Publications related to the GRACE Missions (no abstracts)

• Sorted by Date • Sorted by Last Name of First Author •

Water availability identification from GRACE dataset and GLDAS hydrological model over data-scarce river basins of Ethiopia

Yoshe, Agegnehu Kitanbo, 2024. Water availability identification from GRACE dataset and GLDAS hydrological model over data-scarce river basins of Ethiopia. Hydrological Sciences Journal, 69(6):721–745, doi:10.1080/02626667.2024.2333852.

Downloads

• from the NASA Astrophysics Data System  • by the DOI System  •

@ARTICLE{2024HydSJ..69..721Y,
       author = {{Yoshe}, Agegnehu Kitanbo},
        title = "{Water availability identification from GRACE dataset and GLDAS hydrological model over data-scarce river basins of Ethiopia}",
      journal = {Hydrological Sciences Journal},
     keywords = {Liquid water equivalent, terrestrial water storage, climatic variable, spatiotemporal variation, GRACE, GLDAS},
         year = 2024,
        month = apr,
       volume = {69},
       number = {6},
        pages = {721-745},
     abstract = "{The nature of the heterogeneity of terrestrial water storage in the main
        river basins of Ethiopia is poorly understood. In river basins,
        measurements of terrestrial water storage changes are
        exceedingly rare in all temporal dimensions. This study
        investigates the spatiotemporal variation of water storage in
        the main river basins of Ethiopia using the Gravity Recovery and
        Climate Experiment (GRACE) with Global Land Data Assimilation
        System (GLDAS). The results revealed significant variation in
        liquid water equivalents from GRACE and terrestrial water
        storage from GLDAS for each river basin, following a seasonal
        pattern. I found that GRACE and GLDAS datasets can be combined
        effectively to evaluate the long-term water storage in large-
        scale basins with limited hydrological data, and the obtained
        result provides a reliable outcome that will be essential for
        the establishment of climate change adaptation pathways in the
        future for essential water resource management and optimization.}",
          doi = {10.1080/02626667.2024.2333852},
       adsurl = {https://ui.adsabs.harvard.edu/abs/2024HydSJ..69..721Y},
      adsnote = {Provided by the SAO/NASA Astrophysics Data System}
}

Generated by bib2html_grace.pl (written by Patrick Riley modified for this page by Volker Klemann) on Thu Aug 14, 2025 17:55:12

---

Thu Aug 14, F. Flechtner