14 datasets found

Fotografía aérea 2050 Rollo 95 Cámara RC30 (distancia focal: 152.91 mm.) Proyecto Especial Pelileo_2008 Escala 1:15000 Color.Imagen escaneada a 14 micrones.

Fotografía aérea 2050 Rollo 20 Cámara RC30 (distancia focal: 152.91 mm.) Proyecto Especial Guayaquil_2005 Escala 1:10000 Color.Imagen escaneada a 14 micrones.

This data set includes hourly load profiles developed for the Electrification Futures Study (EFS). The load profiles represent projected end-use electricity demand for various...

Within the Sea-Level Affecting Marshes Model (SLAMM) , it is projected that Maryland’s coastal waters will rise 1.37 feet by 2050 under a scenario of rising greenhouse gas...

SLAMM uses elevation, accumulation of sediments, wetland accretion and erosion rates, and sea level rise to predicatively model long-term wetland and shoreline changes. In...

This dataset visualizes the projected areas that will be flooded/drowned by 2100. Within the Sea-Level Affecting Marshes Model (SLAMM), it is projected that Maryland’s coastal...

SLAMM uses elevation, accumulation of sediments, wetland accretion and erosion rates, and sea level rise to predicatively model long-term wetland and shoreline changes. In...

Within the Sea-Level Affecting Marshes Model (SLAMM) , it is projected that Maryland’s coastal waters will rise 4.03 feet by 2100 under a scenario of rising greenhouse gas...

Within the Sea-Level Affecting Marshes Model (SLAMM), it is projected that some areas of uplands will convert to wetlands by 2100. This dataset visualizes instances of wetland...

SLAMM uses elevation, accumulation of sediments, wetland accretion and erosion rates, and sea level rise to predicatively model long-term wetland and shoreline changes. In...

Within the Sea-Level Affecting Marshes Model (SLAMM) , it is projected that Maryland’s coastal waters will rise 2.32 feet by 2070 under a scenario of rising greenhouse gas...

This dataset visualizes the projected areas that will be flooded/drowned by 2070. Within the Sea-Level Affecting Marshes Model (SLAMM), it is projected that Maryland’s coastal...

This dataset visualizes the projected areas that will be flooded/drowned by 2050. Within the Sea-Level Affecting Marshes Model (SLAMM), it is projected that Maryland’s coastal...

The results of the Sea Level Affecting Marshes Model (SLAMM) were analyzed for specific conservation criteria for long-term planning that may help increase coastal resiliency in...