Quantifying Connectivity and Resilience of Marine Networks Under Climate Change
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/ Atlantic ocean / Benguela ecosystem / Biology (marine) / cellular automaton / Chile / climate change impacts / collective behaviour / complex system / connectivity / deterministic approach / differential equation / dispersal (larval) / dynamical system / EAF (Ecosystem Approach to Fisheries) / Ecology (marine) / Ecology (quantitative) / ecosystem (aquatic) / ecosystem (marine) / ecosystem dynamics / ecosystem processes / environment / epidemic spread / Epidemiology / FAD (Fish Aggregating Device) / forecasting / forest dynamics / Humboldt ecosystem / Ichthyop (software) / Indian ocean / lagoon / marine protected area (MPA) / model (bio-physical) / model (individual-based) / model coupling / model DEB (Dynamic Energy Budget) / MODELLING / modelling (integrated) / modelling (mathematical) / MULTIDISCIPLINARY / New Caledonia / non linear dynamics / Oceanography (biological) / open source / pelagic fish / Peru / plankton / plankton (ichtyo) / population dynamics / SDG 14 (Sust. Devel. Goal - Oceans) / simulation / software engineering / South Africa / spatial dynamics / UMI UMMISCO (Math. Comput. Model. Complex Syst.) / UMR MARBEC (MAR. Biodiv. Exploit. Conserv.) /
Competencies in black are unique of C. Lett 's profile in the current state of the databaseSoftware: Ichthyop larval dispersal model Book: Modélisation mathématique en écologie (Cours et exercices corrigés)
Last update : 2019-01-09
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