GeoDAR: georeferenced global dams and reservoirs dataset for bridging attributes and geolocations
Dams and reservoirs are among the most widespread human-made infrastructures on Earth. Despite their societal and environmental significance, spatial inventories of dams and reservoirs, even for the large ones, are insufficient. A dilemma of the existing georeferenced dam datasets is the polarized f...
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| Vydáno v: | Earth system science data Ročník 14; číslo 4; s. 1869 - 1899 |
|---|---|
| Hlavní autoři: | , , , , , , , , , , , , , |
| Médium: | Journal Article |
| Jazyk: | angličtina |
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Katlenburg-Lindau
Copernicus GmbH
21.04.2022
Copernicus Publications |
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| ISSN: | 1866-3516, 1866-3508, 1866-3516 |
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| Abstract | Dams and reservoirs are among the most widespread
human-made infrastructures on Earth. Despite their societal and environmental
significance, spatial inventories of dams and reservoirs, even for the large
ones, are insufficient. A dilemma of the existing georeferenced dam datasets
is the polarized focus on either dam quantity and spatial coverage (e.g., GlObal geOreferenced Database of Dams, GOODD) or detailed attributes for a limited dam quantity or region (e.g.,
GRanD (Global Reservoir and Dam database) and national inventories). One of the most comprehensive datasets, the
World Register of Dams (WRD), maintained by the International Commission on
Large Dams (ICOLD), documents nearly 60 000 dams with an extensive suite of
attributes. Unfortunately, the WRD records provide no geographic
coordinates, limiting the benefits of their attributes for spatially
explicit applications. To bridge the gap between attribute accessibility and
spatial explicitness, we introduce the Georeferenced global Dams And
Reservoirs (GeoDAR) dataset, created by utilizing the Google Maps geocoding application programming interface (API) and
multi-source inventories. We release GeoDAR in two successive versions (v1.0
and v1.1) at https://doi.org/10.5281/zenodo.6163413 (Wang et
al., 2022). GeoDAR v1.0 holds 22 560 dam points georeferenced from the WRD,
whereas v1.1 consists of (a) 24 783 dam points after a harmonization between
GeoDAR v1.0 and GRanD v1.3 and (b) 21 515 reservoir polygons retrieved from
high-resolution water masks based on a one-to-one relationship between dams and reservoirs. Due to geocoding challenges, GeoDAR spatially
resolved ∼ 40 % of the records in the WRD, which, however,
comprise over 90 % of the total reservoir area, catchment area, and
reservoir storage capacity. GeoDAR does not release the proprietary WRD
attributes, but upon individual user requests we may provide assistance in
associating GeoDAR spatial features with the WRD attribute information that
users have acquired from ICOLD. Despite this limit, GeoDAR, with a dam
quantity triple that of GRanD, significantly enhances the spatial details of
smaller but more widespread dams and reservoirs and complements other
existing global dam inventories. Along with its extended attribute
accessibility, GeoDAR is expected to benefit a broad range of applications
in hydrologic modeling, water resource management, ecosystem health, and
energy planning. |
|---|---|
| AbstractList | Dams and reservoirs are among the most widespread human-made infrastructures on Earth. Despite their societal and environmental significance, spatial inventories of dams and reservoirs, even for the large ones, are insufficient. A dilemma of the existing georeferenced dam datasets is the polarized focus on either dam quantity and spatial coverage (e.g., GlObal geOreferenced Database of Dams, GOODD) or detailed attributes for a limited dam quantity or region (e.g., GRanD (Global Reservoir and Dam database) and national inventories). One of the most comprehensive datasets, the World Register of Dams (WRD), maintained by the International Commission on Large Dams (ICOLD), documents nearly 60 000 dams with an extensive suite of attributes. Unfortunately, the WRD records provide no geographic coordinates, limiting the benefits of their attributes for spatially explicit applications. To bridge the gap between attribute accessibility and spatial explicitness, we introduce the Georeferenced global Dams And Reservoirs (GeoDAR) dataset, created by utilizing the Google Maps geocoding application programming interface (API) and multi-source inventories. We release GeoDAR in two successive versions (v1.0 and v1.1) at https://doi.org/10.5281/zenodo.6163413 (Wang et al., 2022). GeoDAR v1.0 holds 22 560 dam points georeferenced from the WRD, whereas v1.1 consists of (a) 24 783 dam points after a harmonization between GeoDAR v1.0 and GRanD v1.3 and (b) 21 515 reservoir polygons retrieved from high-resolution water masks based on a one-to-one relationship between dams and reservoirs. Due to geocoding challenges, GeoDAR spatially resolved ∼ 40 % of the records in the WRD, which, however, comprise over 90 % of the total reservoir area, catchment area, and reservoir storage capacity. GeoDAR does not release the proprietary WRD attributes, but upon individual user requests we may provide assistance in associating GeoDAR spatial features with the WRD attribute information that users have acquired from ICOLD. Despite this limit, GeoDAR, with a dam quantity triple that of GRanD, significantly enhances the spatial details of smaller but more widespread dams and reservoirs and complements other existing global dam inventories. Along with its extended attribute accessibility, GeoDAR is expected to benefit a broad range of applications in hydrologic modeling, water resource management, ecosystem health, and energy planning. Dams and reservoirs are among the most widespread human-made infrastructures on Earth. Despite their societal and environmental significance, spatial inventories of dams and reservoirs, even for the large ones, are insufficient. A dilemma of the existing georeferenced dam datasets is the polarized focus on either dam quantity and spatial coverage (e.g., GlObal geOreferenced Database of Dams, GOODD) or detailed attributes for a limited dam quantity or region (e.g., GRanD (Global Reservoir and Dam database) and national inventories). One of the most comprehensive datasets, the World Register of Dams (WRD), maintained by the International Commission on Large Dams (ICOLD), documents nearly 60 000 dams with an extensive suite of attributes. Unfortunately, the WRD records provide no geographic coordinates, limiting the benefits of their attributes for spatially explicit applications. To bridge the gap between attribute accessibility and spatial explicitness, we introduce the Georeferenced global Dams And Reservoirs (GeoDAR) dataset, created by utilizing the Google Maps geocoding application programming interface (API) and multi-source inventories. We release GeoDAR in two successive versions (v1.0 and v1.1) at https://doi.org/10.5281/zenodo.6163413 (Wang et al., 2022). GeoDAR v1.0 holds 22 560 dam points georeferenced from the WRD, whereas v1.1 consists of (a) 24 783 dam points after a harmonization between GeoDAR v1.0 and GRanD v1.3 and (b) 21 515 reservoir polygons retrieved from high-resolution water masks based on a one-to-one relationship between dams and reservoirs. Due to geocoding challenges, GeoDAR spatially resolved ∼ 40 % of the records in the WRD, which, however, comprise over 90 % of the total reservoir area, catchment area, and reservoir storage capacity. GeoDAR does not release the proprietary WRD attributes, but upon individual user requests we may provide assistance in associating GeoDAR spatial features with the WRD attribute information that users have acquired from ICOLD. Despite this limit, GeoDAR, with a dam quantity triple that of GRanD, significantly enhances the spatial details of smaller but more widespread dams and reservoirs and complements other existing global dam inventories. Along with its extended attribute accessibility, GeoDAR is expected to benefit a broad range of applications in hydrologic modeling, water resource management, ecosystem health, and energy planning. Dams and reservoirs are among the most widespread human-made infrastructures on Earth. Despite their societal and environmental significance, spatial inventories of dams and reservoirs, even for the large ones, are insufficient. A dilemma of the existing georeferenced dam datasets is the polarized focus on either dam quantity and spatial coverage (e.g., GlObal geOreferenced Database of Dams, GOODD) or detailed attributes for a limited dam quantity or region (e.g., GRanD (Global Reservoir and Dam database) and national inventories). One of the most comprehensive datasets, the World Register of Dams (WRD), maintained by the International Commission on Large Dams (ICOLD), documents nearly 60 000 dams with an extensive suite of attributes. Unfortunately, the WRD records provide no geographic coordinates, limiting the benefits of their attributes for spatially explicit applications. To bridge the gap between attribute accessibility and spatial explicitness, we introduce the Georeferenced global Dams And Reservoirs (GeoDAR) dataset, created by utilizing the Google Maps geocoding application programming interface (API) and multi-source inventories. We release GeoDAR in two successive versions (v1.0 and v1.1) at https://doi.org/10.5281/zenodo.6163413 (Wang et al., 2022). GeoDAR v1.0 holds 22 560 dam points georeferenced from the WRD, whereas v1.1 consists of (a) 24 783 dam points after a harmonization between GeoDAR v1.0 and GRanD v1.3 and (b) 21 515 reservoir polygons retrieved from high-resolution water masks based on a one-to-one relationship between dams and reservoirs. Due to geocoding challenges, GeoDAR spatially resolved ∼ 40 % of the records in the WRD, which, however, comprise over 90 % of the total reservoir area, catchment area, and reservoir storage capacity. GeoDAR does not release the proprietary WRD attributes, but upon individual user requests we may provide assistance in associating GeoDAR spatial features with the WRD attribute information that users have acquired from ICOLD. Despite this limit, GeoDAR, with a dam quantity triple that of GRanD, significantly enhances the spatial details of smaller but more widespread dams and reservoirs and complements other existing global dam inventories. Along with its extended attribute accessibility, GeoDAR is expected to benefit a broad range of applications in hydrologic modeling, water resource management, ecosystem health, and energy planning. Dams and reservoirs are among the most widespread human-made infrastructures on Earth. Despite their societal and environmental significance, spatial inventories of dams and reservoirs, even for the large ones, are insufficient. A dilemma of the existing georeferenced dam datasets is the polarized focus on either dam quantity and spatial coverage (e.g., GlObal geOreferenced Database of Dams, GOODD) or detailed attributes for a limited dam quantity or region (e.g., GRanD (Global Reservoir and Dam database) and national inventories). One of the most comprehensive datasets, the World Register of Dams (WRD), maintained by the International Commission on Large Dams (ICOLD), documents nearly 60 000 dams with an extensive suite of attributes. Unfortunately, the WRD records provide no geographic coordinates, limiting the benefits of their attributes for spatially explicit applications. To bridge the gap between attribute accessibility and spatial explicitness, we introduce the Georeferenced global Dams And Reservoirs (GeoDAR) dataset, created by utilizing the Google Maps geocoding application programming interface (API) and multi-source inventories. We release GeoDAR in two successive versions (v1.0 and v1.1) at Dams and reservoirs are among the most widespread human-made infrastructures on Earth. Despite their societal and environmental significance, spatial inventories of dams and reservoirs, even for the large ones, are insufficient. A dilemma of the existing georeferenced dam datasets is the polarized focus on either dam quantity and spatial coverage (e.g., GlObal geOreferenced Database of Dams, GOODD) or detailed attributes for a limited dam quantity or region (e.g., GRanD (Global Reservoir and Dam database) and national inventories). One of the most comprehensive datasets, the World Register of Dams (WRD), maintained by the International Commission on Large Dams (ICOLD), documents nearly 60 000 dams with an extensive suite of attributes. Unfortunately, the WRD records provide no geographic coordinates, limiting the benefits of their attributes for spatially explicit applications. To bridge the gap between attribute accessibility and spatial explicitness, we introduce the Georeferenced global Dams And Reservoirs (GeoDAR) dataset, created by utilizing the Google Maps geocoding application programming interface (API) and multi-source inventories. We release GeoDAR in two successive versions (v1.0 and v1.1) at 10.5281/zenodo.6163413 (Wang et al., 2022). GeoDAR v1.0 holds 22 560 dam points georeferenced from the WRD, whereas v1.1 consists of (a) 24 783 dam points after a harmonization between GeoDAR v1.0 and GRanD v1.3 and (b) 21 515 reservoir polygons retrieved from high-resolution water masks based on a one-to-one relationship between dams and reservoirs. Due to geocoding challenges, GeoDAR spatially resolved ∼ 40 % of the records in the WRD, which, however, comprise over 90 % of the total reservoir area, catchment area, and reservoir storage capacity. GeoDAR does not release the proprietary WRD attributes, but upon individual user requests we may provide assistance in associating GeoDAR spatial features with the WRD attribute information that users have acquired from ICOLD. Despite this limit, GeoDAR, with a dam quantity triple that of GRanD, significantly enhances the spatial details of smaller but more widespread dams and reservoirs and complements other existing global dam inventories. Along with its extended attribute accessibility, GeoDAR is expected to benefit a broad range of applications in hydrologic modeling, water resource management, ecosystem health, and energy planning. |
| Audience | Academic |
| Author | McAlister, Jordan M. Walter, Blake A. Sheng, Yongwei Sikder, Safat Fan, Chenyu Maroof, Abu Sayeed Ding, Meng Zhu, Jingying Wang, Jida Yao, Fangfang Song, Chunqiao Crétaux, Jean-François Wada, Yoshihide Allen, George H. |
| Author_xml | – sequence: 1 givenname: Jida orcidid: 0000-0003-3548-8918 surname: Wang fullname: Wang, Jida – sequence: 2 givenname: Blake A. surname: Walter fullname: Walter, Blake A. – sequence: 3 givenname: Fangfang surname: Yao fullname: Yao, Fangfang – sequence: 4 givenname: Chunqiao orcidid: 0000-0003-1060-4636 surname: Song fullname: Song, Chunqiao – sequence: 5 givenname: Meng surname: Ding fullname: Ding, Meng – sequence: 6 givenname: Abu Sayeed surname: Maroof fullname: Maroof, Abu Sayeed – sequence: 7 givenname: Jingying surname: Zhu fullname: Zhu, Jingying – sequence: 8 givenname: Chenyu surname: Fan fullname: Fan, Chenyu – sequence: 9 givenname: Jordan M. surname: McAlister fullname: McAlister, Jordan M. – sequence: 10 givenname: Safat orcidid: 0000-0002-1910-1800 surname: Sikder fullname: Sikder, Safat – sequence: 11 givenname: Yongwei surname: Sheng fullname: Sheng, Yongwei – sequence: 12 givenname: George H. orcidid: 0000-0001-8301-5301 surname: Allen fullname: Allen, George H. – sequence: 13 givenname: Jean-François surname: Crétaux fullname: Crétaux, Jean-François – sequence: 14 givenname: Yoshihide orcidid: 0000-0003-4770-2539 surname: Wada fullname: Wada, Yoshihide |
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| DOI | 10.5194/essd-14-1869-2022 |
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| Snippet | Dams and reservoirs are among the most widespread
human-made infrastructures on Earth. Despite their societal and environmental
significance, spatial... Dams and reservoirs are among the most widespread human-made infrastructures on Earth. Despite their societal and environmental significance, spatial... |
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| Title | GeoDAR: georeferenced global dams and reservoirs dataset for bridging attributes and geolocations |
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