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(44) Production(s) de PITARD E.
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TASEP Exit Times
Auteur(s): Dorignac J., Geniet F., Pitard E.
(Document sans référence bibliographique) 2023-10-12Texte intégral en Openaccess :
Ref HAL: hal-04279672_v1
Ref Arxiv: 2310.08477
Ref. & Cit.: NASA ADS
Exporter : BibTex | endNote
Résumé: We address the question of the time needed by $N$ particles, initially located on the first sites of a finite 1D lattice of size $L$, to exit that lattice when they move according to a TASEP transport model. Using analytical calculations and numerical simulations, we show that when $N \ll L$, the mean exit time of the particles is asymptotically given by $T_N(L) \sim L+\beta_N \sqrt{L}$ for large lattices. Building upon exact results obtained for 2 particles, we devise an approximate continuous space and time description of the random motion of the particles that provides an analytical recursive relation for the coefficients $\beta_N$. The results are shown to be in very good agreement with numerical results. This approach sheds some light on the exit dynamics of $N$ particles in the regime where $N$ is finite while the lattice size $L\rightarrow \infty$. This complements previous asymptotic results obtained by Johansson in \cite{Johansson2000} in the limit where both $N$ and $L$ tend to infinity while keeping the particle density $N/L$ finite.
Commentaires: 10 pages, 4 figures
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Role of cilia activity and surrounding viscous fluid on properties of metachronal waves
Auteur(s): Dey S., Massiera G., Pitard E.
(Document sans référence bibliographique) 2023-10-25Texte intégral en Openaccess :
Ref HAL: hal-04279663_v1
Ref Arxiv: 2310.16770
Ref. & Cit.: NASA ADS
Exporter : BibTex | endNote
Résumé: Large groups of active cilia collectively beat in a fluid medium as metachronal waves, essential for some microorganisms motility and for flow generation in mucociliary clearance. Several models can predict the emergence of metachronal waves, but what controls the properties of metachronal waves is still unclear. Here, we investigate numerically a simple model for cilia in the presence of noise on regular lattices in one- and two-dimensions. We characterize the wave using spatial correlation and the frequency of collective beating. Our results clearly show that the viscosity of the fluid medium does not affect the wavelength; the activity of the cilia does. These numerical results are supported by a dimensional analysis, which is expected to be robust against the model for active force generation, unless surrounding fluid influences the cilia activity. Interestingly, enhancement of cilia activity increases the wavelength and decreases the beating frequency, keeping the wave velocity almost unchanged. These results might have significance in understanding paramecium locomotion and mucociliary clearance diseases.
Commentaires: 6 pages, 5 figures
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Towards a better understanding of grass bed dynamics using remote sensing at high spatial and temporal resolutions
Auteur(s): Marion Menu, Guillaume Papuga, Frédéric Andrieu, Guilhem Debarros, Xavier Fortuny, Samuel Alleaume, Pitard E.
(Article) Publié:
Estuarine, Coastal And Shelf Science, vol. 251 p.107229 (2021)
Texte intégral en Openaccess :
Ref HAL: hal-03125706_v1
DOI: 10.1016/j.ecss.2021.107229
Exporter : BibTex | endNote
Résumé: Wetlands conservation and resilience capacities are key issues in many places over the globe. Understanding these issues will benefit from a precise knowledge of seagrass species occupancy and coverage over time and over space. Such information can be obtained from remote sensing images and their classification thanks to a vegetation index, to be used in a complementary manner to field work inventories. Sentinel-2 data, which are available with a frequent revisit time (<5 days) and a high spatial resolution (10m pixel size) can be used to map grassbeds at the surface or slightly below the surface of permanent lagoons, hence enabling the characterization of its seasonal dynamics, which was not possible with previous remote-sensing tools. We have proved the feasibility of such a method in the natural reserve of the Bagnas (Herault, France) where Stuckenia pectinata coverage can be tracked over a full year thanks to Sentinel-2 images and field work. Inter-annual dynamics (seasonal growth and senescence) can be mapped over time with 10m resolution and will be extended to pluriannual studies thanks to the long-term objective of the Sentinel-2 mission. This opens the way to a concerted management of natural reserves based on data analysis and field knowledge, a better understanding of seagrass coverage with fluctuating environmental conditions, and predictive mechanistic and/or stochastic models of future qualitative trends.
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Population dynamics in a structured habitat
Auteur(s): Pitard E., Munoz François
(Article) Publié:
Les Dossiers D'agropolis International, vol. 23 p.38-38 (2019)
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Boundary constraints on population dynamics in a percolating habitat
Auteur(s): Munoz Francois, Huth G., Pitard E.
(Article) Publié:
Ecological Complexity, vol. 36 p.230-238 (2018)
Ref HAL: hal-02025664_v1
DOI: 10.1016/j.ecocom.2018.09.002
WoS: WOS:000455065400022
Exporter : BibTex | endNote
Résumé: The spatial distribution of suitable environmental conditions defines a species habitat, and colonization-extinction dynamics within this habitat determine the distribution of species populations. In addition, the success of colonization and the risk of extinction are expected to be influenced by the proximity to habitat boundary. We address here the influence of boundary vicinity for a contact-process model of population dynamics in a percolating habitat lattice. To separate the influence of boundary vicinity from that of fragment area, we investigate population dynamics in the very large spanning cluster of the percolating habitat. The geometry of the spanning cluster varies when habitat density in the lattice is tuned away from the percolation threshold. We expect that the colonization success decreases closer to the boundary, leading to depleted site occupancy in the cluster, and that this effect is even more pronounced near the extinction threshold of the contact process. For the set of suitable sites of the cluster and unsuitable sites next to its boundary, we quantify the boundary density, σ, as the probability to draw a pair of suitable and unsuitable sites. The cluster boundary is most rugged and σ is maximal close to the percolation threshold of the habitat. We expect that the global influence of boundary on population dynamics in the cluster is greater when the boundary is more rugged. We thus investigate population dynamics in the spanning cluster for varying values of σ. We determine the stationary properties of population dynamics in the spanning cluster according to σ and to the species-specific ratio of extinction and colonization rates, denoted r. Using both numerical simulations and a pair-approximation model, we assess global species persistence and site occupancy patterns in the spanning cluster. We show that the extinction threshold rc depends crucially on σ, i.e., increasing σ limits global species persistence. Furthermore, increasing σ decreases the probability of site occupancy in the spanning cluster. A key result is that this influence extends to sites far from the boundary when r gets close to rc. Therefore, species that are at risk of extinction are more sensitive to the influence of habitat boundary. These results are of both theoretical and practical interest for understanding and forecasting species viability in heterogeneous and fragmented habitats.
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Spatio-temporal dynamics of vegetation cover in the «Grand Bagnas» lagoon (France) using remote sensing approach
Auteur(s): Pitard E.
(Séminaires)
Ocean and Estuary Science, San Francisco State University (SFSU) (Tiburon CA, US), 2018-07-27 |
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Spatio-temporal dynamics of vegetation cover in the «Grand Bagnas» lagoon(France) using remote sensing approach
Auteur(s): Pitard E.
(Séminaires)
University of California at Davis (Davis, CA, US), 2018-07-24 |