Title |
GA25-18078S, , 2025-2027, investigator (IAP): Santolík Ondřej |
AV ČR StrategieAV21/16, , 2024-2028, investigator (IAP): Santolík Ondřej |
GA ČR GA24-12188S, Sudden stratospheric warmings, related processes, and their impact on the ionosphere and middle atmosphere (SHAPIRO), 2024-2027, investigator (IAP): Laštovička Jan description Sudden stratospheric warmings (SSWs) are the most significant perturbations of the wintertime stratosphere. SSWs affect even the ionosphere; they can modify propagation of GNSS/GPS
signals and thus precise positioning. However, the impact of SSWs on the midlatitude ionosphere is little understood. Therefore, our project aims to identify the chain of processes
during SSWs, from the stratosphere through mesosphere and lower thermosphere up to the midlatitude ionosphere. Our goal is to describe the impact of SSWs, including coupling
mechanisms such as changes in gravity wave activity, which are likely the main channel for SSWs effects on the midlatitude ionosphere. We will also search for the optimal parameters
defining SSWs for ionospheric studies, and investigate gravity wave propagation from the stratosphere trough mesosphere into the midlatitude ionosphere. The project will rely on our
measurements, international observation databases, modeling, and the latest meteorological reanalyses, whose quality at higher altitudes will be verified. close |
AV ČR StrategieAV21/30, , 2023-2027, investigator (IAP): |
LM2023030, ACTRIS – participation of the Czech Republic, 2023-2026, investigator (IAP): Sedlák Pavel, team: Pešice, P.; Kvak, R.; |
GA ČR GA23-06430S, Power of nature: extreme lightning flashes, 2023-2025, investigator (IAP): Kolmašová Ivana |
GA ČR GA23-07334S, Plasma interaction effects on electron measurements on board Solar Orbiter spacecraft, 2023-2025, investigator (IAP): Štverák Štěpán description Every spacecraft immersed in space plasma environments significantly distorts the local conditions making measurements of the unperturbed plasma properties very difficult. Electron measurements are mostly affected by the spacecraft charging and by emissions of secondary electron populations. The main objective of the present project is to study the plasma interactions with the Solar Orbiter spacecraft and their effects on 3D electron velocity distribution functions (eVDFs) acquired by the SWA/EAS plasma detectors. We will study the local spacecraft environment by means of numerical PIC simulations and model the changes in the eVDFs as seen by the EAS sensors with respect to unperturbed ambient conditions. By comparison of the simulation results with real SWA/EAS measurements we will aim to distinguish true electron perturbations naturally caused by local kinetic plasma processes from those of the spacecraft origin. Finally, in cooperation with the instrument team, we will develop enhanced data calibration techniques and implement them to public SWA/EAS scientific data products. close |
GA ČR GA23-06749S, Heat waves as three-dimensional phenomena, 2023-2025, investigator (IAP): Lhotka Ondřej description Heat waves are considered as one of the largest hazards related to climate change. Initial studies using one-dimensional station data were gradually supplemented by papers employing more advanced two-dimensional products, i.e. station data interpolated into a regular grid. They allowed capturing spatial patterns of heat waves but lacked the ability to identify vertical air mass characteristics. Besides radiative heating of the surface during clear-sky conditions, heat wave characteristics are also determined by a horizontal advection and an adiabatic heating during air subsidence – the processes that require data from free atmosphere to be analysed. In order to advance in knowledge of heat waves’ mechanisms, we propose this project which aims to study atmospheric circulation and land–atmosphere coupling as a joint driver governing heat waves in three-dimensional space. The state-of-the-art ERA5 reanalysis and CORDEX regional climate models will be employed to achieve project aims defined below. close |
AV ČR L100422251, , 2023-2025, investigator (IAP): Huth Radan |
European Commission HORIZON 2022 101081835, , 2023-2024, investigator (IAP): Obrazová (Burešová) Dalia |
SAV-23-02, Bilaterální spolupráce, Institute of Experimental Physics, SAS SAV-23-02, , 2023-2024, investigator (IAP): Chum Jaroslav |
GA ČR GA22-10775S, Analysis of plasma waves and dust grain impacts observed by RPW-TDS instrument on the Solar Orbiter spacecraft, 2022-2024, investigator (IAP): Souček Jan description Solar Orbiter, an ESA-NASA mission to study physical processes in the solar corona and in the solar wind, was successfully launched in February 2020. The Time Domain Sampler (TDS) module on this spacecraft has been developed at the Institute of Atmospheric Physics (IAP) in Prague. It has been designed for electromagnetic measurements between 1 kHz and 200 kHz. The proposed project is focused on the scientific exploitation of the data from TDS taken during an early operational phase when the spacecraft encounters several perihelia. The effort will be focused on the study of higher frequency plasma waves, e.g. Langmuir and ion acoustic waves, resolved in the TDS data, with the objective to understand their origin, dynamics and interaction with plasma particles. We will also study the properties of dust grains impacting the spacecraft based on their characteristic signatures in electric field measurements. The project includes the planning and preparation of instrument operations and updates to TDS flight software. close |
GA ČR GA22-24920S, Links between weather, epidemics, and seasonal mortality patterns, 2022-2024, investigator (IAP): Kyselý Jan description Relationships between weather and human health are very complex. Many studies have shown a typical seasonal pattern of mortality, with its maximum in the cold period and minimum in summer. It remains unclear, however, to what extent seasonality of mortality can be explained by direct effects of winter weather and to what extent other factors are important, such as incidence of acute respiratory diseases (until recently, mainly seasonal influenza epidemics). This topic has become even more relevant in connection with the ongoing COVID-19 pandemic, which caused unprecedented excess mortality in 2020 and 2021.
The aim of the project is to assess historical connections between weather variability, seasonal patterns of mortality, and the occurrence of acute respiratory infections in temperate climate conditions. Special emphasis will be given to how these patterns have been affected by the COVID-19 pandemic. close |
TA ČR TM03000027, GNSS Accuracy in Dependence On Ionospheric Dynamics and presence of disturbances, 2022-2024, investigator (IAP): Urbář Jaroslav description Precise monitoring of ionospheric conditions to establish accuracies of GNSS measurements mainly during the periods with the MSTID and ionospheric scintillation occurrence. Development of actual MSTID effects mitigation algorithms for implementation into the GNSS receiver firmware to lower positioning errors. close |
CONICET-22-02 - AV ČR - Argentina project, , 2022-2024, investigator (IAP): Chum Jaroslav |
CNR-22-25 - AV ČR - CNR Itálie, , 2022-2024, investigator (IAP): Popová Jana |
European Commission HORIZON - 101081772, , 2022-2023, investigator (IAP): Santolík Ondřej |
ESA 4000139126/22/ES/CM , , 2022, investigator (IAP): Grison Benjamin |
HORIZON 2020, PITHIA-NRF 101007599, Plasmasphere Ionosphere Thermosphere Integrated Research Environment and Access services: a Network of Research Facilities, 2021-2025, investigator (IAP): Obrazová (Burešová) Dalia |
GA21-07954S, Varying atmospheric variability, 2021-2024, investigator (IAP): Pejchová Plavcová Eva, team: Beranová, R., Dubrovský, M., Huth, R., Kašpar, M., Krauskopf, T., Lhotka, O., Navrátilová, D., Rulfová, Z. description Long-term changes (trends) in short-term (day-to-day to intraseasonal) variability of
temperature and precipitation are examined in the Northern Extratropics, both in the observed
data and in outputs of global and regional climate models. Various characteristics of variability,
which provide complementary information, are analyzed (standard deviation, persistence, dayto-
day variations, transition probabilities, lengths of dry and wet spells). Their climatologies and
trends are compared between different dataset types (station, gridded, reanalysis) with the aim
to identify biases specific to individual dataset types. We also focus on mechanisms governing
the short-term variability, and the day-to-day temperature changes in particular, in which
atmospheric fronts are likely to play a role. We validate the short-term variability in climate
model outputs and evaluate its future projections by models. Finally, we attempt to find out
whether the anthropogenic climate change is already manifested in the recently observed
changes of variability close |
GA21-03295S, Long-term trends of anthropogenic and natural origin in the stratosphere and upper atmosphere., 2021-2023, investigator (IAP): Laštovička Jan description The increasing concentration of greenhouse gases affects the troposphere but even more the higher levels of the atmosphere, where it induces cooling. The first scenario of long-term trends in the upper atmosphere (mesosophere-thermosphere-ionosphere) was created by an international team in 2006 (Laštovička et al., 2006, Science). It has been improved but still it is not connected with trends in the stratosphere. Until recently the trends in the stratosphere and upper atmosphere were studied separately. The trends are affected also by other drivers, not
only by greenhouse gases (mainly CO2), which change in time. The project is therefore focused on various aspects of trends in the stratosphere to improve possibilities of their comparison and joining with trends in the upper atmosphere, then on removing new problems in studying ionospheric trends, on specification of temporally varying roles of various non-CO2 trend drives, and on the main aim of the project, creation of the first joint scenario of long-term trends in the stratosphere-mesosphere-thermosphere-ionosphere system. close |
ESA 4000134036/21/D/MRP, , 2021-2023, investigator (IAP): Kouba Daniel |
ESA 4000133567/20/I-BG, AO/1-9544/20/I/NS, Lidar measurements to Identify Streamers and analyse Atmospheric waves, 2021-2022, investigator (IAP): Kozubek Michal |
ESA PRODEX PEA 4000134494, , 2021-2022, investigator (IAP): Kolmašová Ivana |
SAV-21-01, Bilaterální spolupráce, Institute of Experimental Physics, SAS , , 2021-2022, investigator (IAP): Chum Jaroslav |
ESA PRODEX 4000134835 Contract ML, , 2021-2022, investigator (IAP): Souček Jan |
ESA 40000136050/21/NL/AT, , 2021-2022, investigator (IAP): Grison Benjamin |
AV ČR Strategie AV21/23, , 2020–2024, investigator (IAP): |
TAČR SS02030040, PERUN - Prediction, Evaluation and Research for Understanding National sensitivity and impacts of drought and climate change for Czechia, 2020-2026, lead investigator: Tolasz, R. (ČHMÚ), investigator (IAP): Sokol Zbyněk, team: Beranová, R., Bližňák, V., Kašpar, M., Müller, M., Pokorná, L., Rulfová, Z., Zacharov, P., Řezáčová, D., Kvak, R. |
HORIZON 2020, EUROPLANET 2024, projekt EPN2024-RI, ID 871149, EUROPLANET 2024, 2020-2024, investigator (IAP): Souček Jan description Investing in space infrastructures such as in the Copernicus and Galileo programmes, Europe has historically been at the forefront of space exploration. The Commission has made ambitious proposals for the period 2021–2027. These include a dedicated Space programme for a total of EUR 16 billion. It is within this context the EU-funded EPN-2024-RI will provide infrastructure necessary to address the major scientific and technological challenges facing modern planetary science. Its aim is to ensure Europe’s position is at the forefront of space exploration. To do this, the project will provide Transnational Access (TA) to an enhanced set of world-leading field and laboratory facilities, Virtual Access (VA) to state-of-the-art data services and tools linked to the European Open Science Cloud (EOSC), and Networking Activities (NA) to widen the user base and draw in new partners from around the world.close |
TAČR SS01020366, ERS - Using remote sensing to assess negative impacts on rainstorms, 2020-2024, investigator (IAP): Bližňák Vojtěch, team: Pokorná, L., Kašpar, M. |
COST CA19139, Process-based models for climate impact attribution across sectors (PROCLIAS), 2020-2024, investigator (IAP): Urban Aleš description Many complex process-based models are available in Europe to project future climate impacts. Yet, the current climate impact research community is fragmented, modeling mostly individual systems. The integration of climate impacts across different natural and societal sectors is only slowly emerging. Likewise, attribution of impacts to climate and other factors is still a strongly under-researched field given that climate change is already strongly manifesting itself, an increasing number of court cases dealing with climate impacts is being negotiated and policy debates on loss and damage are intensifying. This lack of coordination amongst impact modelers and insufficient awareness about impact attribution methods hampers important scientific and political progress and more coordination and networking is urgently needed. Therefore, PROCLIAS aims to develop common protocols, harmonized datasets and a joint understanding of how to conduct cross-sectoral, multi-model climate impact studies at regional and global scales allowing for attribution of impacts of recent climatic changes and robust projections of future climate impacts. The Action will do so by focusing on key interactions of climate impacts across sectors, their accumulated effect, especially of extreme events, the attribution of impacts to climate change and the quantification of uncertainties. PROCLIAS will make use of all COST networking tools to train young researchers to conduct and analyse multi-model simulations in a cross-sectoral way, to support a common platform for collecting impact model simulations and methods for analyzing them and to disseminate the data, code and results to scientists as well as, in a more synthesized form, to stakeholders. close |
AV ČR StrategieAV21/20, Water for Life - Strategy AV21, 2020-2024, investigator (IAP): Sokol Zbyněk |
TAČR CK01000048, Forecasting system of road surface condition and temperature of the Czech highways, 2020-2023, investigator (IAP): Zacharov Petr, team: Bližňák, V., Pešice, P., Sedlák, P., Sokol, Z. description The aims of the project are:
• creating a line forecast of the road surface condition (RSC) and temperature (RST) of Czech motorways and selected parts of class I roads. Apart from deterministic forecast, the prediction will include a forecast of the probability of occurrence of different RST and RSC allowing optimized winter maintenance decisions.
• an improvement of existing forecast by: (i) implementing a short-term forecast of cloudiness using satellite data, which will be used to improve the forecast of radiation fluxes,
(ii) an improvement of anthropogenic heat flux forecast caused by traffic density and which significantly affects the RST and RSC,(iii) an evaluation of forecast uncertainty based on the forecast ensemble taking into account the uncertainty in the input model dataclose |
MŠMT EF18_054/0014500, Development of Research and Development Capacities at the Institute of Atmospheric Physics CAS, 2020-2023, investigator (IAP): Nováková Alena |
GA ČR GA20-09671S, , 2020-2022, investigator (IAP): Kolmašová Ivana |
GA ČR GF20-06802L, Analysis of fine structures in auroral radio emissions, 2020-2022, investigator (IAP): Taubenschuss Ulrich |
HORIZON 2020 ID 870437, SafeSpace - Radiation Belt Environmental Indicators for the Safety of Space Assets, 2020-2022, investigator (IAP): Santolík Ondřej description Monitoring space weather events is crucial. The EU-funded SafeSpace project aims to advance space weather nowcasting and forecasting capabilities, contributing significantly to the safety of space assets through the transition of powerful tools from research to operations. This will be achieved through the synergy of five well-established space weather models. SafeSpace hopes to improve radiation belt, culminating in a prototype early warning system for detrimental space weather events, integrating information all the way from the Sun to the inner magnetosphere. Working, also, with a major European space company, SafeSpace, hopes to define indicators of particle radiation of use to space industry and spacecraft operators. close |
HORIZON 2020, ID 870452, PAGER - Prediction of Adverse effects of Geomagnetic Storms and Energetic Radiation, 2020-2022, investigator (IAP): Souček Jan description A geomagnetic storm is a major disturbance of Earth\'s magnetosphere. It occurs when there is a very efficient exchange of energy from the solar wind into the space environment surrounding Earth. Predicting these storms is vital. This is the objective of the EU-funded PAGER project, which has assembled a team of leading academic and industry experts in space weather research, space physics, empirical data modelling and space environment effects on spacecraft from Europe and the United States. The project will provide a 1-2 day probabilistic forecast of ring current and radiation belt environments. This will allow satellite operators to respond to predictions that present a threat. The most advanced codes will be used, adapted to perform ensemble simulations and uncertainty quantifications.
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MŠMT LTV20001, , 2020-2022, investigator (IAP): Kolmašová Ivana |
GAUK GAUK-400120 , Dynamics of convective storms over complex terrain in the Western Carpathians, 2020-2022, investigator (IAP): Kvak Róbert, team: Kašpar, M. |
ESA PRODEX C4000127530, , 2019-2025, investigator (IAP): Santolík Ondřej |
ESA PRODEX C4000119373, , 2019-2023, investigator (IAP): Souček Jan |
MŠMT Intercost LTC19043, Extremeness and causes of compound weather events in Central Europe, 2019-2022, investigator (IAP): Müller Miloslav, team: Kašpar, M. |
MZe QK1910029, Antecedent saturation and design rainfalls as factors of hydrological response in small catchments, 2019-2022, investigator (IAP): Kašpar Marek, team: Bližňák, V., Müller, M., Zacharov, P. |
EF15_003/0000481 CRREAT , , 2017-2022, investigator (IAP): Kolmašová Ivana, team: Santolík, O., Sokol, Z., Minářová, J., Pešice, P., Bližňák, V., Zacharov, P. |
LTAUSA 17100 LTAUSA17100, Models of thermal plasma parameters in the Earth\'s environment and their specification in real time using satellite data, 2017-2022, investigator (IAP): Truhlík Vladimír |
ESA PRODEX C4000119373, , 2017-2022, investigator (IAP): Santolík Ondřej |
ESA PRODEX C4000117599, , 2015-2022, investigator (IAP): Santolík Ondřej |
ESA 4000114275/15/NL/CB, , 2014-2022, investigator (IAP): Santolík Ondřej |