Sealed surfaces in urban areas change the water and energy balance resulting in decreased evapotranspiration and infiltration, magnified stormwater runoff, and sensible heat fluxes. Urban Green Infrastructures (UGI) are implemented to reverse such effects. This study examines the potential of a high-resolution grid-based model to show the impact of different degrees of urban land cover. The study area was divided into 52 cells and cells were categorized into four urban degrees of urbanization. Two scenarios were considered to represent the existing conditions of a study area in the Great Metropolitan Area of Costa Rica and the effects derived from the implementation of UGI. The software Surface Urban Energy and Water Balance Scheme (SUEWS) ...
Urban greening can potentially help mitigate heat-related mortality and flooding facing the >4 billi...
Climate change is expected to modify the timing and amount of precipitation in the future, increasin...
With global populations becoming increasingly urbanized, green infrastructure (GI) is progressively ...
Sealed surfaces in urban areas change the water and energy balance resulting in decreased evapotrans...
Green structures (e.g. green roof and bio-retention systems) are adopted to mitigate the hydrologica...
Green infrastructure (GI) is a common solution for stormwater management in an urban environment, wi...
Green Stormwater Infrastructure (GSI), a sustainable engineering design approach for managing urban ...
The rapid growth of cities around the world poses a lot of challenges to the environment. An importa...
The urbanization has resulted in significant changes in the water balance. Urban Green Infrastructur...
Urbanization is one of the most important anthropogenic modifications of the global environment. It ...
Urbanization is one of the most important anthropogenic modifications of the global environment. It ...
Green infrastructure (GI) can bring both water and energy benefits to urban environments. Yet, insta...
Green Infrastructure (GI) connects different types of green features via various scales, thereby sup...
Climate change is expected to modify the timing and amount of precipitation in the future, increasin...
Urban greening can potentially help mitigate heat-related mortality and flooding facing the >4 billi...
Climate change is expected to modify the timing and amount of precipitation in the future, increasin...
With global populations becoming increasingly urbanized, green infrastructure (GI) is progressively ...
Sealed surfaces in urban areas change the water and energy balance resulting in decreased evapotrans...
Green structures (e.g. green roof and bio-retention systems) are adopted to mitigate the hydrologica...
Green infrastructure (GI) is a common solution for stormwater management in an urban environment, wi...
Green Stormwater Infrastructure (GSI), a sustainable engineering design approach for managing urban ...
The rapid growth of cities around the world poses a lot of challenges to the environment. An importa...
The urbanization has resulted in significant changes in the water balance. Urban Green Infrastructur...
Urbanization is one of the most important anthropogenic modifications of the global environment. It ...
Urbanization is one of the most important anthropogenic modifications of the global environment. It ...
Green infrastructure (GI) can bring both water and energy benefits to urban environments. Yet, insta...
Green Infrastructure (GI) connects different types of green features via various scales, thereby sup...
Climate change is expected to modify the timing and amount of precipitation in the future, increasin...
Urban greening can potentially help mitigate heat-related mortality and flooding facing the >4 billi...
Climate change is expected to modify the timing and amount of precipitation in the future, increasin...
With global populations becoming increasingly urbanized, green infrastructure (GI) is progressively ...