A separated vortex ring underlies the flight of the dandelion

Cummins, Cathal; Seale, Madeleine; Macente, Alice; Certini, Daniele; Mastropaolo, Enrico; Viola, Ignazio Maria; Nakayama, Naomi

doi:10.1038/s41586-018-0604-2

Cited by 196 publications

(207 citation statements)

References 43 publications

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“…To conclude, we note that there is an appealing connection between the dynamics of VRP states and recent findings for the slow fall of seeds from wind-dispersed plants [41]. It has been found that the passive flight of dandelion seeds actually relies on the existence of approximate axisymmetric VRP states, with vertical symmetry axes.…”

Section: Discussionsupporting

confidence: 69%

Toy model for vortex-ring-assisted particle drag in superfluid counterflow

Moriconi

2019

Phys. Rev. E

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The interpretation of data obtained from particle image/tracking velocimetry in the study of superfluid flows has been so far a challenging task. Tracking particles (as solid hydrogen or deuterium) are attracted to the cores of quantized vortices, so that their dynamics can be strongly affected by the surrounding vortex tangle. Previous phenomenological arguments indicate that tracking particles and micro-sized vortex rings could form bound states (denoted here as VRP states). While a comprehensive description of the vortex ring-particle bonding mechanism has to deal with somewhat involved flow configurations, we introduce a simplified two-dimensional model of VRP states, which captures essential qualitative features of their three-dimensional counterparts. Besides an account of known experimental and numerical observations, the model proves to be of great heuristic interest. In particular, it sheds light on the important role played by viscous dissipation (due to the normal component of the fluid), the Magnus force, and topologically-excited vortex rings in the stability and dynamics of VRP states.

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Section: Discussionsupporting

confidence: 69%

Toy model for vortex-ring-assisted particle drag in superfluid counterflow

Moriconi

2019

Phys. Rev. E

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“…It is also worth to be underlined that HBT holds not just for spherical manifolds, but also for every manifold with positive-curvature, provided its genus is zero. For example, Cummins et al (2018) analyzed the motion of wind dispersed plants, reporting a vortex of recirculating air, which is detaching owing the flow passing through the pappus ( Figure 1E). The occurrence of stagnation points (in this case two instead of one) can be noticed where the air velocity at the vortex surface is zero.…”

Section: Methodsmentioning

confidence: 99%

“…The two prohibition signs depict the stagnation points dictated by HBT. Modified from Cummins et al (2018). Figure 1F.…”

Section: Methodsmentioning

confidence: 99%

The Mathematics Underlying Eeg Oscillations Propagation

Tozzi

Bormashenko

Jaušovec³

2020

Preprint

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Whenever one attempts to comb a hairy ball flat, there will always be at least one tuft of hair at one point on the ball. This seemingly worthless sentence is an informal description of the hairy ball theorem, an invaluable mathematical weapon that has been proven useful to describe a variety of physical/biological processes/phenomena in terms of topology, rather than classical cause/effect relationships. In this paper we will focus on the electrical brain field -electroencephalogram (EEG). As a starting point we consider the recentlyraised observation that, when electromagnetic oscillations propagate with a spherical wave front, there must be at least one point where the electromagnetic field vanishes. We show how this description holds also for the electric waves produced by the brain and detectable by EEG. Once located these zero-points in EEG traces, we confirm that they are able to modify the electric wave fronts detectable in the brain. This sheds new light on the functional features of a nonlinear, metastable nervous system at the edge of chaos, based on the neuroscientific model of Operational Architectonics of brain-mind functioning. As an example of practical application of this theorem, we provide testable previsions, suggesting the proper location of transcranial magnetic stimulation's coils to improve the clinical outcomes of drug-resistant epilepsy.

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“…Nakayama presented her work on the aerodynamics of dandelion diaspore flight. Using computational fluid dynamics and wind tunnel experiments with dandelion pappi, as well as fabricated replicas, she found that the particular geometry and porosity of the pappus allows the generation of a separated vortex ring that keeps them flying (Cummins et al, 2018). Furthermore, she observed differences in New Phytologist pappus detachment depending on environmental conditions (Seale et al, 2019), and is currently exploring the biological significance of these findings.…”

Section: Evo-devomentioning

confidence: 99%

ROS production by localized SCHENGEN receptor module drives lignification at subcellular precision

Fujita

et al. 2019

Preprint

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26Production of reactive-oxygen species (ROS) by NADPH oxidases (NOXs) impacts many 27 processes in animals and plants and many plant receptor pathways involve rapid, NOX-dependent 28 increases of ROS. Yet, their general reactivity has made it challenging to pinpoint the precise role 29 and direct cellular targets of ROS. A well-understood ROS target in plants are lignin peroxidases 30 in the cell wall. Lignin can be deposited with exquisite spatial control, but the underlying 31 mechanisms have remained elusive. Here we establish a full kinase signaling relay that exerts 32 direct, spatial control over ROS production and lignification within the cell wall. We show that 33 polar localization of a single kinase component is crucial for pathway function. Our data indicates 34 that an intersection of more broadly localized components allows for micrometer-scale precision 35 of lignification and that this system is triggered through initiation of ROS production as a critical 36 peroxidase co-substrate. 37 As in animals, NADPH oxidase-produced ROS in plants is important for a multitude of 38 processes and the number of NADPH oxidase genes (10 in Arabidopsis, called RESPIRATORY 39 BURST OXIDASE HOMOLOGs, RBOHs, A-J) suggests a high complexity of regulation of ROS 40 production in plants. Among its many roles, ROS-dependent regulation of plant cell wall structure and 41 function is considered to be among its most critical 1 . The cell wall is the nano-structured, sugar-based, 42 2 pressure-resisting extracellular matrix of plants and NOXs are thought to be the predominant ROS 43 source in this compartment (also termed apoplast) 1 . 44A staggering number of kinases have been shown to regulate plant NOXs and the activation 45 mechanism of NOX-dependent ROS production is well established, especially in response to microbial 46 pattern-recognition by immune receptors 2 . However, the specific role and direct molecular targets of 47 ROS during microbial pattern-recognition have remained elusive 3 . The same applies for the central 48 role of ROS in tip growing cells, such as root hairs or pollen tubes, where ROS is thought to be part of 49 an intricate oscillation of cell wall stiffening and loosening, aimed at allowing cell wall expansion 50 without catastrophic collapse 4,5 . In this case, ROS is proposed to be important for counteracting cell 51 wall loosening pH decreases, but it is again unclear what direct targets of ROS would mediate cell wall 52 stiffening. Cell wall lignification by apoplastic peroxidases, can therefore be considered as the most 53 well-established role of ROS, where the peroxidases themselves are the direct "ROS targets", using it 54 as a co-substrate for the oxidation of mono-lignols 6,7 . In the case of lignification, however, a 55 molecularly-defined signaling pathway that induces ROS production during lignification has not been 56 defined. A few years ago, our group identified a specific NADPH oxidase, RBOHF, to be required for 57 the localized formation of lignin in the root end...

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A separated vortex ring underlies the flight of the dandelion

Cited by 196 publications

References 43 publications

Toy model for vortex-ring-assisted particle drag in superfluid counterflow

Toy model for vortex-ring-assisted particle drag in superfluid counterflow

The Mathematics Underlying Eeg Oscillations Propagation

ROS production by localized SCHENGEN receptor module drives lignification at subcellular precision

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