[{"name":"jaramillo-2024-hydrogeodesy-1","title":"Data from a meta-analysis of 3279 articles on hydrogeodesy published during 1991\u2060\u200a\u2013\u200a\u20602023","summary":"This dataset contains results from a comprehensive meta-analysis studying the coevolution of hydrogeodesy and its application for water resources, covering more than 3000 articles and expert elicitation.\r\n\r\nThe meta-analysis evaluates the use of these hydrogeodetic technologies and identifies their trends of use, combinations, main applications, and the water resources of interest for their usage.\r\n\r\nThis meta-analysis of hydrogeodesy encompasses geodetic technologies such as altimetry, interferometric synthetic aperture radar (InSAR), mass gravimetry, and global navigation satellite systems (GNSS). During the last 32 years, these technologies have contributed to quantifying changes in surface and groundwater resources locally, regionally, and globally. The expert elicitation includes responses from 29 coauthors on the potential and limitations of hydrogeodesy to solve each unsolved problem of hydrology (UPH).","citations":"Jaramillo F, Aminjafari S, Castellazzi P, et al. (2023) The potential of hydrogeodesy to address water-related problems and sustainability challenges. ESS Open Archive. https:\/\/doi.org\/10.22541\/au.170379692.29590839\/v1\r\n\r\nBl\u00f6schl G, Bierkens MFP, Chambel A, et al. (2019) Twenty-three unsolved problems in hydrology (UPH) \u2013 a community perspective. Hydrological Sciences Journal 64:1141\u20131158. https:\/\/doi.org\/10.1080\/02626667.2019.1620507\r\n\r\n","comments":"Increasing climatic and human pressures are changing the world\u2019s water resources and hydrological processes at unprecedented rates. These changes require monitoring water resources from ground and space at different temporal and spatial scales. This monitoring can be achieved with hydrogeodesy, the science that measures the Earth\u2019s solid and aquatic surfaces, gravity field, and their changes over time. Hydrogeodesy encompasses geodetic technologies such as altimetry, interferometric synthetic aperture radar (InSAR), mass gravimetry, and global navigation satellite systems (GNSS). During the last thirty years, these technologies have contributed to quantifying changes in surface and groundwater resources locally, regionally, and globally. Yet, to our knowledge, the evolution and combination of these technologies and their role within current hydrological, sustainability science, and management frameworks remain unaddressed.","category":"Terrestrial","subcategory":"Hydrology","keywords":"Hydrogeodesy; InSAR; Gravimetry; Altimetry; GNSS; Water resources; Sustainability; UPH","scientist":"Fernando Jaramillo","firstname":"Fernando","lastname":"Jaramillo","address":"Department of Physical Geography; Stockholm University\r\n","postalcode":"SE-106 91","city":"Stockholm","province":"","country":"Sweden","parameters":"Earth science > Terrestrial hydrosphere","location":"Geographic Region > Global","progress":"","language":"English","project":"Swedish National Space Agency (180\/18), Projects 2022-02148 and 2022-01570 of the Swedish Research Council for sustainable development (FORMAS) and Project 2021-05774 of the Swedish Research Council (VR).","publisher":"Bolin Centre Database","version":"1","constrains":"","access":""}]