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Matta, E., Zounemat-Kermani, M., Cominola, A. and Hinkelmann., R. (2021). Machine learning in the hydro-environment: A brief review of recent applications [38]. IAHR AIRH, 681-682.


Matta, Elena and Cominola, Andrea and Zounemat-Kermani and Hinkelmann, Reinhard (2020). A review of recent applications of neurocomputing methods in urban hydraulics and hydrology [39]. First International Conference on Urban Water Interfaces (UWI). [Technische Universität Berlin, Urban Water Interfaces];, 44.

Link zur Publikation [40]

Matta, Elena (2018). Multi-dimensional flow and transport modeling of a surface water body in a semi-arid area: the case of the Icó-Mandantes Bay, Northeast Brazil [41]. TU Berlin , 102.

Link zur Publikation [42]

MaßMann,S., Jakobs,F., Sellerhoff,F., Feldmann,J., Sieker,H., Lange,C., Om,Y. & Hinkelmann,R. (2010). Hyd³Flow - Integrierte hydrologische und hydro-numerische Modellsysteme für eine verbesserte Hochwasservorhersage. [43].


Marx, C.,Soulsby, C., Hinkelmann, R., Tetzlaff, D. (2020). Stable isotope transformations in the critical zone of contrasting green spaces [44].


Marx,C., Soulsby,C., Hinkelmann,R. & Tetzlaff,D. (2020). Using stable isotopes to understand water flow paths and ages in complex urban catchments [45].


Marx, Christian and Tetzlaff, Dörthe and Hinkelmann, Reinhard and Soulsby, Chris (2020). High spatial and temporal resolution of stable water isotopes to investigate flow paths and water ages in the urban Panke catchment in the north of Berlin [46]. First International Conference on Urban Water Interfaces (UWI). [Technische Universität Berlin, Urban Water Interfaces];, 20.

Link zur Publikation [47]

Martinez-Noguez, I. and Hinkelmann, R. (2015). Land subsidence caused by a single water extraction well and rapid water infiltration [48]. Proceedings of the International Association of Hydrological Sciences, 33–38.

Link zur Publikation [49]

Martinez Noguez, Abraham Isaac (2017). Impacts of fast water infiltration in fault zones and water extraction on land subsidence [50]. Technische Universität Berlin


Martinez, N.,A.I. & Hinkelmann,R. (2009). Ground Water Replenishment by Fractured-Porous Subsurface Structures for Reducing Land Subsidence. [51].


Martinez,I.A., Hinkelmann,R. & Savidis,S. (2010). Ground Water Replenishment by Fractured-Porous Subsurface Structures for Reducing Land Subsidence. [52].


Martinez,I., Hinkelmann,R. & Savidis, S. (2010). Modelling Land Subsidence Processes Induced by Fast Rainwater Infiltration Through Fractures into the Unsaturated Zone. [53].


Martinez, I., Hinkelmann, R. & Savidis, S. (2011). Water Infiltration into Fractured-Porous Subsurface Structures and its Impacts on Land Subsidence. [54].


Martinez, I.A., Hinkelmann, R. & Savidis, S. (2011). Ground Water Replenishment by Fractured-Porous Subsurface Structures for Reducing Land Subsidence. [55].


Martinez,I., Hinkelmann,R. & Savidis,S. (2012). Numerical Simulation of Infiltration and Land Subsidence in a Two-Layered System with a Fault Zone [56].


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