LINC LEARNING ABOUT INTERACTING NETWORKS IN CLIMATE

  • I.P.: Emilio Hernández-García
  • Partners: 1.- Universitat Politècnica de Catalunya, Spain. Cristina Massolller.2.- Potsdam Institute for Climate Impact Research. Germany. Jürgen Kurths.3.- Bar-Ilan University. Israel. Shlomo Havlin.4.- Utrecht University. The Netherlands. Henkdrik Dijknstra
  • Fecha de inicio: 1 de diciembre de 2011
  • Fecha de final: 30 de noviembre de 2015

Improving our understanding of the Earth's climate phenomena, such as El Niño, has a huge economic and social impact for present and future generations, and can underpin advances in areas as diverse as energy, environment, agricultural, etc. There is a great shortage of qualified workforce to perform this task and a major challenge is the training of qualified researchers that can approach climate phenomena from a complex systems point of view. The ITN described here, ‘Learning about Interacting Networks in Climate’ (LINC) aims to address these issues by training 12 ESRs and 3 ERs in the complete set of skills required to undertake a career in physics and geosciences with expertise in climatology, networks and complex systems. We will combine recent advances in network methodologies with state-ofthe-art climate understanding.
The consortium, comprising of 6 academic partners, 3 SMEs and one associate partner (also an SME) is in an excellent position to impart these skills, with expertise ranging from complex systems (network construction, nonlinear time series analysis), and environment and geosciences (nonlinear processes in the oceans and atmosphere) up to commercial applications (climate risk analysis, using climate networks to predict extreme events). The skills to be imparted in each of the 5 WPs (Network Construction and Analysis, Interacting Networks, Natural Climate Variability, Future Climate Change, and Tipping Points in the Climate System) can be applied across a wide range of interdisciplinary fields. The consortium, comprising of 6 academic partners, 3 SMEs and one associate partner (also an SME) is in an excellent position to impart these skills, with expertise ranging from complex systems (network construction, nonlinear time series analysis), and environment and
geosciences (nonlinear processes in the oceans and atmosphere) up to commercial applications (climate risk analysis, using climate networks to predict extreme events). The skills to be imparted in each of the 5 WPs (Network Construction and Analysis, Interacting Networks, Natural Climate Variability, Future Climate Change, and Tipping Points in the Climate System) can be applied across a wide range of interdisciplinary fields. In LINC the training of researchers will be aided by secondments at the commercial partners’ premises, a series of workshops, schools and a conference. The strong commitment towards training and research of the partners will guarantee graduates with full interdisciplinary capabilities, that will allow them to significantly advance the present knowledge of climate phenomena, and which will provide them a wide range of career opportunities.

Free Keywords: Complex systems, Complex networks, Network theory, Climatology, Environmental science, Nonlinear dynamics, Physics of Ocean and Atmosphere, Time series analysis, Tipping points, Climate change

Investigadores

Emilio Hernández-García

Emilio Hernández-García

Publicaciones recientes

Sensitivity and robustness of larval connectivity diagnostics obtained from Lagrangian Flow Networks

Monroy, Pedro; Rossi,Vincent; Ser-Giacomi,Enrico; López, Cristóbal; Hernández-García,Emilio
ICES Journal of Marine Science 74, 1763-1779 (2017)

Lagrangian Flow Networks: a new framework to study the multi-scale connectivity and the structural complexity of marine populations

Rossi, Vincent; Ser-Giacomi, Enrico; Dubois, Mélodie; Monroy, Pedro; Hidalgo, Manuel; Hernandez-García, Emilio; López, Cristobal
In CIESM Workshop Monograph 48: Marine connectivity - migration and larval dispersal, Edited by F. Briand (http://www.ciesm.org/online/monographs/Soller16.html), CIESM Publisher, Monaco, 39-51 (2016)

Interdecadal Variability of Southeastern South America Rainfall and Moisture Sources during the Austral Summertime

Martin-Gomez, V.; Hernandez-Garcia, E.; Barreiro, M.; Lopez, C.
Journal of Climate 29, 6751-6763 (2016)

Percolation-based precursors of transitions in extended systems

Rodriguez-Mendez, Victor; Eguiluz, Victor M.; Hernandez-Garcia, Emilio; Ramasco, Jose J.
Scientific Reports 6, 29552 (1-10) (2016)

Linking basin-scale connectivity, oceanography and population dynamics for the conservation and management of marine ecosystems

Dubois, M.; Rossi, V.; Ser-Giacomi, E.; Arnaud-Haond, S.; Lopez, C.; Hernandez-Garcia, E.
Global Ecology and Biogeography 25, 503-515 (2016)

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