E-mail | SIS | Moodle | Helpdesk | Knihovny | cuni.cz | CIS Více

česky | english Přihlášení



Jakub Langhammer


Charles University in Prague
Faculty of Science
Department of Physical Geography and Geoecology
Albertov 6
Prague 2
Czech Republic

Tel.: +420 221 95 1364
E-mail: jakub.langhammer@natur.cuni.cz
Office: Albertov 6, 3rd floor, room 369

Personal webpage: http://langhammer.natur.cuni.cz
 

Vice Dean of Faculty of Science, Charles University in Prague

Professor of Physical Geography at Faculty of Science, Charles University in Prague.

Head of Research Group of Hydrology, integrating hydrological research at the Department of Physical Geography and Geoecology, Founder and head of hyDRONE - research group aimed at research and applications of unmanned imaging technologies in hydrology and physical geography.

 

Research

The research focused on the impacts of landscape disturbance on runoff response and fluvial dynamics, the impact of environmental changes on the course and consequences of floods and changes of hydromorphological status of streams. Application of the hydroinformatic approaches and advanced field monitoring techniques; in particular hydrodynamic and machine learning models, automated sensor networks, applications of the UAVs (drones) and remote sensing for non-invasive surveying of hydrological processes. Applied research in risk processes modeling. 

More info...

 

ResearchGate
https://www.researchgate.net/profile/Jakub_Langhammer

ORCID
https://orcid.org/0000-0003-4039-2187

Google Scholar
https://scholar.google.cz/citations?user=EBwXqboAAAAJ

 

Profile

Graduated from Charles University in Prague in Physical Geography (1993), studied at Universite de Paris 1 – Sorbonne (1991), University of Amsterdam (1993). PhD Thesis on Mathematical Modelling of Water Quality at Charles University in Prague (1999). Post-doc stay at Université de Strasbour (2001).
Certificate in Professional Management at Open University Business School (2005). 
Associated professor of Physical Geography at Faculty of Science, Charles University in Prague (2010) - Geoinformatic analysis and modeling the risk processes in hydrology.
Full professor of Physical Geography at Charles University (since 2017) 

Since 1994 member of the department, since 2000-6 scientific secretary of the Department of Physical Geography and Geoecology at Charles University in Prague, Faculty of Science, 2006-9 deputy head of the Department. 
Award of Faculty of Science for excellent results in research management and in pedagogical activities (2004). 
Vice Dean of Faculty of Science, Charles University, responsible for Geographical Departments and information technologies (2010-16).
Since 2016 Vice Dean of Faculty of Science, Charles University, responsible for Public Relations and Information Technologies.

More info on the personal webpage.

 

Lectures

Guarantor of bachelor study programme Hydrology and Hydrogeology

Leading lectures on Floods and landscape (master), Applications of geoinformatics in physical geography (master), Water quality (master) and participating in lectures Ecology of freshwater systems (master), Modeling of physiographic processes (master). 

Lecture websites: Floods in LandscapeGeoinformatics in Physical GeographySurface Water Quality.

 

Theses

Leading PhD and Master students theses oriented in hydrology, water quality and modeling in hydrology. 7 Ph.D., 19 MSc and 20 Bc theses defended so far.

Link to Actual topics of bachelor and master theses 

Link to  Actual topics of PhD theses projects 

 

Research projects:

(selected recent projects)

Spatial and temporal dynamics of hydrometeorological extremes in montane areas
(Czech Science Foundation GAČR 19-05011S, 2019-21)

Impact of landscape disturbance on the stream and basin connectivity (EU COST Action 1306, LD15130, 2015-17, 2015-2017)
The impact of disturbance on the dynamics of fluvial processes in mountain landscapes" (Czech Science Foundation, 2012-14)
"Long-term changes of river ecosystems in floodplains affected by extreme floods" (Ministry of Environment of the Czech Rep., VaV-SM/2/57/05 , 2005-08).“
Assessment of environemtal changes impact on flood extent“ ( Czech Science Foundation, 205/03/Z046, 2003-2004);
„Modelling the nonpoint pollution sources under conditions of global change“ (COST Action 634, 2004-07, EU coordinator A-V. Auzet, ULP, Strasbourg, France),
„Soil erosion and global change“ (COST Action 623, 2002-03 EU coordinator J. Boardman, Oxford, U.K.), “Modelling the nonpoint pollution sources” ( Czech Science Foundation, 205/00/P052, 2000-03),
Evaluation of specific pollution load in Berounka river basin (GAUK 211/2001 B GEO, 2001-04).

 

Recent publications

LENDZIOCH, T., LANGHAMMER, J., SHESHADRIVASAN, V., 2023. Automated mapping of the mean particle diameter characteristics from UAV-imagery using the CNN-based GRAINet model.Journal of Hydroinformatics.  https://doi.org/10.2166/hydro.2023.079.

LANGHAMMER, J., 2023. Flood Simulations Using a Sensor Network and Support Vector Machine Model. Water 2023, 15(11), 2004; https://doi.org/10.3390/w15112004. 

LANGHAMMER, J., LENDZIOCH, T., ŠOLC, J., 2023. Use of UAV Monitoring to Identify Factors Limiting the Sustainability of Stream Restoration Projects. Hydrology, 10(2), 48; https://doi.org/10.3390/hydrology10020048. 

LENDZIOCH, T., LANGHAMMER, J., VLČEK, L., MINAŘÍK, R., 2021. Mapping the Groundwater Level and Soil Moisture of a Montane Peat Bog Using UAV Monitoring and Machine Learning. Remote Sensing. 13(5):907.

MINAŘÍK, R., LANGHAMMER, J., LENDZIOCH, T., 2020. Automatic Tree Crown Extraction from UAS Multispectral Imagery for the Detection of Bark Beetle Disturbance in Mixed Forests. Remote Sensing. 2020, 12, 4081. (IF 4.509)

LANGHAMMER, J., BERNSTEINOVÁ, J., 2020. Which Aspects of Hydrological Regime in Mid-Latitude Montane Basins Are Affected by Climate Change?. Water, 12(8), 2279. IF=2.544

HARTVICH, F., TÁBOŘÍK, P., ŠOBR, M., JANSKÝ, B., KLIMENT, Z., & LANGHAMMER, J. (2020). Landslide‐dammed lake sediment volume calculation using waterborne ERT and SONAR profiling. Earth Surface Processes and Landforms. 45: 3463– 3474.

MINAŘÍK, R.; LANGHAMMER, J.; HANUŠ, J., 2019. Radiometric and Atmospheric Corrections of Multispectral µMCA Camera for UAV Spectroscopy. Remote Sensing. 2019, 11, 2428. DOI: 10.3390/rs11202428. IF=4.118

SU, Y.; SHAO, W.; VLČEK, L.; LANGHAMMER, J., 2019. Ecohydrological Behaviour of Mountain Beech Forest: Quantification of Stomatal Conductance Using Sap Flow Measurements. Geosciences 2019, 9, 243.

LANGHAMMER, J., 2019. UAV Monitoring of Stream Restorations. Hydrology, 6(2), 29; doi:10.3390/hydrology6020029

LENDZIOCH, T., LANGHAMMER, J., JENICEK, M.. 2019. Estimating Snow Depth and Leaf Area Index Based on UAV Digital Photogrammetry. Sensors 2019, 19(5), 1027; doi:10.3390/s19051027. IF=3.031

LANGHAMMER, J., JANSKÝ, B., KOCUM, J., MINAŘÍK, R., 2018. 3-D reconstruction of an abandoned montane reservoir using UAV photogrammetry, aerial LiDAR and field survey. Appl. Geogr. 98, 9–21. IF=3.117

SHAO, W., SU, Y., YANG, Z., MA, X., LANGHAMMER, J., 2018. Quantify the Pore Water Velocity Distribution by a Celerity Function. Geofluids 2018. https://doi.org/10.1155/2018/1054730 IF=2.540

LANGHAMMER, J., VACKOVÁ, T., 2018. Detection and Mapping of the Geomorphic Effects of Flooding Using UAV Photogrammetry. Pure and Applied Geophysics. Online first. DOI:10.1007/s00024-018-1874-1 IF = 1.652

LANGHAMMER, J., BERNSTEINOVÁ, J., MIŘIJOVSKÝ, J., 2017. Building a High-Precision 2D Hydrodynamic Flood Model Using UAV Photogrammetry and Sensor Network Monitoring. Water 9, 861. doi:10.3390/w9110861 IF=2.524

SHAO,W., SU, Y., LANGHAMMER, J., 2017. Simulations of coupled non-isothermal soil moisture transport and evaporation fluxes in a forest area. Journal of Hydrology and Hydromechanics. 65(4), DOI: 10.1515/johh-2017-0038. IF = 1.654

SU, Y., LANGHAMMER, J., JARSJÖ, J., 2017. Geochemical responses of forested catchments to bark beetle infestation: Evidence from high frequency in-stream electrical conductivity monitoring. Journal of Hydrology. 550(2017), 635-649. IF = 3.737

LANGHAMMER, J., LENDZIOCH, T., MIŘIJOVSKÝ, J., HARTVICH, F., 2017. UAV-Based Optical Granulometry as Tool for Detecting Changes in Structure of Flood Depositions. Remote Sensing, 9(3), p.240. IF=4.118

LANGHAMMER, J., CESAK, J., 2016. Applicability of a Nu-Support Vector Regression Model for the Completion of Missing Data in Hydrological Time Series. Water 2016, 8(12), 560. IF=2.524

BORELLI, P., PANAGOS, P., LANGHAMMER, J., APOSTOL, B., SCHÜTT, B., 2016. Assessment of the cover changes and the soil loss potential in European forestland: First approach to derive indicators to capture the ecological impacts on soil-related forest ecosystems. Ecol. Indic. 60, 1208–1220. IF=3,444

MIŘIJOVSKÝ, J., LANGHAMMER, J., 2015. Multitemporal Monitoring of the Morphodynamics of a Mid-Mountain Stream Using UAS Photogrammetry. Remote Sensing, 7(7):8586-8609. IF=4.118

LANGHAMMER, J., SU, Y., BERNSTEINOVÁ, J., 2015. Runoff Response to Climate Warming and Forest Disturbance in a Mid-Mountain Basin,Water,7,7,3320-3342. IF=2.524

KAIGLOVÁ, J., LANGHAMMER, J., JIŘINEC, P., JANSKÝ, B., CHALUPOVÁ, D., 2015. Numerical simulations of heavily polluted fine-grained sediment remobilization using 1D, 1D+ and 2D channel schematization. Environ. Monit. Assess., 187 (3) online first.IF =1.959.

KAIGLOVÁ, J., LANGHAMMER, J., 2014. Analysis of efficiency of pollution reduction measures in rural basin using MIKE Basin model. Case study: Olšava River Basin. Journal of Hydrology and Hydromechanics, 62(1), 43-54. IF = 2.023

LANGHAMMER, J., & RÖDLOVÁ, S., 2013. Changes in water quality in agricultural catchments after deployment of wastewater treatment plant. Environmental monitoring and assessment, 185(12), 10377-10393, IF = 1.959.

LANGHAMMER, J., MATOUŠKOVÁ, M., KLIMENT, Z. 2013. Assessment of spatial and temporal changes of ecological status of streams in Czechia: a geographical approach. Geogra?e, 118, No. 4, pp. 309–333. IF = 0,540

LANGHAMMER, J., HARTVICH, F., MATTAS, D, RÖDLOVÁ, S., ZBOŘIL, A. (2012). "The variability of surface water quality indicators in relation to watercourse typology, Czech Republic." Environmental Monitoring and Assessment, (184) 3983-3999, IF = 1.959

VÁŇOVÁ, V., LANGHAMMER, J., 2011. Modelling the impact of land cover changes on flood mitigation in the upper lužnice basin. Journal of Hydrology and Hydromechanics, 59(4): 262-274, IF = 2.023

LANGHAMMER, J., 2010. Analysis of the relationship between stream regulations and the geomorphologic effects of floods. Natural Hazards, 54 (1), 121-139, IF = 2.319

LANGHAMMER,  J.,  2010. Water quality changes in the Elbe River basin, Czech Republic, in the context of the post-socialist economic transition. GeoJournal 75:185–198.

HAIS, M., JONÁŠOVÁ, M., LANGHAMMER, J., KUČERA, T., 2009. Comparison of two types of  forest disturbance using mutitemporal Landsat TM/ETM+ imagery and field vegetation data. Remote sensing of Environment. 113 (4), 835-845. IF = 4,769

LANGHAMMER, J, 2009.  Applicability of hydromorphological monitoring data to locate flood risk reduction measures: Blanice River basin, Czech Republic. Environmental Monitoring and Assessment, 152(1-4), 379-392.  IF = 1.959

LANGHAMMER J, KLIMENT Z , 2009. Water quality changes in selected rural catchments in the Czech Republic. Ekologia Bratislava 28:312–332.

KLIMENT, Z., KADLEC, J. and LANGHAMMER, J., 2008. Modelling of suspended sediment transport as a result of present land use changes: Case study of Blšanka river catchment area. . Catena, Elsevier. 73 (3) 286–299.   IF = 3.851

LANGHAMMER, J. and VILÍMEK, V., 2008. Landscape changes as a factor affecting the course and consequences of extreme floods in the Otava river basin, Czech Republic, Environmental Monitoring and Assessment. 144 (1 3): 53-66.  IF = 1.959

LANGHAMMER, J., SITAŘ, J., 2008. Modelling the impact of stream modifications on the course of extreme floods. Case study: Blanice river, flood in August 2002. Geografie - Sborník ČGS 113(3), 124-136.. IF = 0.540

HARTVICH F., LANGHAMMER J., VILÍMEK V., 2007. The 2002 flood consequences in the catchment of Otava River, Czech Republic. Water Resources. 34 (1). 14-26. IF = 0.638

 

Akce dokumentů