M2 Studying the Climates of the Earth

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  • Places available
    30
  • Language(s) of instruction
    French
  • Enrolment type
    Formation initiale
  • Type of teaching
    En présentiel
Présentation
Objectives

Climate change is a major challenge for current and future generations and is one of the 17 Sustainable Development Goals defined by UNESCO. Understanding climate change and producing robust projections for the coming centuries is a complex task because it is multi-component, multi-scale, and multidisciplinary.

Multi-Component and Multi-Scale. Indeed, to project into the future, we must first understand the climate system, which is a complex, multi-component system with interactions: oceans, atmosphere, continental surfaces, hydrosphere, and biosphere. To this end, natural archives such as ice or marine sediments offer formidable investigative possibilities for reconstructing past climates using climate models and for improving these models, which are essential tools for projecting into the climate future. Since the industrial revolution, direct observations of the climate system have complemented natural archives to document contemporary climate changes in detail, both spatially and temporally, thanks to a growing set of in-situ and satellite experimental methods and regional to global models.

Multidisciplinary. Understanding the climate system and its evolution draws on several disciplines:

  • Physics, which explains the flow of the Earth's fluid envelopes (air, water), energy exchanges, radiation-matter interactions, and the wave aspects of natural phenomena;
  • Earth sciences, which provide geophysical and geochemical tools to document the interactions between the components of the climate system, the major biogeochemical cycles (carbon, nitrogen, etc.), and the water cycle, based on continental and marine climate archives (paleoclimatology, geochronometers) and contemporary observations.
  • Applied mathematics, which provides numerical and statistical quantification methods (numerical simulation, machine learning, inverse problems);
  • Chemistry, which allows us to understand key elements of the climate and life on Earth, such as greenhouse gases, the ozone layer, and atmospheric pollution;
  • human and social sciences which provide their expertise on the socio-economic scenarios of the transformations to be carried out and on the question of adaptation.

The objective of the M2 ECLAT is to provide high-level, multidisciplinary research training focused on the climate system and the physics of climate change (IPCC group I), by providing reinforcement on analysis and simulation methods or an opening on impacts, and adaptation and mitigation solutions (IPCC groups II and III). The CLlImat: Modeling and Observations (CLIMEO) sub-track is intended for geoscience and physics engineering students interested in the climate system and its past and present natural variability, in observation and modeling issues for the analysis of past, present, and future climates. The CLimat, Adaptation, Mitigation, Resources, Energy (CLARE) sub-track is intended for physicist students and engineering students interested in climate physics and mitigation and adaptation issues related to anthropogenic climate change.

The master's degree draws on exceptional research potential, bringing together leading international laboratories in the study of climate, paleoclimates, and climate change.

Skills

  • Analyser les éléments des variabilités naturelles et forcées des climats de la Terre, à différentes échelles de temps (climats actuels et passés, saisonnier à décennal), en restituant de manière structurée leurs imbrications;.

    • Overall organisation

    The M2 ECLAT is a training course that integrates physics and Earth sciences to give students the tools and methods necessary to study, analyze and understand the past and current climates of the Earth, and to project themselves into the future.

    From an educational point of view, the study of Earth's climates relies on tools shared between Earth sciences and physics: a systemic approach to problems, analysis of complex systems, modeling and numerical simulation, observations and associated instrumentation (mass spectrometry, interferometry, radar, lidar, etc.). The teacher-researchers involved in the M2 ECLAT are specialists in atmospheric physics and chemistry (dynamic and chemical processes, measurement methods, applied mathematics), or Earth sciences (geochemistry, geochronology, sedimentology, paleoclimatology).

    Career prospects

    Les débouchés du parcours-type 'ECLAT' sont de deux types : 1/ poursuite en thèse en laboratoire académique ou en co-tutelle avec des entreprises et 2/ intégration d'entreprises et de bureaux d'études en relation avec les métiers de la géologie et de la physique du climat et de l'environnement.
    Le parcours-type 'ECLAT' propose une offre de formation en lien étroit avec le secteur industriel (enseignement par des ingénieur de l'industrie, stage de recherche et doctorat en R&D). Les étudiants issus de cette formation pourront ainsi être recrutés dans la recherche publique (Universités, CNRS, Andra, IRSN,...) ou privée, dans les entreprises relevant du secteur spatial (CNES, ACRI-ST, CLS), et dans les grandes entreprises (groupes automobiles, banques, assurances, …) ou les établissements publics ou privés qui sont soucieux d'intégrer des spécialistes de l'environnement global et des risques climatiques.
    Les métiers pourront s'exprimer dans différents secteurs d'activités et types d'entreprises: (i) les laboratoires de recherche publique dans un domaine fondamental ou appliqué (Universités, CNRS, BRGM, Andra, IRSN, IFREMER,...), (ii) les entreprises concernées par le changement climatique et la gestion des environnements atmosphériques, continentaux, et marins (TOTAL, EDF, Véolia, GDF-Suez, Areva), (iii) les PME, bureaux d'études, de conseil et d'expertise en climat et environnement (CLS, ACRI-ST, Climpact, LEOSPHERE...), ou encore (iv) les collectivités territoriales, associations, organisations et agences locales, nationales ou internationales sur le climat.

    Types d'emplois à Bac+5 et Bac+8 : Chef.fe de projet, Chargé.e d'étude, Chargé.e de mission environnement, Ingénieur.e qualité, Ingénieur.e R&D, Ingénieur.e en instrumentation environnementale, Expert.e en questions climatiques, Chercheur.se , Enseignant.e - chercheur.se.

    Course Prerequisites

    Common to both sub-tracks:

    • A good level in one or more basic scientific disciplines (earth sciences, physics, mathematics, chemistry, biology) is required to access the M2 ECLAT program, which will then determine the sub-track and the choice of options.
    • Basic knowledge of the climate system

    The M2 ECLAT program welcomes students who have completed a first-year Master's degree or equivalent in: 

    • Physics 
    • Earth Sciences 
    • Climate Sciences (Ocean, Atmosphere)

    A passion for applying science and modeling is also important. Other profiles will be accepted depending on motivation and transcripts.

    CLIMEO sub-track (CLIMATE: Modeling and Observations):

    • Earth Sciences
    • Fundamentals of Physics and Chemistry
    • A passion for applying science and modeling

    CLARE sub-track (CLIMATE, Adaptation, Mitigation, Resources, Energy):

    • Physics, including fluid physics, complex systems, and physical chemistry (non-exhaustive list)
    • Applied Mathematics, including a solid foundation in statistics
    • Computer Science, including mastery of a programming language and methods
    Internships and supervised projects

    Long internship (> 4 months) in a research laboratory or company

    One-week field internship for the CLIMEO sub-program

    Project supervised as part of the CLARE sub-program

    Transfer paths

    NA

    Location
    ORSAY
    GIF SUR YVETTE
    GUYANCOURT
    Collaboration(s)
    Laboratories

    Laboratoire Atmosphères, Milieux, Observations Spatiales
    GEOsciences
    Laboratoire des sciences du climat et de l'environnement - DRF
    Cultures, Environnement, l'Arctique et ses Représentations, Climats.

    Fédération de Recherche Institut Pierre Simon Laplace.

    Programme

    The schedule will be posted shortly.

    Modalités de candidatures
    Application period
    From 01/03/2026 to 15/07/2026
    Admission criteria
    Dossier
    Compulsory supporting documents

    • Motivation letter.

    • All transcripts of the years / semesters validated since the high school diploma at the date of application.

    • Curriculum Vitae.

    • Certificate of English level (compulsory for non-English speakers) or GMAT / GRE test results.

    Additional supporting documents

    • Certificate of English level (compulsory for non-English speakers).

    • Certificate of French (compulsory for non-French speakers).

    • VAP file (obligatory for all persons requesting a valuation of the assets to enter the diploma).

    • The application procedure, which depends on your nationality and your situation is explained here : https://urlz.fr/i3Lo.

    • Supporting documents :
      - Residence permit stating the country of residence of the first country
      - Or receipt of request stating the country of first asylum
      - Or document from the UNHCR granting refugee status
      - Or receipt of refugee status request delivered in France
      - Or residence permit stating the refugee status delivered in France
      - Or document stating subsidiary protection in France or abroad
      - Or document stating temporary protection in France or abroad.

    Contact(s)
    Course manager(s)
    Christophe COLIN - christophe.colin@universite-paris-saclay.fr
    Marielle SAUNOIS - marielle.saunois@lsce.ipsl.fr
    Administrative office
    Sylvie FAUVEAU - sylvie.fauveau@uvsq.fr