ABSTRACT:

Continuous streamflow data collected by the Stroud Water Research Center within the 3rd-order research watershed, White Clay Creek above McCue Road.

Variables: Gage height, Discharge

Date Range: (1968-2014)

Dataset Creators/Authors: Stroud Water Research Center

Contact: Sara G. Damiano, Stroud Water Research Center, 970 Spencer Road, Avondale, PA 19311, <sdamiano@stroudcenter.org>
Denis Newbold, Stroud Water Research Center, 970 Spencer Road, Avondale, PA 19311. <newbold@stroudcenter.org>
Anthony Aufdenkampe, Stroud Water Research Center, 970 Spencer Road, Avondale, PA 1931.1 <aufdenkampe@stroudcenter.org>

Field Area: White Clay Creek @ SWRC | Christina River Basin

Copied from:
Stroud Water Research Center (2014). "CZO Dataset: White Clay Creek - Stage, Streamflow / Discharge (1968-2014)." Retrieved 09 Nov 2017, from http://criticalzone.org/christina/data/dataset/2464/.

NOTE: does not include data in this CZO Data listing that was from this site: WCC2154: White Clay Creek, west branch at Rt. 926, downstream side.

In addition, Aufdenkampe added an example Jupyter Notebook in Python (CZODisplaytoDataFrame_WCC-Flow.ipynb), to create a single concatenated data frame and export to a single CSV file (CRB_WCC_STAGEFLOW_from_df.csv). The full example can be found at https://github.com/aufdenkampe/EnviroDataScripts/tree/master/CZODisplayParsePlot.

ABSTRACT:

Total suspended solids (TSS) and Volatile Suspended Solids (VSS) from White Clay Creek near the Stroud Water Research Center, Avondale, PA, USA. The purpose is to quantify export of inorganic and organic particulate matter from the 725-hectare watershed. Samples consist of those taken at monthly intervals, normally the first Wednesday of each month regardless of weather or flow conditions and those taken after precipitation events. The monthly samples are manual grab samples collected in 5-L polyethylene “space saver” bottles from a few centimeters below the surface and without disturbance to the stream bed. The event samples were collected in response to precipitation of 20 mm or more using an ISCO automated sampler which collected 1-L samples s in polyethylene bottles at hourly intervals through an intake approximately 20 cm above the bed. Each of approximately four events per year are represented by approximately 10 samples selected from the hourly series to characterize the rise, peak, and falling limb of the hydrograph. Additional events are represented by the three samples nearest peak flow.

Variables: Solids_ total suspended, carbon to nitrogen molar ratio, carbon_ particulate organic, nitrogen_ particulate organic, nitrogen-15 stable isotope ratio delta

Date Range: (1993-2012)

Dataset Creators/Authors: Aufdenkampe, A.K.; Newbold, J.D.; Anderson, B. A.; Richardson, D.; Damiano, S.G.

Contact: Sara G. Damiano, Stroud Water Research Center, 970 Spencer Road, Avondale, PA 19311, sdamiano@stroudcenter.org

Field Area: Boulton Run | Christina River Basin | Forest Endmember: Spring Brook | White Clay Creek @ SWRC | Construction Endmember: White Clay Creek below landfill | Lower White Clay Creek | Agricultural Endmember: South Branch Doe Run

Copied from:
Aufdenkampe, A.K.; Newbold, J.D.; Anderson, B. A.; Richardson, D.; Damiano, S.G. (2012). "CZO Dataset: Christina River Basin - Stream Suspended Sediment (1993-2012)." Retrieved 21 Jan 2018, from http://criticalzone.org/christina/data/dataset/2474/.

For guidance on how to parse these CZODisplayFiles, see example Jupyter Notebooks in Python at https://github.com/aufdenkampe/EnviroDataScripts/tree/master/CZODisplayParsePlot.

ABSTRACT:

Deuterium and Oxygen-18 measured on stream water samples collected during baseflow and stormflow conditions.

Variables: oxygen-18 (d18O), deuterium (dD)

Date Range: (2011-2012)

Dataset Creators/Authors: Diana L. Karwan

Contact: Diana L. Karwan, Department of Forest Resources, University of Minnesota, St. Paul, MN 55108

Field Area: White Clay Creek @ SWRC

Copied from: Diana L. Karwan (2012). "CZO Dataset: Third-order White Clay Creek and Boulton Run - Climate, Stable Isotopes, Stream Water Chemistry (2011-2012)." Retrieved 21 Jan 2018, from http://criticalzone.org/christina/data/dataset/3365/

For guidance on how to parse these CZODisplayFiles, see example Jupyter Notebooks in Python at https://github.com/aufdenkampe/EnviroDataScripts/tree/master/CZODisplayParsePlot.

ABSTRACT:

Model My Watershed® (MMW) is a watershed-modeling web app that enables citizens, conservation practitioners, municipal decision-makers, educators, and students to
- Analyze land use and soil data in their neighborhoods and watersheds
- Model stormwater runoff and water-quality impacts
- Compare how different conservation or development scenarios could modify runoff and water quality
With this App, you can create a new MMW project for an area of interest, or load an existing MMW project, that has been exported as a HydroShare resource. You can modify the land cover for an area of interest or add best management practices (BMPs) to evaluate the impact on stormwater runoff and water quality.

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Demo

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asdf

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st croix take 2

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st croix take 2

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Testing

ABSTRACT:

Model My Watershed® (MMW) is a watershed-modeling web app that enables citizens, conservation practitioners, municipal decision-makers, educators, and students to
- Analyze land use and soil data in their neighborhoods and watersheds
- Model stormwater runoff and water-quality impacts
- Compare how different conservation or development scenarios could modify runoff and water quality
With this App, you can create a new MMW project for an area of interest, or load an existing MMW project, that has been exported as a HydroShare resource. You can modify the land cover for an area of interest or add best management practices (BMPs) to evaluate the impact on stormwater runoff and water quality.