From 7595c970f321cdcf2c5ad632765931f2722e62aa Mon Sep 17 00:00:00 2001
From: Nico Graebling <graeblin>
Date: Wed, 12 Jul 2023 18:20:05 +0200
Subject: [PATCH] Publication list from UFZ-Website + Bugfixing image locations

(solves issue #9 for now)
---
 .../publications-karsten-von-ufz-webseite.bib | 2161 ++++++++
 visgroup/content/_index.md                    |    4 +-
 visgroup/content/dataIntegration.md           |    2 +-
 visgroup/content/projects_hydro.md            |    4 +-
 visgroup/content/wayWeWork.md                 |    2 +-
 visgroup/data/dummyPublications.json          | 1255 -----
 visgroup/data/publications.json               | 4370 +++++++++++++++++
 .../layouts/partials/site-navigation.html     |    2 +-
 .../layouts/shortcodes/publication-list.html  |    6 +-
 .../static/js/publicationFormatting.js        |    1 -
 10 files changed, 6541 insertions(+), 1266 deletions(-)
 create mode 100644 publications/publications-karsten-von-ufz-webseite.bib
 delete mode 100644 visgroup/data/dummyPublications.json
 create mode 100644 visgroup/data/publications.json

diff --git a/publications/publications-karsten-von-ufz-webseite.bib b/publications/publications-karsten-von-ufz-webseite.bib
new file mode 100644
index 0000000..193c574
--- /dev/null
+++ b/publications/publications-karsten-von-ufz-webseite.bib
@@ -0,0 +1,2161 @@
+@article{Backhaus2023,
+abstract = {Im Forschungsprojekt &bdquo;WetUrban&ldquo; wurden die Grundlagen eines innovativen Modellierungskonzepts f&uuml;r urbane Wassersysteme entwickelt. Nach halbj&auml;hriger Entwicklung steht ein Prototyp des digitalen 3D-Stadtmodells Dresdens zur Verf&uuml;gung, mithilfe dessen hydrologische und hydrodynamische Prozesse simuliert und gemeinsam dargestellt werden k&ouml;nnen.},
+address = {Frankfurt/M.},
+author = {Backhaus, L and Rink, K and Novoa, D},
+issn = {1438-5716},
+journal = {Wasserwirtschaft, Wassertechnik wwt},
+keywords = {ENVINF},
+number = {5},
+pages = {10--14},
+publisher = {Deutscher Fachverlag},
+title = {{Modellbasiertes Management von Wasserextremen in urbanen Regionen}},
+url = {https://www.umweltwirtschaft.com/epaper/umw/312/epaper/5094/index.html},
+volume = {72},
+year = {2023}
+}
+@article{Bucher2023,
+abstract = {Das Open-Access-Buch bietet ein Entscheidungshilfesystem f&uuml;r die 
+Beheizung/K&uuml;hlung von Stadtteilen durch oberfl&auml;chennahe geothermische
+Ressourcen.<p><br/></p>Die Energieversorgung von Stadtquartieren
+spielt eine Schl&uuml;sselrolle bei der Erreichung der Klimaschutzziele. In
+diesem Zusammenhang bietet der geologische Raum ein grundlastf&auml;higes
+W&auml;rmepotenzial f&uuml;r die st&auml;dtische W&auml;rmeenergieversorgung. Der optimierte
+Betrieb von W&auml;rmepumpensystemen ist entscheidend f&uuml;r einen niedrigen
+Prim&auml;renergieverbrauch sowie eine effiziente und nachhaltige Nutzung der
+geothermischen Ressourcen. Die derzeitige Auslegungspraxis f&uuml;r
+geothermische Gro&szlig;anlagen basiert im Wesentlichen auf den gleichen
+Bedingungen, die f&uuml;r Einzelanlagen geschaffen wurden. Gefragt sind
+jedoch Quartiersl&ouml;sungen, die eine optimierte Anlagendimensionierung
+erm&ouml;glichen. <br/>EASyQuart entwickelt ein standortbezogenes
+Entscheidungshilfesystem f&uuml;r die Beheizung/K&uuml;hlung von
+Stadtquartieren unter Nutzung oberfl&auml;chennaher geothermischer
+Ressourcen. Die Projektergebnisse umfassen Arbeitsabl&auml;ufe,
+Bewertungskriterien und wissenschaftliche Instrumente, die helfen
+sollen, eine wirtschaftlich ung&uuml;nstige Systemdimensionierung zu
+vermeiden. Auf Basis der Ergebnisse sollen Auslegungsverfahren und
+regulatorische Rahmenbedingungen und Gesch&auml;ftsmodelle flexibilisiert
+werden.},
+address = {Open Access; Geothermische Energie; Computergest{\"{u}}tzte Methoden; Erkundung und {\"{U}}berwachung; Geb{\"{a}}udedienste; Geb{\"{a}}udeplanung; Entscheidungsmechanismen; Stadtquartierversorgung; Energieversorgung},
+author = {Bucher, A and Shao, H and Grimm, R and Sch{\"{o}}nfelder, S and Randow, J and Vienken, T and Rink, K},
+issn = {978-3-662-67139-9},
+keywords = {ENVINF,MET},
+publisher = {Springer Spektrum},
+title = {{EASyQuart - Energieeffiziente Auslegung und Planung dezentraler Versorgungsnetze von Stadtquartieren. Heizen und K{\"{u}}hlen unter Nutzung oberfl{\"{a}}chennaher geologischer Ressourcen}},
+url = {https://link.springer.com/book/9783662671399},
+year = {2023}
+}
+@incollection{Sen2023,
+abstract = {Due to the present climate crisis, the increasing frequency of the water extreme events around urban regions in river basins
+may result in drastic losses. One of the most effective preventive measures is a prior analysis of the eventual effects to comprehend the future risks of such water extremes. As well as analysis of historical impacts, the model-based management of
+water extremes have also a crucial role. Therefore, we present a 3-dimensional visual-scenario-based environmental analysis
+framework by utilising a Virtual Geographic Environment for the visualisation and the exploration of model-based management
+of hydrological events in urban regions. Within the study, we focused on the City of Dresden in eastern Germany located in the
+basin of the Elbe River. We integrated a large set of historical observation data and the results of numerical simulations to
+explore the consequences of modelled heavy precipitation events within different scenarios. Utilising a framework developed in
+Unity, the resulting visualisation of different scenarios dealing with water extremes simulated with coupled numerical models
+constitute the overall focus of this particular study. The resulting application is intended as a collaboration platform in terms
+of the knowledge transfer among domain scientists, stakeholders and the interested public.},
+address = {Virtual reality; Geographic information systems},
+author = {Åžen, {\"{O}} O and Backhaus, L and Farrokhzadeh, S and Graebling, N and Guemar, S and Kiszkurno, F K and Krebs, P and Novoa, D and Stamm, J and Kolditz, O and Rink, K},
+booktitle = {Proceedings of Workshop on Visualisation in Environmental Sciences (EnvirVis) (2023)},
+editor = {Dutta, S and Feige, K and Rink, K and Zeckzer, D},
+isbn = {978-3-03868-223-3},
+keywords = {ENVINF},
+pages = {51--60},
+publisher = {The Eurographics Association},
+title = {{A visual-scenario-based environmental analysis approach to the model-based management of water extremes in urban regions}},
+url = {https://doi.org/10.2312/envirvis.20231106},
+year = {2023}
+}
+@article{Kolditz2023,
+abstract = {Data science (digitalisation and artificial intelligence) became more 
+than an important facilitator for many domains in fundamental and
+applied sciences as well as industry and is disrupting the way of
+research already to a large extent. Originally, data sciences were
+viewed to be well-suited, especially, for data-intensive applications
+such as image processing, pattern recognition, etc. In the recent past,
+particularly, data-driven and physics-inspired machine learning methods
+have been developed to an extent that they accelerate numerical
+simulations and became directly usable for applications related to the
+nuclear waste management cycle. In addition to process-based approaches
+for creating surrogate models, other disciplines such as virtual reality
+methods and high-performance computing are leveraging the potential of
+data sciences more and more. The present challenge is utilising the best
+models, input data and monitoring information to integrate
+multi-chemical-physical, coupled processes, multi-scale and
+probabilistic simulations in Digital Twins (DTw) able to mirror or
+predict the performance of its corresponding physical twins. Therefore,
+the main target of the Topical Collection is exploring how the
+development of DTw can benefit the development of safe, efficient
+solutions for the pre-disposal and disposal of radioactive waste. A
+particular challenge for DTw in radioactive waste management is the
+combination of concepts from geological modelling and underground
+construction which will be addressed by linking structural and
+multi-physics/chemistry process models to building or tunnel information
+models. As for technical systems, engineered structures a variety of
+DTw approaches already exist, the development of DTw concepts for
+geological systems poses a particular challenge when taking the
+complexities (structures and processes) and uncertainties at extremely
+varying time and spatial scales of subsurface environments into account.},
+author = {Kolditz, O and Jacques, D and Claret, F and Bertrand, J and Churakov, S V and Debayle, C and Diaconu, D and Fuzik, K and Garcia, D and Graebling, N and Grambow, B and Holt, E and Idiart, A and Leira, P and Montoya, V and Niederleithinger, E and Olin, M and Pfingsten, W and Prasianakis, N I and Rink, K and Samper, J and Sz{\"{o}}ke, I and Sz{\"{o}}ke, R and Theodon, L and Wendling, J},
+issn = {1866-6280},
+journal = {Environmental Earth Sciences},
+keywords = {ENVINF},
+number = {1},
+pages = {art. 42},
+publisher = {Springer},
+title = {{Digitalisation for nuclear waste management: predisposal and disposal}},
+url = {http://dx.doi.org/10.1007/s12665-022-10675-4},
+volume = {82},
+year = {2023}
+}
+@incollection{Rink2023,
+abstract = {In this chapter we briefly describe information methods and technologies
+supporting geotechnical systems analyses of to large extend, i.e. using
+virtual reality methods for data and model integration (Sect. 5.1) and
+improving computational efficiency by using high-performance-computing
+techniques (Sect. 5.2).},
+address = {Cham},
+author = {Rink, K and Graebling, N and Bilke, L and Buchwald, J and Fischer, T and Lehmann, C and Meisel, T and Naumov, D and Wang, W and Yoshioka, K and Kolditz, O},
+booktitle = {SpringerBriefs in Earth System Sciences},
+editor = {Kolditz, O and Yoshioka, K and Cajuhi, T and G{\"{u}}nther, R.-M. and Steeb, H and Wuttke, F and Nagel, T},
+isbn = {9783031264924},
+keywords = {ENVINF},
+pages = {77--89},
+publisher = {Springer International Publishing},
+title = {{Hydro-mechanical Eefects and cracking in opalinus clay}},
+url = {https://doi.org/10.1007/978-3-031-26493-1_5},
+year = {2023}
+}
+@techreport{Schill2023,
+abstract = {<br/>},
+address = {Berlin},
+author = {Schill, E and Waczowicz, S and Kohl, T and Stricker, K and Bracke, R and Sass, I and Rink, K},
+booktitle = {Themen / ForschungsVerbund Erneuerbare Energien},
+editor = {Nelles, M and Baur, F and Lenz, V and Sanok, S and Schmidt, D and Krugel, G and Acksel, D and Sontheimer, T and P{\"{a}}risch, P and Hoffmann, P and Wern, B and Kotzur, L and Lin{\ss}en, J and Knebel, J and Schill, E and Jordan, M and Sch{\"{u}}wer, D and Ebert, H.-P. and B{\"{u}}ttner, B and P{\"{u}}ttner, A},
+isbn = {0939-7582},
+keywords = {ENVINF},
+number = {2022},
+pages = {96--101},
+publisher = {ForschungsVerbund Erneuerbare Energien (FVEE)},
+title = {{W{\"{a}}rmenetz-gekoppelte Speicherung im tiefen Untergrund : Forschungsinfrastrukturen, Speicherpotenziale und Netzintegration}},
+url = {http://www.fvee.de/publikationen/themenhefte/},
+volume = {2022},
+year = {2023}
+}
+@unpublished{Bracke2022,
+abstract = {Die H&auml;lfte der kommunalen W&auml;rme soll bis 2030 aus 
+klimaneutralen Quellen kommen. Zu diesem Ziel der Bundesregierung kann
+die Tiefe Geothermie einen gro&szlig;en Beitrag leisten, weil sie best&auml;ndig
+und witterungsunabh&auml;ngig lokal Energie liefert und wenig Fl&auml;che in
+Siedlungen belegt. Eine gemeinsame Roadmap von Forschenden der
+Helmholtz-Gemeinschaft und der Fraunhofer-Gesellschaft zeigt, dass Tiefe
+Geothermie ein Marktpotenzial in Deutschland besitzt, welches
+Ausbauziele von mehr als einem Viertel des j&auml;hrlichen deutschen
+W&auml;rmebedarfes (&uuml;ber 300 TWh) er&ouml;ffnet. Das Papier gibt
+Handlungsempfehlungen, um dieses Ziel zu erreichen - so brauche es klare
+Ausbauziele, gro&szlig;fl&auml;chige, geologische Erkundung, Investitionen in
+Schl&uuml;sseltechnologien und Fachkr&auml;fteaufbau.},
+address = {Fraunhofer-Institut f{\"{u}}r Umwelt-, Sicherheits- und Energietechnik (UMSICHT), Fraunhofer-Institut f{\"{u}}r Bauphysik (IBP), Helmholtz-Zentrum Potsdam Deutsches GeoForschungsZentrum (GFZ), Karlsruher Institut f{\"{u}}r Technologie (KIT), Helmholtz-Zentrum f{\"{u}}r Umweltforschung (UFZ) },
+author = {Bracke, R (Hrsg.) and Huenges, E (Hrsg.) and Acksel, D and Amann, F and Bremer, J and Bruhn, D and Bussmann, G and G{\"{o}}rke, U.-J. and Gr{\"{u}}n, G and Hahn, F and Han{\ss}ke, A and Kohl, T and Kolditz, O and Regenspurg, S and Reinsch, T and Rink, K and Sass, I and Schill, E and Schneider, C and Shao, H and Teza, D and Thien, L and Utri, M and Will, H},
+keywords = {ENVINF},
+pages = {21},
+publisher = {Fraunhofer-Einrichtung f{\"{u}}r Energieinfrastrukturen und Geothermie (IEG)},
+title = {{Roadmap tiefe Geothermie f{\"{u}}r Deutschland - Handlungsempfehlungen f{\"{u}}r Politik, Wirtschaft und Wissenschaft f{\"{u}}r eine erfolgreiche W{\"{a}}rmewende. Strategiepapier von sechs Einrichtungen der Fraunhofer-Gesellschaft und der Helmholtz-Gemeinschaft}},
+url = {https://www.ieg.fraunhofer.de/content/dam/ieg/documents/Roadmap Tiefe Geothermie in Deutschland FhG HGF 02022022.pdf},
+year = {2022}
+}
+@article{Bremer2022,
+address = {Bonn},
+author = {Bremer, J and Kohl, T and Rudolph, B and Schill, E and Zimmermann, G and Milsch, H and Sass, I and Rink, K and Shao, H and Kolditz, O and R{\"{u}}haak, W and Sch{\"{u}}th, C},
+issn = {1611-1478},
+journal = {bbr : Leitungsbau, Brunnenbau, Geothermie},
+keywords = {ENVINF},
+number = {12},
+pages = {66--71},
+publisher = {Wirtschafts- und Verlagsgesellschaft Gas und Wasser},
+title = {{GeoLaB - das geowissenschaftliche Zukunftsprojekt f{\"{u}}r Deutschland}},
+volume = {73},
+year = {2022}
+}
+@article{Demir2022,
+abstract = {no abstract},
+address = {Lausanne},
+author = {Demir, I and Sermet, Y and Rink, K},
+issn = {2296-6463},
+journal = {Frontiers in Earth Science},
+keywords = {ENVINF},
+pages = {art. 1101538},
+publisher = {Frontiers Media},
+title = {{Editorial: Next generation visualization and communication systems for earth science using immersive reality and serious gaming}},
+url = {http://dx.doi.org/10.3389/feart.2022.1101538},
+volume = {10},
+year = {2022}
+}
+@article{Graebling2022,
+abstract = {High-variety earth science data is being produced at an increasing 
+velocity and accuracy to power environmental research, reinforced by the
+advancements in Internet of Things (IoT) technologies and the
+widespread deployment of internet-connected sensors. Utilizing this
+enormous data set for context-aware and on-site analysis that is
+enhanced with realistic visualizations and event dynamics transcends the
+capabilities and reach of traditional information systems for
+environmental management. So much data from diverse sources requires
+integrated and interactive solutions to allow the professionals,
+academics, decision makers, and public to perceive the complete picture
+regarding the consequences of climate change as well as the
+environmental issues revolving around a community, and to discover
+actionable knowledge upon context-informed analysis.<br/><br/>Mixed
+reality and serious gaming present an immense potential in earth
+sciences to overcome the challenges of engaging stakeholders and
+community members in decision-making and disaster preparedness,
+communicating huge environmental data within geospatial context, and
+simulating nonreplicable extreme events for evaluation. Furthermore, the
+incorporation of gamification and interaction into data exploration and
+decision-making for risk reduction and environmental management shows
+significant potential for participatory planning, collaborative
+learning, and building conceptual understanding of physical phenomena
+and processes.<br/><br/>Here, we encourage original research articles on
+the development and evaluation of virtual and augmented reality
+experiences as well as serious gaming approaches with application in the
+earth science and water resources domain. Topics of interest include,
+but are not limited to:<br/>- Disaster preparedness, mitigation, and recovery;<br/>- First-responder training and emergency response;<br/>- Hydrological data exploration and visualization;<br/>- In-situ geospatial visualizations and community scenario simulations;<br/>- Visual analytics tools and workflows for spatiotemporal data;<br/>- Participatory decision support for shared-vision planning and scientifically informed policymaking;<br/>- Public outreach and educational tools for water resources;<br/>- AI-augmented intelligent and immersive cyberinfrastructures in environmental sciences;<br/>- Next-generation hydrological information and decision support tools enhanced with immersive technologies.},
+address = {serious games; virtual reality; augmented reality; decision support systems; hydrological data management and visualization; web-based systems; emergency response; disaster management; user interfaces},
+author = {Graebling, N and Åžen, {\"{O}} O and Bilke, L and Cajuhi, T and Naumov, D and Wang, W and Ziefle, G and Jaeggi, D and Ma{\ss}mann, J and Scheuermann, G and Kolditz, O and Rink, K},
+issn = {2296-6463},
+journal = {Frontiers in Earth Science},
+keywords = {ENVINF},
+pages = {art. 946627},
+publisher = {Frontiers Media},
+title = {{Prototype of a Virtual Experiment Information System for the Mont Terri Underground Research Laboratory}},
+url = {http://dx.doi.org/10.3389/feart.2022.946627},
+volume = {10},
+year = {2022}
+}
+@article{Graebling2022a,
+abstract = {no abstract},
+address = {virtual experiment information system; visual exploration; 4D visualisation; underground research laboratory (URL); Mont Terri URL; virtual tour; interactive system; opengeosys},
+author = {Graebling, N and Åžen, {\"{O}} O and Bilke, L and Cajuhi, T and Naumov, D and Wang, W and Ziefle, G and Jaeggi, D and Ma{\ss}mann, J and Scheuermann, G and Kolditz, O and Rink, K},
+issn = {2296-6463},
+journal = {Frontiers in Earth Science},
+keywords = {ENVINF},
+pages = {art. 1026170},
+publisher = {Frontiers Media},
+title = {{Corrigendum: Prototype of a virtual experiment information system for the Mont Terri underground research laboratory}},
+url = {http://dx.doi.org/10.3389/feart.2022.1026170},
+volume = {10},
+year = {2022}
+}
+@article{Randow2022,
+abstract = {Nowadays, utilizing shallow geothermal energy for heating and cooling 
+buildings has received increased interest in the building sector. Among
+different technologies, large borehole heat exchanger arrays are widely
+employed to supply heat to various types of buildings. Recently, a
+16-borehole array was constructed to extract shallow geothermal energy
+to provide heat to a newly-developed public building in Berlin. To
+guarantee the quality of the numerical model and reveal its sensitivity
+to different subsurface conditions, model simulations were conducted for
+25 years with two finite element simulators, namely the open-source
+code OpenGeoSys and the widely applied commercial software FEFLOW. Given
+proper numerical settings, the simulation results from OpenGeoSys and
+FEFLOW are in good agreement. However, further analysis reveals
+differences with respect to borehole inflow temperature calculation
+implemented in the two software. It is found that FEFLOW intrinsically
+uses the outflow temperature from the previous time step to determine
+the current inflow temperature, which makes it capable of much faster
+simulation by avoiding iterations within a single time step. In
+comparison, OpenGeoSys always updates the inflow and outflow temperature
+based on their current time step values. Because the updates are
+performed after each iteration, it delivers more accurate results with
+the expense of longer simulation time. Based on this case study,
+OpenGeoSys is a valid alternative to FEFLOW for modeling ground source
+heat pump systems. For modellers working in this field, it is thus
+recommended to adopt small enough time step size, so that potential
+numerical error can be avoided.},
+address = {Shallow Geothermal Exploitation; Borehole Heat Exchanger; Ground Source Heat Pump; Numerical Modeling; FEFLOW; OpenGeoSys},
+author = {Randow, J and Chen, S and Lubashevsky, K and Thiel, S and Reinhardt, T and Rink, K and Grimm, R and Bucher, A and Kolditz, O and Shao, H},
+issn = {2195-9706},
+journal = {Geothermal Energy},
+keywords = {ENVINF},
+pages = {art. 1},
+publisher = {SpringerOpen},
+title = {{Modeling neighborhood-scale shallow geothermal energy utilization: a case study in Berlin}},
+url = {http://dx.doi.org/10.1186/s40517-022-00211-9},
+volume = {10},
+year = {2022}
+}
+@article{Rink2022,
+abstract = {We propose a framework for the 3D exploration of heterogeneous environmental data within a <a href="https://www.sciencedirect.com/topics/computer-science/geographical-region" title="Learn more about geographical region from ScienceDirect&#039;s AI-generated Topic Pages" class="topic-link">geographical region</a>
+of interest. Based on Unity, the system can be built for a variety of
+platforms and works both on regular machines as well as in virtual
+reality environments, where it can be considered a basis for a virtual
+geographic environment. Focussing on the catchment of the M&uuml;glitz River
+in south-eastern Germany, a large collection of observation data
+acquired via a wide range of measurement devices has been integrated in a
+geographical reference frame for the region. Results of area-wide
+numerical simulations for both groundwater and soil moisture have been
+added to the scene and allow for the exploration of the delayed
+consequences of transient phenomena such as heavy rainfall events and
+their impact on the catchment scale. This study focusses on the
+concurrent visualisation and synchronised animation of multiple area
+wide datasets from different environmental compartments. The resulting
+application allows to explore the region of interest during specific
+hydrological events for an assessment of the interrelation of processes.
+As such, it offers the opportunity for knowledge transfer between
+researchers of different domains as well as for outreach to an
+interested public.},
+address = {Environmental data; Interactive visualisation; Data integration; Virtual reality},
+author = {Rink, K and Åžen, {\"{O}} O and Hannemann, M and K{\"{o}}del, U and Nixdorf, E and Weber, U and Werban, U and Schr{\"{o}}n, M and Kalbacher, T and Kolditz, O},
+issn = {0097-8493},
+journal = {Computers and Graphics},
+keywords = {CHS,ENVINF,MET,RS},
+pages = {192--200},
+publisher = {Elsevier},
+title = {{An environmental exploration system for visual scenario analysis of regional hydro-meteorological systems}},
+url = {http://dx.doi.org/10.1016/j.cag.2022.02.009},
+volume = {103},
+year = {2022}
+}
+@article{Rink2022a,
+abstract = {The transition to renewable energy sources requires extensive changes to
+the energy system infrastructure, ranging from individual households to
+the national scale. During this transition, stakeholders must be able
+to make informed decisions, researchers need to investigate possible
+options and analyse scenarios, and the public should be informed about
+developments and options for future infrastructure. The data and
+parameters required for this are manifold and it is often difficult to
+create an overview of the current situation for a region of interest. We
+propose an environmental information system for the visualisation and
+exploration of large collections of heterogeneous data in the scope of
+energy system infrastructure and subsurface geological energy storage
+technologies. Based on the study area of Schleswig-Holstein, a federal
+state in Germany, we have set up a virtual geographic environment
+integrating GIS data, topographical models, subsurface information, and
+simulation results. The resulting application allows users to explore
+data collection within a unified context in 3D space, interact with
+datasets, and watch animations of selected simulation scenarios to gain a
+better understanding of the complex interactions of processes and
+datasets. Based on the cross-platform game engine Unity, our framework
+can be used on regular PCs, head-mounted displays, and virtual reality
+environments and can support domain scientists during assessment and
+exploration of the data, encourages discussions and is an effective
+means for outreach activities and presentations for stakeholders or the
+interested public},
+address = {Scientific visualisation; Energy system infrastructure; Energy storage; Heat demand density; CAES; ATES; Knowledge transfer},
+author = {Rink, K and Åžen, {\"{O}} O and Schwanebeck, M and Hartmann, T and Gasanzade, F and Nordbeck, J and Bauer, S and Kolditz, O},
+issn = {2195-9706},
+journal = {Geothermal Energy},
+keywords = {ENVINF},
+pages = {art. 4},
+publisher = {SpringerOpen},
+title = {{An environmental information system for the exploration of energy systems}},
+url = {http://dx.doi.org/10.1186/s40517-022-00215-5},
+volume = {10},
+year = {2022}
+}
+@article{Rink2022b,
+abstract = {no abstract},
+author = {Rink, K and Feige, K and Scheuermann, G},
+issn = {0097-8493},
+journal = {Computers and Graphics},
+keywords = {ENVINF},
+pages = {A4--A5},
+publisher = {Elsevier},
+title = {{Editorial: Special section on visualization in environmental sciences}},
+url = {http://dx.doi.org/10.1016/j.cag.2022.04.011},
+volume = {104},
+year = {2022}
+}
+@article{Ziefle2022,
+abstract = {To enable safe geological storage of high-level radioactive waste, a 
+comprehensive understanding of the overall system must include relevant
+physical processes, geological and geotechnical boundary conditions. In
+the Mont Terri Rock Laboratory (Switzerland) the Cyclic Deformation
+(CD-A) experiment has been established with the excavation of the two
+twin niches in the year 2019. To study the impact of the different
+climatic conditions on the hydraulic and mechanical processes in the
+claystone, an extensive investigation program has been carried out. As
+part of the CD-A experiment, we present here a multidisciplinary
+interpretation including geological characterisation, geodetic and
+geotechnical measurements, numerical modelling and visualisation
+techniques. The period under consideration runs between September 2019
+and March 2021. Geological mappings illustrate different zones of
+tectonically induced faulted rock in the sandy facies of the Opalinus
+Clay and laserscans conducted at regular intervals show small
+convergence of the niches. While the deformation around the open niche
+tends to continue, extensometer measurements around the closed twin
+indicate a reduced deformation after the first months. First coupled
+hydraulic-mechanical simulations demonstrate that the numerical approach
+is capable of reproducing the hydro-mechanical behaviour qualitatively,
+including the extent of the desaturated zone. The application of
+state-of-the-art visualisation techniques allows simultaneous evaluation
+and comparison of geological features, measurements and simulation
+results. This holistic approach - discussed here exemplary for the
+mechanical effects - provides a valuable basis for the rating of the
+impact of geologic structures, material heterogeneities, and climatic
+conditions on the Opalinus Clay. Thus, it can be a valuable component
+for the safe construction and operation of a repository and for the long
+term safety assessment.},
+address = {Mont Terri CD-A experiment; Coupled hydraulic-mechanical effects; Geology; Convergence measurements; Numerical modelling (OpenGeoSys); Visualisation},
+author = {Ziefle, G and Cajuhi, T and Graebling, N and Jaeggi, D and Kolditz, O and Kunz, H and Ma{\ss}mann, J and Rink, K},
+issn = {2352-3808},
+journal = {Geomechanics for Energy and the Environment},
+keywords = {ENVINF},
+pages = {art. 100325},
+publisher = {Elsevier},
+title = {{Multi-disciplinary investigation of the hydraulic-mechanically driven convergence behavior: CD-A twin niches in the Mont Terri Rock Laboratory during the first year}},
+url = {http://dx.doi.org/10.1016/j.gete.2022.100325},
+volume = {31},
+year = {2022}
+}
+@incollection{Bilke2021,
+abstract = {<!--[if gte mso 9]><xml>
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+address = {Cham},
+author = {Bilke, L and Fischer, T and Naumov, D and P{\"{o}}tschke, D and Rink, K and Sattari, A S and Schmidt, P and Wang, W and Yoshioka, K},
+booktitle = {Terrestrial Environmental Sciences},
+editor = {Kolditz, O and G{\"{o}}rke, U.-J. and Konietzky, H and Ma{\ss}mann, J and Nest, M and Steeb, H and Wuttke, F and Nagel, T},
+isbn = {978-3-030-61908-4},
+keywords = {ENVINF},
+pages = {243--254},
+publisher = {Springer Nature},
+title = {{Code descriptions}},
+url = {http://dx.doi.org/10.1007/978-3-030-61909-1_7},
+year = {2021}
+}
+@article{Dutta2021,
+address = {Geneva},
+author = {Dutta, S and Feige, K and Rink, K and Zeckzer, D},
+issn = {978-3-03868-148-9},
+keywords = {ENVINF},
+pages = {67},
+publisher = {The Eurographics Association},
+title = {{Proceedings EnvirVis 2021. Workshop on Visualisation in Environmental Sciences, Zurich, Switzerland, (Virtual Conference), June 14, 2021}},
+url = {http://dx.doi.org/10.2312/envirvis.20212010},
+year = {2021}
+}
+@article{Kahnt2021,
+abstract = {<p class="abstract-content show-no-js grid-container"></p><p id="d1e239">Within
+the framework of the &ldquo;Gesetz zur Suche und Auswahl eines Standortes f&uuml;r
+ein Endlager f&uuml;r hochradioaktive Abf&auml;lle&rdquo; (Repository Site Selection
+Act &ndash; StandAG), the geoscientific and planning requirements and criteria
+for the site selection for a repository for high-active nuclear waste
+are specified. This includes, among others, the modelling of
+hydrogeological scenarios such as how future cold and warm periods and
+associated glaciation events can change the (petro-)physical properties
+specified in the StandAG as well as the natural hydrogeological
+properties of the overall system through, for example, reactivation of
+faults or changes in hydraulic gradients and consequently flow
+directions.</p><p id="d1e242">The main objective of the AREHS (Effects
+of Changing Boundary Conditions on the Development of Hydrogeological
+Systems) project, funded by BASE (Federal Office for the Safety of
+Nuclear Waste Management; FKZ 4719F10402), is to model the effects of
+changing external boundary conditions on the hydrogeologically relevant
+parameters and effects (e.g. hydraulic permeability, porosity, migration
+pathways, fluid availability, hydraulic gradients) of a generic
+geological repository in Germany in all three potential host rocks
+(clay, salt and crystalline rocks) and its surrounding hydrogeological
+setting (Table 1). Special attention is paid to the cyclic mechanical
+loading and unloading due to glaciation events and the resulting stress
+changes (M), as well as induced temperature effects (T) due to
+permafrost and warm periods. As such processes can cause changes in the
+coupled far-field regime with groundwater flow and groundwater supply
+(H), as well as fluid transport due to thermal (T) and chemical (C)
+gradients, and reactivate faults/fractures (M) and thus create
+new/additional pathways, they are particularly relevant to the integrity
+of a repository over a period of 1 million years and must be properly
+captured with coupled THM(C) modelling. Before a model is set up for the
+different host rocks, a detailed assessment of relevant processes has
+been conducted based on NEA-2019 FEP catalogue (NEA, 2019) for
+high-level waste repositories.</p><p id="d1e245"><span id="page176"></span>The
+modelling is performed using generic 3D models of typical host rock
+formations satisfying the StandAG criteria. Although the models for salt
+and clay rock have been adapted from generic models from recent
+research projects, for crystalline rock a new generic model had to be
+developed (Fig. 1) considering discontinuities of different scales that
+have to be incorporated into the THM(C) models explicitly as DFN
+(Discrete Fracture Network) networks. This is done by coupling two
+numerical codes: DFN-lab and 3DEC.</p><p id="d1e248">A central phase in
+the overall modelling process is the benchmarking of the models with
+data from existing models and with field-scale studies. This is done
+separately for all three host rocks.</p><p id="d1e251">In addition to
+extending the modelling capacities for glaciation processes and
+verifying by corresponding benchmarking tests (analytical solutions and
+literature comparisons), automated workflows have been developed to
+generate OpenGeoSys models from GOCAD structure models. Script-based
+automated workflows improve software quality for site investigation,
+especially in a sense of modularization as well as reproducibility. The
+generic workflow concept is currently being tested for the
+literature-based benchmarks and will, therefore, support a persistent
+and sustainable benchmarking procedure in the future.</p><p></p>},
+author = {Kahnt, R and Konietzky, H and Nagel, T and Kolditz, O and Jockel, A and Silbermann, C B and Tiedke, F and Meisel, T and Rink, K and Wang, W and Zill, F and Carl, A and Gabriel, A D and Schlegel, M and Abraham, T},
+issn = {2749-4802},
+journal = {Safety of Nuclear Waste Disposal},
+keywords = {ENVINF},
+pages = {175--177},
+publisher = {Copernicus Publications},
+title = {{AREHS: effects of changing boundary conditions on the development of hydrogeological systems: numerical long-term modelling considering thermal–hydraulic–mechanical(–chemical) coupled effects}},
+url = {http://dx.doi.org/10.5194/sand-1-175-2021},
+volume = {1},
+year = {2021}
+}
+@article{Kolditz2021,
+abstract = {The present paper gives an overview of the GeomInt project 
+&ldquo;Geomechanical integrity of host and barrier rocks&mdash;experiment, modelling
+and analysis of discontinuities&rdquo; which has been conducted from
+2017&ndash;2020 within the framework of the &ldquo;Geo:N Geosciences for
+Sustainability&rdquo; program. The research concept of the collaborative
+project is briefly introduced followed by a summary of the most
+important outcomes. The research concept puts geological discontinuities
+into the centre of investigations&mdash;as these belong to the most
+interesting and critical elements for any subsurface utilisation. Thus,
+while research questions are specific, they bear relevance to a wide
+range of applications. The specific research is thus integrated into a
+generic concept in order to make the results more generally applicable
+and transferable. The generic part includes a variety of conceptual
+approaches and their numerical realisations for describing the evolution
+of discontinuities in the most important types of barrier rocks. An
+explicit validation concept for the generic framework was developed and
+realised by specific &ldquo;model-experiment-exercises&rdquo; (MEX) which combined
+experiments and models in a systematic way from the very beginning. 16
+MEX have been developed which cover a wide range of fundamental
+fracturing mechanisms, i.e. swelling/shrinkage, fluid percolation, and
+stress redistribution processes. The progress in model development is
+also demonstrated by field-scale applications, e.g. in the analysis and
+design of experiments in underground research laboratories in Opalinus
+Clay (URL Mont Terri, Switzerland) and salt rock (research mine
+Springen, Germany).},
+address = {GeomInt; Fracture flow; Fracture mechanics; Barrier integrity; Discontinuities; Open source; OpenGeoSys},
+author = {Kolditz, O and Fischer, T and Fr{\"{u}}hwirt, T and G{\"{o}}rke, U.-J. and Helbig, C and Konietzky, H and Ma{\ss}mann, J and Nest, M and P{\"{o}}tschke, D and Rink, K and Sattari, A and Schmidt, P and Steeb, H and Wuttke, F and Yoshioka, K and Vowinckel, B and Ziefle, G and Nagel, T},
+issn = {1866-6280},
+journal = {Environmental Earth Sciences},
+keywords = {ENVINF,SUSOZ},
+number = {16},
+pages = {art. 509},
+publisher = {Springer},
+title = {{GeomInt: geomechanical integrity of host and barrier rocks – experiments, models and analysis of discontinuities}},
+url = {http://dx.doi.org/10.1007/s12665-021-09787-0},
+volume = {80},
+year = {2021}
+}
+@incollection{Rink2021,
+abstract = {We propose a Virtual Geographic Environment for the exploration of 
+hydro-meteorological events. Focussing on the catchment of the M&uuml;glitz
+River in south-eastern Germany, a large collection of observation data
+acquired via a wide range of measurement devices has been integrated in a
+geographical reference frame for the region. Results of area-wide
+numerical simulations for both groundwater and soil moisture have been
+added to the scene and allow for the exploration of the delayed
+consequences of transient phenomena such as heavy rainfall events and
+their impact on the catchment scale. Implemented in a framework based on
+Unity, this study focusses on the concurrent visualisation and
+synchronised animation of multiple area wide datasets from different
+environmental compartments. The resulting application allows to explore
+the region of interest during specific hydrological events for an
+assessment of the interrelation of processes. As such, it offers the
+opportunity for knowledge transfer between researchers of different
+domains as well as for outreach to an interested public.},
+address = {Geneva},
+author = {Rink, K and Åžen, {\"{O}} O and Hannemann, M and K{\"{o}}del, U and Nixdorf, E and Weber, U and Werban, U and Schr{\"{o}}n, M and Kalbacher, T and Kolditz, O},
+booktitle = {Workshop on Visualisation in Environmental Sciences (EnvirVis)},
+editor = {Dutta, S and Feige, K and Rink, K and Zeckzer, D},
+isbn = {978-3-03868-148-9},
+keywords = {CHS,ENVINF,MET,RS},
+pages = {51--59},
+publisher = {The Eurographics Association},
+title = {{A virtual geographic environment for the exploration of hydro-meteorological extremes}},
+url = {http://dx.doi.org/10.2312/envirvis.20211084},
+year = {2021}
+}
+@article{Wang2021,
+abstract = {<!--[if gte mso 9]><xml>
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+<w:LsdException Locked="false" Priority="9" SemiHidden="true"
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+address = {Finite element numerical model; DECOVALEX; Thermo-Hydro-Mechanical (THM) processes; Meuse/Haute-Marne (M/HM) Underground Research Laboratory (URL); Callovo-Oxfordian (COx) claystone; Repository scale modelling; High-performance-computation; Visualisation; OpenGeoSys},
+author = {Wang, W and Shao, H and Rink, K and Fischer, T and Kolditz, O and Nagel, T},
+issn = {0013-7952},
+journal = {Engineering Geology},
+keywords = {ENVINF},
+pages = {art. 106265},
+publisher = {Elsevier},
+title = {{Analysis of coupled thermal-hydro-mechanical processes in Callovo-Oxfordian clay rock: From full-scale experiments to the repository scale}},
+url = {http://dx.doi.org/10.1016/j.enggeo.2021.106265},
+volume = {293},
+year = {2021}
+}
+@article{Ziefle2021,
+abstract = {<div class="abstract-content show-no-js grid-container"><p id="d1e366">A potential repository site for high-level radioactive waste should ensure the
+highest possible safety level over a period of one million years. In addition
+to design issues, demonstrating the integrity of the barrier is essential as
+it ensures the long-term containment of radioactive waste. Therefore, a
+multi-disciplinary approach is necessary for the characterization of the
+surrounding rock and for the understanding of the occurring physical
+processes. For site selection, however, the understanding of the respective
+system is essential as well: Do fault zones exist in the relevant area? Are
+these active and relevant for interpreting system behavior? What is the role
+of the existing heterogeneities of the claystone and how do these
+site-dependent conditions influence the physical effects? To answer these
+questions, the site-selection procedure requires underground exploration,
+which includes geophysical and geological investigations on milli- to
+decameter scales. Their results serve as the basis for numerical
+modelling. This combined, multi-disciplinary interpretation requires extensive
+knowledge of the various methods, their capabilities, limitations, and areas
+of application.</p><p id="d1e369">In the cyclic deformation (CD-A) experiment in the Mont Terri rock laboratory,
+the hydraulic&ndash;mechanical effects due to excavation and the climatic
+conditions within the rock laboratory are investigated in two niches in the
+Opalinus Clay. The twin niches differ mainly with regard to the relative
+humidity inside them, but are also characterized by different boundary
+conditions such as existing fault zones, the technical construction of the
+neighboring gallery, etc. In order to gain insights into the relevance of the
+individual influences, comparative studies are being carried out on both
+niches. The presented results provide a first insight into the initial
+experimental years of the CD-A long-term experiment and illustrate the
+benefits of multi-disciplinary investigations in terms of system understanding
+and the scale dependency of physical effects. Amongst other effects, the
+assessment of the impact of heterogeneities on the deformation behavior and
+the evolution of pore water pressure is<span id="page80"></span> very complex and benefits from
+geological interpretation and measurements of for example deformation, water
+content, and pore pressure. The numerical modeling allows statements about the
+interaction of different processes and thus enables an interpretation of the
+overall system, taking into account the knowledge gained by the
+multi-disciplinary investigation.</p></div>},
+author = {Ziefle, G and Cajuhi, T and Condamin, S and Costabel, S and Czaikowski, O and Fourri{\'{e}}re, A and Friedenberg, L and Furche, M and Graebling, N and Graupner, B and Hesser, J and Jaeggi, D and Jantschik, K and Kneuker, T and Kolditz, O and K{\"{o}}niger, F and Kunz, H and Laurich, B and Ma{\ss}mann, J and Ostertag-Henning, C and Rebscher, D and Rink, K and R{\"{u}}haak, W and Schefer, S and Schuhmann, R and Wengler, M and Wieczorek, K},
+issn = {2749-4802},
+journal = {Safety of Nuclear Waste Disposal},
+keywords = {ENVINF},
+pages = {79--81},
+publisher = {Copernicus Publications},
+title = {{From process to system understanding with multi-disciplinary investigation methods: set-up and first results of the CD-A experiment (Mont Terri rock laboratory)}},
+url = {http://dx.doi.org/10.5194/sand-1-79-2021},
+volume = {1},
+year = {2021}
+}
+@article{Dutta2020,
+abstract = {<br/>},
+address = {Geneva},
+author = {Dutta, S and Feige, K and Rink, K and Zeckzer, D},
+issn = {978-3-03868-115-1},
+keywords = {ENVINF},
+publisher = {The Eurographics Association},
+title = {{Proceedings Eurographics/EnvirVis2020. 8th Workshop on Visualisation in Environmental Sciences (EnvirVis), Norrk{\"{o}}ping, Sweden, May 25-29, 2020 (Virtual)}},
+url = {https://dblp.uni-trier.de/db/conf/envirvis-ws/envirvis-ws2020.html},
+year = {2020}
+}
+@incollection{Raith2020,
+abstract = {In the Underground Rock Laboratory Mont Terri, research has been 
+conducted for over 20 years into the storage of radioactive waste in
+Opalinus Clay. The fitness for such storage depends on the prevailing
+geological material. Experiments and multiphysics simulations
+investigate the long-term changes in the Opalinus Clay. The resulting
+data are highly multivariate, and environmental scientists visually
+analyze the data using predefined color lookup tables. The fiber
+surfaces of Raith et al. offer the researchers a new approach for visual
+analysis. However, the existing algorithm for the calculation is
+subject to certain limitations due to special cases that lead to no or
+incomplete fiber surfaces. In this paper, we improve the fiber surface
+algorithm of Raith et al., which reduces numerical errors and
+accelerates the existing algorithm. This improvement also makes it
+possible that the interactor no longer needs to be closed and convex. We
+then use the Full-Scale Emplacement Experiment to show how the improved
+algorithm can help in the visual analysis of multivariate data.},
+address = {Geneva},
+author = {Raith, F and Blecha, C and Rink, K and Wang, W and Kolditz, O and Shao, H and Scheuermann, G},
+booktitle = {Proceedings Eurographics/EnvirVis2020. Workshop on Visualisation in Environmental Sciences (EnvirVis), Norrk{\"{o}}ping, Sweden, May 25-29, 2020 (Virtual)},
+editor = {Dutta, S and Feige, K and Rink, K and Zeckzer, D},
+isbn = {978-3-03868-115-1},
+keywords = {ENVINF},
+pages = {9--16},
+publisher = {The Eurographics Association},
+title = {{Visual analysis of a full-scale-emplacement experiment in the Underground Rock Laboratory Mont Terri using fiber surfaces}},
+url = {http://dx.doi.org/10.2312/envirvis.20201093},
+year = {2020}
+}
+@article{Rink2020,
+abstract = {We propose a visualisation framework for data exploration, analysis and 
+presentation of complex hydrological studies in large catchments. This
+furthers a deeper understanding of the interrelations between the
+included datasets, allows for discussions among researchers from
+different disciplines and is the basis for illustrating complex
+phenomena to stakeholders or the interested public. Based on the
+162,000 km<sup>2</sup> catchment of Poyang Lake, the largest freshwater
+lake in China, we developed a Virtual Geographic Environment that
+combines a wide range of 2D and 3D observation data sets with simulation
+results from both an OpenGeoSys groundwater model and a COAST2D
+hydrodynamic model visualising water and solute dynamics within and
+across hydrologic reservoirs. The system aims for a realistic
+presentation of the investigation area and implements approaches of
+scientific visualisation to illustrate interesting aspects of
+multi-variate data in intuitive ways. It employs easy-to-learn
+interaction techniques for navigation, animation, and access to linked
+data sets from external sources, such as time series data or websites,
+to function as an environmental information system for any region of
+interest.},
+address = {Environmental information system; Virtual reality; OpenGeoSys; Water resources management; Poyang Lake},
+author = {Rink, K and Nixdorf, E and Zhou, C and Hillmann, M and Bilke, L},
+issn = {0022-1694},
+journal = {Journal of Hydrology},
+keywords = {ENVINF},
+pages = {art. 124507},
+publisher = {Elsevier},
+title = {{A virtual geographic environment for multi-compartment water and solute dynamics in large catchments}},
+url = {http://dx.doi.org/10.1016/j.jhydrol.2019.124507},
+volume = {582},
+year = {2020}
+}
+@article{Yan2020,
+abstract = {With the development of remote sensing and large-scale environmental 
+modelling, large amount of environmental data are continuously becoming
+available. An intuitive and comprehensive visualization of these data
+could facilitate data exploration, communication and collaboration
+between the stakeholders for informed decisions making. In Poyang lake
+basin regions, we demonstrate how to develop a software platform that
+can visualize three-dimensionally environmental data layers including
+terrain, weather, river net, water level, land use changes and
+interrelations between these data layers for environmental system
+monitoring and decision supporting. The tool is built by combining
+several prevailing projects including Unity, Paraview, and hydrological
+models, etc. We develop an open standardized framework for the software
+tool to host environmental data layers permitting the application of the
+tool, which could be employed for the intuitive and comprehensive data
+visualization in other regions facing environmental challenges.},
+address = {Environmental information system; Intuitive visualization; Poyang lake basin; Unity 3D; Data layer integration},
+author = {Yan, C and Rink, K and Bilke, L and Zhao, G and Yue, T and Kolditz, O},
+issn = {1865-0473},
+journal = {Earth Science Informatics},
+keywords = {ENVINF},
+number = {3},
+pages = {901--913},
+publisher = {Springer},
+title = {{A three-dimensional software framework for environmental system monitoring and decision support in Poyang lake basin}},
+url = {http://dx.doi.org/10.1007/s12145-020-00480-7},
+volume = {13},
+year = {2020}
+}
+@incollection{Kolditz2019,
+abstract = {The overall objective of the project was the development of water 
+management system solutions for a sustainable improvement of water
+quality in the city of Chaohu and in the Chao Lake. The Urban Water
+Resources Management (UWRM) concept is the innovative approach, which
+includes both efficient urban water management in urban and suburban
+areas, as well as interaction with aquatic ecosystems. Data and models
+for planning purposes and regional water management are made available
+by using a comprehensive online environmental information system for
+authorities and water suppliers. The Chao Lake plays a central role as
+an ecological and economic protection and raw water supplier for the
+drinking water supply of the population of the city of Chaohu. The
+research and development project (R&amp;D Project) thus makes an
+important contribution to the sustainable development of the Chaohu
+region as part of the Masterplan Ecological Seascape Chaohu of the Anhui
+Provincial Government. The scientific and technical solutions are
+implemented in demonstration projects.},
+address = {Cham},
+author = {Kolditz, O and Berendonk, T U and Chen, C and Fuchs, L and Haase, M and Jungmann, D and Kalbacher, T and Krebs, P and Moldaenke, C and M{\"{u}}ller, R and Neubert, F and Rink, K and Rinke, K and Sachse, A and Walther, M},
+booktitle = {Terrestrial Environmental Sciences},
+editor = {Sachse, A and Liao, Z and Zhu, W and Dai, X and Kolditz, O},
+isbn = {978-3-319-97567-2},
+keywords = {ENVINF,SEEFO,UBZ},
+pages = {35--85},
+publisher = {Springer Nature},
+title = {{Managing water resources for urban catchments}},
+url = {http://dx.doi.org/10.1007/978-3-319-97568-9_2},
+year = {2019}
+}
+@article{Kolditz2019a,
+abstract = {no abstract},
+author = {Kolditz, O and Rink, K and Nixdorf, E and Fischer, T and Bilke, L and Naumov, D and Liao, Z and Yue, T},
+issn = {2095-8099},
+journal = {Engineering},
+keywords = {ENVINF},
+number = {5},
+pages = {828--832},
+publisher = {Elsevier},
+title = {{Environmental information systems: Paving the path for digitally facilitated water management (Water 4.0)}},
+url = {http://dx.doi.org/10.1016/j.eng.2019.08.002},
+volume = {5},
+year = {2019}
+}
+@incollection{Neubert2019,
+abstract = {The previous chapters gave detailed insight into the collection of 
+environmental data and the use of that data for purposes such as
+determining and improving water quality, dealing with extreme weather
+events, or the planning of waste water management systems. However,
+adequate visualisation techniques are required to communicate the
+significance of this work and the consequences of research results to
+stakeholders or laymen. In addition, sustainable management of water
+resources requires well-engineered software solutions that can be
+operated by regional authorities and operating companies. To this end,
+the &ldquo;Urban Catchments&rdquo;-project includes the adaption and adjustment of
+software frameworks for the region around Chao Lake.},
+address = {Cham},
+author = {Neubert, F and Haase, M and Rink, K and Kolditz, O},
+booktitle = {Terrestrial Environmental Sciences},
+editor = {Sachse, A and Liao, Z and Zhu, W and Dai, X and Kolditz, O},
+isbn = {978-3-319-97567-2},
+keywords = {ENVINF},
+pages = {207--229},
+publisher = {Springer Nature},
+title = {{WP-D: Environmental information system}},
+url = {http://dx.doi.org/10.1007/978-3-319-97568-9_6},
+year = {2019}
+}
+@incollection{Yan2019,
+abstract = {With the rapid development of remote sensing, and earth observation 
+technology, increasingly huge amount of geospatial data became
+available. These data enables the monitoring and evaluation of the
+environment and provides data source for numerous environment models,
+which in turn generate huge simulation results data. Utilization of
+both, remote sensing data and simulation results will be of great value
+for environmental related researchers, the public and local governments
+to support relevant research and environmental related decision- making
+processes. With these data, the government could establish the
+scientific rules for the exploitation and utilization of resources, to
+maintain the sustainable development of local economy and society.
+However, these data are heterogeneous and complex, exist in a variety of
+formats and is difficult to understand and analyze. Therefore, it is
+essential to build a system, which can integrate these data in a unified
+context, combine the relevant data sets, and present these data in an
+intuitive way.},
+address = {Cham},
+author = {Yan, C and Rink, K and Bilke, L and Nixdorf, E and Yue, T X and Kolditz, O},
+booktitle = {Terrestrial Environmental Sciences},
+editor = {Yue, T X and Nixdorf, E and Zhou, C and Xu, B and Zhao, N and Fan, Z and Huang, X and Chen, C and Kolditz, O},
+isbn = {978-3-319-97724-9},
+keywords = {ENVINF},
+pages = {293--308},
+publisher = {Springer Nature},
+title = {{Virtual geographical environment-based environmental information system for Poyang Lake Basin}},
+url = {http://dx.doi.org/10.1007/978-3-319-97725-6_18},
+year = {2019}
+}
+@inproceedings{Ziefle2019,
+abstract = {Claystone is a potential host rock for the longterm storage of highly radioactive waste. This type of rock is characterised by a complex, highly-coupled hydraulic-mechanical behavior. The physical understanding of the related effects is of great importance to understand the stability and the integrity of a potential repository. The CD-A experiment addresses these effects in the Mont Terri underground rock labora-tory (Switzerland). A comparison of the processes in two parallel niches will be car-ried out: one niche is characterized by effects due to seasonal desaturation whereas desaturation effects are minimized for the other by maintaining a constant high hu-midity. A comprehensive measuring program as well as numerical simulations (OGS, CodeBright) are planned to investigate the impact of the humidity on the seasonal and longterm deformation behavior.<br/><br/>Ein komplexes, stark gekoppeltes hydraulisch-mechanisches Verhalten ist charakte-ristisch f&uuml;r Tonstein. Zur Beurteilung von Standsicherheitsfragen ebenso wie f&uuml;r die Langzeitsicherheit eines potentiellen Endlagers f&uuml;r hochradioaktive, W&auml;rme entwi-ckelnde Abf&auml;lle ist das physikalische Verst&auml;ndnis dieser Effekte unerl&auml;sslich. Im CD-A Experiment im Felslabor Mont Terri (Schweiz) werden vergleichende Untersuchun-gen in zwei Nischen mit verschiedenen klimatischen Bedingungen durchgef&uuml;hrt: W&auml;hrend das Verhalten der einen Nische durch Ents&auml;ttigungseffekte gekennzeichnet ist, werden diese Effekte in der anderen Nische soweit wie m&ouml;glich vermieden. Ein komplexes Messprogramm sowie begleitende numerische Simulationen (OGS, CodeBright) untersuchen den Einfluss der Luftfeuchte auf das saisonale und langfris-tige Verformungsverhalten.},
+address = {Mont Terri Project; CD-A experiment; claystone; hydro-mechanical behavior; seasonal and longterm deformation},
+author = {Ziefle, G and Bossart, P and Costabel, S and Czaikowski, O and Furche, M and Graupner, B and Hesser, J and Jaeggi, D and Kolditz, O and K{\"{o}}niger, F and Ma{\ss}mann, J and Rink, K and Schuhmann, R and Schuster, K and Vowinckel, B and Wieczorek, K},
+booktitle = {Berichtsband zur 10. CMM Tagung - Innovative Feuchtemessung in Forschung und Praxis: Material - Prozesse - Systeme, 10./11. Oktober 2019, Ettlingen, Germany},
+keywords = {ENVINF},
+pages = {65--78},
+publisher = {Kompetenzzentrum f{\"{u}}r Materialfeuchte (CMM)},
+title = {{Influence of humidity on cyclic and longterm deformations: CD-A experiment, Mont Terri rock laboratory}},
+year = {2019}
+}
+@article{Rink2018,
+abstract = {Due to extensive water pollution in Chinese rivers and lakes, large 
+efforts have to be made to improve the quality of drinking water and
+manage the sewage water treatment process. We propose a general workflow
+for integrating a large number of heterogeneous data sets relating to
+various hydrological compartments into a Virtual Geographic Environment
+(VGE). This allows both researchers and stakeholders to easily access
+complex data collections in a unified context, find interrelations or
+inconsistencies between data sets and evaluate simulation results with
+respect to other observations or simulations in the same region. A
+prototype of such a VGE has been set up for the region around Chao Lake,
+containing more than 20 spatial data sets and collections as well as
+first simulation result. The prototype has been successfully presented
+to researchers and stakeholders from China and Germany.},
+address = {Scientific visualisation; virtual reality; hydrological modelling; opengeosys data explorer; VISLAB},
+author = {Rink, K and Chen, C and Bilke, L and Liao, Z and Rinke, K and Frassl, M and Yue, T and Kolditz, O},
+issn = {1753-8947},
+journal = {International Journal of Digital Earth},
+keywords = {ENVINF,SEEFO},
+number = {4},
+pages = {397--407},
+publisher = {Taylor & Francis},
+title = {{Virtual geographic environments for water pollution control}},
+url = {http://dx.doi.org/10.1080/17538947.2016.1265016},
+volume = {11},
+year = {2018}
+}
+@incollection{Rink2018a,
+abstract = {In order to cope with increasing amounts of heterogeneous data from various sources,<br/>workflows combining data integration and data analytics methods become more and<br/>more important. Therefore, data integration and visual data analysis are important<br/>elements within the OpenGeoSys workflow concept. Figure A.2 shows a generic<br/>workflow for scientific visualisation of environmental data including categories and<br/>examples for functionality.<br/>Some general challenges for data integration and visual data analysis for the field<br/>of environmental science are summarized in the following list and described in detail<br/>in Helbig et al. (2015):<br/>&bull; Multifaceted data: High dimensional parameter spaces<br/>&bull; Multimodal data: Correlation of observation and simulation<br/>&bull; Incorporation of multiple scales: Catchment scale vs sewage network},
+address = {Cham},
+author = {Rink, K and Helbig, C and Bilke, L},
+booktitle = {Terrestrial Environmental Sciences},
+editor = {Kolditz, O and Nagel, T and Shao, H and Wang, W and Bauer, S},
+isbn = {978-3-319-68224-2},
+keywords = {ENVINF},
+pages = {277--281},
+publisher = {Springer Nature},
+title = {{Data integration and visualisation (Appendix A, A.4)}},
+url = {http://dx.doi.org/10.1007/978-3-319-68225-9},
+year = {2018}
+}
+@article{Zinner2018,
+abstract = {As software becomes increasingly complex, automatic documentation of the development is becoming ever more important. In this paper, we present a novel, general strategy to build a revision control system for the development of numerical models for scientific applications.We set up a formal methodology of the strategy and show the consistency, correctness, and usefulness of the presented strategy to automatically generate a<br/>documentation for the evolution of the model. As a use case, the proposed system is employed for managing the development of hydrogeological models for simulating environmental phenomena within a research environment.},
+address = {Automatic generation of documentation; Revision control; Backup and Restore; Metadata; Improvement of research environment; Support of research process},
+author = {Zinner, M and Rink, K and J{\"{a}}kel, R and Feldhoff, K and Grunzke, R and Fischer, T and Song, R and Walther, M and Jejkal, T and Kolditz, O and Nagel, W E},
+issn = {1942-2628},
+journal = {International Journal on Advances in Software },
+keywords = {ENVINF},
+number = {3&4},
+pages = {214--226},
+publisher = {IARIA International Academy},
+title = {{Revision control and automatic documentation for the development numerical models for scientific applications}},
+url = {http://www.iariajournals.org/software/tocv11n34.html},
+volume = {11},
+year = {2018}
+}
+@article{Helbig2017,
+abstract = {In this opinion paper, we, a group of scientists from environmental-, geo-, ocean- and information science, argue visual data exploration should become a common analytics approach in Earth system science due to its potential for analysis and interpretation of large and complex spatio-temporal data. We discuss the challenges that appear such as synthesis of heterogeneous data from various sources, reducing the amount of information and facilitating multidisciplinary, collaborative research. We argue that to fully exploit the potential of visual data exploration, several bottlenecks and challenges have to be addressed: providing an efficient data management and an integrated modular workflow, developing and applying suitable visual exploration concepts and methods with the help of effective and tailored tools as well as generating and raising the awareness of visual data exploration and education. We are convinced visual data exploration is worth the effort since it significantly facilitates insight into environmental data and derivation of knowledge from it.},
+address = {Digital Earth; geoinformatics; geospatial data integration; visualization},
+author = {Helbig, C and Dransch, D and B{\"{o}}ttinger, M and Devey, C and Haas, A and Hlawitschka, M and Kuenzer, C and Rink, K and Sch{\"{a}}fer-Neth, C and Scheuermann, G and Kwasnitschka, T and Unger, A},
+issn = {1753-8947},
+journal = {International Journal of Digital Earth},
+keywords = {ENVINF},
+number = {10},
+pages = {1070--1076},
+publisher = {Taylor & Francis},
+title = {{Challenges and strategies for the visual exploration of complex environmental data}},
+url = {http://dx.doi.org/10.1080/17538947.2017.1327618},
+volume = {10},
+year = {2017}
+}
+@incollection{Rink2017,
+abstract = {We propose a setup for presenting complex heterogenous environmental 
+data in a Virtual Reality environment. After a number of pre-processing
+steps required to integrate various data sets in a unified context, our
+workflow uses the Unity engine in combination with MiddleVR to create
+interactive applications for Virtual Reality environments to support
+research and evaluation for case studies containing domain-specific data
+from environmental monitoring and modelling. Typical challenges are
+described when handling such data in a graphics environment and
+solutions are proposed where possible. We give an overview of project
+structure and functionality added to Unity for visualisation of and
+interaction with the data and present an example application.},
+address = {Geneva},
+author = {Rink, K and Bilke, L and Kolditz, O},
+booktitle = {Proceedings EnvirVis2017. Workshop on Visualisation in Environmental Sciences (EnvirVis), Barcelona, Spain, 12-13 June, 2017},
+editor = {Rink, K and Middel, V and Zeckzer, D and Bujack, R},
+isbn = {978-3-03868-040-6},
+keywords = {ENVINF},
+pages = {1--5},
+publisher = {The Eurographics Association},
+title = {{Setting up virtual geographic environments in unity}},
+url = {http://dx.doi.org/10.2312/envirvis.20171096},
+year = {2017}
+}
+@article{Rink2017a,
+abstract = {<br/>},
+address = {Geneva},
+author = {Rink, K and Middel, V and Zeckzer, D and Bujack, R},
+issn = {978-3-03868-040-6},
+keywords = {ENVINF},
+pages = {59},
+publisher = {The Eurographics Association},
+title = {{Proceedings EuroVis 2017. 5th Workshop on Visualisation in Environmental Sciences (EnvirVis), Barcelona, Spain, 12-13 June, 2017}},
+url = {https://diglib.eg.org/handle/10.2312/2631434},
+year = {2017}
+}
+@misc{Sachse2017,
+abstract = {This book explores the application of the open-source software 
+OpenGeoSys (OGS) for hydrological numerical simulations concerning
+conservative and reactive transport modeling. It provides general
+information on the hydrological and groundwater flow modeling of a real
+case study and step-by-step model set-up with OGS, while also
+highlighting related components such as the OGS Data Explorer. The
+material is based on unpublished manuals and the results of a
+collaborative project between China and Germany (SUSTAIN H2O). Though
+the book is primarily intended for graduate students and applied
+scientists who deal with hydrological modeling, it also offers a
+valuable source of information for professional geoscientists wishing to
+expand their knowledge of the numerical modeling of hydrological
+processes including nitrate reactive transport modeling. This book is
+the second in a series that showcases further applications of
+computational modeling in hydrological science.},
+address = {Earth sciences ; Chemoinformatics ; Geology -- Statistical methods ; Hydrogeology ; Computer simulation ; Environmental chemistry},
+author = {Sachse, A and Nixdorf, E and Jang, E and Rink, K and Fischer, T and Xi, B and Beyer, C and Bauer, S and Walther, M and Sun, Y and Song, Y},
+booktitle = {SpringerBriefs in Earth System Sciences},
+isbn = {978-3-319-52808-3},
+keywords = {ENVINF},
+pages = {75},
+publisher = {Springer International Publishing},
+title = {{OpenGeoSys Tutorial. Computational hydrology II: groundwater quality modeling}},
+url = {http://dx.doi.org/10.1007/978-3-319-52809-0},
+year = {2017}
+}
+@article{Wollschlager2017,
+abstract = {This article provides an overview about the Bode River catchment that was selected as the hydrological<br/>observatory and main region for hydro-ecological research within the TERrestrial ENvironmental<br/>Observatories Harz/Central German Lowland Observatory. It first provides information about the general<br/>characteristics of the catchment including climate, geology, soils, land use, water quality and aquatic<br/>ecology, followed by the description of the interdisciplinary research framework and the monitoring<br/>concept with the main components of the multi-scale and multi-temporal monitoring infrastructure. It also<br/>shows examples of interdisciplinary research projects aiming to advance the understanding of complex<br/>hydrological processes under natural and anthropogenic forcings and their interactions in a catchment<br/>context. The overview is complemented with research work conducted at a number of intensive research<br/>sites, each focusing on a particular functional zone or specific components and processes of the hydroecological system.},
+address = {Monitoring; Catchment; Water quality; Observatory; Water fluxes},
+author = {Wollschl{\"{a}}ger, U and Attinger, S and Borchardt, D and Brauns, M and Cuntz, M and Dietrich, P and Fleckenstein, J H and Friese, K and Friesen, J and Harpke, A and Hildebrandt, A and J{\"{a}}ckel, G and Kamjunke, N and Kn{\"{o}}ller, K and K{\"{o}}gler, S and Kolditz, O and Krieg, R and Kumar, R and Lausch, A and Liess, M and Marx, A and Merz, R and Mueller, C and Musolff, A and Norf, H and Oswald, S E and Rebmann, C and Reinstorf, F and Rode, M and Rink, K and Rinke, K and Samaniego, L and Vieweg, M and Vogel, H.-J. and Weitere, M and Werban, U and Zink, M and Zacharias, S},
+issn = {1866-6280},
+journal = {Environmental Earth Sciences},
+keywords = {ASAM,BOPHY,BZF,CATHYD,CHS,CLE,ENVINF,FLOEK,HDG,MET,NSF,OEKOTOX,SEEFO},
+number = {1},
+pages = {art. 29},
+publisher = {Springer},
+title = {{The Bode hydrological observatory: a platform for integrated, interdisciplinary hydro-ecological research within the TERENO Harz/Central German Lowland Observatory}},
+url = {http://dx.doi.org/10.1007/s12665-016-6327-5},
+volume = {76},
+year = {2017}
+}
+@incollection{Zinner2017,
+abstract = {As software becomes increasingly complex, automatic documentation of the development is becoming ever<br/>more important. In this paper, we present a novel, general strategy to build a revision control system of the development of numerical models for scientific applications. We set up a formal methodology of the strategy and show the consistency, correctness and usefulness of the presented strategy to automatically generate a documentation for the evolution of the model.},
+address = {Software development; Automatic generation of documentation; Revision control; Backup and Restore; Metadata; Improvement of research environment; Support of research process},
+author = {Zinner, M and Rink, K and J{\"{a}}kel, R and Feldhoff, K and Grunzke, R and Fischer, T and Song, R and Walther, M and Jejkal, T and Kolditz, O and Nagel, W E and Lavazza, L and Oberhauser, R and Koci, R and Clyde, S},
+booktitle = {Proceedings of the Twelfth International Conference on Software Engineering Advances (ICSEA), October 8 - 12, 2017 - Athens, Greece},
+isbn = {978-1-61208-590-6},
+keywords = {ENVINF},
+pages = {18--27},
+publisher = {IARIA XPS Press},
+title = {{Automatic documentation of the development of numerical models for scientific applications using specific revision control}},
+url = {https://www.iaria.org/conferences2017/ICSEA17.html},
+year = {2017}
+}
+@article{Liao2016,
+abstract = {For the purpose of analyzing and managing Urban Water Pollution Discharge Systems (UWPDS) comprehensively, a systematic approach of tracking and tracing analyses was developed based on environmental systems analysis theory, in which the directed graph, the nodal flow balance and the network analysis of Geographic Information System (GIS) were used. Based on the digitalized UWPDS of GIS which was established by collecting and processing a large amount of topographic, sewage discharge and drainage data, this scientific approach can be applied to make the tracking and tracing analyses on wastewater treatment plants, pumping stations, illicit sewage outlets, pollution sources and drainage pipelines systematically. The upstream and downstream information about sources, discharging paths, flow quantities and final destinations of pollutants was obtained, and potential problems in the UWPDS analysis such as illicit connections between different drainage pipelines were identified, with the spatial analysis. This developed approach was tested using the UWPDS of Chaohu City (Anhui Province, China). The study results are important for the implementation of sewage interception engineering, the determination of load reduction, and the optimization of drainage pipelines and pumping stations in future.},
+address = {Tracking and tracing analysis  – UWPDS  – GIS  – Pollution source  – Discharging path  – Flow quantity  – Final destination  – Chaohu City },
+author = {Liao, Z and Zhi, G and Zhou, Y and Xu, Z and Rink, K},
+issn = {1866-6280},
+journal = {Environmental Earth Sciences},
+keywords = {ENVINF},
+number = {14},
+pages = {art. 1080},
+publisher = {Springer},
+title = {{To analyze the Urban Water Pollution Discharge System using the tracking and tracing approach}},
+url = {http://dx.doi.org/10.1007/s12665-016-5881-1},
+volume = {75},
+year = {2016}
+}
+@incollection{Naumov2016,
+abstract = {This book presents a new suite of benchmarks for and examples of porous media mechanics collected over the last two years. It continues the assembly of benchmarks and examples for porous media mechanics published in 2014. The book covers various applications in the geosciences, geotechnics, geothermal energy, and geological waste deposition. The analysis of thermo-hydro-mechanical-chemical (THMC) processes is essential to many applications in environmental engineering, such as geological waste deposition, geothermal energy utilisation, carbon capture and storage, water resources management, hydrology, and even climate change. In order to assess the feasibility and safety of geotechnical applications, process-based modelling is the only tool that can effectively quantify future scenarios, a fact which also creates a huge burden of responsibility concerning the reliability of computational tools. The book shows that benchmarking offers a suitable methodology for verifying the quality of modelling tools based on best practices, and together with code comparison fosters community efforts. <em>It also  provides a brief introduction to the DECOVALEX, SeSBench and MOMAS initiatives.</em> This benchmark book is part of the OpenGeoSys initiative &ndash; an open source project designed to share knowledge and experience in environmental analysis and scientific computation.},
+address = {Cham},
+author = {Naumov, D and Bilke, L and Fischer, T and Lehmann, C and Rink, K and Walther, M and Wang, W and Watanabe, N},
+booktitle = {Terrestrial Environmental Sciences},
+editor = {Kolditz, O and G{\"{o}}rke, U.-J. and Shao, H and Wang, W and Bauer, S},
+isbn = {978-3-319-29223-6},
+keywords = {ENVINF},
+pages = {223--227},
+publisher = {Springer Nature},
+title = {{Appendix B : ogs6 overview}},
+url = {http://dx.doi.org/10.1007/978-3-319-29224-3},
+year = {2016}
+}
+@incollection{Delfs2015,
+address = {Cham},
+author = {Delfs, J.-O.},
+booktitle = {SpringerBriefs in Earth System Sciences},
+editor = {Sachse, A and Rink, K and He, W and Kolditz, O},
+isbn = {978-3-319-13334-8},
+keywords = {CATHYD,ENVINF},
+pages = {99--100},
+publisher = {Springer International Publishing},
+title = {{Appendix B: Coupled hydrosystems. OGS#SWMM}},
+url = {http://dx.doi.org/10.1007/978-3-319-13335-5},
+year = {2015}
+}
+@incollection{He2015,
+abstract = {The Theis problem describes a transient lowering of the water table caused by a pumping well (see Fig. <span class="a-plus-plus internal-ref refid-fig1">4.1</span>). In order to show the basic steps to set up simple numerical models with different dimensions in <em class="a-plus-plus">OGS</em>,
+we consider a homogeneous, isotropic, confined aquifer in setups with
+different dimensions (2D, 3D, radial symmetric 1.5D and 2.5D, see also
+Table <span class="a-plus-plus internal-ref refid-tab1">4.1</span>). For the different setups, we evaluate the plausibility of the processes <span class="a-plus-plus emphasis fontcategory-non-proportional">GROUNDWATER_FLOW</span> and <span class="a-plus-plus emphasis fontcategory-non-proportional">LIQUID_FLOW</span>
+to model confined groundwater flow in porous media under a stress
+condition. The governing equation for groundwater flow process in a
+confined aquifer is given in Eq. <span class="a-plus-plus internal-ref refid-equ1">4.1</span> with the primary variable hydraulic head. For the liquid flow process, Eq. <span class="a-plus-plus internal-ref refid-equ2">4.2</span> with pressure as its primary variable governs the flow. In Sect. <span class="a-plus-plus non-url-ref">2.3</span>, the derivation as well as physical meanings of groundwater flow equations are explained in great detail.},
+address = {Cham},
+author = {He, W and Walther, M and Kolditz, O},
+booktitle = {SpringerBriefs in Earth System Sciences},
+editor = {Sachse, A and Rink, K and He, W and Kolditz, O},
+isbn = {978-3-319-13334-8},
+keywords = {ENVINF},
+pages = {31--51},
+publisher = {Springer International Publishing},
+title = {{Benchmark: Theis problem}},
+url = {http://dx.doi.org/10.1007/978-3-319-13335-5_4},
+year = {2015}
+}
+@incollection{Kalbacher2015,
+abstract = {<br/>},
+address = {Cham},
+author = {Kalbacher, T and Walther, M and Wang, W},
+booktitle = {SpringerBriefs in Earth System Sciences},
+editor = {Sachse, A and Rink, K and He, W and Kolditz, O},
+isbn = {978-3-319-13334-8},
+keywords = {CATHYD,ENVINF},
+pages = {100--101},
+publisher = {Springer International Publishing},
+title = {{Appendix B: Coupled hydrosystems. OGS#mHM}},
+url = {http://dx.doi.org/10.1007/978-3-319-13335-5},
+year = {2015}
+}
+@incollection{Rink2015,
+abstract = {<br/>},
+address = {Cham},
+author = {Rink, K and Bilke, L and Fischer, T},
+booktitle = {SpringerBriefs in Earth System Sciences},
+editor = {Sachse, A and Rink, K and He, W and Kolditz, O},
+isbn = {978-3-319-13334-8},
+keywords = {ENVINF},
+pages = {103--104},
+publisher = {Springer International Publishing},
+title = {{Appendix C: OpenGeoSys installation guide}},
+url = {http://dx.doi.org/10.1007/978-3-319-13335-5},
+year = {2015}
+}
+@incollection{Rink2015a,
+abstract = {Numerous hydrologic models are available to understand, simulate and 
+predict hydrologic behaviour of and within watersheds based on
+well-established physically-based equations (Westervelt 2001).},
+address = {Cham},
+author = {Rink, K and Sachse, A and Kolditz, O},
+booktitle = {SpringerBriefs in Earth System Sciences},
+editor = {Sachse, A and Rink, K and He, W and Kolditz, O},
+isbn = {978-3-319-13334-8},
+keywords = {ENVINF},
+pages = {19--29},
+publisher = {Springer International Publishing},
+title = {{Modelling with OpenGeoSys}},
+url = {http://dx.doi.org/10.1007/978-3-319-13335-5_3},
+year = {2015}
+}
+@incollection{Sachse2015,
+abstract = {<strong class="a-plus-plus"><a href="http://link.springer.com/search?dc.title=Hydrogeology&amp;facet-content-type=ReferenceWorkEntry&amp;sortOrder=relevance" class="reference-link webtrekk-track">Hydrogeology</a></strong>
+is the study of water in geologic formations beneath the earth&rsquo;s
+surface (H&ouml;lting 2013). Groundwater moves in soil and rock (aquifers)
+and supplies springs, wells, and when near the surface, lakes and
+streams. The upper limit of the saturated zone is called the water
+table.},
+address = {Cham},
+author = {Sachse, A and Jakobs, L and Kolditz, O},
+booktitle = {SpringerBriefs in Earth System Sciences},
+editor = {Sachse, A and Rink, K and He, W and Kolditz, O},
+isbn = {978-3-319-13334-8},
+keywords = {ENVINF},
+pages = {13--17},
+publisher = {Springer International Publishing},
+title = {{Hydrogeology}},
+url = {http://dx.doi.org/10.1007/978-3-319-13335-5_2},
+year = {2015}
+}
+@incollection{Sachse2015a,
+abstract = {Water is one of Earth&rsquo;s most precious resources. Without it, life could 
+not exist. Abundant in some places, elusive in others, and unusable in
+yet other places, water and access to it is vital for human existence.
+Its distribution, movement, processes, and properties comprise
+hydrology, or the study of water. Hydrology investigates the changes
+water undergoes as well the changes it incurs in the atmosphere, on the
+earth&rsquo;s surface, and underground.},
+address = {Cham},
+author = {Sachse, A and Jakobs, L},
+booktitle = {SpringerBriefs in Earth System Sciences},
+editor = {Sachse, A and Rink, K and He, W and Kolditz, O},
+isbn = {978-3-319-13334-8},
+keywords = {ENVINF},
+pages = {1--11},
+publisher = {Springer International Publishing},
+title = {{Hydrology }},
+url = {http://dx.doi.org/10.1007/978-3-319-13335-5_1},
+year = {2015}
+}
+@misc{Sachse2015b,
+abstract = {This tutorial on the application of the open-source software OpenGeoSys 
+(OGS) in computational hydrology is based on a one-week training course
+at the Helmholtz Centre for Environmental Research in Leipzig, Germany.
+It provides general information regarding hydrological and groundwater
+flow modeling and the pre-processing and step-by-step model setups of a
+case study with OGS and related components such as the OGS Data
+Explorer. The tutorial also illustrates the application of pre- and
+post-processing tools such as ArcGIS and ParaView. This book is intended
+primarily for graduate students and applied scientists who deal with
+hydrological-system analysis and hydrological modeling. It is also a
+valuable source of information for practicing hydrologists wishing to
+further their understanding of the numerical modeling of coupled
+hydrological-hydrogeological systems. This tutorial is the first in a
+series that will present further OGS applications in environmental
+sciences.},
+address = {Computational Hydrology; Hydrological Modeling; OpenGeoSys (OGS); ParaView; THMC Processes },
+author = {Sachse, A and Rink, K and He, W and Kolditz, O},
+booktitle = {SpringerBriefs in Earth System Sciences},
+isbn = {978-3-319-13334-8},
+keywords = {ENVINF},
+pages = {115},
+publisher = {Springer International Publishing},
+title = {{OpenGeoSys-Tutorial. Computational hydrology I: groundwater flow modeling }},
+url = {http://dx.doi.org/10.1007/978-3-319-13335-5},
+year = {2015}
+}
+@incollection{Sachse2015c,
+address = {Cham},
+author = {Sachse, A},
+booktitle = {SpringerBriefs in Earth System Sciences},
+editor = {Sachse, A and Rink, K and He, W and Kolditz, O},
+isbn = {978-3-319-13334-8},
+keywords = {ENVINF},
+pages = {93--95},
+publisher = {Springer International Publishing},
+title = {{Appendix A: Geographical information systems}},
+url = {http://dx.doi.org/10.1007/978-3-319-13335-5},
+year = {2015}
+}
+@incollection{Sachse2015d,
+abstract = {Water is one of Earth&rsquo;s most precious resources. Without it, life could 
+not exist. Abundant in some places, elusive in others, and unusable in
+yet other places, water and access to it is vital for human existence.
+Its distribution, movement, processes, and properties comprise
+hydrology, or the study of water. Hydrology investigates the changes
+water undergoes as well the changes it incurs in the atmosphere, on the
+earth&rsquo;s surface, and underground.},
+address = {Cham},
+author = {Sachse, A and Selle, B and Rink, K},
+booktitle = {SpringerBriefs in Earth System Sciences},
+editor = {Sachse, A and Rink, K and He, W and Kolditz, O},
+isbn = {978-3-319-13334-8},
+keywords = {ENVINF},
+pages = {53--91},
+publisher = {Springer International Publishing},
+title = {{Case study: Ammer catchment}},
+url = {http://dx.doi.org/10.1007/978-3-319-13335-5_5},
+year = {2015}
+}
+@incollection{Schulz2015,
+address = {Cham},
+author = {Schulz, S},
+booktitle = {SpringerBriefs in Earth System Sciences},
+editor = {Sachse, A and Rink, K and He, W and Kolditz, O},
+isbn = {978-3-319-13334-8},
+keywords = {CATHYD,ENVINF},
+pages = {97--99},
+publisher = {Springer International Publishing},
+title = {{Appendix B: Coupled hydrosystems. OGS#JAMS}},
+url = {http://dx.doi.org/10.1007/978-3-319-13335-5},
+year = {2015}
+}
+@article{Vienken2015,
+abstract = {Thermal use of the shallow subsurface for heat generation, cooling, and 
+thermal energy storage is increasingly gaining importance in
+reconsideration of future energy supplies. Shallow geothermal energy use
+is often promoted as being of little or no costs during operation,
+while simultaneously being environmentally friendly. Hence, the number
+of installed systems has rapidly risen over the last few decades,
+especially among newly built houses. While the carbon dioxide reduction
+potential of this method remains undoubted, concerns about
+sustainability and potential negative effects on the soil and
+groundwater due to an intensified use have been raised&mdash;even as far back
+as 25 years ago. Nevertheless, consistent regulation and management
+schemes for the intensified thermal use of the shallow subsurface are
+still missing&mdash;mainly due to a lack of system understanding and process
+knowledge. In the meantime, large geothermal applications, for example,
+residential neighborhoods that are entirely dependent up on shallow
+geothermal energy use or low enthalpy aquifer heat storage, have been
+developed throughout Europe. Potential negative effects on the soil and
+groundwater due to an intensive thermal use of the shallow subsurface as
+well as the extent of potential system interaction still remain
+unknown.},
+author = {Vienken, T and Schelenz, S and Rink, K and Dietrich, P},
+issn = {0017-467X},
+journal = {Groundwater},
+keywords = {ENVINF,MET},
+number = {3},
+pages = {356--361},
+publisher = {Wiley},
+title = {{Sustainable intensive thermal use of the shallow subsurface — a critical view on the status quo}},
+url = {http://dx.doi.org/10.1111/gwat.12206},
+volume = {53},
+year = {2015}
+}
+@article{Bilke2014,
+abstract = {Scientific visualization is an integral part of the modeling workflow, 
+enabling researchers to understand complex or large data sets and
+simulation results. A high-resolution stereoscopic virtual reality (VR)
+environment further enhances the possibilities of visualization. Such an
+environment also allows collaboration in work groups including people
+of different backgrounds and to present results of research projects to
+stakeholders or the public. The requirements for the computing equipment
+driving the VR environment demand specialized software applications
+which can be run in a parallel fashion on a set of interconnected
+machines. Another challenge is to devise a useful data workflow from
+source data sets onto the display system. Therefore, we develop software
+applications like the OpenGeoSys Data Explorer, custom data conversion
+tools for established visualization packages such as ParaView and
+Visualization Toolkit as well as presentation and interaction techniques
+for 3D applications like Unity. We demonstrate our workflow by
+presenting visualization results for case studies from a broad range of
+applications. An outlook on how visualization techniques can be deeply
+integrated into the simulation process is given and future technical
+improvements such as a simplified hardware setup are outlined.},
+address = {Virtual reality ; Visualization; Computer graphics; Data exploration; Hydrological processes; Geotechnics; Seismic data; OpenGeoSys; VISLAB},
+author = {Bilke, L and Fischer, T and Helbig, C and Krawczyk, C and Nagel, T and Naumov, D and Paulick, S and Rink, K and Sachse, A and Schelenz, S and Walther, M and Watanabe, N and Zehner, B and Ziesch, J and Kolditz, O},
+issn = {1866-6280},
+journal = {Environmental Earth Sciences},
+keywords = {ENVINF,MET,OESA},
+number = {10},
+pages = {3881--3899},
+publisher = {Springer},
+title = {{TESSIN VISLab—laboratory for scientific visualization}},
+url = {http://dx.doi.org/10.1007/s12665-014-3785-5},
+volume = {72},
+year = {2014}
+}
+@article{Helbig2014,
+abstract = {In the future, climate change will strongly influence our environment 
+and living conditions. Weather and Climate simulations that predict
+possible changes produce big data sets. The combination of various
+variables of climate models with spatial data from different sources
+helps to identify correlations and to study key processes. In this
+paper, the results of the Weather Research and Forecasting model are
+visualized for two regions. For this purpose, a continuous workflow that
+leads from the integration of heterogeneous raw data to 3D
+visualizations that can be displayed on a desktop computer or in an
+interactive virtual reality environment is developed. These
+easy-to-understand visualizations of complex data are the basis for
+scientific communication and for the evaluation and verification of
+models as well as for interdisciplinary discussions of the research
+results.},
+address = {Visualization; Climate modeling; WRF; Virtual reality; Visualization concept; Visualization workflow; OpenGeoSys Data Explorer},
+author = {Helbig, C and Bauer, H.-S. and Rink, K and Wulfmeyer, V and Frank, M and Kolditz, O},
+issn = {1866-6280},
+journal = {Environmental Earth Sciences},
+keywords = {ENVINF},
+number = {10},
+pages = {3767--3780},
+publisher = {Springer},
+title = {{Concept and workflow for 3D visualization of atmospheric data in a virtual reality environment for analytical approaches}},
+url = {http://dx.doi.org/10.1007/s12665-014-3136-6},
+volume = {72},
+year = {2014}
+}
+@article{Rink2014,
+abstract = {We present a framework that allows users to apply a number of strategies
+to view and modify a wide range of environmental data sets for the
+modelling of natural phenomena. These data sets can be concurrently
+visualised to find inconsistencies or artefacts. This ensures at an
+early stage that models set up for the simulation of hydrological or
+thermal processes will not give implausible results due to complications
+based on input data. A number of generally applicable visualisation
+techniques are provided by our framework to help researchers detect
+potential problems. We also propose a number of mapping algorithms for
+the integration of multiple data sets to resolve some of the most common
+issues. Techniques for the presentation of input- and modelling data in
+combination with simulation results are proposed with respect to the
+benefits of visualisation of environmental data within specialised
+environments. The complete workflow from input data to presentation is
+demonstrated based on a case study in Central Germany. We identify
+typical problems, propose approaches for a suitable data integration for
+this case study and compare results of the original and modified data
+sets.},
+address = {Computer graphics; Visualisation; Virtual reality; Hydrology; OpenGeoSys Data Explorer},
+author = {Rink, K and Bilke, L and Kolditz, O},
+issn = {1866-6280},
+journal = {Environmental Earth Sciences},
+keywords = {ENVINF},
+number = {10},
+pages = {3857--3868},
+publisher = {Springer},
+title = {{Visualisation strategies for environmental modelling data}},
+url = {http://dx.doi.org/10.1007/s12665-013-2970-2},
+volume = {72},
+year = {2014}
+}
+@article{Rink2014a,
+abstract = {<p class="excerpt-message">
+This is an excerpt from the content
+</p>
+
+<p class="a-plus-plus">In recent years, the amount of
+environmental data that is measured, collected and analysed has risen in
+staggering amounts. The reason for this is largely the desire and need
+of both science and politics to better understand the reasons, effects
+and possible consequences of climate change. This includes topics as
+diverse as the behaviour of groundwater regimes in arid regions, the
+migration of animal species, or the wide range of ecosystem services. In
+addition, this trend is reinforced by observation methods getting more
+and more refined: satellites can measure data in the sub-metre range,
+eddy covariance systems analyse high-frequency atmospheric data such as
+wind, heat or gas fluxes and weather surveillance radar creates
+high-resolution data of precipitation parameters every few minutes, to
+name just a few examples.</p>},
+author = {Rink, K and Scheuermann, G and Kolditz, O},
+issn = {1866-6280},
+journal = {Environmental Earth Sciences},
+keywords = {ENVINF},
+number = {10},
+pages = {3749--3751},
+publisher = {Springer},
+title = {{Visualisation in environmental sciences}},
+url = {http://dx.doi.org/10.1007/s12665-014-3759-7},
+volume = {72},
+year = {2014}
+}
+@article{Grabe2013,
+abstract = {Water is scarce in the semi-arid to arid regions around the Dead Sea, 
+where water supply mostly relies on restricted groundwater resources.
+Due to increasing population in this region, the regional aquifer system
+is exposed to additional stress. This results in the continuous
+decrease in water level of the adjacent Dead Sea. The interaction of an
+increasing demand for water due to population growth and the decrease of
+groundwater resources will intensify in the near future. Thus, the
+water supply situation could worsen significantly unless sustainable
+water resource management is conducted. In this study, we develop a
+regional groundwater flow model of the eastern and southern Judea Group
+Aquifer to investigate the groundwater regime in the western Dead Sea
+drainage basin of Israel and the West Bank. An extensive geological
+database was developed and consequently a high-resolution structural
+model was derived. This structural model was the basis for various
+groundwater flow scenarios. The objective was to capture the spatial
+heterogeneity of the aquifer system and to apply these results to the
+southern part of the study area, which has not been studied in detail
+until now. As a result we analyzed quantitatively the flow regime, the
+groundwater mass balance and the hydraulic characteristics (hydraulic
+conductivity and hydraulic head) of the cretaceous aquifer system and
+calibrated them with PEST. The calibrated groundwater flow model can be
+used for integrated groundwater water management purposes in the Dead
+Sea area, especially within the framework of the SUMAR-Project.<p></p>},
+address = {Numerical groundwater flow modelling; Structural model; 3-D groundwater flow model; Model calibration; OpenGeoSys; Dead Sea; Semi-arid and arid regions; SUMAR},
+author = {Gr{\"{a}}be, A and R{\"{o}}diger, T and Rink, K and Fischer, T and Sun, F and Wang, W and Siebert, C and Kolditz, O},
+issn = {1866-6280},
+journal = {Environmental Earth Sciences},
+keywords = {CATHYD,ENVINF},
+number = {2},
+pages = {571--585},
+publisher = {Springer},
+title = {{Numerical analysis of the groundwater regime in the western Dead Sea escarpment, Israel + West Bank}},
+url = {http://dx.doi.org/10.1007/s12665-012-1795-8},
+volume = {69},
+year = {2013}
+}
+@article{Grathwohl2013,
+abstract = {Sustainable water quality management requires a profound understanding 
+of water fluxes (precipitation, run-off, recharge, etc.) and solute
+turnover such as retention, reaction, transformation, etc. at the
+catchment or landscape scale. The Water and Earth System Science
+competence cluster aims at a holistic analysis of the water cycle coupled to reactive
+solute transport, including soil&ndash;plant&ndash;atmosphere and
+groundwater&ndash;surface water interactions. To facilitate exploring the
+impact of land-use and climate changes on water cycling and water
+quality, special emphasis is placed on feedbacks between the atmosphere,
+the land surface, and the subsurface. A major challenge lies in
+bridging the scales in monitoring and modeling of surface/subsurface
+versus atmospheric processes. The field work follows the approach of
+contrasting catchments, i.e. neighboring watersheds with different land
+use or similar watersheds with different climate. This paper introduces
+the featured catchments and explains methodologies of WESS by selected
+examples.},
+address = {Water and solute fluxes; Water quality; Catchments; Land-surface atmosphere exchange; Processes and feedbacks; Modeling; Monitoring},
+author = {Grathwohl, P and R{\"{u}}gner, H and W{\"{o}}hling, T and Osenbr{\"{u}}ck, K and Schwientek, M and Gayler, S and Wollschl{\"{a}}ger, U and Selle, B and Pause, M and Delfs, J.-O. and Grzeschik, M and Weller, U and Ivanov, M and Cirpka, O A and Maier, U and Kuch, B and Nowak, W and Wulfmeyer, V and Warrach-Sagi, K and Streck, T and Attinger, S and Bilke, L and Dietrich, P and Fleckenstein, J H and Kalbacher, T and Kolditz, O and Rink, K and Samaniego, L and Vogel, H.-J. and Werban, U and Teutsch, G},
+issn = {1866-6280},
+journal = {Environmental Earth Sciences},
+keywords = {BOPHY,CHS,ENVINF,GF,GWS,HDG,MET},
+number = {2},
+pages = {317--333},
+publisher = {Springer},
+title = {{Catchments as reactors: a comprehensive approach for water fluxes and solute turnover}},
+url = {http://dx.doi.org/10.1007/s12665-013-2281-7},
+volume = {69},
+year = {2013}
+}
+@incollection{Helbig2013,
+abstract = {In the future, climate change will strongly influence our environment 
+and living conditions. Climate simulations that evaluate these changes
+produce huge data sets. The combination of various variables of the
+model with spatial data from different sources helps to identify
+correlations and to study key processes. We visualized results of the
+WRF model for two regions. For this purpose, we selected visualization
+methods based on specific research questions and combined these
+variables in a visual way. These visualizations can be displayed on a PC
+or in a virtual reality environment and are the basis for scientific
+communication for evaluating models and discussing the data of the
+research results.},
+address = {Computer Graphics; Applications},
+author = {Helbig, C and Rink, K and Bauer, H.-S. and Wulfmeyer, V and Frank, M and Kolditz, O},
+booktitle = {Proceedings EnvirVis2013. Workshop on Visualisation in Environmental Sciences (EnvirVis), Leipzig, Germany, June 17-18, 2013},
+editor = {Kolditz, O and Rink, K and Scheuermann, G},
+isbn = {978-3-905674-54-5},
+keywords = {ENVINF},
+pages = {19--23},
+publisher = {The Eurographics Association},
+title = {{3D visualization of atmospheric data for analytical approaches}},
+url = {http://dx.doi.org/10.2312/PE.EnvirVis.EnvirVis13.019-023},
+year = {2013}
+}
+@article{Kolditz2013,
+abstract = {<br/>},
+address = {Geneva},
+author = {Kolditz, O and Rink, K and Scheuermann, G},
+issn = {978-3-905674-54-5},
+keywords = {ENVINF},
+pages = {81},
+publisher = {The Eurographics Association},
+title = {{Proceedings EnvirVis2013. 1st Workshop on Visualisation in Environmental Sciences (EnvirVis), Leipzig, Germany, June 17-18, 2013}},
+url = {https://diglib.eg.org/handle/10.2312/976},
+year = {2013}
+}
+@article{Kunkel2013,
+abstract = {Within the TERENO initiative, four terrestrial observatories, collecting
+huge amounts of environmental data, are being set up since 2008. To
+manage, describe, exchange and publish these data, the distributed
+Spatial Data Infrastructure TEODOOR (<a class="a-plus-plus" href="http://www.tereno.net">http://www.tereno.net</a>)
+was created. Each institution responsible for an individual observatory
+sets up its own local data infrastructure, which may communicate with
+each other to exchange data and metadata internally or to the public by
+OGC compliant Web services. The TEODOOR data portal serves as a database
+node to provide scientists and decision makers with reliable and
+well-accessible data and data products. Various tools like hierarchical
+search or Web-GIS functions allow a deeper insight into the different
+observatories, test sites and sensor networks. Sensor data can be
+queried and selected for measured parameters, stations and/or time
+periods, and can be visualized and downloaded according to a shared
+TERENO data policy. Currently, TEODOOR provides free access to data from
+more than 500 monitoring stations.},
+address = {Terrestrial observatories; Monitoring; Sensor web; Spatial data infrastructure; OGC web services},
+author = {Kunkel, R and Sorg, J and Eckardt, R and Kolditz, O and Rink, K and Vereecken, H},
+issn = {1866-6280},
+journal = {Environmental Earth Sciences},
+keywords = {ENVINF},
+number = {2},
+pages = {507--521},
+publisher = {Springer},
+title = {{TEODOOR - a distributed geodata infrastructure for terrestrial observation data}},
+url = {http://dx.doi.org/10.1007/s12665-013-2370-7},
+volume = {69},
+year = {2013}
+}
+@incollection{Kunkel2013a,
+abstract = {Within the TERENO initiative four long-term terrestrial observatories, 
+collecting huge amounts of environmental relevant data are being set up
+since 2008. In order to manage, describe, exchange and publish these
+data, the distributed Spatial Data Infrastructure TEODOOR
+(http://www.tereno.net) has been created. Each institution responsible
+for an individual observatory set up its own local data infrastructure,
+which may communicate to each other to exchange data and metadata
+internally or to the public by OGC-conformal Web services. The TEODOOR
+data portal serves as a database node to provide scientists and decision
+makers with reliable and well accessible data and data products.
+Various tools like hierarchical search or Web-GIS functions allow a
+deeper insight into the different observatories, test areas and sensor
+networks. Sensor data can be selected according to the measured
+parameters, stations and/or time periods, visualized and downloaded
+according to the common TERENO data policy. Currently, TEODOOR provides
+free access to data from more than 500 monitoring stations.},
+address = {terrestrial observatories; monitoring; sensorWeb; spatial data infrastructure; OGC Web services},
+author = {Kunkel, R and Sorg, J and Kolditz, O and Rink, K and Klump, J and Gasche, R and Neidl, F},
+booktitle = {10th IEEE International Conference on Networking, Sensing and Control (ICNSC 2013) : Evry, France, 10 - 12 April 2013},
+isbn = {978-1-4673-5198-0},
+keywords = {ENVINF},
+pages = {242--245},
+publisher = {Institute of Electrical and Electronics Engineers (IEEE)},
+title = {{TEODOOR – a spatial data infrastructure for terrestrial observation data }},
+url = {http://dx.doi.org/10.1109/ICNSC.2013.6548744},
+year = {2013}
+}
+@incollection{Naumov2013,
+abstract = {Current visualization techniques for computational fluid dynamics 
+applications are sofisticated and work well in simple geometries. For
+complex geometries like pore spaces, multiple domain boundaries are
+obstructing the view and make the studying of fluid flow fields
+difficult. To overcome these deficiencies we use two-sided materials to
+render the domain boundaries. Using this technique it is possible to
+place the camera inside the domain and to have a non-obstructed view on
+the surrounding flow field without losing spatial reference to the
+domain boundaries. As a result a larger part of fluid flow visualization
+is visible. Two-sided material rendering was successfully applied to
+display still images with Blender Cycles renderer and in a virtual
+reality environment.},
+address = {Geneva},
+author = {Naumov, D and Bilke, L and Kolditz, O},
+booktitle = {Proceedings EnvirVis2013. Workshop on Visualisation in Environmental Sciences (EnvirVis), Leipzig, Germany, June 17-18, 2013},
+editor = {Kolditz, O and Rink, K and Scheuermann, G},
+isbn = {978-3-905674-54-5},
+keywords = {ENVINF},
+pages = {43--46},
+publisher = {The Eurographics Association},
+title = {{Rendering technique of multi-layered domain boundaries and its application to fluid flow in porous media visualizations}},
+url = {http://dx.doi.org/10.2312/PE.EnvirVis.EnvirVis13.043-046},
+year = {2013}
+}
+@incollection{Rink2013,
+abstract = {We present a number of strategies to visualise a wide range of 
+geoscientific data for the modelling of natural phenomena. Input data
+sets as well as simulation results of hydrological or thermal processes
+can be assessed and potential problems when incorporating data sets in a
+model can be detected and resolved. Algorithms for the demonstration of
+modelling case studies within specialised environments are presented
+and examples are given for a region in central Germany.},
+address = {Computer Graphics; Three-Dimensional Graphics; Realism-Virtual reality},
+author = {Rink, K and Bilke, L and Kolditz, O},
+booktitle = {Proceedings EnvirVis2013. Workshop on Visualisation in Environmental Sciences (EnvirVis), Leipzig, Germany, June 17-18, 2013},
+editor = {Kolditz, O and Rink, K and Scheuermann, G},
+isbn = {978-3-905674-54-5},
+keywords = {ENVINF},
+pages = {47--51},
+publisher = {The Eurographics Association},
+title = {{Visualisation strategies for modelling and simulation using geoscientific data }},
+url = {http://dx.doi.org/10.2312/PE.EnvirVis.EnvirVis13.047-051},
+year = {2013}
+}
+@article{Rink2013a,
+abstract = {Over the course of hydrological research projects often a large number 
+of heterogeneous data sets are acquired from sources as diverse as
+boreholes, gauging stations or satellite imagery. This data then need to
+be integrated into models for the simulation of hydrological processes.
+We propose a framework for exploration of geoscientific data and
+visually guided preparation of such models. Data sets from a large
+number of sources can be imported, combined and validated to avoid
+potential problems due to artefacts or inconsistencies between data sets
+in a subsequent simulation. Boundary conditions and domain
+discretisations for surface and subsurface models can be created and
+tested regarding criteria indicating possible numerical instabilities.
+All data sets including simulation results can be integrated into a
+user-controlled 3D scene and aspects of the data can be enhanced using a
+number of established visualisation techniques including thresholding
+and user-defined transfer functions. We present the application of this
+framework for the preparation of a model for simulation of groundwater
+flow in a river catchment in southwest Germany investigated in the scope
+of the WESS project.},
+address = {Data exploration; Hydrology; Simulation; Visualisation; OpenGeoSys},
+author = {Rink, K and Fischer, T and Selle, B and Kolditz, O},
+issn = {1866-6280},
+journal = {Environmental Earth Sciences},
+keywords = {ENVINF},
+number = {2},
+pages = {469--477},
+publisher = {Springer},
+title = {{A data exploration framework for validation and setup of hydrological models}},
+url = {http://dx.doi.org/10.1007/s12665-012-2030-3},
+volume = {69},
+year = {2013}
+}
+@article{Rinke2013,
+abstract = {Reservoirs can be viewed as sentinels of their catchments and a detailed
+monitoring of reservoir systems informs about biogeochemical and
+hydrological processes at the catchment scale. We developed a
+comprehensive online monitoring system at Rappbode reservoir, the
+largest drinking water reservoir in Germany, and its inflows. The
+Rappbode Reservoir Observatory comprises of a set of online-sensors for
+the measurement of physical, chemical, and biological variables and is
+complemented by a biweekly limnological sampling schedule. Measurement
+stations are deployed at the four major inflows into the system, at the
+outlets of all pre-reservoirs, as well as in the main reservoir. The
+newly installed monitoring system serves both scientific monitoring and
+process studies, as well as reservoir management. Particular emphasis is
+paid to the monitoring of short-term dynamics and many variables are
+measured at high temporal resolution. As an example, we quantitatively
+documented a flood event which mobilised high loads of dissolved organic
+carbon and changed the characteristics of the receiving reservoir from
+eutrophic to dystrophic within a few days. This event could have been
+completely missed by conventional biweekly sampling programs, but is
+relevant for biogeochemical fluxes at the catchment scale. We also show
+that the high frequency data provide a deeper insight into ecosystem
+dynamics and lake metabolism. The Rappbode Reservoir Observatory;
+moreover, offers a unique study site to apply, validate, and develop
+state of the art lake models to improve their predictive capabilities.},
+address = {Monitoring; Watersheds; Water quality management; Short-term dynamics; Reservoir management; Flood event},
+author = {Rinke, K and Kuehn, B and Bocaniov, S and Wendt-Potthoff, K and B{\"{u}}ttner, O and Tittel, J and Schultze, M and Herzsprung, P and R{\"{o}}nicke, H and Rink, K and Rinke, K and Dietze, M and Matthes, M and Paul, L and Friese, K},
+issn = {1866-6280},
+journal = {Environmental Earth Sciences},
+keywords = {ASAM,ENVINF,SEEFO},
+number = {2},
+pages = {523--536},
+publisher = {Springer},
+title = {{Reservoirs as sentinels of catchments: the Rappbode Reservoir Observatory (Harz Mountains, Germany)}},
+url = {http://dx.doi.org/10.1007/s12665-013-2464-2},
+volume = {69},
+year = {2013}
+}
+@article{Selle2013,
+abstract = {Travel times and flow paths of groundwater from its recharge area to 
+drinking-water production wells will govern how the quality of pumped
+groundwater responds to contaminations. Here, we studied the 180 km<sup class="a-plus-plus">2</sup>
+Ammer catchment in southwestern Germany, which is extensively used for
+groundwater production from a carbonate aquifer. Using a 3-D
+steady-state groundwater model, four alternative representations of
+discharge and recharge were systematically explored to understand their
+impact on groundwater travel times and flow paths. More specifically,
+two recharge maps obtained from different German hydrologic atlases and
+two plausible alternative discharge scenarios were tested: (1)
+groundwater flow across the entire streambed of the Ammer River and its
+main tributaries and (2) groundwater discharge via a few major springs
+feeding the Ammer River. For each of these scenarios, the groundwater
+model was first calibrated against water levels, and subsequently travel
+times and flow paths were calculated for production wells using
+particle tracking methods. These computed travel times and flow paths
+were indirectly evaluated using additional data from the wells including
+measured concentrations of major ions and environmental tracers
+indicating groundwater age. Different recharge scenarios resulted in a
+comparable fit to observed water levels, and similar estimates of
+hydraulic conductivities, flow paths and travel times of groundwater to
+production wells. Travel times calculated for all scenarios had a
+plausible order of magnitude which were comparable to apparent
+groundwater ages modelled using environmental tracers. Scenario with
+groundwater discharge across the entire streambed of the Ammer River and
+its tributaries resulted in a better fit to water levels than scenario
+with discharge at a few springs only. In spite of the poorer fit to
+water levels, flow paths of groundwater from the latter scenario were
+more plausible, and these were supported by the observed major ion
+chemistry at the production wells. We concluded that data commonly used
+in groundwater modelling such as water levels and apparent groundwater
+ages may be insufficient to reliably delineate capture zones of wells.
+Hydrogeochemical information relating only indirectly to groundwater
+flow such as the major ion chemistry of water sampled at the wells can
+substantially improve our understanding of the source areas of recharge
+for production wells},
+address = {WESS; Water Earth System Science; OpenGeoSys; OGS},
+author = {Selle, B and Rink, K and Kolditz, O},
+issn = {1866-6280},
+journal = {Environmental Earth Sciences},
+keywords = {ENVINF},
+number = {2},
+pages = {443--452},
+publisher = {Springer},
+title = {{Recharge and discharge controls on groundwater travel times and flow paths to production wells for the Ammer catchment in southwestern Germany}},
+url = {http://dx.doi.org/10.1007/s12665-013-2333-z},
+volume = {69},
+year = {2013}
+}
+@incollection{Walther2013,
+abstract = {We visualize remediation scenarios for a coastal aquifer in Oman, where 
+the natural fresh-saltwater interface is negatively affected by
+groundwater pumping for irrigation. The 3D aquifer is characterized by
+strong heterogeneities ranging from local to regional scale, which
+impose visual challenges in the interpretation of large data amounts.
+This paper addresses the visualization workflow, which helped to ensure
+correct model setup and successful calibration of a transient model run.
+The modelling and visualization exercise identified sensitive areas for
+salinization along the coast and assessed the impact of remediation
+measures on the groundwater reservoir in space and time. Proper
+visualization helped to interpret and illustrate the complex results
+adequately, and to transfer scientific information to stakeholders.},
+address = {Geneva},
+author = {Walther, M and Bilke, L and Delfs, J.-O. and Graf, T and Grundmann, J and Kolditz, O and Liedl, R},
+booktitle = {Proceedings EnvirVis2013. Workshop on Visualisation in Environmental Sciences (EnvirVis), Leipzig, Germany, June 17-18, 2013},
+editor = {Kolditz, O and Rink, K and Scheuermann, G},
+isbn = {978-3-905674-54-5},
+keywords = {ENVINF},
+pages = {77--81},
+publisher = {The Eurographics Association},
+title = {{Visualizing saline intrusion in a three-dimensional, heterogeneous, coastal aquifer}},
+url = {http://dx.doi.org/10.2312/PE.EnvirVis.EnvirVis13.077-081},
+year = {2013}
+}
+@inproceedings{Grabe2012,
+abstract = {Water is scarce in the semi-arid to arid region around the Dead Sea
+where water supply mostly relies on restricted groundwater resources.
+Because of population increase the regional groundwater body is exposed
+to additional stress, which also results in a continuous decrease of the
+Dead Sea level. As the interdependency between water demand from
+population increase and the decrease in groundwater availability will
+proceed over the next years, the stressed water supply situation appears
+to proceed also and possibly worsens unless sustainable changes are
+introduced. These changes however, can only be suggested if the
+hydrogeological situation in the tectonically complex region is fully
+understood.  A number of simplified models of the Judea Group aquifer
+have been formulated and employed using a two-dimensional (one
+horizontal layered) numerical simulation of groundwater flow (Baida et
+al. 1978; Goldschtoff &amp; Shachnai, 1980; Guttman, 2000; Laronne
+Ben-Itzhak &amp; Gvirtzmann, 2005). However, all previous approaches
+focused only on a limited area of the Judea Group aquifer. We developed
+a high resolution regional groundwater flow model for the entire western
+basin of the Dead Sea. Whereas the structural model could be defined
+using a large geological dataset, the challenge was to generate the
+groundwater flow model with only limited well data. With the help of the
+scientific software OpenGeoSys (OGS) the challenge was reliably solved
+resulting in a simulation of the hydraulic characteristics (hydraulic
+conductivity and hydraulic head) of the cretaceous aquifer system, which
+was calibrated using PEST.},
+author = {Gr{\"{a}}be, A and Rink, K and Fischer, T and Sun, F and R{\"{o}}diger, T and Kolditz, O},
+booktitle = {Geophysical Research Abstracts},
+isbn = {1029-7006},
+keywords = {CATHYD,ENVINF},
+pages = {EGU2012--8086},
+publisher = {European Geosciences Union (EGU)},
+title = {{Development of a 3D groundwater flow model with scarce data in semi-arid to arid region: the western drainage basin of the Dead Sea (Israel and West Bank)}},
+volume = {14},
+year = {2012}
+}
+@incollection{Grabe2012a,
+address = {Stuttgart},
+author = {Gr{\"{a}}be, A and R{\"{o}}diger, T and Kolditz, O and Rink, K and Fischer, T and Sun, F and Wang, W},
+booktitle = {Hydrogeology of arid environments : proceedings ; [results of the Conference "Hydrogeology of Arid Environments", March 2012 in Hannover (Germany)]},
+editor = {Rausch, R and Sch{\"{u}}th, C and Himmelsbach, T},
+isbn = {978-3-443-01070-6},
+keywords = {CATHYD,ENVINF},
+pages = {48--51},
+publisher = {Borntraeger},
+title = {{Development of a 3D groundwater flow model in semi-arid to arid region: the western drainage basin of the Dead Sea (Israel and West Bank)}},
+year = {2012}
+}
+@incollection{Grabe2012b,
+abstract = {Water is a scarce resource in the semi-arid to arid regions around the Dead Sea where the precipitation<br/>events occur mostly in winter. Average precipitation values ranges between 50 and 600 mm/year. Because of the Dead Sea Graben structure the distribution of precipitation shows a sharp drop over a short distance from the mountainous area towards the Dead Sea. But the area around the Dead Sea is also characterized by a high population density. Therefore the present study deals with the investigation of the water budget of the western Dead Sea escarpment. A main goal is to understand the subsurface water balance of the western Dead Sea escarpment and the impact of the lowering of the Dead Sea water level. The study area is limited by the subsurface watersheds and has a size of $\sim$4000 km2. The region is characterized by the heterogeneous aquifer system of the Judea Group.<br/>The formations of the Judea Group are separated in two sub-aquifers, the Upper Cenomanian-Turonian aquifer and the Lower Cenomanian-Albian aquifer. The objective is to quantify the surface and subsurface inflow of the western escarpment into the Dead Sea basin. This paper gives an overview of the developed regional groundwater flow model of the western Dead Sea escarpment which was achieved by the scientific software OpenGeoSys (OGS), which is specialized in coupled hydro systems processes and calculates the groundwater flow in porous and fractured media of the aquifer system (OGS 2011). The advantage of OGS is the detailed processing of the geological formations and structures (e.g. faults).<p></p>},
+address = {numerical modelling; structural model; 3D groundwater flow model; OpenGeoSys; arid region; Israel, West Bank},
+author = {Gr{\"{a}}be, A and R{\"{o}}diger, T and Rink, K and Fischer, T and Kolditz, O},
+booktitle = {IAHS Publication},
+editor = {Oswald, S E and Kolditz, O and Attinger, S},
+isbn = {978-1-907161-34-6},
+keywords = {CATHYD,ENVINF},
+pages = {345--350},
+publisher = {International Association of Hydrological Sciences (IAHS)},
+title = {{Development of a regional groundwater flow model along the western Dead Sea escarpment}},
+url = {https://iahs.info/uploads/dms/16072.60-345-350-355-28-Gr{\"{a}}be.pdf},
+volume = {355},
+year = {2012}
+}
+@inproceedings{Helbig2012,
+abstract = {Land use and climate changes are some of the most important phenomena which will influence our life in the coming decades. To analyze these phenomena and the projections of their impact, diverse and dynamic data are collected and complex projects for observation and measurement are being developed (e.g. GLUES and TERENO projects). The goal is to find an appropriate way to visualize measured data in combination with simulation results. We propose to develop a generic methodology that can be used beyond the envisaged case study region &#8217;Central Germany&#8217; (Thuringia / Saxony / Saxony-Anhalt). The basis of the visualization consists of raster and vector data for climate, land use, hydrology, agrology, etc. Methods involved in the process of assimilation include up- and downsampling as well as conversions regarding the reference system. The specific user groups of the application are scientists of different domains, stakeholders with expert knowledge and students of the corresponding research fields. They are strongly involved in the data analysis, so that the resulting interactive visualization could be developed according to their requirements. The presentation of the data is geo-referenced across different layers, which include measured data and simulated data for the focused investigation. It also provides additional information in terms of statistics with regard to the scenarios. Layers of simulated data, for example from different scenarios of land use, could be compared and changes could be examined in time response. The visualization will be integrated into an existing framework for data exploration and modeling.<br><p></p>},
+address = {Visualization; Environmental Data; Central Germany; OpenGeoSys Project},
+author = {Helbig, C and Rink, K and Marx, A and Priess, J and Bernhard, L and Frank, M and Kolditz, O},
+booktitle = {Managing resources of a limited planet: pathways and visions under uncertainty. Proceedings of the sixth biannial meeting of the International Environmental Modelling and Software Society, Leipzig, Germany, July 1-5, 2012},
+editor = {Seppelt, R and Voinov, A A and Lange, S and Bankamp, D},
+isbn = {978-88-9035-742-8},
+keywords = {CHS,CLE,ENVINF},
+pages = {2350--2357},
+title = {{Visual integration of diverse environmental data: a case study in Central Germany}},
+url = {http://www.iemss.org/society/index.php/iemss-2012-proceedings},
+year = {2012}
+}
+@techreport{Kolditz2012a,
+abstract = {In this paper we describe the OpenGeoSys (OGS) project, which is a scientific open source initiative for numerical simulation of thermo-hydro-mechanical-chemical (THMC) pro-cesses in porous media and hydrosystems. The basic concept is to provide a flexible numer-ical framework (using primarily the Finite Element Method (FEM)) for solving multi-field problems in porous and fractured media for applications in energy and water research. To this purpose OGS is based on an object-oriented FEM concept including a broad spectrum of interfaces for pre- and post-processing. The idea behind OGS is to provide an open plat-form to the community, outfitted with professional software engineering tools such as plat-form-independent compiling and automated benchmarking. We provide a short historical note about the continuous process of concept and software development having evolved through Fortran, C, and C++ implementations. We present current activities in OGS-5 and give an outlook to the concept of ogs6.<br/>},
+address = {Hamburg},
+author = {Kolditz, O and Bilke, L and Fischer, T and Rink, K and Shao, H and Wang, W and Watanabe, N},
+booktitle = {Proceedings of 10th International Conference on Hydroinformatics : HIC 2012 ; understanding changing climate and environment and finding solutions ; Hamburg, Germany, July 14 - 18, 2012},
+editor = {Hinkelmann, R},
+isbn = {978-3-941492-45-5 },
+keywords = {ENVINF},
+publisher = {TuTech Innovation},
+title = {{OpenGeoSys: an open source initiative for numerical simulation of geological and hydrological environments}},
+year = {2012}
+}
+@article{Kolditz2012b,
+abstract = {<p></p>no abstract<br>},
+author = {Kolditz, O and Rink, K and Shao, H and Kalbacher, T and Kunkel, R and Zacharias, S and Dietrich, P},
+issn = {1866-6280},
+journal = {Environmental Earth Sciences},
+keywords = {ENVINF,MET},
+number = {6},
+pages = {1859},
+publisher = {Springer},
+title = {{Erratum to: International viewpoint and news: data and modelling platforms in environmental Earth sciences}},
+url = {http://dx.doi.org/10.1007/s12665-012-1961-z},
+volume = {67},
+year = {2012}
+}
+@article{Kolditz2012c,
+abstract = {<p></p><p class="ArticleNote"><span class="normal">A German-wide Earth 
+observation network, TERENO, was launched 3 years ago by the Helmholtz
+Association and now brings together
+climate and environmental research from the Alps to the
+Baltic coast. UFZ researchers from the Department of Environmental
+Informatics, Karsten Rink, Haibing Shao, Thomas Kalbacher,
+and Olaf Kolditz together with colleagues from the Department of
+Monitoring and Exploration Technologies, Steffen Zacharias
+and Peter Dietrich outline how their collaborative work embarks
+on new paths with this long-term environmental observation
+system.</span></p><p class="AcknowSimplePara">
+</p><p class="normal">Dr. Olaf Kolditz heads UFZ&rsquo;s Department
+of Environmental Informatics and chairs the Department of Applied
+Environmental Systems
+Analysis at Technical University of Dresden. Dr. Peter
+Dietrich heads UFZ&rsquo;s Department of Monitoring und Exploration
+Technologies
+and is also the Professor for Environmental and
+Engineering Geophysics at the Eberhard-Karls-University of T&uuml;bingen.
+</p>
+<p></p>
+<p></p>},
+author = {Kolditz, O and Rink, K and Shao, H and Kalbacher, T and Zacharias, S and Dietrich, P},
+issn = {1866-6280},
+journal = {Environmental Earth Sciences},
+keywords = {ENVINF,MET},
+number = {4},
+pages = {1279--1284},
+publisher = {Springer},
+title = {{International viewpoint and news}},
+url = {http://dx.doi.org/10.1007/s12665-012-1661-8},
+volume = {66},
+year = {2012}
+}
+@inproceedings{Rink2012,
+abstract = {We present a combined framework for the exploration and assessment of geoscientific data, preparation of hydrological models, simulation and visualisation of the results. A user interface is provided for 3D visualisation of data sets and construction of hydrological models. The structure is modular and functionality is accessed via interfaces, allowing to switch or replace the implementation of parts of the framework (e.g. numerical solver for simulation or filters for visualisation) without any impact on the overall programme. Functionality is accessed via a graphical user interface that guides the user through the modelling process. We present an example workflow for the creation of a model for a groundwater simulation for the Ammer catchment in southern Germany in the scope of the WESS project. We also present the extensive testing environment that has been created to ensure software quality and robust results for a framework with multiple developers.<br><p></p>},
+address = {Hydrology; Modelling; Visualisation},
+author = {Rink, K and Bilke, L and Selle, B and Kolditz, O},
+booktitle = {Managing resources of a limited planet: pathways and visions under uncertainty. Proceedings of the sixth biannial meeting of the International Environmental Modelling and Software Society, Leipzig, Germany, July 1-5, 2012},
+editor = {Seppelt, R and Voinov, A A and Lange, S and Bankamp, D},
+isbn = {978-88-9035-742-8},
+keywords = {CHS,ENVINF},
+pages = {1255--1262},
+title = {{User guided generation of hydrological models: interface design, workflows and concepts for an extensible software framework}},
+url = {http://www.iemss.org/society/index.php/iemss-2012-proceedings},
+year = {2012}
+}
+@incollection{Rink2012a,
+abstract = {In this paper we demonstrate the functionality of the OpenGeoSys framework for visualisation of simulation-related data. Complex hydrological models are based on a large number of heterogeneous input data sets. In addition to any geo-scientific information such models also include finite element meshes, initial- and boundary conditions, and other data necessary for the simulation of hydrological processes. The visual assessment of this information in 3D space in the process of creating models has proven to be helpful for experts to attain a deeper understanding of the interrelation of data sets and the detection of possible problems or errors. The presented visualisation techniques are applied to a model region at the western Dead Sea escarpment for a simulation of groundwater recharge in an arid region.<p></p>},
+address = {Visualisation; Hydrology; Simulation; Groundwater flow},
+author = {Rink, K and Fischer, T and Gr{\"{a}}be, A and Kolditz, O},
+booktitle = {IAHS Publication},
+editor = {Oswald, S E and Kolditz, O and Attinger, S},
+isbn = {978-1-907161-34-6},
+keywords = {CHS,ENVINF},
+pages = {113--118},
+publisher = {International Association of Hydrological Sciences (IAHS)},
+title = {{Visual preparation of hydrological models}},
+url = {https://iahs.info/uploads/dms/15918.22-113-118-355-33-Rink.pdf},
+volume = {355},
+year = {2012}
+}
+@article{Rink2012b,
+abstract = {<p></p>Hydrological research projects for integrated water resources management
+such as the IWAS initiative often accumulate large
+amounts of heterogeneous data from different sources. Given
+the number of partners taking part in such projects, surveying
+and accessing the available data sets, as well as searching
+for a defined subset, becomes increasingly difficult. We propose
+an integrated approach for a system combining visual data
+management and numerical simulation which allows to survey and select
+data sets based on keywords such as a region of interest or
+given indicators. An adequate 3D visualisation of such subsets
+helps to convey information and significantly supports the
+assessment of relations between different types of data. Furthermore,
+the interface between the visual data management system and
+finite element codes allows for the straightforward integration
+of information into the numerical simulation process and the
+subsequent visualisation of simulation results in a geographical
+context. We demonstrate typical workflows for integration
+and processing within the system based on data from the IWAS model
+region in Saudi Arabia and the TERENO Bode Observatory in
+the Harz Mountains in Germany. In addition, we present examples
+for data import and export based on established standard
+file formats.},
+address = {Data exploration; 3D visualisation; Hydrological processes; IWAS; TERENO; OpenGeoSys },
+author = {Rink, K and Kalbacher, T and Kolditz, O},
+issn = {1866-6280},
+journal = {Environmental Earth Sciences},
+keywords = {ENVINF},
+number = {5},
+pages = {1395--1403},
+publisher = {Springer},
+title = {{Visual data eploration for hydrological analysis}},
+url = {http://dx.doi.org/10.1007/s12665-011-1230-6},
+volume = {65},
+year = {2012}
+}
+@incollection{Zehner2012,
+abstract = {As part of a project which deals with a large-scale groundwater study aimed at simulating the available<br/>groundwater resources in the Upper Mega Aquifer system in the eastern part of Saudi Arabia, an interactive visualization has been created in order to show the simulation results, together with the original borehole data from which the input model was constructed and placed within the context of the geological surroundings in an easily understandable way. The 3D visualization can be run in a stereoscopic visualization centre and is augmented by additional 2D visualizations that help users to orient themselves within the virtual scenery and which also show additional information upon selection of corresponding objects in the 3D scene.<p></p>},
+address = {2D; 3D; groundwater; visualization; virtual reality},
+author = {Zehner, B and Bilke, L and Kalbacher, T and Kalbus, E and Rink, K and Rausch, R and Kolditz, O},
+booktitle = {IAHS Publication},
+editor = {Oswald, S E and Kolditz, O and Attinger, S},
+isbn = {978-1-907161-34-6},
+keywords = {ENVINF},
+pages = {127--132},
+publisher = {International Association of Hydrological Sciences (IAHS)},
+title = {{Mixed 2D/3D visualization of a large scale groundwater study in a virtual reality centre}},
+volume = {355},
+year = {2012}
+}
+@inproceedings{Rink2011,
+abstract = {<p></p><!--[if gte mso 9]><xml>
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+<p class="MsoNormal"><span style="font-size:9.0pt;line-height:115%;
+font-family:"Times New Roman","serif";mso-ansi-language:EN-US" lang="EN-US">We propose a
+data exploration framework for the visualisation and evaluation of hydrological
+data for the enhancement of numerical simulations. A user-controlled 3D space
+allows an assessment of large input data sets. Typical examples for inconsistencies
+between heterogeneous data sets are given and it is demonstrated how these can
+be detected via a number of modifications done to the scene. Also, the
+framework allows for the discretisation of the model domain by the generation
+of finite element meshes based on geo-metric input data. A number of
+measurements are provided to verify the quality of these meshes and evaluate
+their adequacy for a subsequent numerical simulation of hydrological processes such
+as groundwater flow. We demonstrate the application of the framework in two
+case studies of different scale in </span><span style="font-size:9.0pt;
+line-height:115%;font-family:"Times New Roman","serif"">central Germany.</span>
+</p>
+
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+address = {Rome},
+author = {Rink, K and Fischer, T and Kolditz, O},
+booktitle = {Proceedings of the IADIS International Conference Computer Graphics, Visualization, Computer Vision and Image Processing 2011 : part of the IADIS Multi Conference on Computer Science and Information Systems 2011 ; Rome, Italy, July 24 - 26, 2011},
+isbn = {978-972-8939-48-9},
+keywords = {ENVINF},
+pages = {169--176},
+publisher = {IADIS Press},
+title = {{Data visualisation and validation for hydrological models}},
+year = {2011}
+}
+@article{Kolditz2012,
+abstract = {In this paper we describe the OpenGeoSys (OGS) project, which is a scientific open-source initiative for numerical simulation of thermo-hydro-mechanical-chemical processes in porous media. The basic concept is to provide a flexible numerical framework (using primarily the Finite Element Method (FEM)) for solving multifield problems in porous and fractured media for applications in geoscience and hydrology. To this purpose OGS is based on an object-oriented FEM concept including a broad spectrum of interfaces for pre- and postprocessing. The OGS idea has been in development since the mid-eighties. We provide a short historical note about the continuous process of concept and software development having evolved through Fortran, C, and C++ implementations. The idea behind OGS is to provide an open platform to the community, outfitted with professional software-engineering tools such as platform-independent compiling and automated benchmarking. A comprehensive benchmarking book has been prepared for publication. Benchmarking has been proven to be a valuable tool for cooperation between different developer teams, for example, for code comparison and validation purposes (DEVOVALEX and CO2 BENCH projects). On one hand, object-orientation (OO) provides a suitable framework for distributed code development; however, the parallelization of OO codes still lacks efficiency. High-performance-computing efficiency of OO codes is subject to future research.},
+author = {Kolditz, O. and Bauer, S. and Bilke, L. and B{\"{o}}ttcher, N. and Delfs, J. O. and Fischer, T. and G{\"{o}}rke, U. J. and Kalbacher, T. and Kosakowski, G. and McDermott, C. I. and Park, C. H. and Radu, F. and Rink, K. and Shao, H. and Shao, H. B. and Sun, F. and Sun, Y. Y. and Singh, A. K. and Taron, J. and Walther, M. and Wang, W. and Watanabe, N. and Wu, Y. and Xie, M. and Xu, W. and Zehner, B.},
+doi = {10.1007/S12665-012-1546-X},
+issn = {1866-6299},
+journal = {Environmental Earth Sciences 2012 67:2},
+keywords = {Biogeosciences,Environmental Science and Engineering,Geochemistry,Geology,Hydrology/Water Resources,Terrestrial Pollution},
+month = {feb},
+number = {2},
+pages = {589--599},
+publisher = {Springer},
+title = {{OpenGeoSys: an open-source initiative for numerical simulation of thermo-hydro-mechanical/chemical (THM/C) processes in porous media}},
+url = {https://link.springer.com/article/10.1007/s12665-012-1546-x},
+volume = {67},
+year = {2012}
+}
diff --git a/visgroup/content/_index.md b/visgroup/content/_index.md
index 6f038c9..b73af78 100644
--- a/visgroup/content/_index.md
+++ b/visgroup/content/_index.md
@@ -1,6 +1,6 @@
 ---
-featured_image: header-bg-small.jpg
-site_logo: logo.jpg
+featured_image: general/header-bg-small.jpg
+site_logo: general/logo.jpg
 description: Helmholtz Centre for Environmental Research GmbH (UFZ)
 ---
 {{< single-page-intro text="The Visualization Center TESSIN VISLab (Vislab) allows scientists with different backgrounds to explore and analyse complex and heterogeneous spatial data sets. A large interactive stereoscopic projection screen is used to dive right into the displayed environmental data sets thus helping in understanding scientific questions and challenges. The Vislab fosters knowledge transfer in the scientific community as well as among the general public." >}}
diff --git a/visgroup/content/dataIntegration.md b/visgroup/content/dataIntegration.md
index 42776fb..870362b 100644
--- a/visgroup/content/dataIntegration.md
+++ b/visgroup/content/dataIntegration.md
@@ -1,7 +1,7 @@
 ---
 title: "Data Integration"
 description: "at the Visualisation and Data Integration Group"
-site_logo: logo.jpg
+site_logo: general/logo.jpg
 date: 2023-06-07T23:52:09+02:00
 ---
 
diff --git a/visgroup/content/projects_hydro.md b/visgroup/content/projects_hydro.md
index a501322..13f07cc 100644
--- a/visgroup/content/projects_hydro.md
+++ b/visgroup/content/projects_hydro.md
@@ -13,7 +13,7 @@ date: 2023-06-07T23:52:18+02:00
 ---------------------------------------------------------------------->
 
 {{< project-start
-	project-image="/pr_moses.jpg"
+	project-image="/projects_hydro/pr_moses.jpg"
 	project-title="MOSES-Müglitz: Monitoring and Modelling Campaign"
 	>}}
 
@@ -47,7 +47,7 @@ K Rink, Ö O Şen, et al. (2022): An Environmental Exploration System for Visual
 
 
 {{< project-start
-	project-image="/pr_poyang.jpg"
+	project-image="/projects_hydro/pr_poyang.jpg"
 	project-title="Monitoring and Modelling in Large River-Lake Systems"
 	>}}
 
diff --git a/visgroup/content/wayWeWork.md b/visgroup/content/wayWeWork.md
index e2899ed..6591a07 100644
--- a/visgroup/content/wayWeWork.md
+++ b/visgroup/content/wayWeWork.md
@@ -1,7 +1,7 @@
 ---
 title: "The Way We Work"
 description: "at the Visualisation and Data Integration Group"
-site_logo: logo.jpg
+site_logo: general/logo.jpg
 date: 2023-06-07T23:52:00+02:00
 ---
 
diff --git a/visgroup/data/dummyPublications.json b/visgroup/data/dummyPublications.json
deleted file mode 100644
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diff --git a/visgroup/data/publications.json b/visgroup/data/publications.json
new file mode 100644
index 0000000..9fe6b5b
--- /dev/null
+++ b/visgroup/data/publications.json
@@ -0,0 +1,4370 @@
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+   "title": "Revision control and automatic documentation for the development numerical models for scientific applications",
+   "year": "2018",
+   "author": [
+    {
+     "name": "Zinner, M"
+    },
+    {
+     "name": "Rink, K"
+    },
+    {
+     "name": "J\u00e4kel, R"
+    },
+    {
+     "name": "Feldhoff, K"
+    },
+    {
+     "name": "Grunzke, R"
+    },
+    {
+     "name": "Fischer, T"
+    },
+    {
+     "name": "Song, R"
+    },
+    {
+     "name": "Walther, M"
+    },
+    {
+     "name": "Jejkal, T"
+    },
+    {
+     "name": "Kolditz, O"
+    },
+    {
+     "name": "Nagel, W E"
+    }
+   ],
+   "journal": {
+    "name": "International Journal on Advances in Software ",
+    "volume": "11",
+    "number": "3&4",
+    "pages": "214--226"
+   }
+  },
+  {
+   "type": "article",
+   "id": "Helbig2017",
+   "citekey": "Helbig2017",
+   "collection": "publications-karsten-von-ufz-webseite",
+   "title": "Challenges and strategies for the visual exploration of complex environmental data",
+   "year": "2017",
+   "author": [
+    {
+     "name": "Helbig, C"
+    },
+    {
+     "name": "Dransch, D"
+    },
+    {
+     "name": "B\u00f6ttinger, M"
+    },
+    {
+     "name": "Devey, C"
+    },
+    {
+     "name": "Haas, A"
+    },
+    {
+     "name": "Hlawitschka, M"
+    },
+    {
+     "name": "Kuenzer, C"
+    },
+    {
+     "name": "Rink, K"
+    },
+    {
+     "name": "Sch\u00e4fer-Neth, C"
+    },
+    {
+     "name": "Scheuermann, G"
+    },
+    {
+     "name": "Kwasnitschka, T"
+    },
+    {
+     "name": "Unger, A"
+    }
+   ],
+   "journal": {
+    "name": "International Journal of Digital Earth",
+    "volume": "10",
+    "number": "10",
+    "pages": "1070--1076"
+   }
+  },
+  {
+   "type": "incollection",
+   "id": "Rink2017",
+   "citekey": "Rink2017",
+   "collection": "publications-karsten-von-ufz-webseite",
+   "title": "Setting up virtual geographic environments in unity",
+   "year": "2017",
+   "booktitle": "Proceedings EnvirVis2017. Workshop on Visualisation in Environmental Sciences (EnvirVis), Barcelona, Spain, 12-13 June, 2017",
+   "pages": "1--5",
+   "address": "Geneva",
+   "author": [
+    {
+     "name": "Rink, K"
+    },
+    {
+     "name": "Bilke, L"
+    },
+    {
+     "name": "Kolditz, O"
+    }
+   ],
+   "publisher": {
+    "name": "The Eurographics Association",
+    "address": "Geneva"
+   },
+   "editor": [
+    {
+     "name": {
+      "name": "Rink, K",
+      "ID": "RinkK"
+     }
+    },
+    {
+     "name": {
+      "name": "Middel, V",
+      "ID": "MiddelV"
+     }
+    },
+    {
+     "name": {
+      "name": "Zeckzer, D",
+      "ID": "ZeckzerD"
+     }
+    },
+    {
+     "name": {
+      "name": "Bujack, R",
+      "ID": "BujackR"
+     }
+    }
+   ]
+  },
+  {
+   "type": "article",
+   "id": "Rink2017a",
+   "citekey": "Rink2017a",
+   "collection": "publications-karsten-von-ufz-webseite",
+   "title": "Proceedings EuroVis 2017. 5th Workshop on Visualisation in Environmental Sciences (EnvirVis), Barcelona, Spain, 12-13 June, 2017",
+   "year": "2017",
+   "author": [
+    {
+     "name": "Rink, K"
+    },
+    {
+     "name": "Middel, V"
+    },
+    {
+     "name": "Zeckzer, D"
+    },
+    {
+     "name": "Bujack, R"
+    }
+   ]
+  },
+  {
+   "type": "misc",
+   "id": "Sachse2017",
+   "citekey": "Sachse2017",
+   "collection": "publications-karsten-von-ufz-webseite",
+   "title": "OpenGeoSys Tutorial. Computational hydrology II: groundwater quality modeling",
+   "year": "2017",
+   "author": [
+    {
+     "name": "Sachse, A"
+    },
+    {
+     "name": "Nixdorf, E"
+    },
+    {
+     "name": "Jang, E"
+    },
+    {
+     "name": "Rink, K"
+    },
+    {
+     "name": "Fischer, T"
+    },
+    {
+     "name": "Xi, B"
+    },
+    {
+     "name": "Beyer, C"
+    },
+    {
+     "name": "Bauer, S"
+    },
+    {
+     "name": "Walther, M"
+    },
+    {
+     "name": "Sun, Y"
+    },
+    {
+     "name": "Song, Y"
+    }
+   ]
+  },
+  {
+   "type": "article",
+   "id": "Wollschlager2017",
+   "citekey": "Wollschlager2017",
+   "collection": "publications-karsten-von-ufz-webseite",
+   "title": "The Bode hydrological observatory: a platform for integrated, interdisciplinary hydro-ecological research within the TERENO Harz/Central German Lowland Observatory",
+   "year": "2017",
+   "author": [
+    {
+     "name": "Wollschl\u00e4ger, U"
+    },
+    {
+     "name": "Attinger, S"
+    },
+    {
+     "name": "Borchardt, D"
+    },
+    {
+     "name": "Brauns, M"
+    },
+    {
+     "name": "Cuntz, M"
+    },
+    {
+     "name": "Dietrich, P"
+    },
+    {
+     "name": "Fleckenstein, J H"
+    },
+    {
+     "name": "Friese, K"
+    },
+    {
+     "name": "Friesen, J"
+    },
+    {
+     "name": "Harpke, A"
+    },
+    {
+     "name": "Hildebrandt, A"
+    },
+    {
+     "name": "J\u00e4ckel, G"
+    },
+    {
+     "name": "Kamjunke, N"
+    },
+    {
+     "name": "Kn\u00f6ller, K"
+    },
+    {
+     "name": "K\u00f6gler, S"
+    },
+    {
+     "name": "Kolditz, O"
+    },
+    {
+     "name": "Krieg, R"
+    },
+    {
+     "name": "Kumar, R"
+    },
+    {
+     "name": "Lausch, A"
+    },
+    {
+     "name": "Liess, M"
+    },
+    {
+     "name": "Marx, A"
+    },
+    {
+     "name": "Merz, R"
+    },
+    {
+     "name": "Mueller, C"
+    },
+    {
+     "name": "Musolff, A"
+    },
+    {
+     "name": "Norf, H"
+    },
+    {
+     "name": "Oswald, S E"
+    },
+    {
+     "name": "Rebmann, C"
+    },
+    {
+     "name": "Reinstorf, F"
+    },
+    {
+     "name": "Rode, M"
+    },
+    {
+     "name": "Rink, K"
+    },
+    {
+     "name": "Rinke, K"
+    },
+    {
+     "name": "Samaniego, L"
+    },
+    {
+     "name": "Vieweg, M"
+    },
+    {
+     "name": "Vogel, H.-J."
+    },
+    {
+     "name": "Weitere, M"
+    },
+    {
+     "name": "Werban, U"
+    },
+    {
+     "name": "Zink, M"
+    },
+    {
+     "name": "Zacharias, S"
+    }
+   ],
+   "journal": {
+    "name": "Environmental Earth Sciences",
+    "volume": "76",
+    "number": "1",
+    "pages": "art. 29"
+   }
+  },
+  {
+   "type": "incollection",
+   "id": "Zinner2017",
+   "citekey": "Zinner2017",
+   "collection": "publications-karsten-von-ufz-webseite",
+   "title": "Automatic documentation of the development of numerical models for scientific applications using specific revision control",
+   "year": "2017",
+   "booktitle": "Proceedings of the Twelfth International Conference on Software Engineering Advances (ICSEA), October 8 - 12, 2017 - Athens, Greece",
+   "pages": "18--27",
+   "address": "Software development; Automatic generation of documentation; Revision control; Backup and Restore; Metadata; Improvement of research environment; Support of research process",
+   "author": [
+    {
+     "name": "Zinner, M"
+    },
+    {
+     "name": "Rink, K"
+    },
+    {
+     "name": "J\u00e4kel, R"
+    },
+    {
+     "name": "Feldhoff, K"
+    },
+    {
+     "name": "Grunzke, R"
+    },
+    {
+     "name": "Fischer, T"
+    },
+    {
+     "name": "Song, R"
+    },
+    {
+     "name": "Walther, M"
+    },
+    {
+     "name": "Jejkal, T"
+    },
+    {
+     "name": "Kolditz, O"
+    },
+    {
+     "name": "Nagel, W E"
+    },
+    {
+     "name": "Lavazza, L"
+    },
+    {
+     "name": "Oberhauser, R"
+    },
+    {
+     "name": "Koci, R"
+    },
+    {
+     "name": "Clyde, S"
+    }
+   ],
+   "publisher": {
+    "name": "IARIA XPS Press",
+    "address": "Software development; Automatic generation of documentation; Revision control; Backup and Restore; Metadata; Improvement of research environment; Support of research process"
+   }
+  },
+  {
+   "type": "article",
+   "id": "Liao2016",
+   "citekey": "Liao2016",
+   "collection": "publications-karsten-von-ufz-webseite",
+   "title": "To analyze the Urban Water Pollution Discharge System using the tracking and tracing approach",
+   "year": "2016",
+   "author": [
+    {
+     "name": "Liao, Z"
+    },
+    {
+     "name": "Zhi, G"
+    },
+    {
+     "name": "Zhou, Y"
+    },
+    {
+     "name": "Xu, Z"
+    },
+    {
+     "name": "Rink, K"
+    }
+   ],
+   "journal": {
+    "name": "Environmental Earth Sciences",
+    "volume": "75",
+    "number": "14",
+    "pages": "art. 1080"
+   }
+  },
+  {
+   "type": "incollection",
+   "id": "Naumov2016",
+   "citekey": "Naumov2016",
+   "collection": "publications-karsten-von-ufz-webseite",
+   "title": "Appendix B : ogs6 overview",
+   "year": "2016",
+   "booktitle": "Terrestrial Environmental Sciences",
+   "pages": "223--227",
+   "address": "Cham",
+   "author": [
+    {
+     "name": "Naumov, D"
+    },
+    {
+     "name": "Bilke, L"
+    },
+    {
+     "name": "Fischer, T"
+    },
+    {
+     "name": "Lehmann, C"
+    },
+    {
+     "name": "Rink, K"
+    },
+    {
+     "name": "Walther, M"
+    },
+    {
+     "name": "Wang, W"
+    },
+    {
+     "name": "Watanabe, N"
+    }
+   ],
+   "publisher": {
+    "name": "Springer Nature",
+    "address": "Cham"
+   },
+   "editor": [
+    {
+     "name": {
+      "name": "Kolditz, O",
+      "ID": "KolditzO"
+     }
+    },
+    {
+     "name": {
+      "name": "G\u00f6rke, U.-J.",
+      "ID": "G\u00f6rkeU-J"
+     }
+    },
+    {
+     "name": {
+      "name": "Shao, H",
+      "ID": "ShaoH"
+     }
+    },
+    {
+     "name": {
+      "name": "Wang, W",
+      "ID": "WangW"
+     }
+    },
+    {
+     "name": {
+      "name": "Bauer, S",
+      "ID": "BauerS"
+     }
+    }
+   ]
+  },
+  {
+   "type": "incollection",
+   "id": "Delfs2015",
+   "citekey": "Delfs2015",
+   "collection": "publications-karsten-von-ufz-webseite",
+   "title": "Appendix B: Coupled hydrosystems. OGS#SWMM",
+   "year": "2015",
+   "booktitle": "SpringerBriefs in Earth System Sciences",
+   "pages": "99--100",
+   "address": "Cham",
+   "author": [
+    {
+     "name": "Delfs, J.-O."
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+   ],
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+    "name": "Springer International Publishing",
+    "address": "Cham"
+   },
+   "editor": [
+    {
+     "name": {
+      "name": "Sachse, A",
+      "ID": "SachseA"
+     }
+    },
+    {
+     "name": {
+      "name": "Rink, K",
+      "ID": "RinkK"
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+    },
+    {
+     "name": {
+      "name": "He, W",
+      "ID": "HeW"
+     }
+    },
+    {
+     "name": {
+      "name": "Kolditz, O",
+      "ID": "KolditzO"
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+  {
+   "type": "incollection",
+   "id": "He2015",
+   "citekey": "He2015",
+   "collection": "publications-karsten-von-ufz-webseite",
+   "title": "Benchmark: Theis problem",
+   "year": "2015",
+   "booktitle": "SpringerBriefs in Earth System Sciences",
+   "pages": "31--51",
+   "address": "Cham",
+   "author": [
+    {
+     "name": "He, W"
+    },
+    {
+     "name": "Walther, M"
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+    {
+     "name": "Kolditz, O"
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+   ],
+   "publisher": {
+    "name": "Springer International Publishing",
+    "address": "Cham"
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+   "editor": [
+    {
+     "name": {
+      "name": "Sachse, A",
+      "ID": "SachseA"
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+    },
+    {
+     "name": {
+      "name": "Rink, K",
+      "ID": "RinkK"
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+    },
+    {
+     "name": {
+      "name": "He, W",
+      "ID": "HeW"
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+    },
+    {
+     "name": {
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+      "ID": "KolditzO"
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+   "id": "Kalbacher2015",
+   "citekey": "Kalbacher2015",
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+   "title": "Appendix B: Coupled hydrosystems. OGS#mHM",
+   "year": "2015",
+   "booktitle": "SpringerBriefs in Earth System Sciences",
+   "pages": "100--101",
+   "address": "Cham",
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+    {
+     "name": "Walther, M"
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+    {
+     "name": "Wang, W"
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+    "address": "Cham"
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+      "ID": "SachseA"
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+    {
+     "name": {
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+      "ID": "RinkK"
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+    },
+    {
+     "name": {
+      "name": "He, W",
+      "ID": "HeW"
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+    },
+    {
+     "name": {
+      "name": "Kolditz, O",
+      "ID": "KolditzO"
+     }
+    }
+   ]
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+  {
+   "type": "incollection",
+   "id": "Rink2015",
+   "citekey": "Rink2015",
+   "collection": "publications-karsten-von-ufz-webseite",
+   "title": "Appendix C: OpenGeoSys installation guide",
+   "year": "2015",
+   "booktitle": "SpringerBriefs in Earth System Sciences",
+   "pages": "103--104",
+   "address": "Cham",
+   "author": [
+    {
+     "name": "Rink, K"
+    },
+    {
+     "name": "Bilke, L"
+    },
+    {
+     "name": "Fischer, T"
+    }
+   ],
+   "publisher": {
+    "name": "Springer International Publishing",
+    "address": "Cham"
+   },
+   "editor": [
+    {
+     "name": {
+      "name": "Sachse, A",
+      "ID": "SachseA"
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+    },
+    {
+     "name": {
+      "name": "Rink, K",
+      "ID": "RinkK"
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+    },
+    {
+     "name": {
+      "name": "He, W",
+      "ID": "HeW"
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+    },
+    {
+     "name": {
+      "name": "Kolditz, O",
+      "ID": "KolditzO"
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+   "id": "Rink2015a",
+   "citekey": "Rink2015a",
+   "collection": "publications-karsten-von-ufz-webseite",
+   "title": "Modelling with OpenGeoSys",
+   "year": "2015",
+   "booktitle": "SpringerBriefs in Earth System Sciences",
+   "pages": "19--29",
+   "address": "Cham",
+   "author": [
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+    {
+     "name": "Sachse, A"
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+    {
+     "name": "Kolditz, O"
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+   ],
+   "publisher": {
+    "name": "Springer International Publishing",
+    "address": "Cham"
+   },
+   "editor": [
+    {
+     "name": {
+      "name": "Sachse, A",
+      "ID": "SachseA"
+     }
+    },
+    {
+     "name": {
+      "name": "Rink, K",
+      "ID": "RinkK"
+     }
+    },
+    {
+     "name": {
+      "name": "He, W",
+      "ID": "HeW"
+     }
+    },
+    {
+     "name": {
+      "name": "Kolditz, O",
+      "ID": "KolditzO"
+     }
+    }
+   ]
+  },
+  {
+   "type": "incollection",
+   "id": "Sachse2015",
+   "citekey": "Sachse2015",
+   "collection": "publications-karsten-von-ufz-webseite",
+   "title": "Hydrogeology",
+   "year": "2015",
+   "booktitle": "SpringerBriefs in Earth System Sciences",
+   "pages": "13--17",
+   "address": "Cham",
+   "author": [
+    {
+     "name": "Sachse, A"
+    },
+    {
+     "name": "Jakobs, L"
+    },
+    {
+     "name": "Kolditz, O"
+    }
+   ],
+   "publisher": {
+    "name": "Springer International Publishing",
+    "address": "Cham"
+   },
+   "editor": [
+    {
+     "name": {
+      "name": "Sachse, A",
+      "ID": "SachseA"
+     }
+    },
+    {
+     "name": {
+      "name": "Rink, K",
+      "ID": "RinkK"
+     }
+    },
+    {
+     "name": {
+      "name": "He, W",
+      "ID": "HeW"
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+    },
+    {
+     "name": {
+      "name": "Kolditz, O",
+      "ID": "KolditzO"
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+   "id": "Sachse2015a",
+   "citekey": "Sachse2015a",
+   "collection": "publications-karsten-von-ufz-webseite",
+   "title": "Hydrology ",
+   "year": "2015",
+   "booktitle": "SpringerBriefs in Earth System Sciences",
+   "pages": "1--11",
+   "address": "Cham",
+   "author": [
+    {
+     "name": "Sachse, A"
+    },
+    {
+     "name": "Jakobs, L"
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+   ],
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+    "name": "Springer International Publishing",
+    "address": "Cham"
+   },
+   "editor": [
+    {
+     "name": {
+      "name": "Sachse, A",
+      "ID": "SachseA"
+     }
+    },
+    {
+     "name": {
+      "name": "Rink, K",
+      "ID": "RinkK"
+     }
+    },
+    {
+     "name": {
+      "name": "He, W",
+      "ID": "HeW"
+     }
+    },
+    {
+     "name": {
+      "name": "Kolditz, O",
+      "ID": "KolditzO"
+     }
+    }
+   ]
+  },
+  {
+   "type": "misc",
+   "id": "Sachse2015b",
+   "citekey": "Sachse2015b",
+   "collection": "publications-karsten-von-ufz-webseite",
+   "title": "OpenGeoSys-Tutorial. Computational hydrology I: groundwater flow modeling ",
+   "year": "2015",
+   "author": [
+    {
+     "name": "Sachse, A"
+    },
+    {
+     "name": "Rink, K"
+    },
+    {
+     "name": "He, W"
+    },
+    {
+     "name": "Kolditz, O"
+    }
+   ]
+  },
+  {
+   "type": "incollection",
+   "id": "Sachse2015c",
+   "citekey": "Sachse2015c",
+   "collection": "publications-karsten-von-ufz-webseite",
+   "title": "Appendix A: Geographical information systems",
+   "year": "2015",
+   "booktitle": "SpringerBriefs in Earth System Sciences",
+   "pages": "93--95",
+   "address": "Cham",
+   "author": [
+    {
+     "name": "Sachse, A"
+    }
+   ],
+   "publisher": {
+    "name": "Springer International Publishing",
+    "address": "Cham"
+   },
+   "editor": [
+    {
+     "name": {
+      "name": "Sachse, A",
+      "ID": "SachseA"
+     }
+    },
+    {
+     "name": {
+      "name": "Rink, K",
+      "ID": "RinkK"
+     }
+    },
+    {
+     "name": {
+      "name": "He, W",
+      "ID": "HeW"
+     }
+    },
+    {
+     "name": {
+      "name": "Kolditz, O",
+      "ID": "KolditzO"
+     }
+    }
+   ]
+  },
+  {
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+   "id": "Sachse2015d",
+   "citekey": "Sachse2015d",
+   "collection": "publications-karsten-von-ufz-webseite",
+   "title": "Case study: Ammer catchment",
+   "year": "2015",
+   "booktitle": "SpringerBriefs in Earth System Sciences",
+   "pages": "53--91",
+   "address": "Cham",
+   "author": [
+    {
+     "name": "Sachse, A"
+    },
+    {
+     "name": "Selle, B"
+    },
+    {
+     "name": "Rink, K"
+    }
+   ],
+   "publisher": {
+    "name": "Springer International Publishing",
+    "address": "Cham"
+   },
+   "editor": [
+    {
+     "name": {
+      "name": "Sachse, A",
+      "ID": "SachseA"
+     }
+    },
+    {
+     "name": {
+      "name": "Rink, K",
+      "ID": "RinkK"
+     }
+    },
+    {
+     "name": {
+      "name": "He, W",
+      "ID": "HeW"
+     }
+    },
+    {
+     "name": {
+      "name": "Kolditz, O",
+      "ID": "KolditzO"
+     }
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+   "id": "Schulz2015",
+   "citekey": "Schulz2015",
+   "collection": "publications-karsten-von-ufz-webseite",
+   "title": "Appendix B: Coupled hydrosystems. OGS#JAMS",
+   "year": "2015",
+   "booktitle": "SpringerBriefs in Earth System Sciences",
+   "pages": "97--99",
+   "address": "Cham",
+   "author": [
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+     "name": "Schulz, S"
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+      "ID": "SachseA"
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+    {
+     "name": {
+      "name": "Rink, K",
+      "ID": "RinkK"
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+    },
+    {
+     "name": {
+      "name": "He, W",
+      "ID": "HeW"
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+    },
+    {
+     "name": {
+      "name": "Kolditz, O",
+      "ID": "KolditzO"
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+   "citekey": "Vienken2015",
+   "collection": "publications-karsten-von-ufz-webseite",
+   "title": "Sustainable intensive thermal use of the shallow subsurface \u00e2\u20ac\u201d a critical view on the status quo",
+   "year": "2015",
+   "author": [
+    {
+     "name": "Vienken, T"
+    },
+    {
+     "name": "Schelenz, S"
+    },
+    {
+     "name": "Rink, K"
+    },
+    {
+     "name": "Dietrich, P"
+    }
+   ],
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+    "volume": "53",
+    "number": "3",
+    "pages": "356--361"
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+   "type": "article",
+   "id": "Bilke2014",
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+   "collection": "publications-karsten-von-ufz-webseite",
+   "title": "TESSIN VISLab\u00e2\u20ac\u201dlaboratory for scientific visualization",
+   "year": "2014",
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+     "name": "Bilke, L"
+    },
+    {
+     "name": "Fischer, T"
+    },
+    {
+     "name": "Helbig, C"
+    },
+    {
+     "name": "Krawczyk, C"
+    },
+    {
+     "name": "Nagel, T"
+    },
+    {
+     "name": "Naumov, D"
+    },
+    {
+     "name": "Paulick, S"
+    },
+    {
+     "name": "Rink, K"
+    },
+    {
+     "name": "Sachse, A"
+    },
+    {
+     "name": "Schelenz, S"
+    },
+    {
+     "name": "Walther, M"
+    },
+    {
+     "name": "Watanabe, N"
+    },
+    {
+     "name": "Zehner, B"
+    },
+    {
+     "name": "Ziesch, J"
+    },
+    {
+     "name": "Kolditz, O"
+    }
+   ],
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+    "pages": "3881--3899"
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+     "name": "Helbig, C"
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+    {
+     "name": "Bauer, H.-S."
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+    {
+     "name": "Wulfmeyer, V"
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+    {
+     "name": "Frank, M"
+    },
+    {
+     "name": "Kolditz, O"
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+     "name": "Bilke, L"
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+    "pages": "3857--3868"
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+    {
+     "name": "Scheuermann, G"
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+    {
+     "name": "Kolditz, O"
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+    "name": "Environmental Earth Sciences",
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+    {
+     "name": "Gr\u00e4be, A"
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+    {
+     "name": "R\u00f6diger, T"
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+    {
+     "name": "Rink, K"
+    },
+    {
+     "name": "Fischer, T"
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+    {
+     "name": "Sun, F"
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+    {
+     "name": "Wang, W"
+    },
+    {
+     "name": "Siebert, C"
+    },
+    {
+     "name": "Kolditz, O"
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+   ],
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+    "volume": "69",
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+     "name": "Grathwohl, P"
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+     "name": "R\u00fcgner, H"
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+    {
+     "name": "W\u00f6hling, T"
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+    {
+     "name": "Osenbr\u00fcck, K"
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+     "name": "Schwientek, M"
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+    {
+     "name": "Gayler, S"
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+    {
+     "name": "Wollschl\u00e4ger, U"
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+    {
+     "name": "Selle, B"
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+    {
+     "name": "Pause, M"
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+    {
+     "name": "Delfs, J.-O."
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+     "name": "Grzeschik, M"
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+    {
+     "name": "Weller, U"
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+    {
+     "name": "Ivanov, M"
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+    {
+     "name": "Cirpka, O A"
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+     "name": "Maier, U"
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+    {
+     "name": "Kuch, B"
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+    {
+     "name": "Nowak, W"
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+     "name": "Warrach-Sagi, K"
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+     "name": "Streck, T"
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+     "name": "Attinger, S"
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+    {
+     "name": "Dietrich, P"
+    },
+    {
+     "name": "Fleckenstein, J H"
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+    {
+     "name": "Kalbacher, T"
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+    {
+     "name": "Kolditz, O"
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+    {
+     "name": "Rink, K"
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+    {
+     "name": "Vogel, H.-J."
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+    {
+     "name": "Werban, U"
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+    {
+     "name": "Teutsch, G"
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+     "name": "Bauer, H.-S."
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+     "name": {
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+     "name": "Rink, K"
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+    {
+     "name": "Klump, J"
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+    {
+     "name": "Neidl, F"
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+     "name": "Rink, K"
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+    {
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+    {
+     "name": "Kolditz, O"
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+    "volume": "69",
+    "number": "2",
+    "pages": "469--477"
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+     "name": "B\u00fcttner, O"
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+    "volume": "69",
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+    {
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+    {
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+    "volume": "69",
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+    {
+     "name": "Delfs, J.-O."
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+    {
+     "name": "Graf, T"
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+    {
+     "name": "Grundmann, J"
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+    {
+     "name": "Kolditz, O"
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+    "address": "Geneva"
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+      "ID": "KolditzO"
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+    {
+     "name": {
+      "name": "Scheuermann, G",
+      "ID": "ScheuermannG"
+     }
+    }
+   ]
+  },
+  {
+   "type": "inproceedings",
+   "id": "Grabe2012",
+   "citekey": "Grabe2012",
+   "collection": "publications-karsten-von-ufz-webseite",
+   "title": "Development of a 3D groundwater flow model with scarce data in semi-arid to arid region: the western drainage basin of the Dead Sea (Israel and West Bank)",
+   "year": "2012",
+   "booktitle": "Geophysical Research Abstracts",
+   "volume": "14",
+   "pages": "EGU2012--8086",
+   "author": [
+    {
+     "name": "Gr\u00e4be, A"
+    },
+    {
+     "name": "Rink, K"
+    },
+    {
+     "name": "Fischer, T"
+    },
+    {
+     "name": "Sun, F"
+    },
+    {
+     "name": "R\u00f6diger, T"
+    },
+    {
+     "name": "Kolditz, O"
+    }
+   ],
+   "publisher": {
+    "name": "European Geosciences Union (EGU)"
+   }
+  },
+  {
+   "type": "incollection",
+   "id": "Grabe2012a",
+   "citekey": "Grabe2012a",
+   "collection": "publications-karsten-von-ufz-webseite",
+   "title": "Development of a 3D groundwater flow model in semi-arid to arid region: the western drainage basin of the Dead Sea (Israel and West Bank)",
+   "year": "2012",
+   "booktitle": "Hydrogeology of arid environments : proceedings ; [results of the Conference \"Hydrogeology of Arid Environments\", March 2012 in Hannover (Germany)]",
+   "pages": "48--51",
+   "address": "Stuttgart",
+   "author": [
+    {
+     "name": "Gr\u00e4be, A"
+    },
+    {
+     "name": "R\u00f6diger, T"
+    },
+    {
+     "name": "Kolditz, O"
+    },
+    {
+     "name": "Rink, K"
+    },
+    {
+     "name": "Fischer, T"
+    },
+    {
+     "name": "Sun, F"
+    },
+    {
+     "name": "Wang, W"
+    }
+   ],
+   "publisher": {
+    "name": "Borntraeger",
+    "address": "Stuttgart"
+   },
+   "editor": [
+    {
+     "name": {
+      "name": "Rausch, R",
+      "ID": "RauschR"
+     }
+    },
+    {
+     "name": {
+      "name": "Sch\u00fcth, C",
+      "ID": "Sch\u00fcthC"
+     }
+    },
+    {
+     "name": {
+      "name": "Himmelsbach, T",
+      "ID": "HimmelsbachT"
+     }
+    }
+   ]
+  },
+  {
+   "type": "incollection",
+   "id": "Grabe2012b",
+   "citekey": "Grabe2012b",
+   "collection": "publications-karsten-von-ufz-webseite",
+   "title": "Development of a regional groundwater flow model along the western Dead Sea escarpment",
+   "year": "2012",
+   "booktitle": "IAHS Publication",
+   "volume": "355",
+   "pages": "345--350",
+   "address": "numerical modelling; structural model; 3D groundwater flow model; OpenGeoSys; arid region; Israel, West Bank",
+   "author": [
+    {
+     "name": "Gr\u00e4be, A"
+    },
+    {
+     "name": "R\u00f6diger, T"
+    },
+    {
+     "name": "Rink, K"
+    },
+    {
+     "name": "Fischer, T"
+    },
+    {
+     "name": "Kolditz, O"
+    }
+   ],
+   "publisher": {
+    "name": "International Association of Hydrological Sciences (IAHS)",
+    "address": "numerical modelling; structural model; 3D groundwater flow model; OpenGeoSys; arid region; Israel, West Bank"
+   },
+   "editor": [
+    {
+     "name": {
+      "name": "Oswald, S E",
+      "ID": "OswaldSE"
+     }
+    },
+    {
+     "name": {
+      "name": "Kolditz, O",
+      "ID": "KolditzO"
+     }
+    },
+    {
+     "name": {
+      "name": "Attinger, S",
+      "ID": "AttingerS"
+     }
+    }
+   ]
+  },
+  {
+   "type": "inproceedings",
+   "id": "Helbig2012",
+   "citekey": "Helbig2012",
+   "collection": "publications-karsten-von-ufz-webseite",
+   "title": "Visual integration of diverse environmental data: a case study in Central Germany",
+   "year": "2012",
+   "booktitle": "Managing resources of a limited planet: pathways and visions under uncertainty. Proceedings of the sixth biannial meeting of the International Environmental Modelling and Software Society, Leipzig, Germany, July 1-5, 2012",
+   "pages": "2350--2357",
+   "address": "Visualization; Environmental Data; Central Germany; OpenGeoSys Project",
+   "author": [
+    {
+     "name": "Helbig, C"
+    },
+    {
+     "name": "Rink, K"
+    },
+    {
+     "name": "Marx, A"
+    },
+    {
+     "name": "Priess, J"
+    },
+    {
+     "name": "Bernhard, L"
+    },
+    {
+     "name": "Frank, M"
+    },
+    {
+     "name": "Kolditz, O"
+    }
+   ],
+   "editor": [
+    {
+     "name": {
+      "name": "Seppelt, R",
+      "ID": "SeppeltR"
+     }
+    },
+    {
+     "name": {
+      "name": "Voinov, A A",
+      "ID": "VoinovAA"
+     }
+    },
+    {
+     "name": {
+      "name": "Lange, S",
+      "ID": "LangeS"
+     }
+    },
+    {
+     "name": {
+      "name": "Bankamp, D",
+      "ID": "BankampD"
+     }
+    }
+   ]
+  },
+  {
+   "type": "techreport",
+   "id": "Kolditz2012a",
+   "citekey": "Kolditz2012a",
+   "collection": "publications-karsten-von-ufz-webseite",
+   "title": "OpenGeoSys: an open source initiative for numerical simulation of geological and hydrological environments",
+   "year": "2012",
+   "address": "Hamburg",
+   "author": [
+    {
+     "name": "Kolditz, O"
+    },
+    {
+     "name": "Bilke, L"
+    },
+    {
+     "name": "Fischer, T"
+    },
+    {
+     "name": "Rink, K"
+    },
+    {
+     "name": "Shao, H"
+    },
+    {
+     "name": "Wang, W"
+    },
+    {
+     "name": "Watanabe, N"
+    }
+   ],
+   "editor": [
+    {
+     "name": {
+      "name": "Hinkelmann, R",
+      "ID": "HinkelmannR"
+     }
+    }
+   ]
+  },
+  {
+   "type": "article",
+   "id": "Kolditz2012b",
+   "citekey": "Kolditz2012b",
+   "collection": "publications-karsten-von-ufz-webseite",
+   "title": "Erratum to: International viewpoint and news: data and modelling platforms in environmental Earth sciences",
+   "year": "2012",
+   "author": [
+    {
+     "name": "Kolditz, O"
+    },
+    {
+     "name": "Rink, K"
+    },
+    {
+     "name": "Shao, H"
+    },
+    {
+     "name": "Kalbacher, T"
+    },
+    {
+     "name": "Kunkel, R"
+    },
+    {
+     "name": "Zacharias, S"
+    },
+    {
+     "name": "Dietrich, P"
+    }
+   ],
+   "journal": {
+    "name": "Environmental Earth Sciences",
+    "volume": "67",
+    "number": "6",
+    "pages": "1859"
+   }
+  },
+  {
+   "type": "article",
+   "id": "Kolditz2012c",
+   "citekey": "Kolditz2012c",
+   "collection": "publications-karsten-von-ufz-webseite",
+   "title": "International viewpoint and news",
+   "year": "2012",
+   "author": [
+    {
+     "name": "Kolditz, O"
+    },
+    {
+     "name": "Rink, K"
+    },
+    {
+     "name": "Shao, H"
+    },
+    {
+     "name": "Kalbacher, T"
+    },
+    {
+     "name": "Zacharias, S"
+    },
+    {
+     "name": "Dietrich, P"
+    }
+   ],
+   "journal": {
+    "name": "Environmental Earth Sciences",
+    "volume": "66",
+    "number": "4",
+    "pages": "1279--1284"
+   }
+  },
+  {
+   "type": "inproceedings",
+   "id": "Rink2012",
+   "citekey": "Rink2012",
+   "collection": "publications-karsten-von-ufz-webseite",
+   "title": "User guided generation of hydrological models: interface design, workflows and concepts for an extensible software framework",
+   "year": "2012",
+   "booktitle": "Managing resources of a limited planet: pathways and visions under uncertainty. Proceedings of the sixth biannial meeting of the International Environmental Modelling and Software Society, Leipzig, Germany, July 1-5, 2012",
+   "pages": "1255--1262",
+   "address": "Hydrology; Modelling; Visualisation",
+   "author": [
+    {
+     "name": "Rink, K"
+    },
+    {
+     "name": "Bilke, L"
+    },
+    {
+     "name": "Selle, B"
+    },
+    {
+     "name": "Kolditz, O"
+    }
+   ],
+   "editor": [
+    {
+     "name": {
+      "name": "Seppelt, R",
+      "ID": "SeppeltR"
+     }
+    },
+    {
+     "name": {
+      "name": "Voinov, A A",
+      "ID": "VoinovAA"
+     }
+    },
+    {
+     "name": {
+      "name": "Lange, S",
+      "ID": "LangeS"
+     }
+    },
+    {
+     "name": {
+      "name": "Bankamp, D",
+      "ID": "BankampD"
+     }
+    }
+   ]
+  },
+  {
+   "type": "incollection",
+   "id": "Rink2012a",
+   "citekey": "Rink2012a",
+   "collection": "publications-karsten-von-ufz-webseite",
+   "title": "Visual preparation of hydrological models",
+   "year": "2012",
+   "booktitle": "IAHS Publication",
+   "volume": "355",
+   "pages": "113--118",
+   "address": "Visualisation; Hydrology; Simulation; Groundwater flow",
+   "author": [
+    {
+     "name": "Rink, K"
+    },
+    {
+     "name": "Fischer, T"
+    },
+    {
+     "name": "Gr\u00e4be, A"
+    },
+    {
+     "name": "Kolditz, O"
+    }
+   ],
+   "publisher": {
+    "name": "International Association of Hydrological Sciences (IAHS)",
+    "address": "Visualisation; Hydrology; Simulation; Groundwater flow"
+   },
+   "editor": [
+    {
+     "name": {
+      "name": "Oswald, S E",
+      "ID": "OswaldSE"
+     }
+    },
+    {
+     "name": {
+      "name": "Kolditz, O",
+      "ID": "KolditzO"
+     }
+    },
+    {
+     "name": {
+      "name": "Attinger, S",
+      "ID": "AttingerS"
+     }
+    }
+   ]
+  },
+  {
+   "type": "article",
+   "id": "Rink2012b",
+   "citekey": "Rink2012b",
+   "collection": "publications-karsten-von-ufz-webseite",
+   "title": "Visual data eploration for hydrological analysis",
+   "year": "2012",
+   "author": [
+    {
+     "name": "Rink, K"
+    },
+    {
+     "name": "Kalbacher, T"
+    },
+    {
+     "name": "Kolditz, O"
+    }
+   ],
+   "journal": {
+    "name": "Environmental Earth Sciences",
+    "volume": "65",
+    "number": "5",
+    "pages": "1395--1403"
+   }
+  },
+  {
+   "type": "incollection",
+   "id": "Zehner2012",
+   "citekey": "Zehner2012",
+   "collection": "publications-karsten-von-ufz-webseite",
+   "title": "Mixed 2D/3D visualization of a large scale groundwater study in a virtual reality centre",
+   "year": "2012",
+   "booktitle": "IAHS Publication",
+   "volume": "355",
+   "pages": "127--132",
+   "address": "2D; 3D; groundwater; visualization; virtual reality",
+   "author": [
+    {
+     "name": "Zehner, B"
+    },
+    {
+     "name": "Bilke, L"
+    },
+    {
+     "name": "Kalbacher, T"
+    },
+    {
+     "name": "Kalbus, E"
+    },
+    {
+     "name": "Rink, K"
+    },
+    {
+     "name": "Rausch, R"
+    },
+    {
+     "name": "Kolditz, O"
+    }
+   ],
+   "publisher": {
+    "name": "International Association of Hydrological Sciences (IAHS)",
+    "address": "2D; 3D; groundwater; visualization; virtual reality"
+   },
+   "editor": [
+    {
+     "name": {
+      "name": "Oswald, S E",
+      "ID": "OswaldSE"
+     }
+    },
+    {
+     "name": {
+      "name": "Kolditz, O",
+      "ID": "KolditzO"
+     }
+    },
+    {
+     "name": {
+      "name": "Attinger, S",
+      "ID": "AttingerS"
+     }
+    }
+   ]
+  },
+  {
+   "type": "inproceedings",
+   "id": "Rink2011",
+   "citekey": "Rink2011",
+   "collection": "publications-karsten-von-ufz-webseite",
+   "title": "Data visualisation and validation for hydrological models",
+   "year": "2011",
+   "booktitle": "Proceedings of the IADIS International Conference Computer Graphics, Visualization, Computer Vision and Image Processing 2011 : part of the IADIS Multi Conference on Computer Science and Information Systems 2011 ; Rome, Italy, July 24 - 26, 2011",
+   "pages": "169--176",
+   "address": "Rome",
+   "author": [
+    {
+     "name": "Rink, K"
+    },
+    {
+     "name": "Fischer, T"
+    },
+    {
+     "name": "Kolditz, O"
+    }
+   ],
+   "publisher": {
+    "name": "IADIS Press",
+    "address": "Rome"
+   }
+  },
+  {
+   "type": "article",
+   "id": "Kolditz2012",
+   "citekey": "Kolditz2012",
+   "collection": "publications-karsten-von-ufz-webseite",
+   "title": "OpenGeoSys: an open-source initiative for numerical simulation of thermo-hydro-mechanical/chemical (THM/C) processes in porous media",
+   "year": "2012",
+   "author": [
+    {
+     "name": "Kolditz, O."
+    },
+    {
+     "name": "Bauer, S."
+    },
+    {
+     "name": "Bilke, L."
+    },
+    {
+     "name": "B\u00f6ttcher, N."
+    },
+    {
+     "name": "Delfs, J. O."
+    },
+    {
+     "name": "Fischer, T."
+    },
+    {
+     "name": "G\u00f6rke, U. J."
+    },
+    {
+     "name": "Kalbacher, T."
+    },
+    {
+     "name": "Kosakowski, G."
+    },
+    {
+     "name": "McDermott, C. I."
+    },
+    {
+     "name": "Park, C. H."
+    },
+    {
+     "name": "Radu, F."
+    },
+    {
+     "name": "Rink, K."
+    },
+    {
+     "name": "Shao, H."
+    },
+    {
+     "name": "Shao, H. B."
+    },
+    {
+     "name": "Sun, F."
+    },
+    {
+     "name": "Sun, Y. Y."
+    },
+    {
+     "name": "Singh, A. K."
+    },
+    {
+     "name": "Taron, J."
+    },
+    {
+     "name": "Walther, M."
+    },
+    {
+     "name": "Wang, W."
+    },
+    {
+     "name": "Watanabe, N."
+    },
+    {
+     "name": "Wu, Y."
+    },
+    {
+     "name": "Xie, M."
+    },
+    {
+     "name": "Xu, W."
+    },
+    {
+     "name": "Zehner, B."
+    }
+   ],
+   "journal": {
+    "name": "Environmental Earth Sciences 2012 67:2",
+    "volume": "67",
+    "number": "2",
+    "pages": "589--599",
+    "month": "feb"
+   }
+  }
+ ]
+}
diff --git a/visgroup/themes/ananke-adapted/layouts/partials/site-navigation.html b/visgroup/themes/ananke-adapted/layouts/partials/site-navigation.html
index f35224c..a2e8994 100644
--- a/visgroup/themes/ananke-adapted/layouts/partials/site-navigation.html
+++ b/visgroup/themes/ananke-adapted/layouts/partials/site-navigation.html
@@ -5,7 +5,7 @@
 <nav class="ufzSiteNavigation pv3 ph3 ph4-ns" role="navigation">
   <div class="flex-l justify-between items-center center">
     <a href="{{ .Site.Home.RelPermalink }}" class="f3 fw2 hover-white no-underline white-90 dib">
-        <img src="/logo.jpg" class="w100 mw5-ns" alt="{{ $.Site.Title }}" />
+        <img src="/general/logo.jpg" class="w100 mw5-ns" alt="{{ $.Site.Title }}" />
     </a>
     <div class="flex-l items-center">
       {{ partial "i18nlist.html" . }}
diff --git a/visgroup/themes/ananke-adapted/layouts/shortcodes/publication-list.html b/visgroup/themes/ananke-adapted/layouts/shortcodes/publication-list.html
index 38986f4..2aad869 100644
--- a/visgroup/themes/ananke-adapted/layouts/shortcodes/publication-list.html
+++ b/visgroup/themes/ananke-adapted/layouts/shortcodes/publication-list.html
@@ -3,11 +3,11 @@
 
 {{ if not (eq (.Get "limit") 1)}}
 
-	<span style="display: none;" id="longDateHolder">{{.Site.Data.dummyPublications.metadata.created}}</span>
+	<span style="display: none;" id="longDateHolder">{{.Site.Data.publications.metadata.created}}</span>
 
 	<center>
 	<p>
-	This is a list containing the {{.Site.Data.dummyPublications.metadata.records}} most recent publications of the Visualisation and Data Integration Group.<br>It was last updated on <span id="lastUpdated"></span>.
+	This is a list containing the {{.Site.Data.publications.metadata.records}} most recent publications of the Visualisation and Data Integration Group.<br>It was last updated on <span id="lastUpdated"></span>.
 	</p>
 	</center>
 
@@ -17,7 +17,7 @@
 
 <div style="margin-left: 4rem;">
 
-{{range first (.Get "limit") .Site.Data.dummyPublications.records}}
+{{range first (.Get "limit") .Site.Data.publications.records}}
 
 	<div>
 	<b>[{{.year}}] </b>
diff --git a/visgroup/themes/ananke-adapted/static/js/publicationFormatting.js b/visgroup/themes/ananke-adapted/static/js/publicationFormatting.js
index b3f7ced..cecab41 100644
--- a/visgroup/themes/ananke-adapted/static/js/publicationFormatting.js
+++ b/visgroup/themes/ananke-adapted/static/js/publicationFormatting.js
@@ -5,7 +5,6 @@ function updateFormattedDate() {
   var lastUpdated = document.getElementById("lastUpdated");
   const array = longDate.split("T");
   lastUpdated.innerHTML = array[0];
-  return "John";
 } 
 
 updateFormattedDate();
\ No newline at end of file
-- 
GitLab