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Autores principales: Acharya, Kishor, Aguilar, Javier, Dall'Amico, Lorenzo, Nicolaou, Kyriacos, Meloni, Sandro, Ser-Giacomi, Enrico
Formato: Preprint
Publicado: 2023
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Acceso en línea:https://arxiv.org/abs/2306.17527
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author Acharya, Kishor
Aguilar, Javier
Dall'Amico, Lorenzo
Nicolaou, Kyriacos
Meloni, Sandro
Ser-Giacomi, Enrico
author_facet Acharya, Kishor
Aguilar, Javier
Dall'Amico, Lorenzo
Nicolaou, Kyriacos
Meloni, Sandro
Ser-Giacomi, Enrico
contents Ocean currents exhibit strong time dependence at all scales that influences physical and biochemical dynamics. Network approaches to fluid transport permit to address explicitly how connectivity across the seascape is affected by the spatiotemporal variability of currents. However, such temporal aspect is mostly neglected, relying on a static representation of the flow. We here investigate the role of current variability on networks describing physical transport across the Mediterranean basin. We first focus on degree distributions and community structure comparing ensembles of temporal networks that explicitly resolve time dependence and their aggregated, i.e. time-averaged, counterparts. Furthermore, we explore the implications of the two approaches in a simple reaction dispersal model for a generic tracer. Our analysis evidences that aggregation induces structural network changes that cannot be easily avoided, not even introducing a pruning of the aggregated adjacency matrix. We also highlight that, depending on the time scales considered, the importance of the temporal features of the networks can vary significantly. Finally, we find that the tracer evolution obtained from a temporal dispersal kernel cannot be always approximated by aggregated adjacency matrices, in particular during transients of the dynamics.
format Preprint
id arxiv_https___arxiv_org_abs_2306_17527
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Comparing temporal and aggregated network descriptions of fluid transport in the Mediterranean Sea
Acharya, Kishor
Aguilar, Javier
Dall'Amico, Lorenzo
Nicolaou, Kyriacos
Meloni, Sandro
Ser-Giacomi, Enrico
Physics and Society
Fluid Dynamics
Populations and Evolution
Ocean currents exhibit strong time dependence at all scales that influences physical and biochemical dynamics. Network approaches to fluid transport permit to address explicitly how connectivity across the seascape is affected by the spatiotemporal variability of currents. However, such temporal aspect is mostly neglected, relying on a static representation of the flow. We here investigate the role of current variability on networks describing physical transport across the Mediterranean basin. We first focus on degree distributions and community structure comparing ensembles of temporal networks that explicitly resolve time dependence and their aggregated, i.e. time-averaged, counterparts. Furthermore, we explore the implications of the two approaches in a simple reaction dispersal model for a generic tracer. Our analysis evidences that aggregation induces structural network changes that cannot be easily avoided, not even introducing a pruning of the aggregated adjacency matrix. We also highlight that, depending on the time scales considered, the importance of the temporal features of the networks can vary significantly. Finally, we find that the tracer evolution obtained from a temporal dispersal kernel cannot be always approximated by aggregated adjacency matrices, in particular during transients of the dynamics.
title Comparing temporal and aggregated network descriptions of fluid transport in the Mediterranean Sea
topic Physics and Society
Fluid Dynamics
Populations and Evolution
url https://arxiv.org/abs/2306.17527