TY - BOOK ID - 145174171 TI - Use of Water Stable Isotopes in Hydrological Process AU - Vreča, Polona AU - Kern, Zoltán PY - 2020 PB - Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute DB - UniCat KW - Research & information: general KW - precipitation KW - stable isotope ratios KW - local meteoric water line KW - amount-weighted mean KW - linear regression KW - confidence KW - prediction and generalized intervals KW - stable isotopes D and 18O KW - moisture source KW - temperature effect KW - precipitation amount effect KW - regionalization KW - China KW - oxygen isotopes KW - sulfur isotopes KW - isotopic composition of water KW - bacterial sulfate reduction KW - sulfide oxidation KW - atmospheric sulfate KW - peatland KW - unconfined aquifer KW - mineralization of organic matter KW - isotopic techniques KW - water isotopic signature KW - 3H- and 14C-dating KW - saltwater intrusion KW - Red River’s delta KW - Vietnam KW - Sutri Dhaka KW - Chandra Basin KW - Western Himalaya KW - hydrograph separation KW - stable water isotope KW - specific ablation KW - stable isotopes KW - HYSPLIT model KW - MWL validation KW - karstic springs KW - spatial variations KW - Naqu River basin KW - Qinghai–Tibet Plateau KW - stable water isotopes KW - hydrogen KW - oxygen KW - soil water KW - fine root system KW - groundwater KW - isotope hydrology KW - stable nitrate isotopes KW - Zagreb KW - Croatia KW - 2H/1H and 18O/16O KW - deuterium excess KW - δ18O–temperature relation KW - tritium KW - self-organizing map KW - radon KW - major ions KW - alluvial fan KW - paddy rice field KW - deuterium and oxygen-18 KW - hydrogeological conceptual model KW - alluvial aquifer KW - Varaždin area KW - δ2H KW - inverse modeling KW - vadose zone KW - sensitivity analysis KW - soil hydraulic parameters estimation KW - groundwater recharge KW - d-excess KW - elevation effect KW - altitude effect KW - continental effect KW - Slovenia KW - Hungary KW - water cycle KW - measurement traceability KW - precipitation (rain and snow) KW - surface water KW - water management KW - networks and data bases KW - statistical evaluation KW - precipitation KW - stable isotope ratios KW - local meteoric water line KW - amount-weighted mean KW - linear regression KW - confidence KW - prediction and generalized intervals KW - stable isotopes D and 18O KW - moisture source KW - temperature effect KW - precipitation amount effect KW - regionalization KW - China KW - oxygen isotopes KW - sulfur isotopes KW - isotopic composition of water KW - bacterial sulfate reduction KW - sulfide oxidation KW - atmospheric sulfate KW - peatland KW - unconfined aquifer KW - mineralization of organic matter KW - isotopic techniques KW - water isotopic signature KW - 3H- and 14C-dating KW - saltwater intrusion KW - Red River’s delta KW - Vietnam KW - Sutri Dhaka KW - Chandra Basin KW - Western Himalaya KW - hydrograph separation KW - stable water isotope KW - specific ablation KW - stable isotopes KW - HYSPLIT model KW - MWL validation KW - karstic springs KW - spatial variations KW - Naqu River basin KW - Qinghai–Tibet Plateau KW - stable water isotopes KW - hydrogen KW - oxygen KW - soil water KW - fine root system KW - groundwater KW - isotope hydrology KW - stable nitrate isotopes KW - Zagreb KW - Croatia KW - 2H/1H and 18O/16O KW - deuterium excess KW - δ18O–temperature relation KW - tritium KW - self-organizing map KW - radon KW - major ions KW - alluvial fan KW - paddy rice field KW - deuterium and oxygen-18 KW - hydrogeological conceptual model KW - alluvial aquifer KW - Varaždin area KW - δ2H KW - inverse modeling KW - vadose zone KW - sensitivity analysis KW - soil hydraulic parameters estimation KW - groundwater recharge KW - d-excess KW - elevation effect KW - altitude effect KW - continental effect KW - Slovenia KW - Hungary KW - water cycle KW - measurement traceability KW - precipitation (rain and snow) KW - surface water KW - water management KW - networks and data bases KW - statistical evaluation UR - https://www.unicat.be/uniCat?func=search&query=sysid:145174171 AB - Stable and radioactive isotopes in water are powerful tools in the tracking of the path of water molecules through the whole water cycle. In the last decade, a considerable number of studies have been published on the use of water isotopes, and their number is ever-growing. The main reason is the development of new measurement techniques (i.e., laser absorption spectroscopy) that allow measurements of stable isotope ratios at ever-higher resolutions. Therefore, this compilation of papers has been published to address the current state-of-the-art water isotope methods, applications, and interpretations of hydrological processes, and to contribute to the rapidly growing repository of isotope data, which is important for future water resource management. We are pleased to present here a book with new findings in thirteen original research papers and one review paper issued in the Water MDPI Special Issue (SI) “Use of Water Isotopes in Hydrological Processes”. The authors report the use of water isotopes in hydrological processes worldwide, including studies at both local and regional scales related to either precipitation dynamics or to different applications of water isotopes in combination with other hydrochemical parameters in investigations of surface water, snowmelt, soil water, groundwater and xylem water to identify the hydrological and geochemical processes. ER -