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  • GFZ German Research Centre for Geosciences  (111)
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  • 1
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    Operational report for the 2017 Surtsey Underwater volcanic System for Thermophiles, Alteration processes and INnovative concretes (SUSTAIN) drilling project at Surtsey Volcano, Iceland (2019)
    GFZ German Research Centre for Geosciences
    Details
    Publication Date: 2020-02-12
    Description: In summer 2017, the ICDP SUSTAIN project (Surtsey Underwater volcanic System for Thermophiles, Alteration processes and INnovative concretes), drilled three cored boreholes (Table 1) through Surtsey at sites ≤10 m from a cored hole obtained in 1979. Drilling through the still hot volcano was carried out with an Atlas Copco CS1000 drill rig, whose components were transported by helicopter to Surtsey and re-assembled on site. The first vertical borehole, SE-02a, was cored in HQ diameter to 152 meters below surface (m b.s.) during August 7-16. It was terminated due to borehole collapse. A second vertical (SE-02b) cored borehole was then drilled in HQ diameter to 192 m during August 19-26. Wireline borehole logging in SE-02b was performed August 26. The anodized NQ-sized aluminum tubing of the Surtsey Subsurface Observatory was installed in SE-02b to 181 m depth on August 27. A third borehole, SE-03, angled 35° from vertical and directed 264°, was drilled from August 28 to September 4 and reached a measured depth of 354 m (~290 m vertical depth) under the eastern crater. The core is HQ diameter to a measured depth of 213 m and NQ diameter from 213-354 m measured depth. The core traverses the deep conduit and intrusions of the volcano to a total vertical depth of 290 m b.s. Seawater drilling fluid for boreholes SE-02a and SE-02b was filtered and doubly UV-sterilized at the drill site. No mud products were employed while coring SE-02a, while small amounts of attapulgite mud were used in SE-02b and SE-03. Core samples for geochemical analyses of pore water and microbiological investigations were collected on site from all three boreholes. About 650 m of core was transported by helicopter to Heimaey, 18 km northeast of Surtsey, to a processing laboratory where the core was scanned, documented, and described. Additional core processing has taken place at the Náttúrufraedistofnun Íslands, the Icelandic Institute of Natural History in Gardabaer, where both the 1979 and 2017 cores are stored.
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  • 2
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    Who poisoned Family Mole? A forensic story about isotopes (2017)
    GFZ German Research Centre for Geosciences
    Details
    Publication Date: 2020-02-12
    Description: On a beautiful summer day Emma and Steven want to have fun at their favourite lake. However, a mysterious situation thwarts their plans. This leads the two friends on an unexpected quest ... Join Emma and Steven as they explore the vast, intriguing and efficient world of stable isotopes: What are isotopes? How do isotopes work? And last but not least, how can isotopes help Emma and Steven to finally answer the question: Who poisoned Family Mole?
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  • 3
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    The Skin of the Earth : where Life meets Rocks [Film, short version] (2019)
    GFZ German Research Centre for Geosciences
    Details
    Publication Date: 2020-02-12
    Description: Length: 32 min What forms the landscapes of the Earth with its mountains, rivers, soils, the places we live in? Is Earth’s surface shaped when rocks are uplifted by geologic forces, and are then destroyed by rain, ice, and wind; or do plants with their roots, animals that dig into soil and the vast number of microorganisms shape the landscapes? Watch the scientists of the German-Chilean “EarthShape” project study these questions along a fascinating landscapes in Chile, and in their home laboratories. A science movie designed and produced by Friedhelm von Blanckenburg from GFZ Potsdam, Germany, Kirstin Übernickel from Universität Tübingen, and Wolfgang Dümcke from Filmbüro Potsdam, Germany, within the DFG-funded research network “EarthShape – Earth Surface Shaping by Biota” which is coordinated by Todd Ehlers (Universität Tübingen) und Friedhelm von Blanckenburg (GFZ Potsdam).
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  • 4
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    Inter-state cooperation and joint planning and management of transboundary river basins – The example of the Isfara river basin (2015)
    GFZ German Research Centre for Geosciences
    In:  Policy Briefs of the German Water Initiative for Central Asia
    Details
    Publication Date: 2020-02-12
    Description: The GIZ Transboundary Water Management in Central Asia programme supports Tajik-Kyrgyz cooperation on the shared Isfara river basin by means of sustainable basin planning and management through capacity building. In addition, the rehabilitation of small-scale infrastructure and automatised flow measurement systems ensure a safe and fair allocation of water resources. As a result, improved water management and infrastructure in the Isfara River contribute to better information and water availability for more than 200,000 agricultural water users across both countries. Alongside already established methods of transboundary cooperation in the basin, which has complicated boundary issues, the hereinafter described measures counteract latent tensions among Tajik and Kyrgyz communities over the limited resource of arable land, which is closely linked to water. The GIZ Transboundary Water Management in Central Asia programme is implemented on behalf of the German Federal Foreign Office and cofunded by the European Union.
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  • 5
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    D5.2 - Jet drilling at simulated reservoir conditions (2019)
    GFZ German Research Centre for Geosciences
    Details
    Publication Date: 2020-05-26
    Description: Deliverable D5.2 presents the experimental outcome of jetting experiments at simulated reservoir conditions. Different rock types are tested under various conditions with the use of three different types of test bench. At first jetting experiments are conducted under submerged conditions in order to derive a better understanding of the governing erosion mechanism. Therefore pitting tests are combined with PIV measurements in order to derive and explain the erosion pattern of the occurring cavitation erosion and why the rock is more like to be eroded by the stagnation pressure of the impinging jet. Second, jetting experiments under pressure controlled conditions are performed. Rate of penetrations (ROP) of up to 100 m/h can be achieved which proofs the successful application of RJD technology especially in sand stone reservoir rock types. Especially the rotating nozzle design bears the highest potential for jetting operations where the static nozzle designs tend to fail, especially when pore pressure increases. The third experimental series under application of a bi- axial stress field show that the current RJD technology, as being used by project partner WSG, is not able to penetrate harder sandstone rock types (e.g. Dortmund sandstone) when field operating conditions are applied. The induced stress in the specimen does not initiate or enhance ROP. A second experiment thereby shows that higher nozzle exit speeds can lead to massive breakouts. Fourth, experiments are performed under a tri-axial stress field in collaboration with TU DELFT. Rock cubes are tested under different and very severely stress regimes while jetting into them. Compared to tests at atmospheric conditions it can be stated that the application of a stress field does not enhance the erosion of rock. At last experiments are conducted with the project partner WSG in order to determine the jetability of the Icelandic Basalt rock type and Icelandic inter basalt sediment layer. The experiments show that already higher pump pressures result in higher jetting performance, hence making them jetable as previously not expected. Furthermore the experiments approved the feasibility of the planned field test in Iceland when the soft sediment layer is the target zone. All in all the experiments conducted with the RJD technology show different results at simulated reservoir conditions compared to those at atmospheric which are described in deliverable D5.1 (Hahn & Wittig, 2017). Therefor, further testing at conditions representing the reservoir conditions more closer are needed in order to better understand and analyze the jetting process downhole.
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  • 6
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    The Horizon 2020 Project SURE: Deliverable 7.3 - Report on Tested and validated models for RJD well flow improvement (2019)
    GFZ German Research Centre for Geosciences
    Details
    Publication Date: 2020-05-27
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  • 7
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    The Horizon 2020 Project SURE: Deliverable 7.2 - Report on Laterals Stability Modelling (2019)
    GFZ German Research Centre for Geosciences
    Details
    Publication Date: 2020-05-26
    Description: In this deliverable, the objectives of the Imperial College team are to consider jetted boreholes in the context of conventional borehole wall-rock stability analysis and to utilise an in-house advanced combined finite-discrete element code to examine the wall-rock failure process for jetted holes. The geomechanical modelling of Lateral Stability in D7.2 presented here is in addition to the main focus on modelling the water-jetting breakdown of the rock itself, reported in D7.1.
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  • 8
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    The Horizon 2020 Project SURE: Deliverable 7.1 - Report on Water Jet Drilling Modelling (2019)
    GFZ German Research Centre for Geosciences
    Details
    Publication Date: 2020-05-26
    Description: The aim of this research is to investigate the failure mechanism for different types of rock in the context of water jet drilling and to predict the jet-ability or assess the radial jet drilling (RJD) performance prior to drilling and at the well petrophysical analysis stage. The main approach is to numerically simulate the water jet drilling for different types of rock using ICL’s in-house fluid-solid coupling codes. The rock properties, CT-scan data and jetting results obtained from D4.1 (Bakker et al., 2018) and D5.1 (Hahn et al., 2017) provide a good foundation for the related numerical results.
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  • 9
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    GEOFON Annual Report 2017 (2019)
    GFZ German Research Centre for Geosciences
    In:  Scientific Technical Report STR
    Details
    Publication Date: 2020-08-10
    Description: The GEOFON program consists of a global seismic network (GE Network), a seismological data centre (GEOFON DC) and a global earthquake monitoring system (GEOFON EQinfo). These three pillars are part of the MESI research infrastructure of the Helmholtz Centre Potsdam - GFZ German Research Centre for Geosciences aiming at facilitating scientific research. GEOFON provides real-time seismic data, access to its own and third party data from the archive facilities as well as global and rapid earthquake information. The GEOFON Seismological Software can be considered a fourth cross-cutting module of the GEOFON Program. Data, services, products and software openly distributed by GEOFON are used by hundreds of scientists and data centres worldwide. Its earthquake information service is accessed directly by tens of thousands of visitors. The SeisComP software package is the flagship software provided to the community, which is geared for seismic observatory and data centre needs and used extensively to support our internal operations. Like all other MESI (Modular Earth Science Infrastructure) modules GEOFON has the majority of users outside the GFZ as well as an external advisory committee that provides advice to the GFZ Executive Board and to the GEOFON team. This report describes the main activities carried out within the three GEOFON pillars and the software development group.
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  • 10
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    Mineralogical responses to 9-years of interaction of a CO2-charged brine with a sandstone aquifer: Observations from the Ketzin CO2-storage pilot site (Germany) (2020)
    GFZ German Research Centre for Geosciences
    In:  Scientific Technical Report STR
    Details
    Publication Date: 2020-09-20
    Description: This report compiles observations made within a time frame of two months on 24 representative thin-section samples representing the periods before and after 4- and 9-years of injection of CO2 into the reservoir. Given this short period of time until completion of this report, some observations and conclusions drawn have to be judged preliminary. Further analytical work and in-depth interpretation of the results are underway. Information provided for the period 0–4 years after CO2 injection include observations made by S. Bock in the framework of her not yet finished Ph.D. thesis.
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  • 11
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    5M 2015-2016: FOSA (2021)
    GFZ German Research Centre for Geosciences
    In:  Scientific Technical Report STR - Data | GIPP Experiment and Data Archive
    Details
    Publication Date: 2021-02-09
    Description: The FOSA (FOgo Seismic Array) project has been carried out from October 2015 to December 2016 to investigate the seismicity of Fogo volcano after its eruption in 2014/2015. Fogo is the only volcano of the Cape Verde archipelago with reported historic eruptions. The eruptions occur frequently with an interval of about 20 years. However, the structure and extent of the related volcanic plumbing system are not well understood. The focus of the FOSA project was on the detection of ongoing magmatic activity and information about the plumbing system, using seismic array techniques. The array of the FOSA study was operated from October 2015 to December 2016, close to the village Achada Furna. From January 2016 we complemented the network with three additional broadband stations for an improved event detection and localization.
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  • 12
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    Dead Sea Seismic Array, Jordan for DESERVE Project (Feb. 2014 - Feb. 2015) - Report (2016)
    GFZ German Research Centre for Geosciences
    In:  Scientific Technical Report STR - Data | GIPP Experiment and Data Archive
    Details
    Publication Date: 2021-02-13
    Description: A temporary seismic array was installed in combination with a meteorological station in the Dead Sea valley, Jordan. Within the scope of the HGF virtual institute DESERVE we operated 15 temporary seismic stations between February 2014 and February 2015 together with a nearby meteorological station close to the east coast of the Dead Sea. The main aim was to acquire data to study the influence of wind on seismic records and retrieve related meteorological parameters. The study area is scarcely populated and has ideal meteorological conditions to study periodically occurring winds.
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  • 13
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    X9 2015-2016 (2021)
    GFZ German Research Centre for Geosciences
    In:  Scientific Technical Report STR - Data
    Details
    Publication Date: 2021-02-09
    Description: The KISS network was installed in the frame of the “Klyuchevskoy Investigation - Seismic Structure of an extraordinary volcanic system” project and recorded data between summer 2015 and summer 2016 in one of the world’s largest clusters of subduction volcanoes - the Klyuchevskoy volcanic group (KVG). It is located in eastern Russia at the northern end of the Kuril-Kamchatka subduction zone close to its intersection with the Aleutian arc and the north-western termination of Hawaii-Emperor seamount chain. Additional to the 4700m high Mount Klyuchevskoy the KVG contains 12 other volcanoes that have together erupted about 1 cubic meter rock per second averaged over the past 10,000 years. Among those Klyuchevskoy, Bezymianny and Tolbachik were the most active ones during the last decades with eruptions styles ranging from explosive to Hawaiian-type. The KISS experiment is designed to investigate the volcanic and seismic processes and its structural setting in the KVG. The network covers a circular region of about 80km diameter with some linear extensions. It includes data from 77 temporary seismic stations with broadband and short period sensors that were installed on concrete plates in about 60cm deep holes. Due to the local conditions the stations were battery powered and could not be serviced during the experiment. GPS reception of the digitizers was not continuous at all stations due to thick snow cover and vegetation. Waveform data are available from the GEOFON data centre, under network code X9, and are embargoed until end of 2019.
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  • 14
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    10 Years Indonesian Tsunami Early Warning System: Experiences, Lessons Learned and Outlook (2017)
    GFZ German Research Centre for Geosciences
    Details
    Publication Date: 2020-02-12
    Description: The German-Indonesian Tsunami Early Warning System (GITEWS) has been established after the devastating Tsunami in the Indian Ocean on December 26, 2004. It became an integral part of the Indonesian Tsunami Early Warning System (InaTEWS) providing sensor networks and core computational components. GITEWS follows an “end-to-end” approach to cover the complete warning chain from rapid hazard detection over decision support to capacity development of communities at risk and the implementation of disaster reduction measures. PROTECTS (Project for Training, Education and Consulting for Tsunami Early Warning Systems) followed GITEWS with its main focus on system refinements, capacity building, and elaborated training measures that covered all aspects of the GITEWS Project. This paper discusses the specific challenges of Tsunami Early Warning in Indonesia, describes recent developments in instrumentation and data analysis and summarizes the system performance over the past 5 years.
    Description: Preface 5Abstract 101. Introduction 102. Instrumentation 132.1 Seismic System 142.2 The GPS-System 182.3 Oceanographic Instruments 203. The Modelling-System 223.1 Source Modelling 233.2 TsunAWI Modelling System 243.3 Mesh Generation 263.4 Simulation System (SIM) 283.5 “On-the-fly”-System easyWave 324. Tsunami Early Warning Decision Support 334.1 The InaTEWS DSS 334.2 Experiences and Enhancements 374.3 Testing and Training Environment 385. System Performance 396. Tsunami Risk Assessment – Linking National Level Early Warning with Local Level Disaster Risk Reduction 436.1 The Approach: From Science to Practical Implementation 436.2 Multi-Scenario Tsunami Hazard Assessment 456.3 High Resolution Tsunami Inundation Modelling for Hazard Assessment 476.4 Exposure and Vulnerability Assessment 486.5 Tsunami Risk Assessment 486.6 Experiences and Enhancements 497. Tsunami Preparedness at Community Level - Experiences from 7 Years of Capacity Development in Indonesia 507.1 The Setting 517.2 Our Experiences 517.3 Project Documentation: TsunamiKit 588. Conclusions 58Acknowledgements 60References 61
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  • 15
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    35 Years of ILP "Celebrating excellence in solid earth sciences" (2015)
    GFZ German Research Centre for Geosciences
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    Publication Date: 2020-02-12
    Description: In July 2007 GFZ hosted ILP’s first Potsdam Conference, titled “Frontiers in Integrated Solid Earth Sciences”. The results of this meeting were presented in an over 400 pages large Springer book, the first volume of a new series on the International Year of Planet Earth (IYPE). In October 2010 ILP’s Second Potsdam Conference took place, entitled “Solid Earth – Basic Science for the Human Habitat”, again in Potsdam. More than 70 scientists from more than 20 states worldwide came together and shared their results, ideas and visions. This time, in September 2015, ILP’s 35th birthday was the motivation for “Celebrating Excellence in Solid Earth Sciences”. Together with more than 50 scientists, members of the ILP Task Forces and Coordinating Committees, the ILP bureau and ILP’s office came together for three days in September.
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  • 16
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    Operational report about phase 1 of the collisional orogeny in the scandinavian caledonides scientific drilling project (COSC-1) (2015)
    GFZ German Research Centre for Geosciences
    In:  ICDP Operational Report
    Details
    Publication Date: 2020-02-12
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  • 17
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    COSC-1 operational report : explanatory remarks on the operational data sets (2015)
    GFZ German Research Centre for Geosciences
    In:  ICDP Data Set Report
    Details
    Publication Date: 2020-02-12
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  • 18
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    Supraglacial Debris Cover (2018)
    GFZ German Research Centre for Geosciences
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    Publication Date: 2020-02-12
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  • 19
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    WSM quality ranking scheme, database description and analysis guidelines for stress indicator (2016)
    GFZ German Research Centre for Geosciences
    In:  WSM Technical Report
    Details
    Publication Date: 2021-04-10
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  • 20
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    Manual of the Python Script Apple PY v1.3 (2020)
    GFZ German Research Centre for Geosciences
    In:  WSM Technical Report
    Details
    Publication Date: 2021-04-10
    Description: In geosciences the discretization of complex 3D model volumes into finite elements can be a time-consuming task and often needs experience with a professional software. In particular, low angle outcropping or out-pinching geological units, i.e. geological layers that are represented in the model volume, pose serious challenges. Another example are changes in the geometry of a model, which can occur at one point of a project, when re-meshing is not an option anymore or would involve a significant amount of additional time to invest. In order to speed up and automate the process of discretization, Apple PY (Automatic Portioning Preventing Lengthy manual Element assignment for PYthon) separates the process of mesh-generation and unit assignment. It requires an existing mesh together with separate information on the depths of the interfaces between geological units (herein called horizons). These two pieces of information are combined and used to assign the individual elements to different units. The uniform mesh is created with a standard meshing software and has to be available as an Abaqus input file. The information on the horizons depths and lateral variations in the depths is provided in a text file. Apple PY compares the element location and depth with that of the horizons in order to assign each element to a corresponding geological unit below or above a certain horizon. The script files are provided for download at http://github.com/MorZieg/APPLE_PY. Table 0-1 gives an overview of the folder structure and input files with a short explanation.
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  • 21
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    KTB Borehole Logging Data (2021)
    GFZ German Research Centre for Geosciences
    In:  Scientific Technical Report STR - Data
    Details
    Publication Date: 2021-05-05
    Description: This report describes the KTB Borehole Measurements Data of the German Continental Deep Drilling Program (Kontinentales Tiefbohrprogramm der Bundesrepublik Deutschland), operated by the GFZ German Research Centre for Geosciences. Extensive borehole measurements were performed during the active drilling phase of the KTB pilot and main hole (1989-1994). This report provides the full description of the logging data. Please read it thoroughly to avoid inappropriate or wrong use of the data. The terms borehole measurements, downhole logging, and logging are used synonymously here. The KTB logging data files contain the final processed versions of the geoscientific borehole logging data from logs in the two KTB boreholes: Boreholes Geographic Coordinates (WGS84) KTB-Oberpfalz VB (KTB Vorbohrung/Pilot Hole or KTB-VB) 49.8153 N, 12.118 E KTB-Oberpfalz HB (KTB Hauptbohrung/Main Hole or KTB-HB) 49.8152 N, 12.1205 E
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    Manual of the Python Script PyFAST Calibration v1.0 (2021)
    GFZ German Research Centre for Geosciences
    In:  WSM Technical Report
    Details
    Publication Date: 2021-04-27
    Description: The 3D geomechanical-numerical modelling of the in-situ stress state aims at a continuous description of the stress state in a subsurface volume. It requires observed stress information within the model volume that are used as a reference. Once the modelled stress state is in agreement with the observed reference stress data the model is assumed to provide the continuous stress state in its entire volume. The modelled stress state is fitted to the reference stress data records by adaptation of the displacement boundary conditions. This process is herein referred to as calibration. Depending on the amount of available stress data records and the complexity of the model the manual calibration is a lengthy process of trial-and-error modelling and analysis until best-fit boundary conditions are found. The Fast Automatic Stress Tensor Calibration (FAST Calibration) is a Python function that facilitates and speeds up this calibration process. By using a linear regression it requires only three model scenarios with different boundary conditions. The stress states from the three model scenarios at the locations of the reference stress data records are extracted. The differences between the modelled and observed stress states are used for a linear regression that allows to compute the displacement boundary conditions required for the best-fit modelled stress state. If more than one reference stress state is provided, the influence of the individual observed stress data records on the best-fit boundary conditions can be weighted. The script files are provided for download at: http://github.com/MorZieg/PyFAST_Calibration
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    Investigation of Regional Ionospheric Irregularities over Africa (IRIA) (2021)
    GFZ German Research Centre for Geosciences
    In:  Scientific Technical Report STR
    Details
    Publication Date: 2021-07-20
    Description: The Earth’s upper atmosphere – a part of it, the ionosphere- is a dynamic partly ionized region with temporal and spatial variations under different phases of solar activity. The ionosphere being a dispersive medium causes signal strength fluctuation, propagation delay, signal attenuation, and signal degradation. These have constituted significant threats to both communication and navigation systems operating in microwave band which is due to the presence of high electron density and its irregularities. The key parameter of the ionosphere which is closely related to most of these delay effects on radio signals is the electron density and density gradients, in particular - its vertical integral, the Total Electron Content (TEC) which can be estimated from the Global Positioning System (GPS) data. The estimated TEC profiles, and TEC perturbation are studied to gain insights into the occurrence of irregular structures in the ionosphere and their distribution. One of the ionospheric irregularities located within the F region, and E region top side are Traveling ionospheric disturbances (TIDs). TIDs are propagating perturbations in the ionospheric electron density as a consequence of Atmospheric Gravity Waves (AGWs) passage. The AGWs originate in the troposphere or stratosphere, and exhibit neutral wind perturbations propagating to the F region heights (i.e. ionospheric heights), where the neutral wind perturbations interact with the plasma via collisions, carrying it along the magnetic field lines (i.e. ion-neutral collision). This entire process in the ionosphere is manifested as oscillations of the ionospheric electron density, resulting in a TID. However, TIDs vary in scale sizes ranging within a few hundred kilometers (km) to over one thousand km, and based on this, they are categorized as either medium-scale TIDs (MSTIDs) or large scale TIDs (LSTIDs). In this thesis, we focus only on MSTIDs as one of the major and frequent ionospheric irregularity phenomena which may degrade positioning systems and could cause a delay in GPS signal transmission between a satellite and the GPS receiver. Multiple studies of ionospheric irregularities with the main focus on MSTIDs over different regions and continents around the world have been carried out, but studies of MSTIDs over the African region have neither been carried out nor reported probably due to lack of GPS data set, and the question of what drives its occurrence in the region which is not yet documented. The objective of this thesis is to study and describe for the first time the occurrence of MSTIDs and its characteristics over the African region under quiet geomagnetic condition (Kp ≤ 3) during the years 2008 – 2016. In addition, this thesis presents novel results of the time series of MSTIDs percentage occurrence rate (POR) during daytime and nighttime, and seasonal occurrence. Ionneutral coupling processes like the connection between AGW and MSTIDs are also discussed in the study. Observational TEC data used in this thesis are obtained from ground-based GPS networks within the African region and nearby stations. Additionally, temperature data from COSMIC radio occultation and SABER satellite observations for some case studies were used to validate AGWs passage as a driving source of MSTIDs, especially during the daytime. Consequently, regional MSTIDs distribution maps have been generated to capture the latitudinal, seasonal, and local time extent of the MSTID occurrence. Investigation of regional ionospheric irregularities over Africa (IRIA) gives a novel result of a climatological view of MSTIDs over Northern and Southern hemispheres in the African region.
    Language: English
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    The H2020 REFLECT project: Deliverable D5.4 - Data Management Plan (2020)
    GFZ German Research Centre for Geosciences
    Details
    Publication Date: 2021-07-15
    Description: This document describes the type of data collected in the REFLECT project, the standards used and how the data is curated. It also elaborates on the relations to IPR requirements and exploitation strategies. All data from the project shall be deposited in research data repositories according to the FAIR guiding principles for scientific data management and stewardship such that it is possible for third parties to access, mine, exploit, reproduce and disseminate — free of charge for any user.
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    The Mass Spectrometer for stable Metal Isotopes [Film] (2017)
    GFZ German Research Centre for Geosciences
    Details
    Publication Date: 2020-02-12
    Description: Length: 1 min
    Language: English
    Type: info:eu-repo/semantics/other
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    The Skin of the Earth : where Life meets Rocks [Film] (2019)
    GFZ German Research Centre for Geosciences
    Details
    Publication Date: 2020-02-12
    Description: Length: 32 min What forms the landscapes of the Earth with its mountains, rivers, soils, and the places we live in? One view holds that Earth’s surface is shaped when rocks are uplifted by geologic forces, and are then destroyed by rain, ice, and wind that carve landscapes by erosion and weathering. Another view suggests that the green layer of life between rocks below and climate above is the key player. Do plants with their roots, animals that dig into soil and the vast number of microorganisms shape the landscapes? Or do minerals, soil, and water provide the environment for them to live? Or are they both interdependent? Can they together resist the massive climate change imposed by humans today? Watch the scientists of the German-Chilean “EarthShape” project study these questions along a climate gradient in Chile, in the National Parks Pan de Azúcar, La Campana, and Nahuelbuta. Take a tour through fascinating landscapes and see the young scientists study the interactions between geology and biology, from the dry Atacama Desert to dense forests, and in their sophisticated home laboratories. See how feedbacks control Earth’s climate. A science movie designed and produced by Friedhelm von Blanckenburg from GFZ Potsdam, Germany, Kirstin Übernickel from Universität Tübingen, and Wolfgang Dümcke from Filmbüro Potsdam, Germany, within the German National Science Foundation (DFG) funded research network “EarthShape – Earth Surface Shaping by Biota” which is coordinated by Todd Ehlers (Universität Tübingen) und Friedhelm von Blanckenburg (GFZ Potsdam).
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    SCOTER - Multiple-Earthquake Location by Using Static and Source-Specific Station COrrection TERms (2019)
    GFZ German Research Centre for Geosciences
    In:  Scientific Technical Report - STR Data
    Details
    Publication Date: 2020-02-12
    Description: There has been growing recognition of the importance of the accurate seismic locations in quantitative seismological studies, such as seismic hazard analyses, fault zone characterization, and Earth's deformation. Accurate estimation of seismic locations is critical since a wrong estimate of the seismic source location will result in wrong interpretations in the subsequent analyses. We present SCOTER, an open-source Python program package that is designed to relocate multiple seismic events by using P- and S-wave station correction terms. The package implements static and shrinking-box source-specific station terms techniques extended to regional and teleseimic distances and adopted for probabilistic, non-linear, global-search location for large-scale multiple-event location. This program provides robust relocation results for seismic event sequences over a wide range of spatial and temporal scales by applying empirical corrections for the biasing effects of 3-D velocity structure. Written in the Python programming language, SCOTER is run as a stand-alone command-line tool (requiring no knowledge of Python) and also provides a set of sub-commands to develop inputs (dataset, configuration etc) and export results (hypocenter parameters, travel-time residuals etc) { routine but non-trivial tasks that can consume much user time. This package can be used for relocation in local, regional, and teleseimic scales. We describe SCOTER's functionality, design and technical implementation, accompanied by an overview of its use cases. As an illustration, we demonstrate the applicability of this tool through two examples based on (1) a catalogue of several hundred events in the Arctic plate boundary region using regional and teleseismic arrival times and (2) a small dataset of low-magnitude seismic events recorded by dense, local stations at the western Iberia, central Portugal. The relocated datasets highlight the future potential for applying the SCOTER relocation tool to greatly improve the relative location accuracy among nearby events.
    Language: English
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    Preparation of the satellite receiving station at Ny-Ålesund for upcoming satellite missions by means of new made-to-measure antenna operation software (2018)
    GFZ German Research Centre for Geosciences
    In:  Scientific Technical Report STR
    Details
    Publication Date: 2020-02-12
    Description: The German Research Centre for Geosciences GFZ operates a satellite-receiving station at Ny-Ålesund, Spitsbergen since 2001. Valuable support for several satellite missions was provided by the station on a best effort basis, while technical and software related issues, as well as uncertainties regarding important system properties, hindered any project participations with more binding commitments. The upcoming US-German GRACE-Follow On satellite mission with on-board GNSS-RO and gravity measurements and subsequent “near real-time” respectively low latency processing chains raised the demand to integrate the Ny-Ålesund station as the primary data receiving station of the mission’s ground segment. This required the demonstration of improved station performance and reliability with a perspective of sustainability as well as the determination of important antenna system parameters, such as the ratio of antenna gain to system noise (G/T). Analysis of receiving problems at the station in the past and considerations on methods to determine the station antennas characteristics suggested that improved antenna operation software was the most important and straightforward element on the planned way. Disappointing experiences with antenna operation programs of third parties, e.g., from shortcomings of functions, flexibility and support, indicated that the effort for an in-house development would pay off. Consequently new software for the semi-automatic operation of the antennas at the satellite receiving station at Ny-Ålesund was developed within this work. Main development objectives were the elimination of antenna operation problems which occurred in the past, to improve the station reliability, and to introduce program features for the support of required antenna measurements, e.g., such that use the sun as a natural radio signal source. Other focal points during the development were the program-internal timing routines, a compact, informative and operation-safe graphical user interface (GUI) and advanced operation logging features. Lessons learned by the operation of software from other parties in the years since 2001 were respected and even some hardware related issues with the antenna systems at Ny-Ålesund were solved by means of the new software. The new software “NYA-Sattrack” provides all required and desired functions, including some unconventional features. One example is the option to use two different external satellite orbit prediction programs and two sets of prediction elements (twoline elements). An operator can switch between the corresponding pass predictions at any time, even during a satellite contact with already moving antenna. This might be useful, e.g., in a Launch and Early Orbit Phase (LEOP), when different predictions from different sources and with uncertain quality have to be used. Another example is the generation of graphical logs for each satellite contact. An operator can check these logs very fast and simultaneously with normal, text-based logs through a built-in log-viewer function. An eventually desired adaptation to other antenna system types with different technical properties is explicitly supported by the software design as all antenna-specific program code is allocated to individual software interface modules (Dynamic Link Libraries). The new program “NYA-GPS-SYNC” maintains the accuracy of the antenna operation computer clock to support precise operation timing. The two different antenna positioning systems (Elevation over Azimuth and X over Y) of the satellite-receiving station at Ny-Ålesund are operated routinely with NYA-Sattrack since July 2014 and each of the antennas tracks more than 25 satellite passes per day. The number of outages related to antenna operation issues and the manual effort for the operation of the antennas has decreased significantly since introduction of NYA-Sattrack. The new program features of NYA-Sattrack, e.g., such as the sun-tracking mode combined with scan modes, strongly supported the determination of important antenna system characteristics and the detection of a source of radio interference. All achievements of this work have a benefit for supported missions, e.g., due to a better knowledge about technical boundary conditions for contact planning and less data losses during data reception. NYA-Sattrack significantly improved the reliability, efficiency and sustainability to support current and future satellite missions and the Ny-Ålesund ground station is ready to work as the primary downlink station for the GRACE-FO mission, due for launch in February 2018.
    Description: Das Helmholtz-Zentrum Potsdam Deutsches GeoForschungsZentrum GFZ betreibt seit 2001 eine Satelliten-Empfangsstation bei Ny-Ålesund auf Spitzbergen. Die Station hat, so gut es ging, wertvolle Dienste für etliche Satellitenmissionen geleistet. Verbindliche Verpflichtungen in Projekten konnten aber, wegen hard- und softwaretechnischer Probleme und den nur unsicher bekannten Leistungsparametern der Station, nicht eingegangen werden. Die aufkommende US-amerikanisch-deutsche GRACE-Follow On Satellitenmission für GNSS-RO- und Schwerefeldmessungen und die sich daran anschließenden nahe-Echtzeit Datenverarbeitungsketten führten zu dem Wunsch, die Ny-Ålesund Station als primäre Empfangsstation im Bodensegment der Mission zu integrieren. Dies erforderte den Nachweis von verbesserten Betriebseigenschaften, sowie verbesserter Betriebszuverlässigkeit und Zukunftssicherheit, und die Bestimmung wichtiger Antennenparameter, wie dem Verhältnis von Antennengewinn zu Systemrauschen (G/T). Analysen zu Empfangsproblemen an der Station in der Vergangenheit und Überlegungen zur Bestimmung der Antennencharakteristika legten nahe, dass der wichtigste und direkteste Schritt auf diesem Weg eine verbesserte Software für den Betrieb der Antennen sein würde. Wegen in verschiedener Hinsicht enttäuschenden Erfahrungen mit Antennenbetriebssoftware von Dritten, z.B. wegen unzureichenden Funktionen und mangelnder Flexibilität und Unterstützung, wurde angenommen, dass sich der Aufwand für eine eigene Programmentwicklung auszahlen würde. Infolgedessen wurde mit dieser Arbeit eine neue Software für den halb-automatischen Betrieb der Antennen an der Satelliten-Empfangsstation Ny-Ålesund entwickelt. Die wichtigsten Punkte dabei waren die Lösung der in der Vergangenheit beobachteten Betriebsprobleme mit den Antennen, bzw. die Verbesserung der Zuverlässigkeit der Station, und Funktionen für Messungen an und mit den Antennen, z.B. mit Nutzung der Sonne als natürliche Quelle für Radiosignale. Andere Schwerpunkte der Entwicklung waren die zeitlichen Abläufe im Programm, eine kompakte, informative und betriebssichere graphische Nutzerschnittstelle (GUI) und erweiterte Möglichkeiten zum Protokollieren (Loggen) des Betriebs. Dabei wurden die seit 2001 mit dem Betrieb von extern beschaffter Software gemachten Erfahrungen berücksichtigt und sogar durch Hardware verursachte Probleme beim Betrieb der Antennen in Ny-Ålesund durch die neue Software gelöst. Das neue Programm „NYA-Sattrack“ stellt alle benötigten und gewünschten Funktionen bereit, inklusive einiger ungewöhnlicher Funktionen. Ein Beispiel ist die Möglichkeit zur Nutzung von zwei unterschiedlichen externen Programmen zur Bahnvorhersage mit unterschiedlichen Bahnelementen (twoline elements). Ein Operator kann so jederzeit zwischen den beiden entsprechenden Bahnvorhersagen wechseln, sogar während eines Satellitenkontakts mit sich bereits bewegenden Antennen. Dies könnte z.B. in der ersten Zeit nach einem Satellitenstart nützlich sein, wenn unterschiedliche Bahnberechnungen mit unsicherer Genauigkeit von unterschiedlichen Quellen verwendet werden müssen. Ein anderes Beispiel ist die Erzeugung graphischer Logs für die einzelnen Satellitenkontakte. Diese Logs lassen sich von einem Operator sehr schnell überprüfen, durch eine integrierte Anzeigefunktion sogar zusammen mit den textbasierten Logdateien. Eine möglicherweise gewünschte Anpassung des Programms für andere Antennen mit unterschiedlichen Betriebseigenschaften wird dadurch unterstützt, dass antennenspezifischer Programmcode in Programmerweiterungen (Dynamic Link Libraries) platziert wurde. Das neue Programm “NYA-GPS-SYNC” kontrolliert die Uhr des Computers für die Antennensteuerung und sorgt so für einen zeitlich präzisen Betrieb. Die beiden unterschiedlichen Antennenpositionierungssysteme an der Satelliten- Empfangsstation Ny-Ålesund (Elevation über Azimut und X über Y) werden seit Juli 2014 routinemäßig mit NYA-Sattrack betrieben. Jede der beiden Antennen bedient mehr als 25 Satellitenkontakte pro Tag. Seit der Einführung von NYA-Sattrack haben betriebsbedingte Ausfälle stark abgenommen, ebenso der manuelle Aufwand zum Betrieb der Antennen. Die neuen Funktionen von NYA-Sattrack, wie z.B. das Verfolgen der Sonne mit einer Antenne in Kombination mit speziellen Bewegungsmustern, haben die Bestimmung wichtiger Antennenparameter und das Erkennen einer funktechnischen Störquelle ermöglicht. Alle erzielten Ergebnisse nützen indirekt auch den unterstützten Missionen, z.B. durch bessere Kenntnis der technischen Randbedingungen für die Planung von Kontakten und geringere Datenverluste beim Datenempfang. NYA-Sattrack hat die Zuverlässigkeit, Effektivität und Nachhaltigkeitsperspektive der Station für die Unterstützung aktueller und zukünftiger Satellitenmissionen stark verbessert, so dass diese nun für den geplanten Einsatz als primäre Empfangsstation für GRACE-FO bereit ist (geplanter Start im Februar 2018).
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    ICDP Primer - Planning, Managing, and Executing Continental Scientific Drilling Projects (2017)
    GFZ German Research Centre for Geosciences
    Details
    Publication Date: 2020-02-12
    Description: This brochure is designed for scientists and engineers of upcoming drilling projects and explains the key steps and important challenges in planning and executing continental scientific drilling.
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    Explanatory remarks on the data sets of the master thesis: “Analysis of element behavior in mylonites of the Seve Nappe of the Scandinavian Caledonides using different core scanning methods” (2016)
    GFZ German Research Centre for Geosciences
    In:  ICDP Data Set Report
    Details
    Publication Date: 2020-02-12
    Description: The International Continental Scientific Drilling Program (ICDP) performed a dual-phase scientific drilling project to investigate mountain-building processes called Collisional Orogeny in the Scandinavian Caledonides (COSC). The borehole COSC-1 was drilled through the Lower Seve Nappe, as the first of two 2.5 km deep drill holes close to Åre, central Sweden. The recovered rocks comprise a 1650 m thick suite of high grade gneisses and amphibolites with clear Seve Nappe affinities, while the lower 850 m com-prise rather homogenous mylonitic gneisses with interfingered K-rich phyllonite bands of cm to several m size and some intercalated amphibolites. The different lithologies all crosscut the core in a subhorizontal direction with foliation of gneisses and phyllonites in the same direction. Albite and garnet porphyroblasts with pressure shadows show syn-deformational growth and the same sub-horizontal alignment. The focus was to detect chemical and mineralogical differences in mylonitic and host rocks and to relate these differences to either metasomatism and deformation or inher-ited source rock variance. Another goal of this work is to compare chemical core scanning instruments. For this purpose, two different μ-Energy-Dispersive X-Ray Fluorescence (μ-EDXRF), Laser Induced Breakdown Spectroscopy (LIBS) and hyperspectral imaging tech-niques served to measure seven samples from the lower 850 m of the COSC-1 core. This report will explain the data sets gained during this study. The metadata will be pre-sented in an additional file including XRF data from the AVAATECH XRF core scanner in a text file as well as data sets of the other used devices in original file formats.
    Language: English
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    On the future of water management in the Fergana valley : Scenarios for climate change, water resources and socio-economic development (2015)
    GFZ German Research Centre for Geosciences
    In:  Policy Briefs of the German Water Initiative for Central Asia
    Details
    Publication Date: 2020-02-12
    Description: Already today, Central Asia faces water stress with competing water uses and prevailing low water use efficiencies. For the future, climate, hydrologic and socio- economic changes are going to exacerbate the situation. Research undertaken in the frame of the CAWa project revealed that based on the climate model scenarios climate change will result in a further increase of mean annual, winter and summer air temperature, and a substantial further reduction of glacier-covered area in the Tien Shan, e.g. the Naryn basin by 20 – 60 % up to 2050 compared to the present state. The river runoff regime is expected to shift from a glacio-nival to a pluvio-nival runoff regime with increasing discharge in springtime and decreasing discharge in the summer months for more pessimistic climate scenarios. By 2050, the increasing temperature triggers an increase in crop water requirements by 5–15 % for most of the traditional crops in the Fergana valley. A detailed scenario analysis for the Fergana valley showed that the economies can cope with the future conditions if (1) water use efficiencies in irrigated agriculture are increased by applying new irrigation technologies and improving irrigation infrastructure, and (2) the land use is adjusted in favour of new cash-crops like vegetables, fruits, and grapes. These are “no-regret” adaptation measures which the Central Asian economies should undertake to cope with the socio-economic changes alone, even if there was no climate change.
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    Do rocks feed plants? [Film] (2019)
    GFZ German Research Centre for Geosciences
    Details
    Publication Date: 2020-02-12
    Description: Length: 3 min Watch the fascinating cycle through which plants obtain the mineral nutrients that they need to grow. Plants “eat” mineral nutrients like phosphorous or potassium from the soil and rock that their roots grow in. But this natural resource is limited. To prevent running out of nutrients, hyphae (long thread-like cells of fungi that are attached to roots) recycle phosphorus from falling leaves, and return it to the trees. In dry landscapes plants take up their phosphorus directly from rock. See the fundamental difference of ecosystems in different climates. An animated science movie designed and produced by Friedhelm von Blanckenburg from GFZ Potsdam, Germany, Michaela Dippold from Universität Göttingen, Germany, and Andreas Schulz from Filmbüro Potsdam, Germany within the DFG Project ““EarthShape – Earth Surface Shaping by Biota”.
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    The abandonment of a CO2 storage site – pilot project Ketzin (2016)
    GFZ German Research Centre for Geosciences
    In:  Geologische Speicherung von CO2
    Details
    Publication Date: 2020-02-12
    Description: Movie 7: "The abandonment of a CO2 storage site – pilot project Ketzin" (Length 10:39) Produktionsjahr: 2015
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    Making Soil from Rock [Film] (2017)
    GFZ German Research Centre for Geosciences
    Details
    Publication Date: 2020-02-12
    Description: Length: 0.5 min
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    Shale gas : factual scientific argument for and against ; the scientific perspective of the expert network of the Shale Gas Information Platform SHIP (2015)
    GFZ German Research Centre for Geosciences
    Details
    Publication Date: 2020-02-12
    Description: This E-book collates expert articles published on the Shale Gas Information Platform SHIP website (http://www.shale-gas-information-platform.org). The Shale Gas Information Platform is a network of international experts who share their expertise on different aspects of shale gas. With News, Basic Information and Expert Articles, SHIP features the scientific perspective within the current debate, adding factual argument to the pros and cons discussed publicly. The network is brought together by the GFZ German Research Centre for Geosciences. Most articles presented in this book are available in German and/or Polish on the SHIP website.
    Language: English
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    Field Symposium of the INQUA PeriBaltic Working Group "From Weichselian ice-sheet dynamics to holocene land use development in Western Pomerania and Mecklenburg" : abstract volume (2019)
    GFZ German Research Centre for Geosciences
    In:  Scientific Technical Report
    Details
    Publication Date: 2020-02-12
    Language: English
    Type: info:eu-repo/semantics/conferenceObject
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    Glacier dynamic ice loss quantified through seismic eyes (CALVINGSEIS) - Report (2019)
    GFZ German Research Centre for Geosciences
    In:  Scientific Technical Report STR - Data | GIPP Experiment- and Data Archive
    Details
    Publication Date: 2020-02-12
    Description: Glacial contribution to eustatic sea level rise is currently dominated by loss of the smaller glaciers and ice caps, about 40% of which are tidewater glaciers that lose mass through calving ice bergs. The most recent predictions of glacier contribution to sea level rise over the next century are strongly dependent upon models that are able to project individual glacier mass changes globally and through time. A relatively new promising technique for monitoring glacier calving is through the use of passive seismology. CalvingSEIS aims to produce high temporal resolution, continuous calving records for the glaciers in Kongsfjord, Svalbard, and in particular for the Kronebreen glacier laboratory through innovative, multi-disciplinary monitoring techniques combining fields of seismology and bioacoustics to detect and locate individual calving events autonomously and further to develop methods for the quantification of calving ice volumes directly from the seismic and acoustic signals.
    Language: English
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    A report on site effects studies in Kyrgyzstan (2016)
    GFZ German Research Centre for Geosciences
    In:  Scientific Technical Report STR
    Details
    Publication Date: 2020-02-12
    Description: This document provides information on the site effects studies carried out in Kyrgyzstan. These studies are carried out within the Global Change Observatory Central Asia of the GFZ and the Earthquake Model Central Asia (EMCA). Furthermore, the site effects estimated using different approaches are incorporated into the probabilistic seismic hazard assessment (PSHA) for Bishkek.
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    Upper thermosphere neutral wind cross-track component deduced from CHAMP accelerometer data (2019)
    GFZ German Research Centre for Geosciences
    Details
    Publication Date: 2020-02-12
    Language: English
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    Land seismic data of the ALPHA amphibious controlled source experiment - Report (2017)
    GFZ German Research Centre for Geosciences
    In:  Scientific Technical Report STR - Data | GIPP Experiment and Data Archive
    Details
    Publication Date: 2020-02-12
    Description: Raw-, SEG-Y and other supplementary data of the landside deployment from the amphibious wide-angle seismic experiment ALPHA are presented. The aim of this project was to reveal the crustal and lithospheric structure of the subducting Adriatic plate and the external accretionary wedge in the southern Dinarides. Airgun shots from the RV Meteor were recorded along two profiles across Montenegro and northern Albania.
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    Report on the dataset of the Brine Injection at the CO2 Storage Pilot Site Ketzin, Germany (2016)
    GFZ German Research Centre for Geosciences
    In:  Scientific Technical Report STR - Data
    Details
    Publication Date: 2020-02-12
    Description: This publication compiles the operational data (flow rate, cumulative mass, density, injection temperature, electrical conductivity and in-well pressure data) recorded during a field experiment on brine injection at the Ketzin pilot site during October 2015 to January 2015. Anyone should feel free to make use of the published data for any ethical purpose (civil use) – for example for process modelling and engineering.
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    GRACE 327-743 (Gravity Recovery and Climate Experiment) : GFZ Level-2 Processing Standards Document for Level-2 Product Release 06 (Rev. 1.0, October 26, 2018) (2018)
    GFZ German Research Centre for Geosciences
    In:  Scientific Technical Report STR - Data
    Details
    Publication Date: 2020-02-12
    Language: English
    Type: info:eu-repo/semantics/report
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    Rock fracturing and fault activation: Experiments and models (2019)
    GFZ German Research Centre for Geosciences
    Details
    Publication Date: 2020-02-12
    Language: English
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    What are Isotopes? [Film] (2017)
    GFZ German Research Centre for Geosciences
    Details
    Publication Date: 2020-02-12
    Description: Length: 1 min
    Language: English
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    Metal Isotope Fractionation [Film] (2017)
    GFZ German Research Centre for Geosciences
    Details
    Publication Date: 2020-02-12
    Description: Length: 1 min
    Language: English
    Type: info:eu-repo/semantics/other
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    Geochemical Treasure Hunt [Film] (2017)
    GFZ German Research Centre for Geosciences
    Details
    Publication Date: 2020-02-12
    Description: The movie features the workshop for primary school children "Geochemical Treasure Hunt". Length: 6:37 min
    Language: English
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    Building and Developing Capacities in Water and Land Resources Management in Central Asia (2015)
    GFZ German Research Centre for Geosciences
    In:  Policy Briefs of the German Water Initiative for Central Asia
    Details
    Publication Date: 2020-02-12
    Description: The implementation of Integrated Water and Land Resources Management (IWLRM) in Central Asia is facing substantial challenges today. The most basic challenge among them, to which many other challenges can be traced back, is the building and development of capacities at the individual and organizational levels. This Policy Brief reviews the capacity building approaches taken by the German Water Initiative for Central Asia (“Berlin Process”), in particular: (1) short-term vocational trainings for water professionals offered by the CAWa research project, (2) regional master programme “Integrated Water Management” implemented at the German-Kazakh University in Almaty, (3) training module on river basin planning developed within the GIZ program “Transboundary Water Management in Central Asia”. These approaches address mainly the individual level of capacity building, but with the establishment of river basin commissions, the GIZ programme targeted also the institutional level. Key factors of success were the regional and trans-sectoral approach taken by all three programmes, the linking of science and practice, and the tailoring of the training contents to the practical needs of the participants.
    Language: English
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    CHAMP: overview of final ME products and format description (2019)
    GFZ German Research Centre for Geosciences
    In:  Scientific Technical Report STR - Data
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    Publication Date: 2020-02-12
    Language: English
    Type: info:eu-repo/semantics/report
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    GeoBerlin 2015 : Dynamic Earth from Alfred Wegener to today and beyond ; Abstracts (2015)
    GFZ German Research Centre for Geosciences
    Details
    Publication Date: 2020-02-12
    Description: In our meeting Dynamic Earth – from Alfred Wegener to today and beyond we will review how Wegener‘s findings evolved into to modern Earth system science including its impact on climate and the Earth surface, and how this system affects our daily life: where humans live, what risks we are exposed to, where we find our resources. In the meeting we will hold sessions that cover the entire geoscience spectrum (from mineral physics over solid earth geodynamics to the climate sciences) and that explore the consequences of Wegeners findings on how humans use our planet today (from energy and mineral resources over georisks to utilisation of the subsurface and materials for modern society). We have invited keynote speakers that are eminent international scientists in these fields. In events open to the general public we will get an account of Wegeners final trip to Greenland on the history of science of his hypothesis.
    Language: English , German
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  • 50
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    GRACE-FO D-103919 (Gravity Recovery and Climate Experiment Follow-On): GFZ Level-2 Processing Standards Document for Level-2 Product Release 06 (Rev. 1.0, June 3, 2019) (2019)
    GFZ German Research Centre for Geosciences
    In:  Scientific Technical Report STR - Data
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    Publication Date: 2020-02-12
    Language: English
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    Operational report about phase 1 of the Collisional Orogeny in the Scandinavian Caledonides scientific drilling project (COSC-1) (2019)
    GFZ German Research Centre for Geosciences
    In:  ICDP Operational Report
    Details
    Publication Date: 2020-02-12
    Description: The Collisional Orogeny in the Scandinavian Caledonides (COSC) scientific drilling project focuses on mountain building processes in a major mid‐Paleozoic orogen in western Scandinavia and its comparison with modern analogues. The project investigates a subduction‐generated complex (Seve Nappes) and how these in part under ultra‐high pressure conditions metamorphosed outer continental margin and continent‐ocean transition zones (COT) assemblages were emplaced onto the Baltoscandian platform and there influenced the underlying allochthons and the basement in a section provided by two fully cored 2.5 km deep drill holes. This operational report concerns the first drill hole, COSC‐1 (ICDP 5054‐1‐A), drilled from early May to late August 2014. It sampled a thick section of the lower part of the Seve Complex and was planned to penetrate its basal thrust zone into the underlying lower grade metamorphosed allochthon. The drill hole reached a depth of 2495.8 m and nearly 100 % core recovery was achieved. Although planning was based on existing geological mapping and new high‐resolution seismic surveys, the drilling resulted in some surprises: the Lower Seve Nappe proved to be composed of rather homogenous gneisses, with only subordinate mafic bodies and its basal thrust zone was unexpectedly thick (〉 800 m). The drill hole did not penetrate the bottom of the thrust zone. However, lower grade metasedimentary rocks were encountered in the lowermost part of the drill hole together with garnetiferous mylonites tens of metres thick. The tectonostratigraphic position is still unclear and geological and geophysical interpretations are under revision. The compact gneisses host only 8 fluid conducting zones of limited transmissivity between 300 m and total depth. Downhole measurements suggest an uncorrected average geothermal gradient of ~20°C/km. The drill core was documented on‐site and XRF scanned off site. During various stages of the drilling, the borehole was documented by comprehensive downhole logging. This operational report provides an overview over the COSC‐1 operations from drilling preparations to the sampling party and describes the available datasets and sample material.
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    AHEPA and Volvi ambient seismic noise experiments - Report (2017)
    GFZ German Research Centre for Geosciences
    In:  Scientific Technical Report STR - Data | GIPP Experiment and Data Archive
    Details
    Publication Date: 2020-02-12
    Description: A temporary seismic array of short-period seismometers was installed in the 8-story AHEPA hospital, located in the city of Thessaloniki, N. Greece. The scope of the survey was to assess the dynamic characteristics of the RC-building by processing ambient vibration recordings of more than 40 seismic stations installed at different positions in the building. Part of the instruments was used in a soil experiment, outside of the hospital, to study possible Soil Structure Interaction phenomena. In addition to above experiments, a site-specific survey was performed in the Volvi basin, 30km ENE of the city of Thessaloniki. The scope of this experiment was to investigate the soil properties and the geometry of the subsurface geology.
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    Broadband Recordings for LITHOS-CAPP: LITHOspheric Structure of Caledonian, Archaean and Proterozoic Provinces, Sep. 2014 - Oct. 2016, Sweden and Finland (2017)
    GFZ German Research Centre for Geosciences
    In:  Scientific Technical Report STR - Data | GIPP Experiment and Data Archive
    Details
    Publication Date: 2020-02-12
    Description: LITHOS-CAPP is the German contribution to the international ScanArray experiment. ScanArray is an array of broadband seismometers with which we aim to study the lithosphere and upper mantle beneath the Scandinavian Mountains and the Baltic Shield. LITHOS-CAPP contributed 20 broadband recording stations from September 2014 to October 2016, 10 in Sweden and 10 in Finland, continuously recordings at 100 samples per second. The stations were deployed by the KIT Geophysical Institute and GFZ section 2.4 (seismology). They form part of the temporary network ScanArrayCore (FDSN network code 1G 2012-2017)
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    The data sets of the earthquake model for the probabilistic seismic hazard assessment of Germany, version 2016 - Report on supplementary material for the respective publication (2017)
    GFZ German Research Centre for Geosciences
    In:  Scientific Technical Report STR - Data
    Details
    Publication Date: 2020-02-12
    Description: The Scientific Technical Report describes supplementary material to the publication by Grünthal et al. (2018) on the earthquake model for the probabilistic seismic hazard assessment (PSHA) of Germany, version 2016. In particular, it contains detailed information, additional figures, tables and electronic data concerning seismicity, seismic source zone models, maximum magnitudes, seismicity rates of the seismic source zones, model data related to distributions of focal depth and tectonic regime parameters. It also supplies seismic hazard maps for Germany with a broad range of parametrizations.
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    ICDP Primer - Planning, Managing, and Executing Continental Scientific Drilling Projects (2018)
    GFZ German Research Centre for Geosciences
    Details
    Publication Date: 2020-02-12
    Description: This brochure is designed for scientists and engineers of upcoming drilling projects and explains the key steps and important challenges in planning and executing continental scientific drilling.
    Language: English
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    ICLEA Final Symposium 2017 : Climate Change, Human Impact and Landscape Evolution in the Southern Baltic Lowlands ; Abstract Volume & Excursion Guide (2017)
    GFZ German Research Centre for Geosciences
    In:  Scientific Technical Report STR
    Details
    Publication Date: 2020-02-12
    Language: English
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    The H2020 REFLECT project: Deliverable 1.1 - Fluid Data for geothermal sites (type A) (2021)
    GFZ German Research Centre for Geosciences
    Details
    Publication Date: 2021-09-02
    Description: In this interim report, the studies on geothermal fluids carried out in Turkey, France and Iceland geothermal fields are explained.
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    Use of the East Asia GPS receiving network to observe ionospheric VTEC variations, scintillation and EIA features during the Solar Cycle 24 (2021)
    GFZ German Research Centre for Geosciences
    In:  Scientific Technical Report STR
    Details
    Publication Date: 2021-07-27
    Description: The ionosphere is a complex and highly variable physical system with the F-layer, which occupies at the highest altitude, contains the greatest concentration of free electrons. Under the extreme circumstance of the ionosphere such as in the periods of high solar activity or magnetic storms or simply in the equinoctial months each year, this layer is very often disturbed. During the disturbances, the small-scale irregularities develop and disperse microwave radio signals, and thus generate rapid fluctuations in the amplitude and phase of satellite signals. This phenomenon causes the ionosphere to be scintillated and is called ionospheric scintillation. The impacts of scintillation cannot be mitigated by the multi-frequency technique that is very effective when dealing with ionospheric delay. Consequently, ionospheric scintillation is one of the most significant threats for space geodetic techniques, especially for stations operating in the polar regions or areas near the equator. To study ionospheric scintillation, alternative methods have been proposed including the method of using high-rate receivers to directly output S4 index over Vietnam region and the method of using standard GNSS dual-frequency to calculate ROTI index on a global scale. Main results of this thesis are the temporal variations of total number electron (TEC) in Southeast Asia for eleven consecutive years and the appearance characteristics of scintillation over this area as well as globally during solar cycle 24 (SC24). For space geodesy, electromagnetic waves are most vulnerable in the equatorial ionization anomaly (EIA) as this region has many potential risks of errors for satellite signals. The research area (Southeast Asia) is also located entirely within the EIA. In this thesis, the temporal - latitudinal VTEC maps have been established to study the modifications of EIA’s structure. Thereby, the featured occurrence of EIA crests in Southeast Asia is revealed. Also, the global morphology of anomaly crests averaged over 11-year period shows the worldwide distribution of EIA crests during SC24. Throughout the thesis, the high consistency between the state of the ionosphere and the activity status of the Sun is evidenced by high correlations between VTEC and solar indices. In which, the radio flux index (F10.7 cm) is proved to be more agreeable to the VTEC development than the sunspot number (SSN). The behaviour of the ionosphere during intense magnetic storms is also investigated. The results show that the structure of EIA is often highly volatile during these severe ionospheric conditions.
    Description: Die Ionosphäre ist ein komplexes und hochvariables physikalisches System, wobei die am höchsten gelegene F-Schicht die höchste Konzentration an freien Elektronen enthält. Unter den extremen Bedingungen der Ionosphäre, wie beispielsweise in den Perioden hoher Sonnenaktivität oder magnetischer Stürme oder einfach in den Äquinoktialmonaten eines jeden Jahres, ist diese Schicht der Ionosphäre häufig gestört. Während der Störungen propagieren und zerstreuen die kleinräumigen Unregelmäßigkeiten Mikrowellen-Radiosignale und erzeugen so schnelle Schwankungen in der Amplitude und in der Phase der Satellitensignale. Dieses Phänomen führt zu einer Szintillation der Ionosphäre und wird oft als ionosphärische Szintillation bezeichnet. Im Prinzip können die Auswirkungen der Szintillation nicht durch die Mehrfrequenztechnik verringert werden, die bei der Behandlung der ionosphärischen Verzögerung sehr effektiv ist. Aus diesen Gründen ist die ionosphärische Szintillation eine der größten Herausforderungen für geodätische Weltraumtechniken, insbesondere für Messstationen, die in den Polarregionen oder in äquatornahen Gebieten einschließlich Südostasiens arbeiten. Zur Untersuchung der ionosphärischen Szintillation wurden alternative Methoden vorgeschlagen, darunter die Methode der Verwendung von Hochfrequenz-Empfängern zur direkten Ausgabe des S4-Index über der Region Vietnam und die Methode der Verwendung der standardmäßigen GNSS Zweifrequenzmessungen zur Berechnung des ROTI-Index zur Untersuchung ionosphärischer Unregelmäßigkeiten im globalen Maßstab. Die Hauptergebnisse der Arbeit beinhalten die zeitlichen Variationen des Gesamtelektroneninhalts (total electron content, TEC) in Südostasien für elf aufeinander folgende Jahre und die Erscheinungsmerkmale der Szintillation während des 24. Sonnenzyklus (SC24) sowohl über diesem Gebiet als auch auf globaler Ebene. Für die Weltraumgeodäsie sind elektromagnetische Wellen in der äquatorialen Anomalie der Ionosphäre (equatorial ionization anomaly, EIA) am anfälligsten, da diese Region viele potenzielle Fehlerrisiken für Satellitensignale aufweist, welche bei der Übertragung aus dem Weltraum die Ionosphäre durchqueren. Das Forschungsgebiet (Südostasien) befindet sich ebenfalls vollständig innerhalb der EIA. In dieser Arbeit wurden die zeit und breitenabhängigen Karten des VTEC erstellt, um die Veränderungen der Struktur der EIA zu untersuchen. Dabei wird das charakteristische Vorkommen von Kämmen der EIA-Anomalie in Südostasien offen gelegt. Außerdem zeigt die globale Morphologie der Anomalie-Kämme, gemittelt über einen Zeitraum von elf Jahren, die weltweite Verteilung der EIA-Kämme während des SC24. Der starke Zusammenhang zwischen dem Zustand der Ionosphäre und dem Aktivitätszustand der Sonne wird durch hohe Korrelationen zwischen dem VTEC und den Sonnenindizes einschließlich der Sonnenfleckenzahl (sunspot number, SSN) und dem Radioflussindex F10,7 cm belegt. Auch das Verhalten der Ionosphäre während intensiver magnetischer Stürme wird untersucht. Die Ergebnisse zeigen, dass die Struktur der EIA unter diesen extremen ionosphärischen Bedingungen häufig sehr volatil ist.
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    MAARE Lecture Series 2021 (2021)
    GFZ German Research Centre for Geosciences
    Details
    Publication Date: 2021-12-21
    Description: MAARE is an interdisciplinary research initiative to enhance our understanding of magma ascent, accumulation and reservoir evolution in intra-continental settings. Examples of core questions addressed by the MAARE research initiative comprise: · What are past and current conditions in transcrustal magmatic reservoirs at different depths? · How do magmatic fluids migrate through the crust and how do they trigger reservoir unrest? · What are the spatio-temporal controls on volcanism in low-flux systems? · What are realistic eruption scenarios and forecast uncertainties in low probability, high impact volcanic regions? · How can distributed volcanic fields be monitored in a comprehensive manner and how can small precursory signals reliably be interpreted? · What are pitfalls in communicating volcanic hazard research and risk? The aim of the lecture series is to develop a common understanding of the key questions, to develop new ideas and to initiate joint research projects.
    Language: English
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    psi-explorer: a visual-analytics approach for the assessment of persistent scatterer interferometry (PSI) data (2018)
    GFZ German Research Centre for Geosciences
    Details
    Publication Date: 2020-02-12
    Description: The processing of Persistent Scatterer Interferometry (PSI) data and the estimation of displacement is a nonlinear and user-driven procedure that can introduce large errors for noisy backscatter points. Results may differ significantly depending on chosen thresholds, filter settings, constraints and final interpretation. Thus the identification of valid PS with rather low errors in the SAR data is a crucial step in the PSI workflow. PSI-Explorer is a scientific prototype of our visual-analytics (VA) approach supporting this important task. The prototype is written in Java and operates on Matlab files.
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    Seismic Monitoring of Glacier Activity on Svalbard (SEISMOGLAC) - Report (2018)
    GFZ German Research Centre for Geosciences
    In:  Scientific Technical Report STR - Data | GIPP Experiment and Data Archive
    Details
    Publication Date: 2020-02-12
    Description: The consequences of climate change are highly important in the polar regions as ice-sheets and glaciers respond strongly to change in average temperature. The analysis of seismic signals (icequakes) emitted by glaciers (i.e., cryo-seismology) is thus gaining importance as a tool for monitoring glacier activity. To understand the scaling relation between regional glacier-related seismicity and actual small-scale local glacier dynamics and to calibrate the identified classes of icequakes to locally observed waveforms, a temporary passive seismic monitoring experiment was conducted in the vicinity of the calving front of Kronebreen, one of the fastest tidewater glaciers on Svalbard (Fig. 1). By combining the local observations with recordings of the nearby GEOFON station GE.KBS, the local experiment provides an ideal link between local observations at the glacier to regional scale monitoring of NW Spitsbergen. During the 4-month operation period from May to September 2013, eight broadband seismometers and three 4-point short-period arrays were operating around the glacier front of Kronebreen.
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    Informed Decision-Making in Land and Water Management in Central Asia: How Earth Observation Technologies may contribute (2015)
    GFZ German Research Centre for Geosciences
    In:  Policy Briefs of the German Water Initiative for Central Asia
    Details
    Publication Date: 2020-02-12
    Description: In the context of Integrated Water Resources Management(IWRM), informed decision making requires accurate,timely, spatially extensive, consistent and wellunderstood data sets on climate, water and land resources.Earth observation technologies provide suchdata sets as well as methods and tools for the generationof high-quality data products to support planningand decision-making. This Policy Brief advocates theuse of Earth observation technologies and their integrationinto operational monitoring and decision-supportsystems in Central Asia based on examples fromthe CAWa project.
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    Argolis, Greece, Site Effect Study for the HERACLES Project (Nov. 2012 – Jun. 2013) - Report (2017)
    GFZ German Research Centre for Geosciences
    In:  Scientific Technical Report STR - Data | GIPP Experiment and Data Archive
    Details
    Publication Date: 2020-02-12
    Description: Engineering seismological models (incl. ground amplification and topographic effects) of key structures in Tiryns and Midea, Greece, will be used to test the hypothesis of seismogenic causes of the decline of the Mycenaean settlements in the 12th century BC.
    Language: English
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    How plants shape mountains [Film] (2019)
    GFZ German Research Centre for Geosciences
    Details
    Publication Date: 2020-02-12
    Description: Length: 4 min Imagine a planet without plants. Would a landscape on that planet differ from a landscape with plants as we know it? There are two ways to tell: we can either compare natural landscapes with each other, or use computer models. We show one model for a landscape that is covered with a dense forest and one that carries almost no vegetation. Be surprised by the large difference you see in these between these two landforms! An animated science movie designed and produced by Todd Ehlers from the University of Tübingen, Germany, Andreas Schulz from Filmbüro Potsdam, Germany, with contributions of Manuel Schmid Willi Kappler, and Friedhelm von Blanckenburg, Germany within the DFG Project ““EarthShape – Earth Surface Shaping by Biota”.
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    MED-SUV CUBE arrays 2014 - Report (2018)
    GFZ German Research Centre for Geosciences
    In:  Scientific Technical Report STR - Data | GIPP Experiment and Data Archive
    Details
    Publication Date: 2020-02-12
    Language: English
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    D3.2 Report on radial jet-drilling (RJD) stimulation technology (2016)
    GFZ German Research Centre for Geosciences
    Details
    Publication Date: 2020-05-19
    Description: Radial water jet drilling uses the power of a focused uid jet, which is capable of drilling multiple laterals of about 100 m length out of an existing well and thereby stimulating the well with full control on the operational parameters like initial direction of the lateral, length, uid pressure etc. In contrast to hydraulic stimulation treatments, this technology can potentially provide a network of enhanced uid pathways around a geothermal well to intersect with existing high permeable structures like fracture or karst systems within the reservoir, independent of the ambient stress eld. Applying RJD, laterals typically have a diameter ranging from about 25 mm to 50 mm, depending on jetting parameters like pressure and ow rate as well as rock properties. Drilling a single lateral in a cased well requires approximately 12 hours, as the casing has to be penetrated using a coiled tubing operated milling bit before jetting into the formation. In case the target zone is open-hole, jetting a lateral is considerably faster. Compared to conventional hydraulic stimulation treatments with required uid volumes of more than 1000 m3, only a fraction of this is needed for RJD (〈 1 m3). In addition, no pressure will be applied to the reservoir, thereby reducing environmental risk as well as the risk of induced seismicity considerably. Although RJD is investigated and applied in the hydrocarbon industry, applications in geothermal wells are very rare. If the technology can be shown to increase the eciency of a geothermal well, it will provide an interesting alternative to conventional hydraulic stimulation treatments. RJD shows highest eciency in terms of performance increase in reservoirs with low permeability (〈 10 mD). The most important criteria for the well are the minimum diameter (4 1/2" OD casings) and maximum along hole depth (about 5 km). So far, RJD operations have been performed in wells with a an inclination of up to 46 . Technologies, however, have been developed to perfom RJD operations even in horizontal well sections. Depending on the initial production; for tight gas reservoirs the gas production can be improved with a factor 4-7, simulation for geothermal wells suggest a potential performance increase by a factor of up to 3 when 8 laterals of 100 meter are successfully drilled and geological conditions are favourable. Since the potential increase depends on the type of the geothermal reservoir as well as its properties, the improvement factor has to be conrmed by eld experiments. Currently no major hazards to the well have been identied. The main risk associated with a RJD treatment appears to be sand production from the open-hole completion. However since the amount of experience and well-documented cases is limited, not all risks may have been identied at this moment in time. Major uncertainties in the production estimates are the long-term (〉1 year) stability of the jetted laterals and the eect of sub-surface heterogeneity. The jet-ability of typical geothermal reservoir rocks is also not well documented. As the jet-ability strongly depends on physical rock properties and in-situ reservoir conditions, which are signicantly dierent to typical hydrocarbon reservoirs, the feasibility of RJD in dierent geological settings has to be evaluated. Although, RJD presents a low cost stimulation method with currently no major identied risk to the well nor to the environment, experience with RJD in the geothermal industry is rare. Field applications are therefore key to evaluate the potential of the RJD stimulation technology for geothermal applications.
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    Deliverable D4.3: Report on stability of laterals (2019)
    GFZ German Research Centre for Geosciences
    Details
    Publication Date: 2020-05-19
    Description: Based on the aviailable material we come to the conclusion that jetting has no direct influence on the surrounding area. Analysis on multiple scales: μm (porosity); cm (mechanical and acoustical properties); dm scale (elastic properties with and without a jetted hole) do not show a significant changes compared to in-tact material, nor can a significant change be detected with respect to distance to a jetted hole. Results fall within the intra-block variability, and differences between blocks can be well explained by block-to-block variation. True-triaxial elastic deformation tests have been designed and ran to test the effect of a lateral (jetted hole) on the elastic properties. The jetted hole itself was jetted with a rotating nozzle type, producing cilindrical holes. Comparing laboratory tests with a numerical model proved that the laboratory results may be well compared to a model with cylindrical hole embedded in a rock mass, much like a conventional borehole. The stress field around the jetted hole can therefore be well aproximated by the Kirsh-equations, modified for compression.
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    Deliverable D5.1: Jet drilling at ambient conditions (2019)
    GFZ German Research Centre for Geosciences
    Details
    Publication Date: 2020-05-19
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    Deliverable D6.1: Report on a field scale RJD stimulation for the Klaipeda site (2019)
    GFZ German Research Centre for Geosciences
    Details
    Publication Date: 2020-05-19
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    Deliverable 5.4 - Report on Novel Water Jet Drilling Tool (2019)
    GFZ German Research Centre for Geosciences
    Details
    Publication Date: 2020-05-26
    Description: Work at GZB (International Geothermal Centre) had been focused on several potential, novel micro type drilling technologies. These technologies have been investigated and discussed to determine possible future options. In this report the different technologies are being presented, starting with abrasive enhanced jetting, followed by pulsation and mechanically supported drilling, ending with percussion type mechanical rock destruction and drilling. Their influence on rock disintegration and drilling efficiency have been investigated in several laboratory experiments. These were carried out to manifest a better understanding of each potential technology. The results are being presented and discussed regarding the potential increase in drilling performance versus lessons learned within WP 5.1 as well as their applicability in the field. Water jets enhanced with abrasive particles have the ability to penetrate into virtually any rock type with rather low hydraulic power. However, the (downhole) applicability in the field is commonly a challenge due to extremely fast and high wear on the pertinent material and equipment other than the rock itself, including the jetting BHA (bottom hole assembly) and nozzles. In order to partly overcome this dilemma a dedicated nozzle for abrasive mixing has been designed and patented. It may be found under patent number DE 10 2016 125 916.0. Pulsating water jets are a different approach to enhance the efficiency of rock destruction via water jet. Both techniques are based on pure high pressure jets, one adding particles to a constant jet (abrasive jetting), the other one dividing and cutting a constant jet into small, short sections to generate not constant impulses (pulsation). Various tests were carried out under reservoir type conditions inside the autoclave system “iBOGS mini”. So far the effect of pulsation seems to be low compared to the suppressed cavitation erosion mechanism under elevated pressure conditions. A very different approach is the use of micro turbines powered by the high pressure water, combined with a mechanical drill bit. The hydraulic energy of the intensified water is not directly used to penetrate the rock, but rather to generate rotation even with substantial torque via a micro turbine system. Thus, the jetting action is neglectable, as the mechanical bit does the cutting into the rock mass with rather high rotation speeds. Testing showed rather high efficiency regarding drilling speed. The technology works also independently of the rock type. All tested rock types including granite were drilled successfully with rather low hydraulic power of 10 kW (e.g. turbine differential pressures of 150 bar and flow rates of about 40 l/min). Future testing at macro and meso scale levels are being planned to verify reliability, drilling direction and more. As of now, this technology seems to be the most promising for hard rock formations in the very near future. One challenge may be their slightly larger geometrical shape and size regarding the current downhole installation scheme. But this is underway to be solved in the near future. On the final end of the possible spectrum for high pressure jet drilling from pure jetting (e.g. SURE WP 5.1 to 5.3) to transforming the intensified, high pressure water to eventually generate and gain more mechanical support over jetting are percussion engines as being known and used in so called DTH (down-the-hole) hammers. Here, the intensified water does generate medium frequency mechanical blows (“pulses”, e.g. 50 – 70 Hz) by powering a piston and drill bit for rock disintegration with very high drilling speeds. The differential pressure across such a hammer with approx. 180 bar is at the same level as for the before mentioned micro turbines and thus, much lower than for direct high pressure water jetting. Compared to the turbine, the hammer works with a highly dynamic force and low rotation, whereas the turbine is based on a very constant load or weight on bit (WOB) with rather high rotation speed (RPM), generating more of a grinding effect. However, the hammer ́s geometrical shape, namely its length, makes it much more difficult to be deployed downhole for micro drilling, while also some rotation needs to be generated. Here is more work underway as well. To summarize high pressure jet drilling, the full scale of currently possible solutions from pure high pressure jetting to mechanically enhanced or supported jet type drilling including abrasives, pulsation, micro turbines and percussion motors were considered and being looked at regarding their possible application in hard rock formations and future potential.
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    The Horizon 2020 Project SURE: Deliverable 7.5 - Comparison of RJD reservoir performance to conventional wells (2019)
    GFZ German Research Centre for Geosciences
    Details
    Publication Date: 2020-05-27
    Description: Radial Jet Drilling (RJD) is a technique to stimulate wells by creating small-diameter laterals from vertical or deviated wells using hydraulic jets. The laterals, also called radials, can be up to 100 m in length. To analyze under which sub-surface conditions the radials improve the well performance most, a step-wise approach is followed in which first the performance of a single stimulated well is analyzed and in a second step, the performance of a doublet system is analyzed. Finally, case studies that are more detailed are simulated. For the single well case, a good first estimate of radial stimulation performance for different reservoir conditions can be obtained from (semi-) analytical solutions. These results show that the anisotropy in the permeability and the thickness of the reservoir influence the relative increase in productivity/injectivity most. The permeability influences in particular the absolute performance of the stimulated well. Many aspects not included in the semi-analytical solution also influence the performance of the radial stimulation: - Since the radials are open hole, stability for friable rocks or deep reservoirs is unlikely. This depends on the in-situ stress conditions. Collapsed radials probably have much lower performance or no effect at all. - The uncertainty in the radial path and diameter decreases the expected benefits from radials significantly depending on the type of reservoir. For example for a layered reservoir, the expected increase may be tens of percent lower. - Due to the small diameter (0.02-0.05 m) and rough surface of the radials and the high rates of geothermal wells, viscous pressure drop due to flow in the radials has to be taken into account for prediction of performance. For example for a radius of 0.04 m and well rate of 3600 m3/d, expected increase in performance is halved when taking into account pressure drop. - Heterogeneity in the permeability has a strong impact on the performance of the radials. Performance of individual radials depends in first approximation on the local permeability. However, this is difficult to capture in general terms. - Near well bore damage (positive skin) and prior stimulation (negative skin) have a large impact on the expected increase due to stimulation. In case the radials can be used to by-pass near well damage, performance can be much higher than predicted using the analytical equations. - Heterogeneity due to fault and/or fractures, voids, sharp transitions or layering all make potential success more uncertain and predictability lower due to potential issues with jetting. Whether increased performance for a single well can be translated to similar increased performance of a doublet depends on the doublet settings and subsurface conditions. For a fixed doublet distance or field size, an increase in rate due to improved performance of the wells will result in a reduced field life. The increased well performance can also be used to lower pumping cost at a fixed rate and thus improve performance of the doublet. It was found, that for most subsurface systems, the impact of the radials on production temperature was minor (for constant rate). Only for some fractured systems, short-circuiting can be increased due to radials. Overall, the ideal candidate for radial stimulation is a reservoir which is not too deep, in homogeneous, competent rock with a well with near well bore damage or in a not too deep anisotropic reservoir in which the main well is not drilled beneficially compared to the main direction of permeability.
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    The Horizon 2020 Project SURE: Deliverable 6.3 - Report on field scale RJD stimulation for the magmatic site (2019)
    GFZ German Research Centre for Geosciences
    Details
    Publication Date: 2020-05-26
    Description: This report describes activity connected to radial jet drilling (RJD) in Iceland in WP6 – Macro Scale in the SURE project. Well HN-13, located in N-Iceland close to the town of Akureyri was selected as a candidate for RJD trials within the SURE project. It was drilled in between two prior drilled low-temperature geothermal wells, HG-10 (a.k.a. HN-10) and BO-01 (a.k.a. BN-01), that are both productive and used for district heating of Akureyri and nearby communities. Although the location was in between two producing wells, it was a poor producer only producing 5-6 liters per minute (0,1 l/s) while being air lifted. For comparison, the mean production from well HG-10 that sits 20 m NNE of HN-13, is about 25 l/s of 90°C hot water. HN-13 was therefore valued as an excellent candidate for demonstration of the stimulation technology, as any increased production after RJD will clearly be revealed. Jetting experiments in WP5 into basalt rock types sent from Iceland to Bochum were shown to be impractical as high pressure and velocities are required. Therefore, softer inter-basaltic layers were targeted. Main information on well HN-13, nearby wells, target depth as well as the RJD field testing are described in this report.
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    GEOFON Annual Report 2016 (2017)
    GFZ German Research Centre for Geosciences
    In:  Scientific Technical Report STR
    Details
    Publication Date: 2020-08-10
    Description: The GEOFON program consists of a global seismic network (GE Network), a seismological data centre (GEOFON DC) and a global earthquake monitoring system (GEOFON EQinfo). These three pillars are part of the MESI research infrastructure of the Helmholtz Centre Potsdam - GFZ German Research Centre for Geosciences aiming at facilitating scientific research. GEOFON provides real-time seismic data, access to its own and third party data from the archive facilities as well as global and rapid earthquake information. The GEOFON Seismological Software can be considered a fourth cross-cutting module of the GEOFON Program. Data, services, products and software openly distributed by GEOFON are used by hundreds of scientists and data centres worldwide. Its earthquake information service is accessed directly by tens of thousands of visitors. The SeisComP software package is the flagship software provided to the community, which is geared for seismic observatory and data centre needs and used extensively to support our internal operations. Like all other MESI (Modular Earth Science Infrastructure) modules GEOFON has the majority of users outside the GFZ as well as an external advisory committee that provides advice to the GFZ Executive Board and to the GEOFON team. This report describes the main activities carried out within the three GEOFON pillars and the software development group.
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    The Horizon 2020 project SURE: Deliverable 7.6 - Report on Optimal Design for Application of RJD (2019)
    GFZ German Research Centre for Geosciences
    Details
    Publication Date: 2020-05-28
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    The Horizon 2020 Project SURE: Deliverable 7.4 - Upscaling of RJD for incorporation in reservoir simulators (2018)
    GFZ German Research Centre for Geosciences
    Details
    Publication Date: 2020-06-09
    Language: English
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    Report on the Data Base of the International Geodynamics and Earth Tide Service (IGETS) (2016)
    GFZ German Research Centre for Geosciences
    In:  Scientific Technical Report STR - Data
    Details
    Publication Date: 2020-11-05
    Description: The International Geodynamics and Earth Tide Service (IGETS) was established in 2015 by the International Association of Geodesy (IAG). IGETS continues the activities of the Global Geodynamics Project (GGP, 1997-2015) to provide support to geodetic and geophysical research activities using superconducting gravimeter data within the context of an international network. The primary objective of IGETS is to provide a service to monitor temporal variations of the Earth’s gravity field through long-term records from ground gravimeters, tiltmeters, strainmeters and other geodynamic sensors. IGETS also continues the activities of the International Center for Earth Tides, in particular, in collecting, archiving and distributing Earth tide records from long series of the various geodynamic sensors. This report is a compilation of data descriptions originating to a large part from GGP but including updates and extensions for IGETS.
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    Seismic risk analysis in Germany: an example from the Lower Rhine Embayment. Final report (2020)
    GFZ German Research Centre for Geosciences
    In:  Scientific Technical Report STR
    Details
    Publication Date: 2020-12-14
    Description: The Lower Rhine Embayment in western Germany is one of the most important areas of earthquake recurrence north of the Alps, facing a moderate level of seismic hazard in the European context but a significant level of risk. This study deals with the impact of a scenario earthquake with a moment magnitude of 6.5 occurring along the Erft fault system south-west to the city of Cologne, the fourth largest German city with more than one million inhabitants and accommodating important industrial facilities. Since the city is located on thick layers of Quarternary sediments, the geological discontinuities at depth will have a significant influence on the duration and the amplification of ground-motion. Based on a new, harmonized and spatially highly resolved, model of the sedimentary cover, the sensitivity of spectral intensity measures to the site response analysis method is assessed employing random vibration theory approaches. Corresponding damage calculations are conducted in terms of European Macroseismic Scale (EMS-98) damage grades. Residential buildings and buildings with mixed residential and commercial occupancy are included in the corresponding calculations only, in line with most seismic risk assessment studies which have traditionally focused on residential typologies. Results from the damage calculations are presented in terms of number of buildings exposed to bands of EMS-98 intensity levels and probabilities of EMS-98 damage grades for residential buildings and buildings with mixed residential and commercial occupancy. Casualties in the city and the neighboring districts are estimated by means of the PAGER empirical method using population counts at the quartier (“Stadtviertel”) level in Cologne, the “Bezirk” level in Bonn and Aachen and at the municipality (“Gemeinde”) level for the surrounding areas, all of these comprised within the district (“Regierungsbezirk”) of Cologne.
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    CaTeNA – Climatic and Tectonic Natural Hazards in Central Asia Final virtual workshop September 24-25 2020 (2020)
    GFZ German Research Centre for Geosciences
    Details
    Publication Date: 2020-11-18
    Description: CaTeNA – Climatic and Tectonic Natural Hazards in Central Asia – is an interdisciplinary, international project funded by the German Ministry of Education and Research to study natural hazards in Central Asia. Central Asia is one of the most tectonically active regions of the world and is influenced by both the west wind zone and monsoon. CaTeNA is examining the two most serious natural hazards arising from these conditions: Earthquakes and mass movements. The project goal is to better understand the underlying processes and triggering factors and to better estimate the resulting risks. For this purpose, CaTeNA localises tectonic faults and determines deformation rates and their changes. Focus is put on two of the most active fault systems, the Main Pamir Thrust and the Darvaz Fault crossing Tajikistan and Kyrgyzstan. We try to estimate recurrence intervals of large earthquakes and to understand their relationship to mass movements using paleo-seismology, geomorphology and remote sensing. The current deformation field is characterised and quantified using the methods of space geodesy and seismology. The results will be incorporated into the openly accessible Central Asian Tectonic Database developed within the project, making it accessible to the public, stakeholders and decision-makers. They form the basis for a more accurate estimation of the risk for earthquakes and landslides. Another important project goal is the development and implementation of a dynamic risk assessment for landslides, including high-resolution, model-based precipitation and snowmelt maps. This allows for an improved estimation of the effects of geological hazards on inhabited areas and traffic infrastructure. Direct and efficient risk communication is achieved through interactive visualisation based on a dynamic multilingual web GIS platform. This is an essential step on the path to an early-warning system that takes into account the most important triggering factors. This data repository provides pdf files and recorded videos of talks presented during the final online workshop of the project.
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    EMPG – XVII 17th International Symposium on Experimental Mineralogy, Petrology and Geochemistry: Abstract volume (2021)
    GFZ German Research Centre for Geosciences
    Details
    Publication Date: 2021-02-09
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    REFLECT Deliverable D6.1: Dissemination and communication plan (2020)
    GFZ German Research Centre for Geosciences
    Details
    Publication Date: 2020-05-19
    Description: This document defines and prioritises the key objectives of dissemination of REFLECT and details the steps to be taken during the project’s lifetime in order to achieve maximum impact and reach relevant audiences. It also sets the framework to facilitate communication among Consortium members, and between the Consortium and stakeholders or the general public.
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    Temporary passive seismic data acquired at Rittershoffen geothermal field Alsace, France, 2013-2014 (TOPASE) - Report (2019)
    GFZ German Research Centre for Geosciences
    In:  Scientific Technical Report STR - Data | GIPP Experiment and Data Archive
    Details
    Publication Date: 2020-05-20
    Description: This report describes the passive seismic data acquired by the TOPASE network deployed over Rittershoffen geothermal field (Alsace, France). The monitoring period extends from March 2013 to November 2014, which includes the stimulation of the first well of the doublet, the drilling of the second well and well tests. These data were acquired using 31 Earth Data Loggers PR6-24 and MARK-SERCEL L-4C-3D 1 Hz seismometers of the Geophysical Instrument Pool Potsdam (GIPP), which were provided to the KIT-AGW-Geothermal research division.
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    H2020 GeoWell: Deliverable D5.2 Combined measurement of temperature, strain and noise in a cemented annulus of a geothermal well and its application to monitor the well integrity (2019)
    GFZ German Research Centre for Geosciences
    Details
    Publication Date: 2020-05-19
    Description: To date, information about the wellbore integrity of high temperature and high pressure geothermal wells is scarce. Hardly any measurement data is available about the thermal and mechanical load onto the subsurface installation (casing and cemented annulus) during the operation of such wells. In order to monitor the response of the subsurface installation to changing load conditions, a fiber optic cable was installed behind casing of a geothermal well. To increase the knowledge about the wellbore integrity and to benefit from the combined application of different fiber optic sensing technologies, temperature, strain as well as acoustic noise measurements were performed during well completion and testing. These include the distributed temperature sensing (DTS) technology, based on Raman scattering, as well as the distributed strain and distributed acoustic sensing (DAS) technologies, both based on Rayleigh scattering. Here, we present information about the laboratory experiments, the cable installations and downhole measurement campaigns together with results of our analysis. It could be shown that the fiber optic measurements are well suited to monitor the well completion procedures. In addition, the technology offers a possibility to monitor well integrity throughout the lifetime of a geothermal well.
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    The Horizon 2020 SURE Project: D3.1 Report on Stimulation Technologies for Geothermal Reservoirs (2016)
    GFZ German Research Centre for Geosciences
    Details
    Publication Date: 2020-05-19
    Description: Developing ow paths or expanding existing pathways in deep geological strata is generally referred to as "stimulation". To extract heat from geothermal reservoirs, stimulation treatments are carried out by injecting water at high pressure into the formation (hydraulic stimulation), by dissolution of certain mineral components, mostly carbonates, thus increasing the hydraulic pathways (chemical stimulation), or by cooling of the rock to induce tensile stresses which helps the fracture expansion (thermal stimulation). The achieved factor of productivity increase by conventional stimulation treatments is reported to be between 1.3 and 25. In petrolium industry a significant decline of the production increase occurs already during the first year after stimulation. The time to refracturing is typically 4 to 7 years. It is not clear whether these values are also appropriate for geothermal applications. The sustainability of the increase in permeability due to thermal stimulation depends on the situation: for an injection well the increase remains for few years. For production wells, the longevity of the stimulation depends on the self-propping ability of the rock. After reviewing the current situation in the field of deep geothermal energy in Europe, dierent stimulation techniques are discussed. Furthermore, case studies of stimulation treatments in deep geothermal reservoirs are presented. In the subsequent chapters the authors present the methods of stimulation treatment in deep geothermal wells to show the increase of productivity, to explain the potential benefits and risks and estimate the economic performance.
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    The H2020 REFLECT project: Deliverable D6.2 - Stakeholder Matrix (2020)
    GFZ German Research Centre for Geosciences
    Details
    Publication Date: 2020-07-06
    Description: This document corresponds to Deliverable D6.2 of the ongoing Horizon 2020 project REFLECT and is part of the Work Package 6. The deliverable “Stakeholder matrix” aims to define the approach for engaging stakeholders and involving them into the project in the most efficient way in order to achieve quality final results and successful implementation of the project final product. The document defines the main groups of the potential stakeholders and provides general guidelines on how to categorise them, how to establish the first contact and how to engage them.
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    The H2020 REFLECT project: Deliverable 6.8 - Website (2020)
    GFZ German Research Centre for Geosciences
    Details
    Publication Date: 2020-07-07
    Description: The basic website of the REFLECT project was launched at the end of March 2020, three months after the project’s start. The website was conceived to support the launch of the project, providing a project overview and information about the partners involved. The final version of the website delivered in June 2020 includes more detailed information about the project’s objectives, approach, dissemination material and links to the project’s social media channels. This document describes the website elements. These elements can (and will) evolve with time, to ensure the best possible interaction with users during the project lifetime.
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    GITW-SSP-FMT-GFZ-003: Remotely Operated Multi-Parameter Stations; System Software Output Format Specification; METEOD (2020)
    GFZ German Research Centre for Geosciences
    In:  Scientific Technical Report STR - Data
    Details
    Publication Date: 2020-07-09
    Description: In recent years, an extensive network of Remotely Operated Multi-Parameter Stations (ROMPS) has been installed in different countries and climatic zones. The stations were developed by GFZ for various applications and set up together with the corresponding partners in the particular regions. In this sense, the general station with its core functionality (querying and storing of sensor data, transmission of data to a central storage unit, providing sufficient energy for the station) is referred as ROMPS. Various sensor systems to account for different application requirements can be connected to these stations. The ROMPS can then be, e.g., a tide gauge station, a buoy or a hydrometeorological (HyMet) station. This document provides the description of the data records from the meteorological system of the ROMPS. In the years after the first development of the data format for the German-Indonesian Tsunami Early Warning System GITEWS (tide gauge stations and buoys), the system was also used for other projects like the Global Change Observatory GCO and Advanced Remote Sensing – Ground-truth Demo and Test Facilities ACROSS (hydrometeorological stations). This resulted in a further development or adaptation of the system, so that different versions of the original data format were created. The versions differ primarily in the data representation (binary or ASCII) and the number and storage of metadata. The meteorological parameters have remained the same since the type of sensor has not changed. All data from the sensor is requested by the meteod software program according to a pre-selected sampling rate and stored in files on the station's computer. These files will be transmitted to a central data storage using file-oriented TCP/IP services (scp, ncftp). The scope of this document is to describe the data format and content which is available at the remote ROMPS. The data format description section is divided into subsections to account for the different format versions of the tide gauges, buoys and HyMet stations. This document is also the basis for further handling of the data, e.g. processing of data within the central data storage or warning center.
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    On the development and impact of propagation delay and geophysical loading on space geodetic technique data analysis (2019)
    GFZ German Research Centre for Geosciences
    In:  Scientific Technical Report
    Details
    Publication Date: 2020-05-22
    Description: This study contributes to the effort of space geodesy to reach the 1mm accuracy level on a global scale. This stringent requirement is vital to realize a global reference system upon which phenomena such as sea-level rise can be reliably monitored. The study deals with two interrelated challenges: modeling geophysical loads imposed on the crust of the Earth and quantifying the atmospheric propagation delay of signals employed by space geodetic techniques, namely VLBI, SLR, GNSS, and DORIS. If not adequately modeled, both geophysical loading and propagation delay corrupt space geodetic data analysis results, thus distorting the implied reference frame and compromising the physical interpretation of other parameters. The explicit purpose of this work is to understand how these effects propagate into the parameters estimated within the geodetic adjustment, and to develop models that alleviate geodetic results from these effects. To achieve this goal, the scientific framework was divided into two contributions to be understood and enhanced: the theory governing the effects of geophysical loading and atmospheric propagation, and the space geodetic technique data analysis pipeline, largely using VLBI as a test-bed. In essence, the research conducted here includes: (i) the development of software capable of realistically simulating VLBI, SLR, GNSS, and DORIS observations within a Monte Carlo framework, (ii) the homogenization of in situ meteorological data recorded at VLBI and SLR stations, (iii) the development of ray-traced delays, mapping functions and higher-order gradients for all four space geodetic techniques, (iv) the comprehensive investigation of inter-frequency and inter-system atmospheric ties, (v) the development of models to describe the displacement induced by mass redistribution within Earth’s fluid envelope including the atmosphere, the ocean, and the continental hydrology, (vi) the development of empirical models to describe the signal propagation delay (GFZ-PT) and the non-tidal geophysical loading displacement (EGLM), and (vii) the study of the impact of the atmospheric refraction and non-tidal geophysical loading models in space geodetic data analysis on station coordinates, the terrestrial reference frame, the Earth orientation, and the integrated water vapour trends. A number of developments were carried out herein for the first time, for example, the simulation of space geodetic measurements based on ray-traced delays, the study of systematic errors on the reference frame induced by not properly accounting for the orbital altitude of the satellites in the calculation of atmospheric refraction corrections, and the assessment of the probability of successful laser ranges based on integrated cloud fraction along the ray path. It was found that microwave and optical atmospheric gradients are starkly different both spatially and temporally, and cannot be scaled to fit each other. Failing to account for non-tidal geophysical loading and atmospheric asymmetries induces a scale bias in the SLR reference frame as well as a spurious geocenter motion predominantly along the Z-axis. Employing a VLBI-tailored atmospheric refraction model to reduce DORIS observations displaces stations in the radial component thus inducing a large scale bias in the implied frame. Employing homogeneous in lieu of raw meteorological data in VLBI data analysis reduces the scatter of station coordinates and improves the baseline length repeatability. Employing the mapping functions developed herein in lieu of VMF1 yields an overall improvement in VLBI data analysis. Applying the geophysical loading models developed herein reduces the response of almost all station coordinate and baseline length series at seasonal and synoptic timescales. Based on the investigations carried out herein, differences in Earth orientation induced by the quality of the atmospheric refraction and geophysical loading models — or their very application for the latter — are not statistically significant in the framework of the modern VLBI system. Nevertheless, to fulfill the 1mm requirement, proper treatment of geophysical loading and atmospheric refraction is a necessity.
    Language: English
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    CAWA-SSP-FMT-GFZ-006: Remotely Operated Multi-Parameter Stations; System Software Output Format Specification; CRD (2020)
    GFZ German Research Centre for Geosciences
    In:  Scientific Technical Report STR - Data
    Details
    Publication Date: 2020-07-09
    Description: An extensive network of Remotely Operated Multi-Parameter Stations (ROMPS) has been installed in the last years providing meteorological and hydrological data. Most of the stations are part of the Regional Research Network “Water in Central Asia” (CAWA) funded by the German Federal Foreign Office but additional funding was provided by GFZ through the “Global Change Observatory – Central Asia” (GCO) and the “Advanced Remote Sensing – Ground-truth Demo and Test Facilities” (ACROSS) projects of the Helmholtz Association. In spite of various projects, the technical setup of the stations is largely identical. There are minor differences in the selection of the sensors due to different applications. This means that all measurement parameters do not necessarily have to be available at each station. Usually, a standard set of meteorological sensors such as air temperature, relative humidity, air pressure, wind speed and direction, precipitation, solar radiation, soil moisture, and soil temperature are installed but this can be expanded to include other sensors like a snow measuring system or river discharge system. All data from the hydrometeorological system are sampled by a Campbell datalogger on each station according to a pre-selected sampling rate and written to files. The software requesting the data from the datalogger and writing them to files is called crd. The files are transmitted to a central data storage unit using file-oriented TCP/IP services (scp, ncftp) at GFZ and to the open access web-based Sensor Data Storage System (SDSS). The scope of this document is to describe the data format coming from the ROMPS. Additionally, this document is the basis for processing of data within the SDSS.
    Language: English
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    Development of a 360° hyperspectral drill core scanner : test of technical conditions and validation of high-resolution near-field analysis of crystalline basement rocks using COSC-1 core samples (2019)
    GFZ German Research Centre for Geosciences
    In:  Scientific Technical Report
    Details
    Publication Date: 2020-05-22
    Description: The Collisional Orogeny in the Scandinavian Caledonides (COSC) project supported by the International Continental Scientific Drilling Program (ICDP) and the Swedish Scientific Drilling Program (SSDP) drilled a borehole through the Seve Nappe in Sweden to investigate mountain building processes. It recovered 2.5 km of drill core. Five core samples from the depth from 1682 to 2469 m were analyzed in this thesis. A hyperspectral imaging spectrometer (HySpex) was used to conduct the measurements. It is a two sensor system which combines a VNIR and a SWIR sensor. The measurements were taken with a resolution of 0.22 mm/ pixel. As a comparison, mineral maps based on Laser Induced Breakdown Spectroscopy (LIBS) element measurements of approximately the same resolution were used. This thesis developed a working process chain which includes 1) the adjustment of the measurement parameters of the sensors to acquire optimal data cubes, 2) the "unrolling" of a drill core to depict and analyze the whole core mantle surface and to map the distribution of minerals accurately not only over the length but also the whole surface of the core and 3) the mineral mapping based on spectral absorption features with the EnGeoMap algorithm. This can be seen as the beginning of the development of a stand-alone drill core scanner including the geological evaluation by EnGeoMap. The measurements revealed a basic approach to determine the integration time for the VNIR and the SWIR sensor based on the signal-to-noise ratio of the white reflectance standard. An approach of a step-wise rotation of the core and a translation measurement and a mosaicking based on the rectification of the core surface was developed. The stitching of several core images via key points was deployed. The duration of the unrolling amounts to 22 h/ m of core and results in an hyperspectral mosaic of the core mantle surface. Relative to the approximately 550 h needed to measure the surface area of 1 m of core with the LIBS system, 22 h seems tolerable. The feasibility of the unrolling and the mosaicking of drill cores varies. In scientific operations the accuracy is valued higher than the time-consumption, in industrial operations the time is a big factor to make a project profitable. The mineral mapping with EnGeoMap proved to be very precise in case of detecting the abundance of single minerals. When mapping multiple minerals, a bias towards a few minerals showed which were mapped with higher abundances than in reality. This is due to mineral-dependent fit value thresholds and has to be investigated further. When choosing few but distinct proxy minerals, EnGeoMap is a valuable tool to evaluate the mineral abundances and the distribution over the course of a drill core, to highlight changes and to give information about mineral assemblages.
    Language: English
    Type: info:eu-repo/semantics/masterThesis
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  • 90
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    Capacity of imaging spectroscopy for the characterisation of REO, REE bearing minerals & primary REE-deposits (2019)
    GFZ German Research Centre for Geosciences
    In:  Scientific Technical Report
    Details
    Publication Date: 2020-05-22
    Description: The spectral characteristics of Rare Earth Elements (REEs) have been poorly researched although the economic interest in these elements is increasing. This study investigates the detection of REEs using remote sensing data. For this purpose the spectral response of each individual REE has been studied with four spectrometers (HySpex (VNIR-1600, SWIR-320m-e), ASD Field Spec 3, Perkin Elmer LAMBDA 950, FTIR Spectrum GX) using a spectral range of 350 to 16000 nm to incorporate different techniques. The relationship between the spectral response and the REE concentration as well as the influence of other materials on the detection of REEs was examined using mixtures of calcium carbonate (the main component of REE ore rocks) and iron (III) oxide (hematite). Finally, characteristic absorption bands have been employed on an EO-1 Hyperion satellite image, covering the REE Mountain Pass mine in California and a HySpex image of a rock sample from Norway (soevite) to evaluate their potential use as REE detectors. The results show that the REEs lanthanum, neodymium, samarium, europium, terbium, dysprosium, holmium, erbium, thulium and ytterbium cause several and differing absorption features in the visible near-infrared (VNIR) and shortwave-infrared (SWIR) region. However, in wavelength ranges between 2500 and 16000 nm no absorption bands distinctive of REEs appeared. In most cases, the concentration of REEs and the absorption depth show a logarithmic relationship for different absorption features. The mixtures of neodymium and iron (III) oxide show that in presence of hematite the absorption features of neodymium are superimposed by those features caused by iron (III) oxide. In comparison to hematite, calcium carbonate has had no influence on the detection of neodymium in the VNIR. The application of characteristic absorption bands on the satellite image shows that the REE signal causes only, if any, very small absorption bands in the spectrum at higher REE concentrations. In the rock sample, however, REEs related absorption bands are detectable and can be seen clearly in the spectrum with a neodymium concentration of around 0.14%. This study shows that imaging spectroscopy serves as a helpful tool for the characterization and detection of REE concentrations in the laboratory and field environment. The detection of REEs via satellite images is limited by the low intensity of the absorption features, despite the high REEs concentration. Nevertheless, the detection of REEs by means of remote sensing is a non-invasive method that saves both money and time for sample preparation, underlining its economic value.
    Language: English
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    GEOFON Annual Report 2018 (2019)
    GFZ German Research Centre for Geosciences
    In:  Scientific Technical Report STR
    Details
    Publication Date: 2020-08-10
    Description: The GEOFON program consists of a global seismic network (GE Network), a seismological data centre (GEOFON DC) and a global earthquake monitoring system (GEOFON EQinfo). These three pillars are part of the MESI research infrastructure of the Helmholtz Centre Potsdam - GFZ German Research Centre for Geosciences aiming at facilitating scientific research. GEOFON provides real-time seismic data, access to its own and third party data from the archive facilities as well as global and rapid earthquake information. The GEOFON Seismological Software can be considered a fourth cross-cutting module of the GEOFON Program. Data, services, products and software openly distributed by GEOFON are used by hundreds of scientists and data centres worldwide. Its earthquake information service is accessed directly by tens of thousands of visitors. The SeisComP software package is the flagship software provided to the community, which is geared for seismic observatory and data centre needs and used extensively to support our internal operations. Like all other MESI (Modular Earth Science Infrastructure) modules GEOFON has the majority of users outside the GFZ as well as an external advisory committee that provides advice to the GFZ Executive Board and to the GEOFON team. This report describes the main activities carried out within the three GEOFON pillars and the software development group.
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    Manual of the Tecplot 360 Add-on GeoStress (2017)
    GFZ German Research Centre for Geosciences
    In:  WSM Technical Report
    Details
    Publication Date: 2020-12-04
    Description: Hyperspectral airborne campaigns have been carried out in the frame of the data exploitation and application development program of the German Environmental Mapping and Analysis Program (EnMAP) to support method and application development in the prelaunch phase of the EnMAP satellite mission. A metadata portal (EnMAP Campaign Portal) has been set up providing general information about the campaigns, recorded airborne hyperspectral data sets, other data associated to the respective campaigns like field and laboratory measurements and a number of field guides for in-situ data acquisition. Furthermore, it informs about the availability of simulated EnMAP and Sentinel-2 data for the respective campaign region. The data listed in the EnMAP Campaign Portal is freely available under a Creative Commons License as DOI-referenced data publications.
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    Proceedings of the DENDROSYMPOSIUM 2016 : May 11th - 15th, 2016 in Białowieża, Poland (2017)
    GFZ German Research Centre for Geosciences
    In:  Scientific Technical Report
    Details
    Publication Date: 2020-04-08
    Description: This publication is a result of the 15th TRACE conference „Tree Rings in Archaeology, Climatologyand Ecology” organized by the University of Silesia, Silesian Botanical Garden, University ofWrocław, Forest Research Institute and Białowieża National Park. The conference was held onMay 11th – 15th, 2016 in Białowieża, Poland, in the heart of the Białowieża Forest, the last naturalforest in the European Lowlands, a UNESCO World Heritage Site and Biosphere Reserve. University Pablo de Olavide (UPO) and the Association for Tree-ring Research (ATR), in collaboration with Pyrenean Institute of Ecology-Spanish National Research Council (IPE-CSIC), University of Barcelona (UB), Forest and Wood Technology Research Centre (CETEMAS) and University of Valladolid (UVa). The TRACE 2015 conference was held on May 20-23, 2015 for the first time in the Iberian Peninsula, in Sevilla, Spain.
    Language: English
    Type: info:eu-repo/semantics/conferenceObject
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    The H2020 REFLECT project: Deliverable 6.7 - Project image (2020)
    GFZ German Research Centre for Geosciences
    Details
    Publication Date: 2020-05-19
    Description: This deliverable presents the logo and the style guide of the REFLECT project. It defines the visual identity of the project and establishes a standard visual style to ensure consistency and maximise outreach.
    Language: English
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    GEOFON Annual Report 2019 (2020)
    GFZ German Research Centre for Geosciences
    In:  Scientific Technical Report STR
    Details
    Publication Date: 2020-06-30
    Description: The GEOFON program consists of a global seismic network (GE Network), a seismological data centre (GEOFON DC) and a global earthquake monitoring system (GEOFON EQinfo). These three pillars are part of the MESI research infrastructure of the Helmholtz Centre Potsdam - GFZ German Research Centre for Geosciences aiming at facilitating scientific research. GEOFON provides realtime seismic data, access to its own and third party data from the archive facilities as well as global and rapid earthquake information. The GEOFON Seismological Software can be considered a fourth cross-cutting module of the GEOFON Program. Data, services, products and software openly distributed by GEOFON are used by hundreds of scientists and data centres worldwide. Its earthquake information service is accessed directly by tens of thousands of visitors. The SeisComP software package is the flagship software provided to the community, which is geared for seismic observatory and data centre needs and used extensively to support our internal operations. As all other MESI (Modular Earth Science Infrastructure) modules GEOFON has the majority of users outside the GFZ as well as an external advisory committee that provides advice to the GFZ Executive Board and to the GEOFON team. This report describes the main activities carried out within the three GEOFON pillars and the software development group.
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    Python Script HIPSTER (2019)
    GFZ German Research Centre for Geosciences
    Details
    Publication Date: 2020-12-17
    Description: In geosciences 3D geomechanical-numerical models are used to estimate the in-situ stress state. In such a model each geological unit is populated with the rock properties Young’s module, Poisson ratio, and density. Usually, each unit is assigned a single set of homogeneous properties. However, variable rock properties are observed and expected within the same geological unit. Even in small volumes large variabilities may. The Python script HIPSTER (Homogeneous to Inhomogeneous rock Properties for Stress TEnsor Research) provides an algorithm to include inhomogeneities in geomechanical-numerical models that use the solver Abaqus®. The user specifies the mean values for the rock properties Young's module, Poisson ratio and density, and their variability for each geological unit. The variability of the material properties is individually defined for each of the three rock properties in each geological layer. For each unit HIPSTER generates a normal or uniform distribution for each rock property. From these distri-butions for each single element HIPSTER draws individual rock properties and writes them to a separate material file. This file defines different material properties for each element. The file is included in the geomechanical-numerical analysis solver deck and the numerical model is solved as usual.
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    Manual of the Matlab Script FAST Calibration v1.0 (2018)
    GFZ German Research Centre for Geosciences
    In:  WSM Technical Report
    Details
    Publication Date: 2021-03-15
    Description: The 3D geomechanical-numerical modelling of the in-situ stress state requires observed stress information at reference locations within the model area to be compared to the modelled stress state. This comparison of stress states and the ensuing adaptation of the displacement boundary conditions provide a best fit stress state in the entire model region that is based on the available stress information. This process is also referred to as calibration. Depending on the amount of available information and the complexity of the model the calibration is a lengthy process of trial-and-error modelling and analysis. The Fast Automatic Stress Tensor Calibration (FAST Calibration) is a method and a Matlab script that facilitates and speeds up the calibration process. The method requires only three model scenarios with different boundary conditions. The modelled stress states at the locations of the observed stress state are extracted. Then they are used to compute the displacement boundary conditions that are required in order to achieve the best fit of the modelled to the observed stress state. Furthermore, the influence of the individual observed stress information on the resulting stress state can be weighted.
    Language: English
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    The Earth’s Surface and the Isotope Merry-Go-Round of the Chemical Elements [Film] (2017)
    GFZ German Research Centre for Geosciences
    Details
    Publication Date: 2020-02-12
    Description: Length: 15 min
    Language: English
    Type: info:eu-repo/semantics/other
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    The H2020 REFLECT project: Deliverable 4.1 - User’s Guide of a Coupled Hydro-Thermal-Chemical Code for Fluids (2021)
    GFZ German Research Centre for Geosciences
    Details
    Publication Date: 2021-11-16
    Description: This document presents the developed code, porousMedia4Foam, an open-source hydrogeochemical package that can decipher fluid flow and chemical reactive processes occurring within multi- {scale, dimensional, phase, compositional} environments. This report gives details regarding the installation of porousMedia4Foam, running the first simulations and describing many application cases in single-phase and multiphase systems.
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    Manual of the Python Script Apple PY v1.0 (2019)
    GFZ German Research Centre for Geosciences
    In:  WSM Technical Report
    Details
    Publication Date: 2021-04-10
    Description: In geosciences the discretization of complex 3D model volumes into finite elements can be a time-consuming task and often needs experience with a professional software. Es-pecially outcropping or out-pinching geological units, i.e. geological layers that are rep-resented in the model volume, pose serious challenges. Changes in the geometry of a model may occur well into a project at a point, when re-meshing is not an option any-more or would involve a significant amount of additional time to invest. In order to speed up and automate the process of discretization, Apple PY (Automatic Portioning Preventing Lengthy manual Element assignment for PYthon) separates the process of mesh-generation and unit assignment. It requires an existing uniform mesh together with separate information on the depths of the interfaces between geological units (herein called horizons). These two pieces of information are combined and used to assign the individual elements to different units. The uniform mesh is created with a standard meshing software and contains no or only very few and simple structures. The mesh has to be available as an Abaqus input file. The information on the horizons depths and lateral variations in the depths is provided in a text file. Apple PY compares the ele-ment location and depth with that of the horizons in order to assign each element to a corresponding geological unit below or above a certain horizon.
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