Areas of Activity#

Here you will find all fields of scholarship for this section.
A
  • ab Initio Molecular Dynamics Go to
  • Adapting new mathematical tools to magnetic and gravity data analysis Go to
  • Adjoint equations and conservations laws Go to
  • Adsorption/desorption studies Go to
  • Aeration of soil environment Go to
  • Aerosol-cloud-climate interactions Go to
  • Aerosols and aerosol electrification Go to
  • Aerospace technology Go to
  • African and Asian monsoons: sensitivity to different external forcing, role of ocean, land surface and snow feedbacks Go to
  • Analogue modelling Go to
  • Analysis of composition of lunar and meteoritic samples Go to
  • Analytical geochemistry Go to
  • Antarctic circumpolar current Go to
  • A possible glacially-forced tectonic mechanism for late Neogene surface uplift and subsidence around the North Atlantic Go to
  • Applications of synchrotron radiation methods (x-ray absorption spectroscopy, photoemission spectroscopy, x-ray standing wave spectroscopy, x-ray reflectivity, and x-ray imaging) to problems in surface chemistry, low temperature/aqueous geochemistry and environmental chemistry Go to
  • applied historical astronomy Go to
  • applied historical astronomy Go to
  • Applied mathematics Go to
  • applied mathematics Go to
  • Aqueous speciation and geochemistry Go to
  • Arctic environments Go to
  • Astronomy and space science Go to
  • Astronomy & Astrophysics Go to
  • astronomy & astrophysics Go to
  • astronomy, astrophysics Go to
  • astronomy, physics Go to
  • astronomy & space research Go to
  • Astroparticle physics Go to
  • astrophysics, cosmology Go to
  • Astrophysics: neutron stars Go to
  • Astrophysics: nucleosynthesis Go to
  • Astrophysics of star clusters: cluster variables; kinematic studies Go to
  • Astrophysics: stellar hydrodynamics Go to
  • Astrophysics: stellar physics Go to
  • Astrophysics: supernovae Go to
  • Atlantic circulation Go to
  • atmoshperic science Go to
  • atmosperic physics Go to
  • Atmosphere-ocean interactions Go to
  • atmosphere-ocean jets Go to
  • atmosphere-ocean-planetary dynamics Go to
  • Atmospheres of the solar terrestrial planets Go to
  • Atmosphere – Terrestrial Biosphere Interaction Go to
  • Atmospheric chemistry and its role in biogeochemical cycles and climate Go to
  • atmospheric chemistry Go to
  • Atmospheric chemistry Go to
  • Atmospheric chemistry Go to
  • Atmospheric chemistry Go to
  • atmospheric chemistry Go to
  • atmospheric chemistry & physics Go to
  • atmospheric dynamics Go to
  • Atmospheric electricity Go to
  • atmospheric & ocean dynamics Go to
  • atmospheric & oceanic sciences Go to
  • atmospheric physics Go to
  • Atmospheric Physics Go to
  • Atmospheric physics Go to
  • Atmospheric physics Go to
  • atmospheric physics Go to
  • Atmospheric Physics: Interaction of solar radiation with the atmosphere; diagnostic of the atmosphere with radiation measurements; Earth's radiation budget and solar influence on climate Go to
  • atmospheric & planetary sciences Go to
  • Atmospheric pollution Go to
  • Atmospheric research Go to
  • atmospheric science Go to
  • atmospheric sciences Go to
  • Atmospheric sciences Go to
  • Atmospheric sciences, physics, chemistry, earth system science, biosphee-aerosol-cloud-climate interactions Go to
  • atmospheric & space sciences Go to
  • Attractors of atmospheric models Go to
B
  • Basic heat flow studies in terms of crustal and lithospheric structure Go to
  • Behaviour of heavy metals, radionuclides and organic pollutants in the soil – groundwater-plant system Go to
  • Binary X-ray sources - observations at La Silla, Chile, ESO Go to
  • Biogenic nannofossil carbonate fluxes and Paleo-pCO2 reconstructions Go to
  • biogeochemical cycling Go to
  • biogeochemistry of oceans & atmosph Go to
  • Biosphere-atmosphere interactions Go to
  • Biosphere-geosphere interactions Go to
  • Biostratigraphy and Timescales Go to
  • Black hole astrophysics Go to
  • boundary layer meteorology Go to
  • bowed-string dynamics Go to
  • Brittle deformation Go to
  • Building Materials Go to
C
  • Calcareous nannoplankton biomineralization Go to
  • Calibration and data analysis of Apollo ALSEP Suprathermal Ion Detector Experiment Go to
  • Carbon cycle research Go to
  • carbon cycle science Go to
  • Celestial Mechanics Go to
  • Changes in ocean meridional overturning circulation Go to
  • Chang-Refsdal lens Go to
  • Chemical Abundances Go to
  • Chemical and biological oceanography Go to
  • chemical geodynamics Go to
  • Chemistry-climate relations Go to
  • chemistry of atmosphere Go to
  • Chemistry of past atmosphere Go to
  • chronology of meteorites and the formation of the solar system Go to
  • Climate – air quality interactions Go to
  • Climate and Societies Go to
  • Climate-biosphere interactions Go to
  • climate & climate change Go to
  • climate & environmental physics Go to
  • Climate modeling with the development of the IPSL global climate model Go to
  • Climate projections for nuclear waste disposal site Go to
  • climate projections Go to
  • Climate system modeling Go to
  • Climate variability and change Go to
  • Climate variability Go to
  • Climatology of the Middle Atmosphere: First measurement of the cooling of the mesosphere due to the increase of greenhouse gases Go to
  • Clouds and cloud physics Go to
  • Coastal geography and the geography Go to
  • Collisional Processes at plate margins Go to
  • Combination of geophysical, geodetic and atmospheric data for Earth System studies Go to
  • Composition, architecture and evolution of the Earth by marine geophysical methods and geological data Go to
  • Computational astrophysics Go to
  • Computational Fluid Dynamics Go to
  • computational simulation Go to
  • Computation of evolutionary tracks of single and binary stars Go to
  • Condensed matter theory Go to
  • Conductivity-diffusion Go to
  • Contamination processes Go to
  • Continental dynamics Go to
  • Continental mantle lithosphere Go to
  • Continental Margins Go to
    • Structure and evolution of passive continental margins
      • Levant continental margin
    • Tectonic processes at active continental margins
      • Pacific and Indian Oceans active margins
      • Calabrian, Hellenic and Cyprean Arcs, eastern Mediterranean
    • Sheared continental margins
      • Agulhas margin
  • Continental Rifting Go to
  • Continental rift magmatism Go to
  • Continental tectonics Go to
  • Continental Transforms Go to
    • Dead Sea fault.
    • San Andreas fault
    • Philippine fault
  • Coordinator of the Center for Disaster Management and Risk Reduction Technology (CEDIM) Go to
  • Cosmic high-energy opacity by photon-photon interaction Go to
  • Cosmic ray physics Go to
  • Cosmic structure formation Go to
  • cosmochemistry, geochemistry Go to
  • Critical phenomena in chaotic systems Go to
  • Crystallization and vesiculation kinetics Go to
  • Crystallography, crystal structures of minerals and synthetic phases, relationship between crystal chemistry and properties Go to
  • Cultural heritage, use of advanced chracterization techniques in archaeometry and conservation science Go to
D
  • Dark matter in the Universe: development of a model of dark baryonic matter, in the form of cold molecular gas Go to
  • Data analysis in astronomy Go to
  • Decadal-centennial scale climate variability Go to
  • Deep Continental Drilling Go to
  • Deep cosmological surveys Go to
  • deep Earth (core and inner core) Go to
  • Deep Earth geochemistry Go to
  • deep Ocean Hydrothermalism Go to
  • Deep Seismic Sounding and physical properties and composition of the lithosphere/asthenosphere Go to
  • Deep seismic sounding Go to
  • Deformation analysis Go to
  • Deformation processes in subduction zones and associated basins Go to
  • Denitrification and methanogenesiss in peatlands Go to
  • Description of temporal and spatial changes of the geomagnetic field Go to
  • Design and study of constructed wetlands for wastewater treatment Go to
  • Design of upper-atmosphere mass spectrometer Go to
  • Determination of Earth kinematics using satellite observables Go to
  • Determination of the global gravity field models using satellite and terrestrial data Go to
  • Developing new flight hardware to measure the composition of plasmas in the heliosphere Go to
  • Developing new theoretical concepts and models for interaction between the heliosphere and local interstellar medium Go to
  • Developing new theoretical concepts and models for interstellar neutral gas and dust behavior in the heliosphere and subsequent ionization to form the so-called pickup ion population Go to
  • Developing new theoretical concepts and models for the behavior of the solar atmosphere and its expansion into space to form the solar wind Go to
  • Developing new theoretical concepts for the acceleration and behavior of energetic particles in the heliosphere Go to
  • Development and evolution of ocean basins and continental margins Go to
  • Development of chemical polymers Go to
  • Development of climate models Go to
  • Development of efficient numerical methods for continuum mechanics problems Go to
  • Development of methodologies for hazard and risk assessment for areas but also specific sites Go to
  • Development of seismic early warning systems Go to
  • Development of the technique of lidar soundings of the atmosphere (Resonance, Rayleigh, Raman, Doppler...) Go to
  • Discoverer of the large-scale structure of the Universe Go to
  • Discovery of dayside boundary layers, small-scale reconnection events, high-beta plasma blobs in the magnetosphere and the in-situ confirmation of reconnection Go to
  • Double-diffusive phenomena Go to
  • Dynamical and complex systems theory Go to
  • Dynamical Astronomy Go to
  • Dynamical metrology Go to
  • dynamic meteorology Go to
  • Dynamics of Extensional and Compressional Intraplate Deformation Go to
  • Dynamics of Galaxies: spiral structure, barred density waves Go to
  • Dynamics of the Earth`s crust Go to
  • Dynamics of weather phenomena Go to
  • Dynamic topography Go to
E
  • Early solar system timescales using extinct radionuclides Go to
  • earth & atmospheric sciences Go to
  • earth & cosmic science Go to
  • earth & cosmic sciences Go to
  • earth & marine sciences Go to
  • Earth observation from space Go to
  • earth & planetary sciences Go to
  • Earthquake Geology Go to
  • earthquake geology Go to
  • earthquake physics Go to
  • Earthquake physics Go to
  • Earthquake prediction Go to
  • earthquake prediction Go to
  • Earthquake preparedness Go to
  • Earthquake risk analysis in Ghana Go to
  • Earthquake Seismology Go to
  • Earthquakes origin Go to
  • Earthquake source mechanism Go to
  • Earth rotation and polar motion Go to
  • Earth rotation and time Go to
  • Earth Sciences in general Go to
  • Earth's rotation effects on the lithosphere Go to
  • Earth systems science Go to
  • Effect of climate change on the biosphere Go to
  • Effect of sea level rise on coastal processes Go to
  • Effects of mountains on atmospheric flow Go to
  • elastic wave propagation Go to
  • Electromagnetic induction Go to
  • El Niño Southern oscillation: past, present and future evolution Go to
  • Energy / raw materials Go to
  • Energy storage in aquifers Go to
  • Energy supply and climate Go to
  • engeering seismology Go to
  • Environmental chemistry and geochemistry Go to
  • environmental fluid mechanics Go to
  • Environmental geochemistry Go to
  • Environmental geochemistry Go to
  • Environmental geology Go to
  • Environmental geology Go to
  • environmental science Go to
  • Environmental sustainability Go to
  • Environmental Technologies Go to
  • Environment and health Go to
  • Evaluation of biospheric components of the Earth System models Go to
  • Evolutionary history and dynamics of calcareous nannoplankton Go to
  • Evolution of orogenic belt and exhumation of deep metamorphic rocks Go to
  • Evolution of the climate Go to
  • Evolution of the Earth and Moon Go to
  • Evolution of The Galaxy and other stellar systems Go to
  • Evolution of the river valleys during the last 15 000 years Go to
  • Experimental astrophysics Go to
  • Experimental geochemistry Go to
  • Experimental geophysics Go to
  • Experimental geosciences Go to
  • Experimental modelling of brittle-ductile systems with application to crust and lithosphere tectonic systems Go to
  • Experimental modelling of tectonic processes Go to
  • Experimental physics Go to
  • Experimental rock physics Go to
  • Experiments that reproduce the extreme deformation conditions along a fault during an earthquake Go to
  • Explosion seismic refraction experiments to determine crustal structure in Britain and the East African Rift Valley in Kenya Go to
  • Explosive volcanism Go to
  • Extra-solar planets Go to
F
  • Fate and transport of pollutants Go to
  • Fault interaction and seismicity patterns Go to
  • Field studies of exhumed ancient seismic faults Go to
  • Figure of the Earth and its gravitational field Go to
  • Fluid and melt inclusions in minerals and rocks Go to
  • Fluid dynamics and meteorology Go to
  • Fluid mechanics: turbulence in homogeneous, stratified and rotating flows Go to
  • Fluid transport in porous and fractured reservoirs Go to
  • Formation and growth mechanisms of atmospheric aerosols, aerosol dynamics, dynamics of atmospheric clusters Go to
  • formation and the demise of large scale geological structures Go to
  • fractals in sedimentary geology Go to
  • Fractional calculus Go to
  • Further development of various geophysical techniques and their applications to diverse applied, engineering, and environmental issues Go to
G
  • Galactic Archaeology Go to
  • Galactic Chemical Evolution Go to
  • Galaxies at large redshift, cosmic star formation Go to
  • Galaxy photometry in radio, mm, IR and optical Go to
  • Gamma ray astronomy Go to
  • Gas hydrodynamics (collisions, SPH, etc.), for evolution and formation of galaxies Go to
  • Gaz storage in aquifers Go to
  • General cosmological issues Go to
  • General Mathematics Go to
  • General research on sedimentology Go to
  • Geochemical modelling of mantle melting and melt transport, the age and origin of mantle heterogeneities, mantle geodynamics Go to
  • Geodesy and geophysics, with specific interest in Earth/Mars/Mercury rotation/libration and interior modeling Go to
  • Geodesy and Surveying Go to
  • Geodesy as a part of geophysics Go to
  • Geodetic boundary-value problems Go to
  • Geodynamic numerical modelling Go to
  • Geodynamic processes Go to
  • Geodynamics and ore deposit evolution across Europe (GEODE) Go to
  • geodynamics, geophysics Go to
  • Geological hazards Go to
  • Geological History of the Mediterranean Sea, Northern Arabian Sea, Eastern Indian Ocean (offshore Australia) Go to
  • Geological Mapping Go to
  • Geologic and hydrologic modelling Go to
  • Geology and geophysics Go to
  • Geology and geophysics of Polar continental margins Go to
  • geology & geodynamics Go to
  • Geology: North Mediterranean Ranges, West American Ranges (Andes, Sierra Madre), West Pacific Ranges (Japan, Taïwan, New Caledonia) Go to
  • Geology of sedimentary mountain ranges Go to
  • Geomagnetic field observations from historical archives, modern observatories, and artificial satellites Go to
  • Geometry, kinematics and dynamics of tectonic plate boundaries Go to
  • Geomorphological mapping Go to
  • Geophysical fluid dynamics Go to
  • geophysical fluid dynamics Go to
  • Geophysics-petrology Go to
  • geophysics & planetary physics Go to
  • Geopotential fields (gravity and magntic fields) Go to
  • Geopotential satellite mission design and development Go to
  • Geothermal modelling and Heat flow mapping Go to
  • Global air pollution including tropospheric ozone Go to
  • Global biogeochemical cycles Go to
  • Global carbon cycle in Quaternary and Anthropocene Go to
  • Global Climate Change and Sea-Level in the future (especially as it affects coastal communities and their economies - author of a World Bank Report and a ICZM Volume used widely in maritime countries for coastal zone management) Go to
  • Global climate change Go to
  • global climatology Go to
  • global-scale atmospheric circulations Go to
  • Global sea-level change of the Phanerozoic (some of the most widely cited papers in Geosciences in Paleozoic, Mesozoic and Cenozoic Eustasy) Go to
  • global stratigraphy and sea-level change Go to
  • Gravitational lensing Go to
  • Gravity Field and Topographic Modeling Go to
  • Gravity studies of Mars/Venus/Mercury Go to
  • Gravity surveys in Southwest Greenland Go to
  • Gravity waves:numerical methods Go to
  • Greenhouse gas fluxes from wetlands and riparian ecosystems Go to
H
  • Habitat of life on the early earth Go to
  • High-energy astrophysics Go to
  • High energy astrophysics Go to
  • High-energy astrophysics Go to
  • High energy astrophysics Go to
  • High energy astrophysics Go to
  • High energy astrophysics Go to
  • High energy astrophysics: physics of accretion onto compact objects Go to
  • High pressure physics Go to
  • High temperature geochemistry Go to
  • historical eclipses and earth's rotation Go to
  • Historical Research Go to
  • historical seismology Go to
  • Historical Seismology Go to
  • historical supernovae Go to
  • History and methodology of geography Go to
  • History and modeling of past climates Go to
  • History of Climate Go to
  • history of East Asian celestial cartography Go to
  • History of Geology Go to
  • history of Halley's comet; chronology Go to
  • History of oceanography Go to
  • History of science and the sociology of science Go to
  • History of science Go to
  • Holocene palaeogeography of the Polish Carpathians, Poland and the whole Europe Go to
  • Hydrological Cycle Go to
I
  • Ice sheet modeling Go to
  • Identification of pulsars as a new class of stars Go to
  • Impact of aircraft on the environment Go to
  • Impact of Great Earthquakes on Society Go to
  • Industrial fluid mechanics Go to
  • Industrial mineralogy, use of minerals in industrial applications (zeolites, kaolinite, oxides, cement phases, etc.), with special focus on the kinetics of reaction during thermal processes (time-resolved investigtions at high temperature). Go to
  • Influence of the solar and volcanic activity on the Middle Atmosphere Go to
  • Infrared and submillimetre astronomy Go to
  • Innovative techniques in hydrocarbon exploration, especially in stratigraphic traps Go to
  • instrumental climate records Go to
  • Interacting close binary stars Go to
  • Interaction between galaxies; N-body simulations of galaxies (FFT, tree-code) Go to
  • Interaction of lithosphere and mantle in tectonically active regions Go to
  • Interaction of the sun with the magnetic field of earth (magnetosphere) or the interstellar medium (heliosphere) Go to
  • Interactions between i) deformation and erosion and ii) deformation and volcanism Go to
  • Interactions between the atmosphere and bio- or physio sphere of our planet Go to
  • interaction sedimentation-tectonics Go to
  • Interdisciplinary climate science and climate impact research Go to
  • Interface of climatology Go to
  • interior structure of the earth Go to
  • internal geophysics Go to
  • Internal gravity waves and their interaction with shear flows Go to
  • Interstellar gas dynamics Go to
  • Interstellar medium of galaxies, observations of new molecules Go to
  • Intraplate deformation Go to
  • inverse problems of trace elements in magmatic series Go to
  • Inversion of acoustic and electromagnetic geophysical measurements Go to
  • Inversion of borehole temperature data in ground surface temperature history Go to
  • Investigation of lithospheric and crustal structure using seismic tomography Go to
  • Isotope Geo- and Cosmochemistry Go to
  • isotope geochemistry Go to
  • Isotope geochemistry Go to
  • Isotope geochemistry Go to
  • Isotope geochemistry Go to
  • Isotope geochemistry, Go to
  • Isotope geochemistry Go to
  • Isotope tracer studies on terrestrial and extraterrestrial materials Go to
J
  • Joint inversion of seismic and EM data Go to
L
  • Laboratory studies of kinetics Go to
  • Landscape evolution by fluvial and glacial processes Go to
  • Large igneous provinces Go to
  • Large-scale sea-ice ocean modelling, sea-ice thermodynamics and dynamics Go to
  • large-scale turbulence Go to
  • Late Holocene volcanism Go to
  • Late Neogene climate change Go to
  • Lava flow emplacement Go to
  • Linkage between weather systems and climate variability Go to
  • Lithosphere-asthenosphere interaction Go to
  • Lithosphere dynamics Go to
  • Lithosphere dynamics Go to
  • Lithosphere structure and dynamics Go to
  • Lithospheric dynamics Go to
  • Lithospheric dynamics Go to
  • Lithospheric processes Go to
  • Long-term land-use changes and their influence on landscape biogeochemistry Go to
  • long-term solar variability Go to
  • Low-frequency variability of atmospheric circulation Go to
  • Low-temperature geochronology Go to
  • lucidity principles Go to
M
  • Magmatic ore deposits Go to
  • Magnetic instabilities Go to
  • Magnetohydrodynamics Go to
  • magnetospheric physics Go to
  • Magnetospheric physics Go to
  • Magnetotellurics (MT) Go to
  • Magnetotelluric tensor decomposition Go to
  • Management of research and innovation Go to
  • Mantle geochemistry Go to
  • Marine geophysical surveys across the Irish Sea, Celtic Sea and Southwest Approaches Go to
  • marine geosciences Go to
  • Marine paleoclimate research (Quaternary and Neogene) Go to
  • Marine sedimentation Go to
  • Mass loss and mass transfer in close binary systems Go to
  • Materials science, investigation of materials by advanced probes (synchrotron radiation, neutron beams), and combined techniques Go to
  • mathematical astrophysics Go to
  • mathematical geodesy Go to
  • Mathematical, numerical and statistical techniques in Geodesy Go to
  • mathematical theory of climate Go to
  • mathematics-music relations Go to
  • Measurements in time-lapse mode capturing the dynamic behavior of the earth’s subsurface Go to
  • Mechanics of mountain-building Go to
  • Mechanisms of plate tectonics Go to
  • Mediterranean sub-salt fluids Go to
  • Mesoscale Meteorology Go to
  • Mesozoic calcareous nannofossils Go to
  • Metamorphic Petrology Go to
  • Meteorology and atmospheric dynamics Go to
  • Meteorology and climate dynamics Go to
  • Methodologies for model-data comparisons: past and present climates Go to
  • Methodologies for risk management in large urban agglomerations Go to
  • Microstructural/geochemical investigations of natural and experimental fault products Go to
  • Mineralogical behaviour of building materials Go to
  • Mineralogy and petrology Go to
  • Mineralogy, petrology Go to
  • Mineralogy, physico-chemical properties of minerals at non ambient conditions, for geological and industrial purposes Go to
  • Mineral physics at high P and T Go to
  • Mineral properties Go to
  • Mineral surface chemistry Go to
  • Mitigation of nitrate and pesticide pollution Go to
  • Mm, IR ed X-ray cosmic background radiations: origin and contributions by galactic and extragalactic sources. Go to
  • Modelling climate variability and changes (past and future) in polar regions Go to
  • modelling of the earth climate system, including paleoclimates: the Holocene, the ice ages, and the warm periods of the Cretaceous and Paleocene epochs Go to
  • Modelling of the thermodynamic and rheological properties of magma Go to
  • Modelling the climate of the earth system Go to
  • Models for Algol systems Go to
  • Models for X-ray binaries Go to
  • Models of orogenic wedges Go to
  • Models of spectrophotometric evolution of galaxies, formation of spheroidal galaxies. IR, optical and X-ray spectroscopy of active galaxies: starbursts, ULIRG and AGNs Go to
  • Molecular absorption lines in front of quasars Go to
  • Molecular biomarkers Go to
  • Molecular modelling of pollutant interactions with the soil matrix Go to
  • monitoring and dynamics of ice caps using satellite techniques Go to
  • Monitoring environmental change Go to
  • Motions of star clusters and stellar associations Go to
  • Mountain environments Go to
  • Multi-wavelength astronomy Go to
N
  • N-alkanes, steroids Go to
  • Natural disaster reduction Go to
  • Natural Gas hydrates, including their coastal hazards and resource potential and their role in climate change) Go to
  • Natural gas hydrates in the marine environment Go to
  • Nuclear geochemistry Go to
  • Nuclear waste disposal Go to
  • Nuclear waste management Go to
  • Numerical modeling Go to
  • Numerical Modelling of Wave Propagation Go to
  • Numerical models of landscape evolution and applications of low-temperature thermochronology Go to
  • Numerical models of short-range weather prediction Go to
  • Numerical simulation of lithospheric deformation and mantle convection Go to
  • Numerical simulation of magmatic and volcanic processes Go to
  • Numerical weather prediction Go to
  • Nutrient cycling in agricultural watersheds Go to
  • Nutrient retention and transformations in wetlands and riparian buffer zones Go to
O
  • Observational astronomy Go to
  • Observational astrophysics: X-ray astronomy, gamma ray astronomy Go to
  • Observational Cosmology Go to
  • Observational techniques: astrometry, photometry, spectroscopy, interferometry Go to
  • Observation and interpretation of the presence of alkali atoms in the mesosphere Go to
  • Observation of the thermoluminescence of the lunar surface Go to
  • Observation of X-ray binaries Go to
  • ocean and climate dynamics Go to
  • Ocean and Lake Biogeochemistry Go to
  • Ocean-atmosphere coupling Go to
  • Ocean/Atmosphere interactions Go to
  • ocean circulation and satellite altimetry Go to
  • ocean cycle of trace metals and carbon Go to
  • Oceanic Anoxic Events and organic C-rich black shales Go to
  • Ocean (Mid-America trench, Japan and Kourils Trench, Tonga-Kermadec Trench) Go to
  • Ocean productivity Go to
  • ocean storage of carbon dioxide Go to
  • Ocean tracers of continental aridity Go to
  • Origin and evolution of galaxies in the universe Go to
  • Origin and evolution of the solar system Go to
  • Origin of continents Go to
  • Origin of cosmic rays Go to
  • origin of cosmic rays Go to
  • Origin of solar system Go to
  • Origin of the Elements Go to
  • Orogenic volcanism Go to
  • Ozone and UV research Go to
P
  • Palaeoclimate modeling Go to
  • Palaeoenvironmental proxies Go to
  • Palaeohydrology of the late Quaternary encompassing Poland, temperate zone and the globe Go to
  • Palaeomagnetism and rock magnetism Go to
  • Palaeozoic mountain belts of Eurasia Go to
  • Paleoceanography, Paleoenvironments and Paleobiogeography of Atlantic, Indian, Pacific and Southern Oceans Go to
  • Paleoclimate modeling: simulations of past climates with the same model version as the one used for future climate projections; coordination of the international Paleoclimate Modeling Intercomparison Project Go to
  • paleoclimatology, climatology Go to
  • Paleoecology and Paleoceanography Go to
  • Paleogeographic and Paleotectonic Reconstructions Go to
  • Paleotectonic reconstructions Go to
  • Particle acceleration Go to
  • Passive continental margins and sedimentary basins Go to
  • Past carbon-cycle variations Go to
  • Past Climates in the Mesozoic and Cenozoic Periods Go to
  • Past Greenhouse worlds Go to
  • Pattern recognition Go to
  • petrology and geochemistry Go to
  • Petrology and Geochemistry Go to
  • Petrology and geochemistry of mafic and ultramafic volcanic rocks, both modern and Archean Go to
  • Petrology and geochemistry of mafic magma in major tectonic settings; determination of their conditions of melting and the compositions of their mantle sources Go to
  • Photochemistry of chemical reactions in the troposphere and stratosphere Go to
  • Phyical processes at and near Earth's surface Go to
  • physical & applied geology Go to
  • Physical geography Go to
  • Physical-mathematical modelling Go to
  • Physical oceanography Go to
  • physical oceanography Go to
  • physical properties of Active Galactic Nuclei and the growth of Super Massive Black Holes therein Go to
  • Physical volcanology Go to
  • physic of the earth Go to
  • Physics of quasars, observations and modeling Go to
  • Physics of space plamas Go to
  • physics of the earth Go to
  • Physics of the interstellar medium Go to
  • physics of the oceans Go to
  • Planetary geochemistry Go to
  • planetary geophysics Go to
  • Planetary Nebulae physics Go to
  • Planetary physics and geophysical fluid mechanics Go to
  • Planetary research Go to
  • planetary sciences Go to
  • Planetary sciences Go to
  • Plasma astrophysics Go to
  • Plate Tectonics and Basin Evolution Go to
  • Pleistocene oceanography Go to
  • Pleistocene swings in atmospheric carbon dioxide Go to
  • Precambrian geology Go to
  • Precise positioning by space geodesy techniques and applications to tectonic motions, vertical crustal motions, geocenter motions Go to
  • predictability and dynamics of weather and climate Go to
  • Predictability of critical transitions in complex systems Go to
  • predictability of weather & climate Go to
  • Principles of geochemistry Go to
  • Probability and Statistics Go to
Q
  • Quantification of volcanic hazard Go to
  • Quantitative analysis of ductile deformation Go to
  • Quasi-biannial oscillations of zonal stratospheric wind Go to
  • Quaternary geology Go to
  • Quaternary sediments Go to
  • Quaternary stratigraphy Go to
R
  • Radiation-induced defects Go to
  • Radiocarbon chronology Go to
  • Radiocarbon dating Go to
  • radiogalaxies and their interaction with the environment Go to
  • Rates of processes Go to
  • Recent climate change and Global warming Go to
  • Regional geological mapping Go to
  • Relationship between melt structure and properties Go to
  • Relativistic geodesy Go to
  • Relief evolution of the Polish Carpathians Go to
  • Remote sensing and applications Go to
  • Remote sounding of the sea surface state including the method of tsunami identification by radar backscatter Go to
  • Response operators and fluctuation-dissipation relations Go to
  • Risk assessment methodologies for natural hazards Go to
  • Rock magnetic studies applied to geological problems Go to
  • Role of landuse in the climate system Go to
  • Role of the stratosphere on climate Go to
S
  • Satellite based gravity field determination Go to
  • Satellite geodesy and space research in Earth sciences: Gravity field and marine geoid Go to
  • Science and Society, in the frame of academies of sciences Go to
  • Science into government Go to
  • science with Space Missions, in particular in the X-Ray band Go to
  • Sea-floor hydrothermal systems Go to
  • Sea level variations at regional and global scales (observation from satellite altimetry and tide gauges; study of climatic causes: ocean thermal expansion and salinity effects, mass balance of the ice sheets, land water storage change, etc.) Go to
  • Sedimentary basin evolution Go to
  • Sedimentary geology Go to
  • Sedimentary petrology Go to
  • Sediment fluxes in big rivers (Brahmaputra, Ganga, Indus, Po, Nile) Go to
  • sedimentology of reefs and carbonate platforms Go to
  • Seismic hazard and engineering seismology Go to
  • Seismicity and seismotectonics of the Mediterranean and of the Ibero-Maghrebian region Go to
  • seismicity and structure of the Pyrenees Go to
  • seismic microzonation of urban settlements and seismic hazard Go to
  • Seismic Monitoring and management of Research Infrastructures Go to
  • Seismic ray theory Go to
  • Seismic reflection survey techniques to explore deep into the Earth's crust and upper mantle as a basis for studying continental lithosphere dynamics (BIRPS, the European Geotraverse) Go to
  • Seismic, Sequence and Global Stratigraphy (stratigraphy of the continental margins, stable-isotopic stratigraphy, magnetostratigraphy and radiochronology) Go to
  • Seismic waves in anisotropic media, seismic waves in inhomogeneous media, seismic waves in dissipative media, seismic waves in layered media Go to
  • Seismic waves in singular regions Go to
  • Sky-scanning photometry Go to
  • Small bodies in the Solar System: comets and minor planets Go to
  • Societal response to global warming Go to
  • Socio-economic predictions Go to
  • Soil-plant root interactions Go to
  • Solar Physics: Solar "constant" and its variability; influence of solar activity on irradiance; helioseismology by irradiance measurements; relation between characteristics of solar oscillations and irradiance Go to
  • solar tachocline dynamics Go to
  • Solar-terrestrial physics Go to
  • Solar-terrestrial relations Go to
  • solid earth geophysics Go to
  • Solid Earth Geophysics Go to
    • Thermo-chemical heterogeneity of continental lithosphere
    • Lithosphere of the cratons: structure and evolution from Archean to present
    • Integrated geophysical models of continental crust and upper mantle
  • Solid earth geophysics Go to
  • Solid earth geophysics Go to
  • Solid earth geophysics Go to
  • solid earth science Go to
  • Space and Planetary Geodesy Go to
  • Space Astronomy: scientific payloads and observing strategies for IR and sub-mm instrumentation Go to
  • space astrophysics Go to
  • Space instrumentation Go to
  • space plasma physics Go to
  • Space plasma physics Go to
  • Space research involving the cool universe Go to
  • Special and General Relativity Go to
  • Specialization in dep-water clastics, evaporites, indicators of paleoseismicity Go to
  • Spectroscopy in astrophysics Go to
  • Stability and predictability of large-scale atmospheric processes Go to
  • Stable isotopes of carbon and hydrogen Go to
  • Stable isotope stratigraphy Go to
  • Stable metal isotopes in biology and medicine Go to
  • Stable metal isotopes in historical and archeological artifacts Go to
  • State-of-the-art in situ analytical methods (SIMS, LA-ICP-MS, EPMA, Raman, etc) Go to
  • statistical climatology Go to
  • Statistical climatology Go to
  • Statistical methods Go to
  • Statistical techniques for the analysis of astronomical data Go to
  • Statistics end estimation of the gravitational field Go to
  • Statistics of extragalactic sources (galaxies, AGN, quasars) in radio, IR, optical and X-rays: luminosity functions, cosmological evolution Go to
  • Stellar Astrophysics Go to
  • Stellar Atmospheres Go to
  • Stellar oscillations: pulsating red giant stars and variables in the instability strip Go to
  • Stellar Spectroscopic Surveys Go to
  • Stellar Spectroscopy Go to
  • Stellar structure and evolution Go to
  • Stochastically forced large-scale flows Go to
  • Stratospheric ozone depletion Go to
  • Stress in the Lithosphere Go to
  • Strong motion seismology Go to
  • Structural geology Go to
  • Structural Geology Go to
  • structural geology Go to
  • Structural geology Go to
  • Structural Geology Go to
  • Structural geology (mechanisms of folding and boudinage; deformation in shear zones) Go to
  • structural geology/tectonics Go to
  • Structural studies of silicate glasses and melts at high temperature Go to
  • Structure and composition of the earth’s lithosphere Go to
  • Structure and Evolution of the Galaxy Go to
  • Structure and evolution of the Universe Go to
  • Structure and physical properties of the Earth's crust and lower lithosphere Go to
  • Structure and the evolution of galaxies Go to
  • Structure-property relationships in minerals and synthetic materials Go to
  • Studies of geophysical changes in the Arctic region Go to
  • Studies of the deep Earth's interior Go to
  • Studies of the Moon, Mars, and Mercury magnetic fields Go to
  • Studies on sedimentology and marine geology in the Baltic and North Sea, in the Indian Ocean and Persian/Arabian Gulf, in the Eastern Atlantic and in the Indian Ocean Go to
  • Study of climate–cryosphere interactions Go to
  • Study of supergiant stars Go to
  • Study of the temporal and spatial variability of the atmosphere and interpretation in terms of planetary waves, tides, gravity waves Go to
  • Study of the Upper Atmosphere by rocket sounding Go to
  • Subduction and mantle convection Go to
  • Submarine Geohazards Go to
  • Supernova remnants Go to
  • Surface and interface chemistry/geochemistry Go to
  • Sustainability engineering Go to
  • Sustainability of mineral resources Go to
  • Sustainability science Go to
  • Sustainability science Go to
  • Sustainable communities Go to
  • Sustainable development Go to
  • Synthetic seismograms Go to
T
  • Tectonic and morphological evolution of convergent margin Go to
  • Tectonic Geomorphology Go to
  • Tectonics and geodynamic modelling Go to
  • Tectonics and micropalaeontology Go to
  • Tectonics of plate margins and orogens Go to
  • tectonics & seismotectonics Go to
  • Tectonophysics and Tectonics Go to
  • Temporal changes of the Earth gravity field and global mass redistributions among the surface fluid envelopes of Earth (oceans, atmosphere, land) Go to
  • The deposits of tsunamis, rogue waves, and storm surges Go to
  • The effect of secondary biogenic aerosols on global aerosol load Go to
  • The geology and socio-economic/political implications of natural hazards, especially floods and landslides Go to
  • The geology and tectonic evolution of the Appalachians and Caledonides Go to
  • The geology of arc/continent collision Go to
  • Theoretical and experimental geophysical fluid dynamics sca surface waves generation and their spectra Go to
  • Theoretical geodesy Go to
  • theoretical geophysics Go to
  • Theoretical physics Go to
  • Theoretical work for better understanding earthquake-related physico-chemical processes active during the seismic cycle Go to
  • Theoretical work: Go to
    • motion of plasma clouds
    • formation of ionospheric irregularities
    • equatorial spread-F
    • ambi-polar diffusion
    • diffusion of trapped particles
    • wave-particle interactions
    • reconnection
    • boundary layers
    • auroral arcs
    • cometary interactions
    • origin of spicules
    • solar flares
    • gamma-ray production in neutron stars
  • Theory of baroclinic instability in moist atmosphere Go to
  • Theory of transport and transformations of humidity fields in atmosphere Go to
  • The relationships between the atmosphere/climate and different ecosystems, particularly the Boreal Forest Go to
  • Thermal properties of rocks Go to
  • Thermodynamics/statistical mechanics of lineaments and networks Go to
  • The study of major, trace element and isotope geochemistry of igneous minerals and melt and fluid inclusions Go to
  • Time and Frequency Metrology Go to
  • Time series analysis Go to
  • Trace elements, radiogenic isotope geochemistry and geochronology Go to
  • Tracers of ocean nutrients and paleoproductivity Go to
  • Transiting exoplanets, exomoons Go to
  • Trench migration and back-arc deformation Go to
  • Turbulence and its interaction with waves Go to
U
  • Urban air pollution Go to
  • Utilization of paleoclimate data to validate climate models and as a reference scale for future climate change projections Go to
  • UV observations with Ultra Violet Explorer - simultaneous Go to
V
  • Valley winds: global atmospheric angular momentum Go to
  • visual art and culture Go to
  • Volcanic and igneous processes Go to
  • Volcanic propcesses Go to
  • Volcanism and fluid circulation in the crust Go to
  • volcano seismology Go to
  • Volcanotectonic and seismotectonic structures and processes Go to
W
  • Wakes in stratified media Go to
  • Water cycle and land hydrology from space Go to
  • Water resources management Go to
  • Water vapor in the upper troposphere and stratosphere Go to
  • wave-mean interaction (interaction of waves and mean flows), illustrating one of the grand themes of physics, the dynamical organization of fluctuations) Go to
  • wave-vortex interaction Go to
X
  • X-ray crystallography at high temperatures Go to

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