TY  - CONF
AU  - Saeed, Bidar Kahnamuei
AU  - Hegedűs-Csondor, Katalin
AU  - Baják, Petra
AU  - Horváth, Ákos
AU  - Szieberth, Dénes
AU  - Czuppon, György
AU  - Vargha, Márta
AU  - Izsák, Bálint
AU  - Németh, György
AU  - Tóth, György
AU  - Erőss, Anita
TI  - Application of natural radionuclides in the hydrogeological characterization of karst system supplying the Lake Hévíz
T2  - 54. Ifjú Szakemberek Ankétja Absztraktkötet - LIV. Meeting of Young Geoscientists Book of Abstracts
PY  - 2024
SP  - 50
EP  - 51
PG  - 1
UR  - https://m2.mtmt.hu/api/publication/34804501
ID  - 34804501
LA  - English
DB  - MTMT
ER  - 

TY  - CONF
AU  - Erőss, Anita
AU  - Baják, Petra
AU  - Mezei, Máté Márk
AU  - Csiszár, E
AU  - Hegedűs-Csondor, Katalin
AU  - Izsák, Bálint
AU  - Vargha, Márta
AU  - Czuppon, György
AU  - Horváth, Ákos
TI  - Spatial and temporal variabiliy in drinking water quality in a riverbank filtered drinking water supply system
T2  - EGU General Assembly 2024 : abstracts
PB  - European Geosciences Union (EGU)
C1  - Wien
PY  - 2024
DO  - 10.5194/egusphere-egu24-13213
UR  - https://m2.mtmt.hu/api/publication/34804470
ID  - 34804470
LA  - English
DB  - MTMT
ER  - 

TY  - CONF
AU  - Saeed, BK
AU  - Hegedűs-Csondor, Katalin
AU  - Baják, Petra
AU  - Horváth, Ákos
AU  - Szieberth, Dénes
AU  - Czuppon, György
AU  - Vargha, Márta
AU  - Izsák, Bálint
AU  - Erőss, Anita
TI  - Identifying Mixing Components by Natural Tracers in the Lake Hévíz System
T2  - EGU General Assembly 2024 : abstracts
PB  - European Geosciences Union (EGU)
C1  - Wien
PY  - 2024
DO  - 10.5194/egusphere-egu24-888
UR  - https://m2.mtmt.hu/api/publication/34804459
ID  - 34804459
LA  - English
DB  - MTMT
ER  - 

TY  - CONF
AU  - Hegedűs-Csondor, Katalin
AU  - Jávorcsik, Réka
AU  - Reyana, Dawn Garcia
AU  - Baják, Petra
AU  - Kohuth-Ötvös, Viktória
AU  - Erőss, Anita
TI  - Regional groundwater flow mapping in NE Hungary – a tool to understand drinking water quality and quantity problems for sustainable resource management
T2  - EGU General Assembly 2024 : abstracts
PB  - European Geosciences Union (EGU)
C1  - Wien
PY  - 2024
SP  - EGU24-12831
UR  - https://m2.mtmt.hu/api/publication/34804442
ID  - 34804442
LA  - English
DB  - MTMT
ER  - 

TY  - CONF
AU  - Baják, Petra
AU  - Daniele, Pedretti
AU  - Csepregi, András
AU  - Muhammad, Muniruzzaman
AU  - Hegedűs-Csondor, Katalin
AU  - Erőss, Anita
TI  - Preliminary results of two-dimensional multicomponent reactive transport modelling to understand the controlling factors on uranium mobility in a siliciclastic aquifer in Hungary
T2  - EGU General Assembly 2024 : abstracts
PB  - European Geosciences Union (EGU)
C1  - Wien
PY  - 2024
SP  - EGU24-12663
UR  - https://m2.mtmt.hu/api/publication/34804431
ID  - 34804431
LA  - English
DB  - MTMT
ER  - 

TY  - CONF
AU  - Pénzes, V
AU  - Erőss, Anita
AU  - Hegedűs-Csondor, Katalin
AU  - Baják, Petra
AU  - Horváth, Ákos
AU  - Czuppon, György
TI  - Investigating the groundwater contribution to the lakes and streams by environmental tracers in the catchment area of Lake Velence (Hungary)
T2  - EGU General Assembly 2024 : abstracts
PB  - European Geosciences Union (EGU)
C1  - Wien
PY  - 2024
DO  - 10.5194/egusphere-egu24-941
UR  - https://m2.mtmt.hu/api/publication/34804353
ID  - 34804353
LA  - English
DB  - MTMT
ER  - 

TY  - CONF
AU  - Hegedűs-Csondor, Katalin
AU  - Heinz, Surbeck
AU  - Baják, Petra
AU  - Mádlné Szőnyi, Judit
TI  - Rapid field measurement of uranium in water samples
T2  - EGU General Assembly 2024 : abstracts
PB  - European Geosciences Union (EGU)
C1  - Wien
PY  - 2024
SP  - EGU24-12506
UR  - https://m2.mtmt.hu/api/publication/34804345
ID  - 34804345
LA  - English
DB  - MTMT
ER  - 

TY  - CONF
AU  - Rapai, Tibor
AU  - Baják, Petra
AU  - Lukács, András
AU  - Székely, Balázs
AU  - Erőss, Anita
TI  - Understanding near-surface hydrogeological processes around Lake Velence (Hungary) – using mesh graph neural networks on multidimensional remote sensing data
T2  - EGU General Assembly 2024 : abstracts
PB  - European Geosciences Union (EGU)
C1  - Wien
PY  - 2024
DO  - 10.5194/egusphere-egu24-5561
UR  - https://m2.mtmt.hu/api/publication/34802132
ID  - 34802132
AB  - Lake Velence is a shallow soda lake in Hungary whose water budget is mainly driven by precipitation and evaporation. The lake has shown a deteriorating tendency recently, including extremely low lake levels and poor water quality, which indicates its vulnerability against changing climatic conditions. At the same time several water usage conflicts appeared in the catchment area. Until recently, the groundwater component in the lake's water budget and the hydrogeological processes in the catchment area have not been taken into consideration. Recent hydrogeological studies, however, show groundwater discharge into the lake.  Thus, further investigating this question is of high importance, hence groundwater could reduce climatic vulnerability.
Our ongoing work aims at developing a model-based evaluation technique, utilizing all map-based geophysical information and time series of different satellite data products, having sufficient spatial resolution and providing information about parameters strongly connected to subsurface processes, showing up on the surface. The basic DEM raster layer is imported from Copernicus GLO-30 dataset, having vertical precision <4 m. The Region Of Interest is a rectangular part of the catchment area: 47.1–47.4N, 18.4–18.8E. The first segmentation of the ROI is done using elevation data combined with lithographic and soil type information, resulting in almost uniform Voronoi-like polygon tessellation, with cells classified by geostructure. Further refinement by land cover type is done using Sentinel-1 SAR data. Other fixed data of point and polygon layers are important terrain features, points of surface inflows, (known) water takeouts and monitoring wells.
The machine learning regression model has time series of measured data at all its layers, daily input from Agárd meteorological station, like precipitation, average temperature, wind speed and relative humidity. Another important input data comes from Sentinel-2 (GREEN-NIR)/(GREEN+NIR)=NDWI spectral index, available in about weekly time steps, varying between 2 days-2 weeks. A crucial feature of all remote sensing data used here is the spatial resolution being better (10 m) or similar to the resolution of the basic DEM model. During training a graph neural network is generated dynamically from the Voronoi tessellation, where cells are nodes and physical processes between neighbouring cells give edge attributes for the graph. We use rectilinear approximations for water runoff/subsurface water exchange between cells, vertical infiltration/discharge under cells and estimated evapotranspiration from them. Learnable parameters governing the intensity of these flows are connected to geostructure and land cover classes. Parameters are optimized with time interval cross validation, with one part of the time series data being left out from optimization in each epoch and used for evaluation against target water level data.
Automatic detection of spatio-temporal patterns, connected to near-surface hydrogeological processes helped visualizing and quantifying estimated physical flows. Comparison with field measurements confirmed theoretic results from MODFLOW basin modelling, proving topography as a driving factor for subsurface flows. Our model is also suitable to handle isotope tracers, and extension to deep learning model promises predictive functionality for water table level.
The research is part of a project which was funded by the National Multidisciplinary Laboratory for Climate Change, (Hungary) RRF-2.3.1-21-2022-00014.
LA  - English
DB  - MTMT
ER  - 

TY  - JOUR
AU  - Rubóczki, Tibor
AU  - Novák, Attila
AU  - Liptai, Nóra
AU  - Porkoláb, Kristóf
AU  - Molnár, Csaba
AU  - Galsa, Attila
AU  - Molnár, Gábor
AU  - Wesztergom, Viktor
AU  - Kovács, István János
TI  - The Pannon LitH2Oscope magnetotelluric array in the Pannonian Basin
JF  - ACTA GEODAETICA ET GEOPHYSICA
J2  - ACTA GEOD GEOPHYS
PY  - 2024
PG  - 26
SN  - 2213-5812
DO  - 10.1007/s40328-024-00434-1
UR  - https://m2.mtmt.hu/api/publication/34608098
ID  - 34608098
N1  - HUN-REN Institute of Earth Physics and Space Science, Sopron, Hungary            
            MTA FI Lendület Pannon LitH2Oscope Research Group, Sopron, Hungary            
            Doctoral School of Earth Sciences, Eötvös Loránd University, Budapest, Hungary            
            Department of Geophysics and Space Science, Institute of Geography and Earth Sciences, ELTE Eötvös Loránd University, Budapest, Hungary            
            Alba Regia Technical Faculty, Institute of Geoinformatics, Óbuda University, Székesfehérvár, Hungary            
            Export Date: 25 March 2024            
            Correspondence Address: Rubóczki, T.; HUN-REN Institute of Earth Physics and Space ScienceHungary; email: ruboczki.tibor@epss.hun-ren.hu
AB  - The Pannonian Basin is one of the best natural laboratories in the world to study the lithospheric response to continental extension and subsequent tectonic inversion. Here we address the topic of lithospheric structure by a combined geochemical and magnetotelluric analysis, which has been carried out in the framework of the Pannon LitH2Oscope project. The main objective was to detect the resistivity distribution over the entire lithosphere by magnetotelluric measurements, considering the lithological resistivity properties and relate the results to the structure and evolution of the Pannonian Basin. The Pannon LitH 2 Oscope MT array was used to estimate the depth of the Lithosphere-Asthenosphere Boundary (LAB), considering the legacy MT data and compared to previous estimates for the region. Using the MT and geomagnetic response functions, major structural zones of the Pannonian basin, such as the Mid-Hungarian Shear Zone or fault systems like the Makó Trough and the Békés Basin, were also imaged. In addition, we used the apparent resistivity soundings to compare 1D resistivity models computed from geochemistry and obtained from field MT measurements. This comparison provided new constrains for the composition, fluid and melt content variations at the local lithosphere-asthenosphere boundary. The Pannon LitH 2 Oscope MT dataset and the results presented in this paper provide input for more complex 3D inversions and further investigations of the lithospheric structure in the Carpathian-Pannonian region.
LA  - English
DB  - MTMT
ER  - 

TY  - JOUR
AU  - Gyollai, Ildikó
AU  - Biri, Sándor
AU  - Juhász, Zoltán
AU  - Király, Csilla
AU  - Pal, B.D.
AU  - Rácz, Richárd Péter
AU  - Rezes, Dániel
AU  - Sulik, Béla
AU  - Szabó, Máté Zoltán
AU  - Szalai, Zoltán
AU  - Szavai, P.
AU  - Szklenár, Tamás
AU  - Kereszturi, Ákos
TI  - Irradiation induced mineral changes of NWA10580 meteorite determined by infrared analysis
JF  - ASTRONOMY & ASTROPHYSICS
J2  - ASTRON ASTROPHYS
VL  - 683
PY  - 2024
PG  - 12
SN  - 0004-6361
DO  - 10.1051/0004-6361/202347467
UR  - https://m2.mtmt.hu/api/publication/34499100
ID  - 34499100
N1  - Institute for Geological and Geochemical Research, Research Centre for Astronomy and Earth Sciences, HUN-REN, Budapest, Hungary            
            HUN-REN, Institute for Nuclear Research, Debrecen, Hungary            
            Konkoly Thege Astronomical Institute, Research Centre for Astronomy and Earth Sciences, HUN-REN, Budapest, Hungary            
            Csfk, Mta Centre of Excellence Budapest, Konkoly Thege Miklós út 15-17., Budapest, 1121, Hungary            
            Eotvos Lorand University of Sciences (ELTE), Budapest, Hungary            
            Geographical Institute, Research Centre for Astronomy and Earth Sciences, HUN-REN, Budapest, Hungary            
            Department of Systems Innovation, School of Engineering, The University of Tokyo, Tokyo, Japan            
            Atomki, Institute of Nuclear Research, Debrecen, 4026, Hungary            
            Export Date: 25 March 2024            
            CODEN: AAEJA            
            Correspondence Address: Pál, B.D.; Konkoly Thege Astronomical Institute, Hungary; email: pal.bernadett@csfk.org            
            Correspondence Address: Kereszturi, A.; Konkoly Thege Astronomical Institute, Hungary; email: kereszturi.akos@csfk.org
AB  - Identifying minerals on asteroid surfaces is difficult as space weathering modifies the minerals' infrared spectra. This should be better understood for proper interpretation. We simulated the space weathering effects on a meteorite and recorded the alterations of the crystalline structure, such as the change in peak positions and full width at half maximum values. We used proton irradiation to simulate the effects of solar wind on a sample of NWA 10580 CO3 chondrite meteorites. After irradiation in three gradually increased steps with 1 keV ion energy, we used infrared microscopic reflectance and diffuse reflectance infrared Fourier transform spectroscopy (DRIFTS) to identify and understand the consequences of irradiation. We find negative peak shifts after the first and second irradiations at pyroxene and feldspar minerals, similarly to the literature, and this shift was attributed to Mg loss. However, after the third irradiation a positive change in values in wavenumber emerged for silicates, which could come from the distortion of SiO tetrahedra, resembling shock deformation. The full width at half maximum values of major bands show a positive (increasing) trend after irradiations in the case of feldspars, using IR reflection measurements. Comparing DRIFTS and reflection infrared data, the peak positions of major mineral bands were at similar wavenumbers, but differences can be observed in minor bands . We measured the spectral changes of meteorite minerals after high doses of proton irradiation for several minerals. We show the first of these measurements for feldspars; previous works only presented pyroxene, olivine, and phyllosilicates.
LA  - English
DB  - MTMT
ER  -