Skip to main content
Advanced Search

Filters: Tags: river threat (X)

27 results (155ms)   

View Results as: JSON ATOM CSV
thumbnail
All data are provided in 30' latitude-longitude (i.e., 0.5° degree) gridded format in the Geographic projection. A full description of the data development is provided in the Supplementary Information available on the Nature website. Protecting the world’s freshwater resources requires diagnosing threats over a broad range of scales, from global to local. Here we present the first worldwide synthesis to jointly consider human and biodiversity perspectives on water security using a spatial framework that quantifies multiple stressors and accounts for downstream impacts. We find that nearly 80% of the world’s population is exposed to high levels of threat to water security. Massive investment in water technology...
thumbnail
All data are provided in 30' latitude-longitude (i.e., 0.5 degree) gridded format in the Geographic projection. A full description of the data development is provided in the Supplementary Information available on the Nature website. Protecting the world’s freshwater resources requires diagnosing threats over a broad range of scales, from global to local. Here we present the first worldwide synthesis to jointly consider human and biodiversity perspectives on water security using a spatial framework that quantifies multiple stressors and accounts for downstream impacts. We find that nearly 80% of the world’s population is exposed to high levels of threat to water security. Massive investment in water technology enables...
thumbnail
All data are provided in 30' latitude-longitude (i.e., 0.5° degree) gridded format in the Geographic projection. A full description of the data development is provided in the Supplementary Information available on the Nature website. Protecting the world’s freshwater resources requires diagnosing threats over a broad range of scales, from global to local. Here we present the first worldwide synthesis to jointly consider human and biodiversity perspectives on water security using a spatial framework that quantifies multiple stressors and accounts for downstream impacts. We find that nearly 80% of the world’s population is exposed to high levels of threat to water security. Massive investment in water technology...
thumbnail
All data are provided in 30' latitude-longitude (i.e., 0.5° degree) gridded format in the Geographic projection. A full description of the data development is provided in the Supplementary Information available on the Nature website. Protecting the world’s freshwater resources requires diagnosing threats over a broad range of scales, from global to local. Here we present the first worldwide synthesis to jointly consider human and biodiversity perspectives on water security using a spatial framework that quantifies multiple stressors and accounts for downstream impacts. We find that nearly 80% of the world’s population is exposed to high levels of threat to water security. Massive investment in water technology...
thumbnail
All data are provided in 30' latitude-longitude (i.e., 0.5° degree) gridded format in the Geographic projection. A full description of the data development is provided in the Supplementary Information available on the Nature website. Protecting the world’s freshwater resources requires diagnosing threats over a broad range of scales, from global to local. Here we present the first worldwide synthesis to jointly consider human and biodiversity perspectives on water security using a spatial framework that quantifies multiple stressors and accounts for downstream impacts. We find that nearly 80% of the world’s population is exposed to high levels of threat to water security. Massive investment in water technology...
thumbnail
All data are provided in 30' latitude-longitude (i.e., 0.5° degree) gridded format in the Geographic projection. A full description of the data development is provided in the Supplementary Information available on the Nature website. Protecting the world’s freshwater resources requires diagnosing threats over a broad range of scales, from global to local. Here we present the first worldwide synthesis to jointly consider human and biodiversity perspectives on water security using a spatial framework that quantifies multiple stressors and accounts for downstream impacts. We find that nearly 80% of the world’s population is exposed to high levels of threat to water security. Massive investment in water technology...
thumbnail
All data are provided in 30' latitude-longitude (i.e., 0.5° degree) gridded format in the Geographic projection. A full description of the data development is provided in the Supplementary Information available on the Nature website. Protecting the world’s freshwater resources requires diagnosing threats over a broad range of scales, from global to local. Here we present the first worldwide synthesis to jointly consider human and biodiversity perspectives on water security using a spatial framework that quantifies multiple stressors and accounts for downstream impacts. We find that nearly 80% of the world’s population is exposed to high levels of threat to water security. Massive investment in water technology...
thumbnail
All data are provided in 30' latitude-longitude (i.e., 0.5° degree) gridded format in the Geographic projection. A full description of the data development is provided in the Supplementary Information available on the Nature website. Protecting the world’s freshwater resources requires diagnosing threats over a broad range of scales, from global to local. Here we present the first worldwide synthesis to jointly consider human and biodiversity perspectives on water security using a spatial framework that quantifies multiple stressors and accounts for downstream impacts. We find that nearly 80% of the world’s population is exposed to high levels of threat to water security. Massive investment in water technology...
thumbnail
All data are provided in 30' latitude-longitude (i.e., 0.5° degree) gridded format in the Geographic projection. A full description of the data development is provided in the Supplementary Information available on the Nature website. Protecting the world’s freshwater resources requires diagnosing threats over a broad range of scales, from global to local. Here we present the first worldwide synthesis to jointly consider human and biodiversity perspectives on water security using a spatial framework that quantifies multiple stressors and accounts for downstream impacts. We find that nearly 80% of the world’s population is exposed to high levels of threat to water security. Massive investment in water technology...
thumbnail
All data are provided in 30' latitude-longitude (i.e., 0.5° degree) gridded format in the Geographic projection. A full description of the data development is provided in the Supplementary Information available on the Nature website. Protecting the world’s freshwater resources requires diagnosing threats over a broad range of scales, from global to local. Here we present the first worldwide synthesis to jointly consider human and biodiversity perspectives on water security using a spatial framework that quantifies multiple stressors and accounts for downstream impacts. We find that nearly 80% of the world’s population is exposed to high levels of threat to water security. Massive investment in water technology...
thumbnail
All data are provided in 30' latitude-longitude (i.e., 0.5° degree) gridded format in the Geographic projection. A full description of the data development is provided in the Supplementary Information available on the Nature website. Protecting the world’s freshwater resources requires diagnosing threats over a broad range of scales, from global to local. Here we present the first worldwide synthesis to jointly consider human and biodiversity perspectives on water security using a spatial framework that quantifies multiple stressors and accounts for downstream impacts. We find that nearly 80% of the world’s population is exposed to high levels of threat to water security. Massive investment in water technology...
thumbnail
All data are provided in 30' latitude-longitude (i.e., 0.5 degree) gridded format in the Geographic projection. A full description of the data development is provided in the Supplementary Information available on the Nature website. Protecting the world’s freshwater resources requires diagnosing threats over a broad range of scales, from global to local. Here we present the first worldwide synthesis to jointly consider human and biodiversity perspectives on water security using a spatial framework that quantifies multiple stressors and accounts for downstream impacts. We find that nearly 80% of the world’s population is exposed to high levels of threat to water security. Massive investment in water technology enables...
thumbnail
All data are provided in 30' latitude-longitude (i.e., 0.5° degree) gridded format in the Geographic projection. A full description of the data development is provided in the Supplementary Information available on the Nature website. Protecting the world’s freshwater resources requires diagnosing threats over a broad range of scales, from global to local. Here we present the first worldwide synthesis to jointly consider human and biodiversity perspectives on water security using a spatial framework that quantifies multiple stressors and accounts for downstream impacts. We find that nearly 80% of the world’s population is exposed to high levels of threat to water security. Massive investment in water technology...
thumbnail
All data are provided in 30' latitude-longitude (i.e., 0.5° degree) gridded format in the Geographic projection. A full description of the data development is provided in the Supplementary Information available on the Nature website. Protecting the world’s freshwater resources requires diagnosing threats over a broad range of scales, from global to local. Here we present the first worldwide synthesis to jointly consider human and biodiversity perspectives on water security using a spatial framework that quantifies multiple stressors and accounts for downstream impacts. We find that nearly 80% of the world’s population is exposed to high levels of threat to water security. Massive investment in water technology...
thumbnail
All data are provided in 30' latitude-longitude (i.e., 0.5° degree) gridded format in the Geographic projection. A full description of the data development is provided in the Supplementary Information available on the Nature website. Protecting the world’s freshwater resources requires diagnosing threats over a broad range of scales, from global to local. Here we present the first worldwide synthesis to jointly consider human and biodiversity perspectives on water security using a spatial framework that quantifies multiple stressors and accounts for downstream impacts. We find that nearly 80% of the world’s population is exposed to high levels of threat to water security. Massive investment in water technology...
thumbnail
All data are provided in 30' latitude-longitude (i.e., 0.5° degree) gridded format in the Geographic projection. A full description of the data development is provided in the Supplementary Information available on the Nature website. Protecting the world’s freshwater resources requires diagnosing threats over a broad range of scales, from global to local. Here we present the first worldwide synthesis to jointly consider human and biodiversity perspectives on water security using a spatial framework that quantifies multiple stressors and accounts for downstream impacts. We find that nearly 80% of the world’s population is exposed to high levels of threat to water security. Massive investment in water technology...
thumbnail
All data are provided in 30' latitude-longitude (i.e., 0.5° degree) gridded format in the Geographic projection. A full description of the data development is provided in the Supplementary Information available on the Nature website. Protecting the world’s freshwater resources requires diagnosing threats over a broad range of scales, from global to local. Here we present the first worldwide synthesis to jointly consider human and biodiversity perspectives on water security using a spatial framework that quantifies multiple stressors and accounts for downstream impacts. We find that nearly 80% of the world’s population is exposed to high levels of threat to water security. Massive investment in water technology...
thumbnail
All data are provided in 30' latitude-longitude (i.e., 0.5° degree) gridded format in the Geographic projection. A full description of the data development is provided in the Supplementary Information available on the Nature website. Protecting the world’s freshwater resources requires diagnosing threats over a broad range of scales, from global to local. Here we present the first worldwide synthesis to jointly consider human and biodiversity perspectives on water security using a spatial framework that quantifies multiple stressors and accounts for downstream impacts. We find that nearly 80% of the world’s population is exposed to high levels of threat to water security. Massive investment in water technology...
thumbnail
All data are provided in 30' latitude-longitude (i.e., 0.5° degree) gridded format in the Geographic projection. A full description of the data development is provided in the Supplementary Information available on the Nature website. Protecting the world’s freshwater resources requires diagnosing threats over a broad range of scales, from global to local. Here we present the first worldwide synthesis to jointly consider human and biodiversity perspectives on water security using a spatial framework that quantifies multiple stressors and accounts for downstream impacts. We find that nearly 80% of the world’s population is exposed to high levels of threat to water security. Massive investment in water technology...
thumbnail
All data are provided in 30' latitude-longitude (i.e., 0.5° degree) gridded format in the Geographic projection. A full description of the data development is provided in the Supplementary Information available on the Nature website. Protecting the world’s freshwater resources requires diagnosing threats over a broad range of scales, from global to local. Here we present the first worldwide synthesis to jointly consider human and biodiversity perspectives on water security using a spatial framework that quantifies multiple stressors and accounts for downstream impacts. We find that nearly 80% of the world’s population is exposed to high levels of threat to water security. Massive investment in water technology...


map background search result map search result map Global water stress due to wetland discontinuity Global water threat due to thermal alterations Global water threat due to soil salinization Global water threat due to sediment loading Global water threat due to potential acidification Global water threat due to pesticide loading Global water threat due to organic loading Global water threat due to the percent of non-native fish Global water stress due to Nitrogen loading Global water stress due to mercury deposition Global water threat: investment benefit factor Incident human water stress threat Global water threat due to impervious surfaces Global Human Water Stress Global water threat due to flow disruption Global water threat due to fishing pressure Global Consumptive Water Loss Incident Biodiversity Threat Aquaculture pressure on global rivers Agricultural water stress Global water stress due to wetland discontinuity Global water threat due to thermal alterations Global water threat due to soil salinization Global water threat due to sediment loading Global water threat due to potential acidification Global water threat due to pesticide loading Global water threat due to organic loading Global water threat due to the percent of non-native fish Global water stress due to Nitrogen loading Global water stress due to mercury deposition Global water threat: investment benefit factor Incident human water stress threat Global water threat due to impervious surfaces Global Human Water Stress Global water threat due to flow disruption Global water threat due to fishing pressure Global Consumptive Water Loss Incident Biodiversity Threat Aquaculture pressure on global rivers Agricultural water stress