The Schuylkill River Watershed in southeastern PA provides essential ecosystem services, including drinking water, power generation, recreation, transportation, irrigation, and habitats for aquatic life. The impact of changing climate and land use on these resources could negatively affect the ability of the watershed to continually provide these services. This study applies a hydrologic model to assess the impact of climate and land use change on water resources in the Schuylkill River Basin. A hydrologic model was created within the Structural Thinking Experiential Learning Laboratory with Animation (STELLA) modeling environment. Downscaled future climate change scenarios were generated using Localized Constructed Analogs (LOCA) from 2020...
Abstract: This research examines the impact of climate and land use change on watershed hydrology. S...
We examined impacts of future climate scenarios on flow regimes and how predicted changes might affe...
We estimated past and future hydrographs and patterns of ecosystem metabolism in a fifth-order river...
The Schuylkill River watershed located in southeastern Pennsylvania caters to various services inclu...
The Schuylkill River watershed located in southeastern Pennsylvania drains approximately 2,000 squar...
Climate changes due to increased concentration of greenhouse gases (GHGs) have obvious effects on th...
Weather extremes and climate variability directly impact the hydrological cycle influencing agricult...
Study region: The New York City water supply watersheds Study focus: This study is a modeling analys...
[1] Climate change has the potential to alter streamflow regimes, having ecological, economic, and s...
Accurate quantification of ecosystem services (ES) at regional scales is increasingly important for ...
This paper focuses on understanding the effects of projected climate change on streamflow dynamics o...
Forcing watershed models with downscaled climate data to quantify future water regime changes can im...
This research examines the impact of climate and land use change on watershed hydrology. Seasonal va...
A gridded hydrologic model was developed to assess the impact of projected climate change on future ...
This study is intended to predict variations in future land use/land cover(LULC) based on the repres...
Abstract: This research examines the impact of climate and land use change on watershed hydrology. S...
We examined impacts of future climate scenarios on flow regimes and how predicted changes might affe...
We estimated past and future hydrographs and patterns of ecosystem metabolism in a fifth-order river...
The Schuylkill River watershed located in southeastern Pennsylvania caters to various services inclu...
The Schuylkill River watershed located in southeastern Pennsylvania drains approximately 2,000 squar...
Climate changes due to increased concentration of greenhouse gases (GHGs) have obvious effects on th...
Weather extremes and climate variability directly impact the hydrological cycle influencing agricult...
Study region: The New York City water supply watersheds Study focus: This study is a modeling analys...
[1] Climate change has the potential to alter streamflow regimes, having ecological, economic, and s...
Accurate quantification of ecosystem services (ES) at regional scales is increasingly important for ...
This paper focuses on understanding the effects of projected climate change on streamflow dynamics o...
Forcing watershed models with downscaled climate data to quantify future water regime changes can im...
This research examines the impact of climate and land use change on watershed hydrology. Seasonal va...
A gridded hydrologic model was developed to assess the impact of projected climate change on future ...
This study is intended to predict variations in future land use/land cover(LULC) based on the repres...
Abstract: This research examines the impact of climate and land use change on watershed hydrology. S...
We examined impacts of future climate scenarios on flow regimes and how predicted changes might affe...
We estimated past and future hydrographs and patterns of ecosystem metabolism in a fifth-order river...