about
Invasive floating macrophytes reduce greenhouse gas emissions from a small tropical lakeStable water isotope patterns in a climate change hotspot: the isotope hydrology framework of Corsica (western Mediterranean).Field-based stable isotope analysis of carbon dioxide by mid-infrared laser spectroscopy for carbon capture and storage monitoring.Acid rain footprint three decades after peak deposition: Long-term recovery from pollutant sulphate in the Uhlirska catchment (Czech Republic).The 2014 water release into the arid Colorado River delta and associated water losses by evaporation.Pleistocene paleo-groundwater as a pristine fresh water resource in southern Germany--evidence from stable and radiogenic isotopes.Quantification of long-term wastewater fluxes at the surface water/groundwater-interface: an integrative model perspective using stable isotopes and acesulfame.Stable isotope mass balances versus concentration differences of dissolved inorganic carbon - implications for tracing carbon turnover in reservoirs.Controls of evaporative irrigation return flows in comparison to seawater intrusion in coastal karstic aquifers in northern Sri Lanka: Evidence from solutes and stable isotopes.Environmental Control on Microbial Turnover of Leaf Carbon in Streams - Ecological Function of Phototrophic-Heterotrophic Interactions.River recharge versus O supply from the unsaturated zone in shallow riparian groundwater: A case study from the Selke River (Germany)Erratum zu: Stabile Isotope als Tracer zur Bestimmung der Abstandsgeschwindigkeit in Trinkwassergewinnungsbrunnen aus UferfiltratGrundwasser in Nürnberg: Wichtige Einheiten und deren NutzbarkeitQuantifizierungen von Grundwassereintritten in städtische Abwassersysteme mittels stabiler IsotopeAssessment of land subsidence mechanisms triggered by dolomitic marble dissolution from hydrogeochemistry and stable isotopes of spring watersStabile Isotope als Tracer zur Bestimmung der Abstandsgeschwindigkeit in Trinkwassergewinnungsbrunnen aus UferfiltratSpatial and temporal variations ofpCO2, dissolved inorganic carbon and stable isotopes along a temperate karstic watercourseHigh-resolution stable carbon isotope monitoring indicates variable flow dynamic patterns in a deep saline aquifer at the Ketzin pilot site (Germany)Quantification of groundwater–seawater interaction in a coastal sandy aquifer system: a study from Panama, Sri LankaA Brief Overview of Isotope Measurements Carried Out at Various CCS Pilot Sites WorldwideStable carbon isotope analysis of dissolved inorganic carbon (DIC) and dissolved organic carbon (DOC) in natural waters - Results from a worldwide proficiency testQ58195403Well-based, Geochemical Leakage Monitoring of an Aquifer Immediately Above a CO2 Storage Reservoir by Stable Carbon Isotopes at the Ketzin Pilot Site, GermanyOptimization of instrument setup and post-run corrections for oxygen and hydrogen stable isotope measurements of water by isotope ratio infrared spectroscopy (IRIS)Applications of stable water and carbon isotopes in watershed research: Weathering, carbon cycling, and water balancesPredicting δ13CDIC dynamics in CCS: A scheme based on a review of inorganic carbon chemistry under elevated pressures and temperaturesStable isotope and ostracode species assemblage evidence for lake level changes of Nam Co, southern Tibet, during the past 600yearsArsenic-rich shallow groundwater in sandy aquifer systems buffered by rising carbonate waters: A geochemical case study from Mannar Island, Sri LankaInter-laboratory test for oxygen and hydrogen stable isotope analyses of geothermal fluids: Assessment of reservoir fluid compositionsRiverine carbon dioxide evasion along a high-relief watercourse derived from seasonal dynamics of the water-atmosphere gas exchange
P50
Q30391452-0693821C-9916-487B-84D2-9093DB2A1AB3Q30736256-34B1F54A-5D4E-411C-96AC-2B337230EE4EQ35398358-0FF80967-58D5-410B-A929-A19B1686F1FAQ38687275-AE31639E-BF82-4D7A-B882-C3871073A4AFQ38945453-7C4FFB8B-0BBC-400C-977D-FC17EEC84323Q39153649-BB536262-959E-4D18-9B72-097CD4CC801EQ45396501-73D95951-76BA-49FA-9DC3-1FC3A5F51F97Q46406738-9A8BEEE1-7DFD-4DF1-87E4-28759AA6DA2EQ53087673-EE3CBFB6-C4CB-4D24-A3FF-8E9DEC3850D9Q55399329-1CF1467A-A27A-4BDD-A6A0-33E22BE65F82Q57091734-B567F2D0-DF33-4C85-B149-22DC15ED9EBDQ58195384-1E4326B7-7D86-4F6A-9E7E-DA45D9CB29BAQ58195385-47F3B82A-9922-43F0-A525-1FE9AE213A31Q58195388-C8D3D507-5DAF-4F3A-BCE6-0291AF49DE06Q58195389-2E94F9BA-F1A0-4648-96F5-741137D5C133Q58195390-D8F3944D-B461-4585-A359-A6A8853A07C5Q58195398-8269E40A-2A0F-4DFD-B679-F2387E159468Q58195399-D7CC2E61-6B8D-4A2E-BB8F-02774C0450F2Q58195400-70D856AE-066F-4CA7-B4C6-CB610D838E42Q58195401-55087F39-077B-45EE-99DB-CCFFACE4DD41Q58195402-1104B449-59D6-48F2-99C3-22C88F509478Q58195403-3F519BC4-C6F3-4C05-8260-0167F1048EF8Q58195404-0A68551F-5F91-447E-B696-D8DBBC62AAE6Q58195405-6295F322-D937-4EA7-A374-179E98E53F38Q58195408-28770BB7-46B2-4732-8CAD-B1AD9CD663E4Q58195410-12D813C4-135F-44AC-9643-752BC28E5ACEQ58195415-67F65B17-521D-4B9D-923F-7089AB3F24EEQ58199839-2B188B16-BC40-4A24-933A-A5E8B3B9044BQ58479046-6B4509EA-977E-4BDD-8A64-782BA77653ABQ91201621-F902DBFE-4C22-4322-8E08-7DDC5FF92CF5
P50
description
Forscher
@de
chercheur
@fr
investigador
@es
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
研究者
@zh
name
Robert van Geldern
@ast
Robert van Geldern
@en
Robert van Geldern
@es
Robert van Geldern
@nl
type
label
Robert van Geldern
@ast
Robert van Geldern
@en
Robert van Geldern
@es
Robert van Geldern
@nl
prefLabel
Robert van Geldern
@ast
Robert van Geldern
@en
Robert van Geldern
@es
Robert van Geldern
@nl
P1053
D-3731-2012
P106
P1153
55965637500
P31
P3829
P496
0000-0003-2786-2893