Colleagues
Nándor FODOR
Project leader. Supervisor of the lysimeter station. Planning and development of the AgroMo integrated modelling framework.
Zoltán BARCZA
Consortium partner (ELTE) leader. Supervisor of the FACE system. Utilization of the experimental data, optimalization of the Biome-BGCMuSo model.
Tamás ÁRENDÁS
Setting long-term field experiments, impact assessment and analysis of agrotechnical factors.
Judit BARTHOLY
Making climate projections based on GCM-RCM results. Analysis of extreme temperature and precipitation conditions, drought periods.
Zsófia BIRINYI
Investigation of wheat storage proteins by proteomic and immunoanalytical methods.
Imre CSERESNYÉS
Monitoring in situ the seasonal changes of root size and root activity, and its response to environmental effects in the frame of field experiments.
Anna FÜZY
Investigation the effects of climate change induced abiotic stress factors (atmospheric CO2 increase resulted temperature change and water scarcity) on effectiveness and infectivity of arbuscular mycorrhiza fungus.
Gyöngyvér GELL
Genetic, proteomic and immunological investigation of seed storage protein of wheat and wheat relatives.
Györgyi GELYBÓ
Field experiment measurements to create reference data for the model. Measurement of soil GHG emission, in-situ root development and leaf-level photosynthesis; analysis of these data.
László HASZPRA
Measurement of GHG concentrations, operation of the experimental environment in Hegyhátsál. Methodological bases and practical implementation of atmospheric measurements.
Dóra HIDY
Development, testing and adaptation for different environmental conditions of the model-component of the project.
Roland HOLLÓS
Designing and programing the AgroMo software, execution of national-scale simulations, development of the RBBGCMuso software.
Ferenc HORVÁTH
Testing the model developments of Biome-BGCMuSo; usage in the aspect of landscape ecology in the multi-user, on-line BBGCDB framework system environment.
Dóra ITTZÉS
Adaptation of Biome-BGCMuSo model developments into the BBGCDB framework system, providing an on-line, user-friendly interface for different experiments.
Anna KIS
Preparing climate data for AgroMo, bias-correction of climate model simulations.
Richárd KOVÁCS
Operation of IT structure, support of users. Providing IT background for climate simulations and AgroMo software. Operation of the webpage of the project.
György KRÖEL-DULAY
Operation of climate change experiment in natural grassland. Providing these collected experimental data for parameterization and validation of Biome-BGCMuSo model.
Tibor MARTON
Analysis of long-term (2020-2100) micro- and macroeconomic effects of AgroMo climate-adaptation scenarios.
Róbert MÉSZÁROS
Investigation the effects of surface ozone on plants, algorithm development.
András MOLNÁR
Assessment of climate-adaptive policy scenarios, agro-economic modelling.
Zoltán NAGY
Planning, implementation, programing and providing operation of Eddy-covariance stations. Analysis of measured data, providing input data for Biome-MGCMuSo model.
István PARÁDI
Investigation of the effects of climate change induced abiotic stress factors and mycorrhizal colonisation on plant physiological parameters.
László PÁSZTOR
Coordination of GIS works and spatial extension of model results.
Krisztina PINTÉR
Planning, programing and implementation of Eddy-covariance stations. Maintenance and calibration of stations; saving and analysis the data, making a database. Management of the eddy-covariance database.
Zsuzsanna POHNER
Investigation of the effects of climate change induced abiotic stress factors and
soil nutrient supply on substrate utilisation patterns (community level physiological profiles - CLPPs)
of rhizosphere microorganisms; root-morphology analysis.
Klára POKOVAI
Investigation of increase and development of agricultural crops based on data collected from fields, laboratory measurements and computer modeling.
Rita PONGRÁCZ
Making regional climate projections considering the new RCP scenarios, bias correction of simulation-outputs. Analysis of extreme climate conditions based on climate indices.
Imre SALMA
Investigation of the relationship between atmospheric biogenic emission and climate change, based on aerosols.
Renáta SÁNDOR
Implementation of soil surface infiltration analysis for model calibration, test of algorithms related to simulated time series, visualization of data bases.
Tünde TAKÁCS
Selection and measurement of the most appropriate microbiological and plant-physiological parameters that indicates the effects of climate change - related abiotic stress on the functionality of arbuscular mycorrhizal fungi - plant system for the model.
Group photo (13.04.2017., Conference opening, press conference)
The research was funded by the Széchenyi 2020 programme, the European Regional Development Fund and the Hungarian Government (GINOP-2.3.2-15-2016-00028).