Property:Description of your CSDMS-related interests member

Morphodynamics  +

Mostly through the educational aspect - webinars and ongoing information/research. I want to see change in this planet before my children are fully adult. I want to see positive change and get involved as much as I can.  +

My Ph.D. research will be devoted to studying human interaction with coastal processes and general surface processes. Modeling the feedbacks between human decisions and coastal stability, and making these results/tools public for general use is a primary goal of mine.  +

My Phd project is on modelling the interaction between surface processes and tectonics  +

My area of research is urban hydrology and hydrodynamics which is completely available in csdms. Thank you  +

My broad research interests include observations and modeling of coastal hydrodynamics, morphology, and water quality. My dissertation research is an interdisciplinary topic on the observations and modeling of microbial water quality and human health implications at recreational beaches. This research effort is jointly funded by the National Institute of Environmental Health Sciences (NIEHS) and National Science Foundation (NSF), partly affiliated with Oceans and Human Health Center (OHH) at the University of Miami.  +

My current geomorphology research focuses on incision processes in soluble bedrock channels and the evolution of karst landscapes. I also study hydrogeology with a focus on karst and glacial systems.  +

My focus evolves around the process of sharing knowledge and modeling ecological uncertainty. these models are applied to solve for human-wildlife conflict. They account for a wide spectrum of variables such as ecosystem requirements, species needs, competing human objectives, and economic constraints. I work in terrestrial and coastal ecosystems.  +

My interests in CSDMS relate to measurement and modeling of fluvial and estuarine systems for the purpose of management decision support tool development.  +

My interests lie in connecting dynamics of earth surface processes with the stratigraphy. With CSDMS, I would like to work on building numerical models that translate floodplain dynamics to stratigraphy. Ultimately, these models will be compared with stratigraphic data and stratigraphic experiments.  +

My intesterst is to lean more about sediment transport and access simulation software.  +

My main interests are related to river network modeling and topology, fluvial profiles, landscape evolution models, and divide migration.  +

My main interests lie in tectonic geomorphology and slope diffusion  +

My main objective to join CSDMS to enhance interdisciplinary skills in in the field of Hydrology and related to it.  +

My main research interests revolve around the fluvial transport of sediments on the Earth's surface, from the mechanisms of transport to the sedimentary record of the Earth history.  +

My research focus area is sediment and flood modeling. Also, GIS and Remote sensing based water management is my another area of interest.  +

My research focuses on river network modeling, particularly investigating the role of lithologic variability in controlling downstream sediment transport dynamics. I utilize the Landlab modeling framework, specifically the Network Sediment Transporter (NST) component, to simulate sediment pulse dynamics in mountain rivers. My work integrates field observations and numerical modeling to improve predictions of how sediment pulses, influenced by heterogeneity in abrasion rate and density, evolve as they propagate downstream. My primary CSDMS interests align with enhancing morphodynamic modeling capabilities by incorporating: Lagrangian tracking of sediment parcels with unique lithologic characteristics. Abrasion and transport-dependent attrition processes, improving how models represent in-place wear and selective transport. Heterogeneous sediment density effects on transport efficiency, addressing limitations in existing models that assume uniform particle properties. By refining the NST model within Landlab, I aim to improve its applicability for assessing sediment flux in response to extreme sediment supply events, such as mass wasting, volcanic eruptions, and dam removals, ultimately contributing to better hazard assessment and sediment management strategies.  +

My research focuses on the understanding of fluvio-deltaic systems and the controls and mechanisms governing their formation, morphology and long-term preservation into the rock record. I combine numerical modeling and field observation to understand these systems.  +

My research interest lies in different hillslope and fluvial processes, source to sink sediment transfer processes, and numerical modelling of the landscape evolution.  +

My research interests are in climatological variability of wind-waves, and their interaction and combined influence with other oceanographic drivers of marine and coastal evolution.  +