Predicted minimum flow coefficient of variation (CV) for small streams in the Upper Colorado River Basin under historic hydrologic conditions.

Our objective was to model minimum flow coefficient of variation (CV) on small, ungaged streams in the Upper Colorado River Basin. Modeling streamflows is an important tool for understanding landscape-scale drivers of flow and estimating flows where there are no gaged records. We focused our study in the Upper Colorado River Basin, a region that is not only critical for water resources but also projected to experience large future climate shifts toward a drier climate. We used a random forest modeling approach to model the relation between minimum flow CV (the standard deviation of annual minimum flows times 100 divided by the mean of annual minimum flows) on gaged streams (115 gages) and environmental variables....

Types: Citation; Tags: Random forests, Streamflow, Streamflow modeling, Ungaged streams, Upper Colorado River Basin, All tags... Upper Colorado River Basin, Fewer tags

Predicted mean annual number of zero-flow days of small streams in the Upper Colorado River Basin based on historic flow data

Our objective was to model mean annual number of zero-flow days (days per year) for small streams in the Upper Colorado River Basin under historic hydrologic conditions on small, ungaged streams in the Upper Colorado River Basin. Modeling streamflows is an important tool for understanding landscape-scale drivers of flow and estimating flows where there are no gaged records. We focused our study in the Upper Colorado River Basin, a region that is not only critical for water resources but also projected to experience large future climate shifts toward a drier climate. We used a random forest modeling approach to model the relation between zero-flow days per year on gaged streams (115 gages) and environmental variables....

Types: Citation; Tags: Random forests, Streamflow, Streamflow modeling, Ungaged streams, Upper Colorado River Basin, All tags... Upper Colorado River Basin, Fewer tags

Predicted specific minimum flow of small streams in the Upper Colorado River Basin based on historic flow data

Our objective was to model specific minimum flow (mean of the annual minimum flows divided by drainage area [cubic feet per second per square mile]) on small, ungaged streams in the Upper Colorado River Basin. Modeling streamflows is an important tool for understanding landscape-scale drivers of flow and estimating flows where there are no gaged records. We focused our study in the Upper Colorado River Basin, a region that is not only critical for water resources but also projected to experience large future climate shifts toward a drier climate. We used a random forest modeling approach to model the relation between specific minimum flow on gaged streams (115 gages) and environmental variables. We then projected...

Types: Citation; Tags: Random forests, Streamflow, Streamflow modeling, Ungaged streams, Upper Colorado River Basin, All tags... Upper Colorado River Basin, Fewer tags

Predicted specific mean daily flow of small streams in the Upper Colorado River Basin based on historic flow data

Our objective was to model specific mean daily flow (mean daily flow divided by drainage area [cubic feet per second per square mile]) on small, ungaged streams in the Upper Colorado River Basin. Modeling streamflows is an important tool for understanding landscape-scale drivers of flow and estimating flows where there are no gaged records. We focused our study in the Upper Colorado River Basin, a region that is not only critical for water resources but also projected to experience large future climate shifts toward a drier climate.We used a random forest modeling approach to model the relation between specific mean daily flow on gaged streams (115 gages) and environmental variables. We then projected specific mean...

Types: Citation; Tags: Random forests, Streamflow, Streamflow modeling, Ungaged streams, Upper Colorado River Basin, All tags... Upper Colorado River Basin, Fewer tags

Predicted hydrology (intermittency) of a given stream reach under drier climate conditions in the Upper Colorado River Basin

Our objective was to model the risk of becoming intermittent under drier climate conditions on small, ungaged streams in the Upper Colorado River Basin. Modeling streamflows is an important tool for understanding landscape-scale drivers of flow and estimating flows where there are no gaged records. We focused our study in the Upper Colorado River Basin, a region that is not only critical for water resources but also projected to experience large future climate shifts toward a drier climate. We used a conditional inference modeling approach to model the relation between intermittency status on gaged streams (115 gages) and selected mean and minimum flow metrics. We then projected intermittency status and if a stream...

Types: Citation; Tags: Random forests, Streamflow, Streamflow modeling, Ungaged streams, Upper Colorado River Basin, All tags... Upper Colorado River Basin, Fewer tags

Predicted 7-day minimum flow of small streams in the Upper Colorado River Basin based on historic flow data

Our objective was to model 7-day minimum flow (mean of the annual minimums of a 7-day moving average for each year [cubic feet per second]) on small, ungaged streams in the Upper Colorado River Basin. Modeling streamflows is an important tool for understanding landscape-scale drivers of flow and estimating flows where there are no gaged records. We focused our study in the Upper Colorado River Basin, a region that is not only critical for water resources but also projected to experience large future climate shifts toward a drier climate. We used a random forest modeling approach to model the relation between 7-day minimum flow on gaged streams (115 gages) and environmental variables. We then projected 7-day minimum...

Types: Citation; Tags: Random forests, Streamflow, Streamflow modeling, Ungaged streams, Upper Colorado River Basin, All tags... Upper Colorado River Basin, Fewer tags

Predicted frequency of low-flow pulse events for small streams in the Upper Colorado River Basin under historic hydrologic conditions.

Our objective was to model frequency of low-pulse events on small, ungaged streams in the Upper Colorado River Basin. Modeling streamflows is an important tool for understanding landscape-scale drivers of flow and estimating flows where there are no gaged records. We focused our study in the Upper Colorado River Basin, a region that is not only critical for water resources but also projected to experience large future climate shifts toward a drier climate. We used a random forest modeling approach to model the relation between frequency of low-pulse events on gaged streams (115 gages) and environmental variables. We then projected frequency of low-pulse events to ungaged reaches in the Upper Colorado River Basin...

Types: Citation; Tags: Random forests, Streamflow, Streamflow modeling, Ungaged streams, Upper Colorado River Basin, All tags... Upper Colorado River Basin, Fewer tags

Predicted intermittency of small streams in the Upper Colorado River Basin based on historic flow data

Our objective was to model intermittency (perennial, weakly intermittent, or strongly intermittent) on small, ungaged streams in the Upper Colorado River Basin. Modeling streamflows is an important tool for understanding landscape-scale drivers of flow and estimating flows where there are no gaged records. We focused our study in the Upper Colorado River Basin, a region that is not only critical for water resources but also projected to experience large future climate shifts toward a drier climate.We used a random forest modeling approach to model the relation between intermittency on gaged streams (115 gages) and environmental variables. We then projected intermittency status to ungaged reaches in the Upper Colorado...

Types: Citation; Tags: Random forests, Streamflow, Streamflow modeling, Ungaged streams, Upper Colorado River Basin, All tags... Upper Colorado River Basin, Fewer tags