrical stimulation (tSCS) has emerged as a potential noninvasive neuromodulation technique capable of disrupting the oscillatory activity underlying tremors. Objective: This study aimed to investigate the potential of tSCS to disrupt tremor in a frequency‐dependent manner in a cohort of patients with ET. Methods: Eighteen patients with ET completed the study. The experiment consisted of 60‐s postural tremor recording, during tSCS at tremor frequency, at 1 Hz, at 21 Hz, no stimulation, and trapezius stimulation. Tremor frequency and amplitude were analyzed and compared across the conditions. Results: We found tremor amplitude reduction at tremor frequency stimulation significant only during the second half of the stimulation. The same stimulation resulted in the highest number of responders. tSCS at 1 Hz showed a trend toward decreased tremor amplitude in the latter half of stimulation. tSCS at 21 Hz did not produce any significant alterations in tremor, whereas trapezius stimulation exacerbated it. Notably, during tremor frequency stimulation, a subgroup of responders exhibited consistent synchronization between tremor phase and delivered stimulation, indicating tremor entrainment. Conclusions: Cervical tSCS holds promise for alleviating postural tremor in patients with ET when delivered at the subject's tremor frequency. The observed changes in tremor amplitude likely result from the modulation of spinal cord circuits by tSCS, which disrupts the oscillatory drive to muscles by affecting afferent pathways or spinal reflexes. However, the possibility of an interplay between spinal and supraspinal centers cannot be discounted. © 2024 The Author(s). Movement Disorders published by Wiley Periodicals LLC on behalf of International Parkinson and Movement Disorder Society. [ABSTRACT FROM AUTHOR]

Published

2024

14. Adaptive Differences in Cellular and Behavioral Responses to Circadian Disruption between C57BL/6 and BALB/c Strains.

Author

Ma, Changxiao, Li, Haonan, Li, Wenyu, Yang, Guangrui, and Chen, Lihong

Subjects

*LABORATORY mice, *GENE expression, *BIOLUMINESCENCE, *CIRCADIAN rhythms, *ANIMAL models in research, *LUNGS

Abstract

The regulation of the mammalian circadian clock is largely dependent on heredity. In model animals for circadian rhythm studies, C57BL/6 and BALB/c mice exhibit considerable differences in their adaptation to circadian disruption, yet deeper comparisons remain unexplored. Here, we have established embryonic fibroblast cells derived from C57BL/6 mice (MEF) and BALB/c (BALB/3T3) mice, which have been transfected with the Bmal1 promoter-driven luciferase (Bmal1-Luc) reporter gene. Next, dexamethasone was applied for various cyclic stimulations, which revealed that Bmal1 bioluminescence of MEF cells was entrained to 24 to 26 h cycles, whereas BALB/3T3 cells have a wider range (22 to 28 h) with lower amplitudes. Behaviorally, BALB/c mice swiftly adapted to a 6-h advance light/dark cycle, unlike C57BL/6 mice. Furthermore, we found the expression of the circadian rhythm gene Npas2 in BALB/c mice is significantly lower than that in C57BL/6 mice. This observation is consistent with the differentially expressed genes (DEGs) in the intestine and lung tissues of C57BL/6 and BALB/c mice, based on the RNA-seq datasets downloaded from the Gene Expression Omnibus (GEO). In summary, our study uncovers that BALB/c mice possess greater resilience in circadian rhythm than C57BL/6 mice, both cellular and behaviorally, identifying potential genes underlying this difference. [ABSTRACT FROM AUTHOR]

Published

2024

15. Systemic neurophysiological entrainment to behaviorally relevant rhythmic stimuli.

Author

Muñoz‐Caracuel, Manuel, Muñoz, Vanesa, Ruiz‐Martínez, Francisco J., Vázquez Morejón, Antonio J., and Gómez, Carlos M.

Subjects

*ACOUSTIC stimulation, *AUDITORY perception, *BRAIN waves, *AUTONOMIC nervous system, *PHASE oscillations

Abstract

Physiological oscillations, such as those involved in brain activity, heartbeat, and respiration, display inherent rhythmicity across various timescales. However, adaptive behavior arises from the interaction between these intrinsic rhythms and external environmental cues. In this study, we used multimodal neurophysiological recordings, simultaneously capturing signals from the central and autonomic nervous systems (CNS and ANS), to explore the dynamics of brain and body rhythms in response to rhythmic auditory stimulation across three conditions: baseline (no auditory stimulation), passive auditory processing, and active auditory processing (discrimination task). Our findings demonstrate that active engagement with auditory stimulation synchronizes both CNS and ANS rhythms with the external rhythm, unlike passive and baseline conditions, as evidenced by power spectral density (PSD) and coherence analyses. Importantly, phase angle analysis revealed a consistent alignment across participants between their physiological oscillatory phases at stimulus or response onsets. This alignment was associated with reaction times, suggesting that certain phases of physiological oscillations are spontaneously prioritized across individuals due to their adaptive role in sensorimotor behavior. These results highlight the intricate interplay between CNS and ANS rhythms in optimizing sensorimotor responses to environmental demands, suggesting a potential mechanism of embodied predictive processing. [ABSTRACT FROM AUTHOR]

Published

2024

16. Tree demographics and soil charcoal evidence of fire disturbances in an inaccessible forest atop the Mount Lico inselberg, Mozambique.

Author

Courtney Mustaphi, Colin J., Platts, Philip J., Willcock, Simon, Timberlake, Jonathan R., Osborne, Jo, Matimele, Hermenegildo, Osgood, Hanniah S., Muiruri, Veronica M., Gehrels, Maria, Bayliss, Julian, and Marchant, Rob

Subjects

*CARBON in soils, *FOREST fire ecology, *FOREST soils, *ECOLOGICAL disturbances, *LOAM soils

Abstract

Societal Impact Statement Summary Highland forests of Mozambique have been strongly modified by human activities for millennia. Some highlands have sheer rock cliffs and are highly inaccessible to people and appear relatively undisturbed. Evidence from the forest and soils of inaccessible Mount Lico show that the fire regime has changed over the recent millennia. As climate and fire regimes continue to change, management of highland ecosystems will be crucial to sustain the high biodiversity and mountain‐water resources that provide key ecosystem services to people living close to these forests. The sheer rock cliffs of the Mount Lico inselberg, northern Mozambique, is relatively inaccessible to people. A 0.57 km2 forest covers the top of the isolated mountain, and the tree demographics and soil offer an opportunity to investigate the long‐term fire ecology of the forests of the western, leeside of the mountain and potential for changing regional hydroclimate of the Late Holocene. On the western side of the mountaintop, a 20 × 20 m plot was surveyed for tree taxa, heights and bole diameters. A 220 cm deep pit was dug into the forest soil and analysed to describe the soil texture and carbon content. Charcoal was quantified on sieved subsamples and classified into charcoal morphologies that were then grouped by how readily entrainable on an index score. Three radiocarbon dates were collected from pieces charcoal. The forest is a combination of montane and woodland tree taxa that differed from the older, more mesic eastern side and reflected differential disturbance patterns. The reddish loam soils dated to the Middle Holocene. Charcoal was present in all soil subsamples and varied little until increasing consistently during the past millennium. The charcoal morphologies suggested a combination of locally derived charcoal and charcoal derived from the surrounding lowlands with the latter increasing in the past centuries. Few Holocene paleoenvironmental records have been developed from tropical soils in Africa and are useful in locations that do not host lakes and wetlands. Both tree demographics and soil charcoal suggest that changing forest disturbance regimes began during the past millennium. An understanding of history informs future conservation and appropriate management of these special places. [ABSTRACT FROM AUTHOR]

Published

2024

17. The Influence of Filling System Design on Quality Performance in Gray Iron.

Author

Heyworth, Robert

Subjects

*PRICE sensitivity, *ECONOMIC models, *SYSTEMS design, *ECONOMIC systems, *ENVIRONMENTAL organizations

Abstract

Significant evidence now supports the quality improvement seen in castings that employ naturally pressurized filling systems in their production. However, despite the documented evidence for improvement, these systems have not become ubiquitous. Gray iron, the industry's most prominent alloy, has been particularly slow to accept the shift in system design. The suggested tolerability of gray iron to turbulence, the market's price sensitivity, and the perceived economics of naturally pressurized systems are potential factors that have hindered adoption. However, if, through improved quality, the economic justification for these systems can be made in this adverse setting, there is a merit in their application to all alloys and processes. A sample gray iron part, currently being produced in a foundry environment with known porosity issues, was selected, to which a new system and several basin designs were applied. A mixed method analysis of casting simulations, production trials, and economic and environmental modeling was used to evaluate system performance. The results show a strong association between filling system design and sub-surface porosity. However, no association was found between basin design and porosity occurrence at lower porosity levels. Nevertheless, the economic and environmental modeling highlights that quality-orientated systems yield significant financial and environmental savings for the organization due to reduced scrap levels. These findings imply that quality-orientated system designs should be employed even when cost is the most critical measure. [ABSTRACT FROM AUTHOR]

Published

2024

18. Decremental conduction property in the slow conduction zone of adenosine‐sensitive atrial tachycardia.

Author

Kinjo, Takahiko, Kimura, Masaomi, Kaname, Noriyoshi, Horiuchi, Daisuke, and Tomita, Hirofumi

Subjects

HEART atrium, ADENOSINES, SUPRAVENTRICULAR tachycardia, TREATMENT effectiveness, HEART conduction system, ELECTROCARDIOGRAPHY, RIGHT heart atrium, TACHYCARDIA, ELECTROPHYSIOLOGY

Published

2024

19. Eddy dissipation rates in the dryline boundary layer.

Author

Solanki, Raman, Rao, Y Jaya, Malap, Neelam, Prasad, P, and Prabhakaran, Thara

Abstract

The quantification of turbulence across the entire atmospheric boundary layer (ABL) is relatively rare compared to the surface layer. In this study we investigate the variation in profiles of vertical velocity variance, wind shear and eddy dissipation rate (ε) across the ABL in context with the dryline event over rain shadow region of the Western Ghats in India. The study primarily utilizes the wind profiler radar measurements along with the micrometeorological tower measurements. The spectral width measurements from the wind profiler radar are utilized for estimating turbulence spectral width after applying necessary corrections. Further, the vertical velocity variance is estimated through a combination of velocity and spectral width measurements from wind profiler radar. The vertical velocity variance is found to vary from 0.5 to 5.0 m2s−2; while the magnitude of ε varies between 10−2.0 and 10−4.5 m2s−3 within the ABL. An increase of up to 1.0 m2s−2 is observed in the vertical velocity variance across the ABL, while simultaneously higher ε magnitudes are observed near the entrainment zone of the ABL during the dryline event. The highly turbulent state of the ABL is found to be associated with significantly higher wind shear over the site from 2 to 4 km altitude. The study provides detailed insights into the role of free-tropospheric entrainment and wind shear on intense ABL deepening during the dryline event from 28 to 30 May 2019. [ABSTRACT FROM AUTHOR]

Published

2024

20. Comparison of Different Numerical Methods in Modeling of Debris Flows—Case Study in Selanac (Serbia).

Author

Krušić, Jelka, Pastor, Manuel, Tayyebi, Saeid M., Đurić, Dragana, Đurić, Tina, Samardžić-Petrović, Mileva, Marjanović, Miloš, and Abolmasov, Biljana

Subjects

DEBRIS avalanches, AERIAL photogrammetry, FIELD research, LANDSLIDES, CYCLONES

Abstract

Flow-type landslides are not typical in this region of the Balkans. However, after the Tamara cyclone event in 2014, numerous such occurrences have been observed in Serbia. This paper presents the initial results of a detailed investigation into debris flows in Serbia, comparing findings from two programs: RAMMS DBF and Geoflow SPH. Located in Western Serbia, the Selanac debris flow is a complex event characterized by significant depths in the initial block and entrainment zone. Previous field investigations utilized ERT surveys, supplemented by laboratory tests, to characterize material behavior. Approximately 450,000 m3 of material began to flow following an extreme precipitation period, ultimately traveling 1.2 km to the deposition zone. For validation purposes, ERT profiles from both the deposition zone and the source area were utilized, with particular attention given to areas where entrainment was substantial, as this had a significant impact on the final models. The first objective of this research is to conduct a detailed investigation of debris flow using field investigations: geophysical (ERT) and aerial photogrammetry. The second objective is to evaluate the capacity of two debris flow propagation models to simulate the reality of these phenomena. The GeoFlow-SPH code overestimated the maximum propagation thickness in comparison to the RAMMS model. The numerical results regarding final depths closely align, especially when considering the estimated average depth in the deposition zone. The results confirm the necessity of using multiple simulation codes to more accurately predict specific events. [ABSTRACT FROM AUTHOR]

Published

2024

21. Decremental conduction property in the slow conduction zone of adenosine‐sensitive atrial tachycardia

Author

Takahiko Kinjo, Masaomi Kimura, Noriyoshi Kaname, Daisuke Horiuchi, and Hirofumi Tomita

Subjects

adenosine‐sensitive atrial tachycardia, atrioventricular node‐like tissue, decremental conduction, entrainment, Diseases of the circulatory (Cardiovascular) system, RC666-701

Published

2024

22. Rethinking fish-friendliness of pumps by shifting focus to both safe and timely fish passage for effective conservation

Author

Oliver J. Evans, Josh Norman, Liam J. Carter, Thomas Hutchinson, Andrew Don, Rosalind M. Wright, Jeffrey A. Tuhtan, Gert Toming, and Jonathan D. Bolland

Subjects

Behavioural response, Catadromous, Entrainment, Fish screening, Multi-beam sonar (ARIS), Operational changes, Medicine, Science

Abstract

Abstract Globally, catadromous freshwater eels of the genus Anguilla are of conservation concern, including critically endangered European eel (Anguilla anguilla). Pumping stations that move river water to a higher elevation severely impact eels during their seaward spawning migration. Fish-friendly pumps can mitigate fish injury and mortality but here we uniquely rethink a fish-friendly pump as a fish passage solution. In this pluriannual study, the seasonal timing of pump operation was misaligned with the typical silver eel migration period. Eels were almost exclusively nocturnal but night-time pumping represented as little as 5.6% a year. Night-time eel approaches were primarily influenced by pump duration and temperature, but did not align with lunar phase, unlike in unregulated rivers. After reaching the pumping station, eel passage was influenced by weedscreen aperture and increased when the aperture was increased. Passive sensor collision suggested non-pump infrastructure could cause injury and mortality to eels. It is therefore recommended pump operation should align with the timing of silver eel migration, weedscreen and pump entrance efficiencies should be maximised, and non-pump infrastructure must have low fish injury risk. Ultimately, considering the entire structure a fish passage solution will help ensure fish-friendly pumps have high conservation value for anguillid eels globally.

Published

2024

23. Beyond Simple Tapping: Is Timed Body Movement Influenced When Balance Is Threatened?

Author

Emmanouil, Analina, Boudolos, Konstantinos, and Rousanoglou, Elissavet

Subjects

ANGULAR velocity, PHYSICAL fitness, MEDICAL rehabilitation, SYNCHRONIZATION, METRONOME, MOTION

Abstract

The tapping paradigm offers valuable insights into movement timing; however, it simplifies mechanics by minimizing force, restricting motion, and relying on a clear contact endpoint. Thus, it may not fully capture the complexity of larger-scale multi-segmental (or single-segment) timed body movements. The aim of this study was to extend beyond the tapping paradigm by examining the timing of two large-scale movements commonly performed in physical fitness or rehabilitation modalities, with varying inherent balance threats: two-legged squatting (low balance threat) and standing hip abduction (higher balance threat) paced by a metronome set at the participants' preferred tempo (N = 39, all physically active). In synchronization with the metronome audio signal, the trunk and shank angular velocities were also recorded to extract the entrainment, synchronization, and pace stability metrics. Paired t-tests indicated similar entrainment in both movements (p > 0.05 for IRI match) but significant differences in timing metrics' manifestations (p ≤ 0.05, standing hip abduction: 50% greater IRI error, 30% lower synchronization error, 2.6% units lower pace stability). The similar entrainment but different synchronization error and pace stability highlight a complex timing interplay between balance threat/challenges and movement complexity concerning the two large-scale movements employed in physical fitness and rehabilitation modalities. [ABSTRACT FROM AUTHOR]

Published

2024

24. Three Sailors, Three Personalities: Choreomusical Analysis of the Solo Variations in Fancy Free.

Author

Short, Rachel

Subjects

*SAILORS, *MUSICAL meter & rhythm

Abstract

A thorough understanding of how music and movement synthesize is vital for deeper exploration of multimedia artworks. In this article, I demonstrate a choreomusical analytic technique that links detailed analyses of both music and choreography from the ballet Fancy Free, a work that was the product of a close collaboration between Leonard Bernstein and Jerome Robbins. Specifically, I explore the three sailors' solo variations, noting placement and repetition of rhythmic and choreographic phrases, elisions and metric changes, and reinterpretation of rhythmic patterns. I observe differences in grouping and accents to reveal how the changing relationships between dance and music create unique characterizations for each of the sailors. My integrated reading of music and original choreography explores the relationship between music and movement, offering a way to understand how they intertwine. [ABSTRACT FROM AUTHOR]

Published

2024

25. Rhythmic priming of syntactic processing in Jabberwocky: a short-lived effect.

Author

György, Dávid, Saddy, Douglas, Kotz, Sonja A., and Franck, Julie

Subjects

*MUSIC, *COMPARATIVE grammar, *RESEARCH funding, *PHONOLOGICAL awareness, *POETRY (Literary form), *HYPOTHESIS, *JUDGMENT (Psychology), *DISCRIMINATION (Sociology), *COGNITION, PHYSIOLOGICAL aspects of speech

Abstract

Converging evidence points towards a link between musical rhythm and linguistic syntax processing. Several potentially shared cognitive mechanisms and overlapping brain regions have been proposed to account for these findings. The present study explores the hypothesis that a domain-general cognitive system responsible for hierarchical structure building constitutes one such component. In two experiments, French-speaking adults listened to rhythmically regular, irregular or silent primes before completing a grammaticality judgement task on Jabberwocky sentences. Both experiments showed a priming effect only in the first three sentences after priming. Experiment 1 (block design) showed a disadvantage of the irregular condition compared to both other conditions. Experiment 2 (mixed design) showed an advantage in the regular condition compared to the irregular condition. Across the two experiments, grammaticality judgement performance correlated with rhythm discrimination. These findings provide evidence for a domain-general cognitive network responsible for hierarchical structure building in rhythm and language processing. [ABSTRACT FROM AUTHOR]

Published

2024

26. Finding Creativity in Predictability: Seizing Kairos in Chronos Through Temporal Work in Complex Innovation Processes.

Author

Otto, Birke D., Schuessler, Elke S., Sydow, Jörg, and Vogelgsang, Lukas

Subjects

DRUG discovery, RESEARCH & development projects, DRUG development, DRUGS, QUALITATIVE research

Abstract

Managing temporal complexity is a fundamental challenge in complex innovation processes, yet the temporal work whereby actors seize opportune moments (kairos) in an environment dominated by clock-time structures (chronos) remains elusive. Temporal tensions can partly be resolved through entrainment, that is, by aligning activities with dominant temporal structures. However, although entrainment ensures the exploitation of a predefined path, it is unable to harness unexpected developments as opportunities for exploration. Thus, navigating the competing temporal demands of chronos and kairos requires not just ambidextrous but also ambitemporal organizing. Collecting and analyzing in-depth interview and observational data from pharmaceutical drug discovery and development, we find that actors sometimes resolve temporal tensions through entrainment to ensure coordination and predictability. In other instances, however, actors abductively transform temporal tensions into novel interpretations and new courses of action. As such, temporal tensions become more than a bothersome deviation from the planned schedule, but an opportunity for creative agency. This understanding of kairos—as a process unfolding through temporal work—relies not only on detraining from chronos (i.e., momentarily detaching from the dominant temporal structure to question underlying assumptions), but also on its reframing and reconfiguration. We contribute to the literature on complex innovation and temporality by theorizing a transformative perspective on ambitemporal organizing, which relies less on paradoxical notions and instead emphasizes how kairos is enacted and seized within and from chronos. Funding: This work was supported by German Research Foundation (DFG) funding for the Research Unit "Organized Creativity" [Grant FOR 2161] as well as by the Austrian Science Fund (FWF) [10.55776/I4884]. [ABSTRACT FROM AUTHOR]

Published

2024

27. Effects of External Pacing Type on the Cross-Education of Motor Skill.

Author

Andrushko, Justin W., Zirk, Dakota T., Kurniawan, Aryan R., Renshaw, Doug W., and Farthing, Jonathan P.

Subjects

*MOTOR learning, *MOTOR ability, *TASK performance, *VISUAL learning, *TRANSFER of training

Abstract

AbstractCross-education (CE) is a phenomenon whereby motor training of one limb leads to improved performance in the opposite untrained limb. External pacing of a motor task can enhance CE; however, the influence of different pacing methods is poorly understood. This study explored how motor training with auditory (AP) and visual pacing (VP) impacts CE with a visuomotor force target task. Sixty-one participants performed a unimanual motor task. Participants were randomized into a visual (n = 31) or auditory (n = 30) pacing stimuli condition. The primary outcome was cumulative error scores for each hand, before and after visuomotor training. Pacing type did not yield different magnitudes of CE. However, after adjusting for baseline differences, a significant hand (trained vs. untrained) × practice side (dominant or non-dominant) interaction (p = .013, ηp2 = .106) and a group main effect (p = .036, ηp2 = .165) were observed. Visual pacing resulted in greater improvements in task performance compared to auditory pacing regardless of hand or practice side, while training the dominant limb resulting in a greater interlimb asymmetry regardless of pacing stimulus. These findings have implications for applying pacing strategies during rehabilitation from unilateral injury or neurological impairment. [ABSTRACT FROM AUTHOR]

Published

2024

28. Entrainment response during ventricular tachycardia originating from the para‐Hisian region: What is the mechanism?

Author

Moriwaki, Kazuki, Doi, Atsushi, Nishigaki, Keisuke, Tsukamoto, Takuya, Tanaka, Sawa, Yamasaki, Reiko, Fukuda, Keisuke, Yoshiyama, Tomotaka, Kawarabayashi, Takahiko, and Fukuda, Daiju

Subjects

*ELECTRIC countershock, *SINUS arrhythmia, *VENTRICULAR tachycardia, *ELECTROCARDIOGRAPHY, *HIS bundle, *CARDIAC pacing, *CATHETER ablation, *ECHOCARDIOGRAPHY, *ATRIOVENTRICULAR node

Abstract

The article presents a case study of a patient with ventricular tachycardia originating from the para-Hisian region, where detailed electrophysiological mapping and pacing maneuvers were used to identify the reentrant mechanism. It also discusses the effectiveness of entrainment pacing in determining the optimal ablation site, challenges associated with ablation in this anatomical region, and the role of detailed electroanatomical mapping in avoiding damage to the AV conduction system.

Published

2024

29. Rethinking fish-friendliness of pumps by shifting focus to both safe and timely fish passage for effective conservation.

Author

Evans, Oliver J., Norman, Josh, Carter, Liam J., Hutchinson, Thomas, Don, Andrew, Wright, Rosalind M., Tuhtan, Jeffrey A., Toming, Gert, and Bolland, Jonathan D.

Subjects

*ANGUILLA anguilla, *LUNAR phases, *FISH mortality, *FISH migration, *PUMPING stations

Abstract

Globally, catadromous freshwater eels of the genus Anguilla are of conservation concern, including critically endangered European eel (Anguilla anguilla). Pumping stations that move river water to a higher elevation severely impact eels during their seaward spawning migration. Fish-friendly pumps can mitigate fish injury and mortality but here we uniquely rethink a fish-friendly pump as a fish passage solution. In this pluriannual study, the seasonal timing of pump operation was misaligned with the typical silver eel migration period. Eels were almost exclusively nocturnal but night-time pumping represented as little as 5.6% a year. Night-time eel approaches were primarily influenced by pump duration and temperature, but did not align with lunar phase, unlike in unregulated rivers. After reaching the pumping station, eel passage was influenced by weedscreen aperture and increased when the aperture was increased. Passive sensor collision suggested non-pump infrastructure could cause injury and mortality to eels. It is therefore recommended pump operation should align with the timing of silver eel migration, weedscreen and pump entrance efficiencies should be maximised, and non-pump infrastructure must have low fish injury risk. Ultimately, considering the entire structure a fish passage solution will help ensure fish-friendly pumps have high conservation value for anguillid eels globally. [ABSTRACT FROM AUTHOR]

Published

2024

30. Dynamics of Sand–Water Coaxial Jets in Stagnant Water.

Author

Sharif, Fardin and Azimi, Amir Hossein

Subjects

*WATER jets, *PROPER orthogonal decomposition, *ENTRAINMENT (Physics), *VORTEX shedding, *KINETIC energy, *GRANULAR flow

Abstract

A series of laboratory experiments was conducted to study the dynamics of sand–water coaxial jets in stagnant water. The effects of the velocity ratio of the annular to the core jets on the sand concentration, velocity, mixing properties, and energy distribution of sand–water coaxial jets were studied. In comparison to sand jets, the existence of carrier fluid in sand–water coaxial jets decreased the concentration fluctuations of sand particles. Proper orthogonal decomposition (POD) and spectral proper orthogonal decomposition (SPOD) techniques were utilized to study the low-rank dynamic behavior on flow entrainment and particle oscillations. It was indicated that the first two POD modes have the most coherent and energetic quantitative flow features during the entrainment process. The energy contribution of the first five POD modes was reduced by 50% in sand–water coaxial jets with relatively low velocity ratios of Ru<0.35. The SPOD analysis revealed that particle oscillations can be characterized by the Kelvin–Helmholtz type wave instabilities, and sand–water coaxial jets with small velocity ratios (i.e., Ru<1.24) had weaker vortex shedding and particle velocity fluctuations. The SPOD analysis indicated that most of the turbulence kinetic energy was concentrated in the low-frequency modes and coaxial jets with high-velocity ratios. The power spectral density (PSD) of concentration signals demonstrated that the dominant frequency of vortex shedding increased by increasing the radial distance from the jet axis. The PSD analysis of sand concentration for Ru=0.62 and 0.74 was consistent with the Kolmogorov scaling law at dominant frequencies ranging between 30 and 40 Hz. [ABSTRACT FROM AUTHOR]

Published

2024

31. Debris‐flow entrainment modelling under climate change: Considering antecedent moisture conditions along the flow path.

Author

Könz, Anna Lena, Hirschberg, Jacob, McArdell, Brian W., Mirus, Benjamin B., de Haas, Tjalling, Bartelt, Perry, and Molnar, Peter

Subjects

CLIMATE change models, FIELD research, DEBRIS avalanches, HYDROLOGIC models, WATER levels

Abstract

Debris‐flow volumes can increase along their flow path by entraining sediment stored in the channel bed and banks, thus also increasing hazard potential. Theoretical considerations, laboratory experiments and field investigations all indicate that the saturation conditions of the sediment along the flow path can greatly influence the amount of sediment entrained. However, this process is usually not considered for practical applications. This study aims to close this gap by combining runout and hydrological models into a predictive framework that is calibrated and tested using unique observations of sediment erosion and debris‐flow properties available at a Swiss debris‐flow observation station (Illgraben). To this end, hourly water input to the erodible channel is predicted using a simple, process‐based hydrological model, and the resulting water saturation level in the upper sediment layer of the channel is modelled based on a Hortonian infiltration concept. Debris‐flow entrainment is then predicted using the RAMMS debris‐flow runout model. We find a strong correlation between the modelled saturation level of the sediment on the flow path and the channel‐bed erodibility for single‐surge debris‐flow events with distinct fronts, indicating that the modelled water content is a good predictor for erosion simulated in RAMMS. Debris‐flow properties with more complex flow behaviour (e.g., multiple surges or roll waves) are not as well predicted using this procedure, indicating that more physically complete models are necessary. Finally, we demonstrate how this modelling framework can be used for climate change impact assessment and show that earlier snowmelt may shift the peak of the debris‐flow season to earlier in the year. Our novel modelling framework provides a plausible approach to reproduce saturation‐dependent entrainment and thus better constrain event volumes for current and future hazard assessment. [ABSTRACT FROM AUTHOR]

Published

2024

32. Threatened chronotopes: can chronobiology help endangered species?

Author

Monecke, Stefanie

Subjects

*CHRONOBIOLOGY, *LIGHT pollution, *WILDLIFE conservation, *SPECIES, *CIRCADIAN rhythms

Abstract

Pittendrigh and Daan's 1976 article "Pacemaker structure: A clock for all seasons" marks the foundation of modern seasonal chronobiology. It proposed the internal coincidence model comprised of a Morning (M) and Evening (E) oscillator, which are coupled but synchronized separately by dawn and dusk. It has become an attractive model to explain the seasonal adaptation of circadian rhythms. Using the example of the European hamster, this article connects the classical entrainment concept to species decline and, ultimately, conservation concepts. Seasonality of this species is well studied and circannual rhythms have been described in at least 32 parameters. The European hamster is listed as critically endangered on the International Union for Conservation of Nature (IUCN) red list. Changes in the temporal structure of the environment (the chronotope) caused by climate change and light pollution might be responsible for the global decline. The article shows that classical chronobiological concepts such as the internal coincidence model (Pittendrigh and Daan Pittendrigh and Daan, J Comp Physiol [a] 106:333–355, 1976) are helpful to understand the (chronobiological) causes of the decline and can potentially support species conservation. Knowing the species' physiological limitations as well as its adaptation capacities can potentially prevent its extinction at a time when classical conservation concepts have reached their limits. [ABSTRACT FROM AUTHOR]

Published

2024

33. A clock for all seasons in the subterranean.

Author

Oda, Gisele A. and Valentinuzzi, Veronica S.

Subjects

*TIME measurements, *ANIMAL tracks, *ANIMAL mechanics, *SEASONS, *PHOTOPERIODISM

Abstract

In 1976, Pittendrigh and Daan established a theoretical framework which has coordinated research on circadian clock entrainment and photoperiodism until today. The "wild clocks" approach, which concerns studying wild species in their natural habitats, has served to test their models, add new insights, and open new directions of research. Here, we review an integrated laboratory, field and modeling work conducted with subterranean rodents (Ctenomys sp.) living under an extreme pattern of natural daily light exposure. Tracking animal movement and light exposure with biologgers across seasons and performing laboratory experiments on running-wheel cages, we uncovered the mechanisms of day/night entrainment of the clock and of photoperiodic time measurement in this subterranean organism. We confirmed most of the features of Pittendrigh and Daan's models but highlighted the importance of integrating them with ecophysiological techniques, methodologies, and theories to get a full picture of the clock in the wild. This integration is essential to fully establish the importance of the temporal dimension in ecological studies and tackling relevant questions such as the role of the clock for all seasons in a changing planet. [ABSTRACT FROM AUTHOR]

Published

2024

34. A mechanism for coastal fog genesis at evening transition.

Author

Hintz, Thomas J., Huang, Kelly Y., Hoch, Sebastian W., Bardoel, Stef L., Gaberšek, Saša, Gultepe, Ismail, Ruiz‐Plancarte, Jesus, Pardyjak, Eric R., Wang, Qing, and Fernando, Harindra J. S.

Subjects

*ATMOSPHERIC boundary layer, *BOUNDARY layer (Aerodynamics), *TURBULENCE, *ISLANDS, *ACQUISITION of data

Abstract

Transitional changes in the atmospheric boundary layer (ABL) are known to facilitate the onset of terrestrial fog, which is defined as a condition with near‐surface visibility <1 km due to airborne water droplets. In particular, the evening transition from a daytime convective ABL to a night‐time stable ABL provides favorable conditions for fog. This article describes a local fog event observed during the evening transition at a Canadian islet in the north Atlantic known as Sable Island during the "Fog and Turbulence Interactions in the Marine Atmosphere (Fatima)" field campaign. The comprehensive set of data collected using a myriad of instruments covering a wide range of scales allowed identification of a novel mechanism underlying this fog event. Therein an ocean–land discontinuity created a flow regime consisting of several stacked boundary layers, interplay of which produced a thin low‐level cloud that then diffused downward to the surface, causing visibility reduction. This mechanism offers useful insights on the role of boundary layers, stratification, and turbulence in fog genesis over oceanic islands. [ABSTRACT FROM AUTHOR]

Published

2024

35. Beginning of Ventricular Entrainment for Differentiation Between AVNRT and AVRT.

Author

el samie, Magdy Abd, Ibrahim, Ghada, Mohsen, Mohamed, Abdelaziz, Mahmoud, and Basha, Reem

Subjects

*TACHYCARDIA, *SENSITIVITY & specificity (Statistics), *ELECTROPHYSIOLOGY, *ELECTROCARDIOGRAPHY, *MORPHOLOGY

Abstract

Background: Differentiation between atrioventricular nodal reentry tachycardia (AVNRT) and accessory pathway-mediated atrioventricular reentrant tachycardia (AVRT) is challenging even during electrophysiological testing. Objective: To test the use of the beginning of right ventricular entrainment to differentiate between AVRT and AVNRT as an independent criterion with high sensitivity and specificity. Methods: We studied 50 patients with supra-ventricular tachycardia. Right ventricle (RV) pacing was performed 10-40ms faster than tachycardia. Once a fixed QRS morphology was observed in 12-leads ECG, we determined after which beat the atrial perpetuation had been achieved. Results: In all the 19 patients who had AVRT, atrial perpetuation occurred from the first beat. However, in all 31 cases of AVNRT atrial perpetuation occurred after the first beat. Conclusion: Analyzing the beginning of ventricular entrainment can indeed differentiate between AVRT and AVNRT cases easily with a high positive predictive value. [ABSTRACT FROM AUTHOR]

Published

2024

36. Intensive Radiosonde Observations of Environmental Conditions on the Development of a Mesoscale Convective System in the Baiu Frontal Zone.

Author

Manda, A., Tachibana, Y., Nakamura, H., Takikawa, T., Nishina, A., Moteki, Q., Zhao, N., and Iizuka, S.

Subjects

*MESOSCALE convective complexes, *ATMOSPHERIC acoustics, *AIR masses, *AIR travel, *TROPOSPHERE, *THUNDERSTORMS

Abstract

Mesoscale convective systems (MCSs) that occur in the Baiu frontal zone (BFZ) can cause devastating flash floods during early summer in Japan; however, the environmental conditions necessary for their development require further investigation. High‐frequency atmospheric soundings, conducted using multiple marine vessels in the East China Sea on 19 June 2022, captured the detailed environmental conditions pertaining to the development of an MCS within the BFZ. The MCS, which developed rapidly without any remarkable preceding synoptic or mesoscale disturbance in the mid‐ or upper troposphere, caused intense precipitation exceeding 80 mm/hr. The MCS persisted for approximately 6 hr, and it intensified when the influx of nearly saturated air near the sea surface toward a weak surface front overlapped with the influx of free‐tropospheric moist air. The influx of nearly saturated air near the sea surface ensured conditional instability within the lower troposphere. The influx of moist air in the free troposphere contributed to the near‐saturation conditions above the boundary layer, a feature inherent to the BFZ, and played an important role in minimizing the reduction in the buoyancy of air parcels. The results of this study indicate that a better forecast of the horizontal distribution of free tropospheric moist air is beneficial for limiting the potential area of genesis of MCS in the BFZ, and a more comprehensive understanding of the vertical variations in moisture transport contributes to an improved forecast skill for MCS in the BFZ. Plain Language Summary: A very long, stagnant atmospheric front that forms over East Asia in early summer is often associated with a mesoscale convective system (a cloud system that occurs in connection with an ensemble of thunderstorms and produces a contiguous precipitation area) that can cause flash floods. The recent increase in the number of heavy rainfall disasters has led to increased interest in the conditions under which such systems develop around the front. In this study, the conditions favorable for the development of such a system with no remarkable upper‐tropospheric low pressure system were investigated using an unprecedented high‐frequency and dense observation network. The system developed when the influxes of two very moist air masses, one near the sea surface and the other well above the sea surface, overlapped vertically. The moist air near the sea surface ensured that the atmosphere was unstable, and the moist air above contributed to the development of the system by suppressing convection weakening. The findings of this study indicate that a more comprehensive understanding of moist air transport may facilitate more accurate forecasting of convective systems. Key Points: Unprecedented high‐frequency atmospheric soundings of a mesoscale convective system were conducted within the Baiu frontal zoneThe system began to rapidly develop when the influxes of nearly saturated near‐surface and free‐tropospheric air overlappedThe areas where systems potentially develop are sensitive to small variations in the humidity distribution in the free troposphere [ABSTRACT FROM AUTHOR]

Published

2024

37. Spent Lithium-Ion Battery Recycling Using Flotation Technology: Effect of Material Heterogeneity on Separation Performance.

Author

Verdugo, Luis, Zhang, Lian, Etschmann, Barbara, Brugger, Joël, Bruckard, Warren, Menacho, Jorge, Molina, Lorena, and Hoadley, Andrew

Subjects

FLOTATION, CIRCULAR economy, MATERIALS testing, ELECTRONIC waste, CATHODES

Abstract

In this study, two types of recycling scenarios are assessed for spent battery materials using froth flotation. The first is for a single cathode chemistry and would be considered as the most likely scenario for a large battery manufacturer, who takes back their own batteries for reprocessing. The second scenario is for mixed cathode chemistry, and this would be the most likely scenario for regional reprocessing. The mixed spent battery materials assessed in this work were sourced from such an industrial recycling operation in Australia. Good results were obtained for both recycling scenarios. The anode recovery and anode grade in the final concentrate for both materials evaluated were for the single spent battery material 80.1% and 90.3%, respectively, and for the mixed spent battery material, 77.4% and 82.0%, respectively. For the final tailings, the cathode grades for both materials tested were 93.9% and 87.1%, respectively, with the lower grade for the mixed spent battery attributed to the high content of impurities in the original material. These results highlight the importance of the preprocessing ahead of the flotation process. The results confirm froth flotation as a feasible technique that can be used to achieve the bulk of the separation. [ABSTRACT FROM AUTHOR]

Published

2024

38. Heat transfer performance of a multiport mini-channel loop thermosyphon for cooling miniaturized electronic devices

Author

Jaya Antony Perinba Selvin Raj, Lazarus Godson Asirvatham, Appadurai Anitha Angeline, Bairi Levi Rakshith, Stephen Manova, Jefferson Raja Bose, and Somchai Wongwises

Subjects

Multiport mini-channel, Thermosyphon, Entrainment, Heat transfer, Power electronic cooling, Dominant force analysis, Technology

Abstract

Multiport mini-channel thermosyphon with hydraulic diameters less than 2 mm undergoes a severe entrainment problem both in vapor and liquid regions, impeding the flow and affecting the performance characteristics. To address this issue, a novel multiport mini-channel loop thermosyphon (MPMC-LT) design is proposed. This design separates the vapor and liquid flow paths, reducing entrainment and enhancing the performance characteristics. Tests are conducted with heat loads ranging from 5 to 45W at four inclinations (0°, 30°, 60°, and 90°) relative to the horizontal plane. Results revealed that the MPMC-LT design extends the entrainment limit by 10.6 times compared to conventional designs, reducing the interaction between the vapor and condensed working fluid. Additionally, the total entropy and thermal resistance drops by 20.7 % and 19.9 %, respectively at an optimum inclination angle of 30°. It is also noted that the effective thermal conductivity at the optimal inclination is 5.8 times higher compared to the conventional multiport thermosyphon designs. The design effectivity uses the buoyancy, inertial and surface tension forces to reduce resistance in the fluid flow, thereby enhancing the heat transfer characteristics. These results highlight that MPMC-LT is a suitable thermal management device for power electronic systems.

Published

2024

39. A Refined Zero‐Buoyancy Plume Model for Large‐Scale Atmospheric Profiles and Anvil Clouds in Radiative‐Convective Equilibrium

Author

Zeyuan Hu, Nadir Jeevanjee, and Zhiming Kuang

Subjects

convection, radiative‐convective equilibrium, atmospheric modeling, plume model, entrainment, Physical geography, GB3-5030, Oceanography, GC1-1581

Abstract

Abstract A simple analytical model, the zero‐buoyancy plume (ZBP) model, has been proposed to understand how small‐scale processes such as plume‐environment mixing and evaporation affect the steady‐state structure of the atmosphere. In this study, we refine the ZBP model to achieve self‐consistent analytical solutions for convective mass flux, addressing the inconsistencies in previous solutions. Our refined ZBP model reveals that increasing plume‐environment mixing can increase upper‐troposphere mass flux through two pathways: increased cloud evaporation or reduced atmospheric stability. To validate these findings, we conducted small‐domain convection‐permitting Radiative‐Convective Equilibrium simulations with horizontal resolutions ranging from 4 km to 125 m. As a proxy for plume‐environment mixing strength, the diagnosed entrainment rate increases with finer resolution. Consistent with a previous study, we observed that both anvil cloud fraction and upper‐troposphere mass flux increase with higher resolution. Analysis of the clear‐sky energy balance in the simulations with two different microphysics schemes identified both pathways proposed by the ZBP model. The dominant pathway depends on the relative strengths of evaporation cooling and radiative cooling in the environment. Our work provides a refined simple framework for understanding the interaction between small‐scale convective processes and large‐scale atmospheric structure.

Published

2024

40. Optimization of entrainment and interfacial flow patterns in countercurrent air-water two-phase flow in vertical pipes

Author

Yongzhi Wang, Feng Luo, Zichen Zhu, Ruijie Li, and Mohammad Sina

Subjects

entrainment, optimization, flow patterns, two-phase flow, interfacial, vertical pipe, Technology

Abstract

This study investigates countercurrent air-water two-phase flow in vertical pipes with inner diameters of 26 mm and 44 mm and a height of 2000 mm, under controlled conditions to eliminate heat and mass transfer. Cutting-edge techniques were employed to measure the liquid film thickness (δ) and entrainment (e) within the annular flow pattern. The methodology involved a systematic comparative analysis of experimental results against established models, identifying the most accurate methods for predicting flow behavior. Specifically, the Schubring et al. correlation was found to most accurately predict e in 26 mm pipes, while the Wallis correlation was more accurate for 44 mm pipes. Additionally, interfacial shear stress was analyzed, confirming the high precision of the δ and e parameters. This research enhances the understanding of countercurrent air-water two-phase flow by providing reliable estimation methods for different pipe diameters and emphasizes the significance of accurately determining interfacial shear stress. Key findings include the identification of the most accurate models for different pipe sizes and addressing challenges in measuring δ and e under controlled conditions. The study’s novelty lies in its comprehensive comparative analysis of existing models, leading to improved predictions of flow dynamics in vertical pipes, thereby contributing valuable insights into two-phase flow behavior in geosciences and environmental engineering.

Published

2024

41. Systemic neurophysiological entrainment to behaviorally relevant rhythmic stimuli

Author

Manuel Muñoz‐Caracuel, Vanesa Muñoz, Francisco J. Ruiz‐Martínez, Antonio J. Vázquez Morejón, and Carlos M. Gómez

Subjects

embodiment, entrainment, oscillations, predictive processing, rhythm, Physiology, QP1-981

Abstract

Abstract Physiological oscillations, such as those involved in brain activity, heartbeat, and respiration, display inherent rhythmicity across various timescales. However, adaptive behavior arises from the interaction between these intrinsic rhythms and external environmental cues. In this study, we used multimodal neurophysiological recordings, simultaneously capturing signals from the central and autonomic nervous systems (CNS and ANS), to explore the dynamics of brain and body rhythms in response to rhythmic auditory stimulation across three conditions: baseline (no auditory stimulation), passive auditory processing, and active auditory processing (discrimination task). Our findings demonstrate that active engagement with auditory stimulation synchronizes both CNS and ANS rhythms with the external rhythm, unlike passive and baseline conditions, as evidenced by power spectral density (PSD) and coherence analyses. Importantly, phase angle analysis revealed a consistent alignment across participants between their physiological oscillatory phases at stimulus or response onsets. This alignment was associated with reaction times, suggesting that certain phases of physiological oscillations are spontaneously prioritized across individuals due to their adaptive role in sensorimotor behavior. These results highlight the intricate interplay between CNS and ANS rhythms in optimizing sensorimotor responses to environmental demands, suggesting a potential mechanism of embodied predictive processing.

Published

2024

42. Neural Tracking to Auditory Statistical Structures in Children.

Author

Zhang, Zihe and Kong, Lingzhi

Abstract

ABSTRACT Children's brain is able to track the linguistic structures in continuous speech. When there was no prior knowledge, we found that children also automatically detected and tracked the statistical structures in auditory tone steam as reflected by neural entrainment, but their ability was immature. [ABSTRACT FROM AUTHOR]

Published

2024

43. A CFD Simulation of Bubble Burst at Free Surface

Author

Ouallal, Mohammed, Shams, Afaque, Siddiqui, Osman, Chaari, Fakher, Series Editor, Gherardini, Francesco, Series Editor, Ivanov, Vitalii, Series Editor, Haddar, Mohamed, Series Editor, Cavas-Martínez, Francisco, Editorial Board Member, di Mare, Francesca, Editorial Board Member, Kwon, Young W., Editorial Board Member, Tolio, Tullio A. M., Editorial Board Member, Trojanowska, Justyna, Editorial Board Member, Schmitt, Robert, Editorial Board Member, Xu, Jinyang, Editorial Board Member, Shams, Afaque, editor, Al-Athel, Khaled, editor, Tiselj, Iztok, editor, Pautz, Andreas, editor, and Kwiatkowski, Tomasz, editor

Published

2024

44. Circadian Regulation of Sleep: From Genes to Circuits

Author

Hameed, Naureen A., Barber, Annika F., Gehrman, Philip, editor, C. Keene, Alex, editor, and F. Grant, Struan, editor

Published

2024

45. Sediment Entrainment and Deposition

Author

Kang, Chao, Imaizumi, Fumitoshi, Theule, Joshua, Wang, Fawu, Series Editor, Vilimek, Vit, Series Editor, Jakob, Matthias, editor, McDougall, Scott, editor, and Santi, Paul, editor

Published

2024

46. Smoke Stratification

Author

Ingason, Haukur, Li, Ying Zhen, Lönnermark, Anders, Ingason, Haukur, Li, Ying Zhen, and Lönnermark, Anders

Published

2024

47. Effect of Speech Entrainment in Human-Computer Conversation: A Review

Author

Phukon, Mridumoni, Shrivastava, Abhishek, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Choi, Bong Jun, editor, Singh, Dhananjay, editor, Tiwary, Uma Shanker, editor, and Chung, Wan-Young, editor

Published

2024

48. Entrainment Characteristics of a Swirling Liquid Jet

Author

Sahu, Toshan Lal, Chetan, Ujjwal, Kar, Prabir Kumar, Dhopeshwar, Saurabh, Das, Prasanta Kumar, Lakkaraju, Rajaram, Chaari, Fakher, Series Editor, Gherardini, Francesco, Series Editor, Ivanov, Vitalii, Series Editor, Haddar, Mohamed, Series Editor, Cavas-Martínez, Francisco, Editorial Board Member, di Mare, Francesca, Editorial Board Member, Kwon, Young W., Editorial Board Member, Trojanowska, Justyna, Editorial Board Member, Xu, Jinyang, Editorial Board Member, Singh, Krishna Mohan, editor, Dutta, Sushanta, editor, Subudhi, Sudhakar, editor, and Singh, Nikhil Kumar, editor

Published

2024

49. Experimental and Numerical Investigation on Hydrodynamics of Swirling Fluidised Bed Reactor

Author

Reddy, Dekketi G. C. Vikram, Eyyanan, Kiran Malieakkal, Sri Pratibha Reddy, V., Ranganathan, Panneerselvam, Chaari, Fakher, Series Editor, Gherardini, Francesco, Series Editor, Ivanov, Vitalii, Series Editor, Haddar, Mohamed, Series Editor, Cavas-Martínez, Francisco, Editorial Board Member, di Mare, Francesca, Editorial Board Member, Kwon, Young W., Editorial Board Member, Trojanowska, Justyna, Editorial Board Member, Xu, Jinyang, Editorial Board Member, Das, Sudev, editor, Mangadoddy, Narasimha, editor, and Hoffmann, Jaap, editor

Published

2024

50. Entrainment responses from a reentrant circuit with 2 entry sites: When the antidromic wavefront can drive

Author

David Nemer, Patrick Tchou, and Niraj Varma

Subjects

Reentry, Entry sites, Entrainment, Antidromic, Wavefront, Double-fire, Diseases of the circulatory (Cardiovascular) system, RC666-701

Published

2024