Groundwater and estuary water levels near Mill Creek, and the Herring River in Wellfleet Massachusetts were measured from June 2017 to June 14, 2018. Water-level data have been filtered to remove the effects of the daily tides. The mean daily value of the tidally filtered 15 minute water-level data is presented. The data also include a composite data set of daily precipitation values, as well as data on the growing degrees days (50 degrees Fahrenheit), from two weather stations on Cape Cod, Massachusetts.

Groundwater and estuary water levels near Mill Creek and the Herring River in Wellfleet, Massachusetts, were measured from June 2017 to August 2022. The data contained in these datasets consist of tables of updated statistics provided in the original work by Mullaney and others (2020, Appendix 2) and associated data release by Mullaney and Barclay (2020). The data include summary tables of water-level statistics and summary tables of updated statistical coefficients for the models in the original work. The data release also includes the underlying input data sets for these statistical regression models and an update of table 2 from the larger work, which consists of summary statistics of water levels for the period of data analysis from 2017-06-01 to 2022-08-05. Mullaney, J.R., and Barclay, J.R., 2020, Data on Tidally Filtered Groundwater and Estuary Water Levels, and Climatological Data Near Mill Creek and the Herring River, Cape Cod, Wellfleet, Massachusetts, 2017-2018: U.S. Geological Survey data release, https://doi.org/10.5066/P9T167II. Mullaney, J.R., Barclay, J.R., Laabs, K.L., and Lavallee, K.D., 2020, Hydrogeology and interactions of groundwater and surface water near Mill Creek and the Herring River, Wellfleet, Massachusetts, 2017–18: U.S. Geological Survey Scientific Investigations Report 2019–5145, 60 p., https://doi.org/10.3133/sir20195145.

Groundwater and estuary water levels near Mill Creek and the Herring River in Wellfleet, Massachusetts, were measured from June 2017 to August 2022. The data contained in these datasets consist of tables of updated statistics provided in the original work by Mullaney and others (2020, Appendix 2) and associated data release by Mullaney and Barclay (2020). The data include summary tables of water-level statistics and summary tables of updated statistical coefficients for the models in the original work. The data release also includes the underlying input data sets for these statistical regression models and an update of table 2 from the larger work, which consists of summary statistics of water levels for the period of data analysis from 2017-06-01 to 2022-08-05. Mullaney, J.R., and Barclay, J.R., 2020, Data on Tidally Filtered Groundwater and Estuary Water Levels, and Climatological Data Near Mill Creek and the Herring River, Cape Cod, Wellfleet, Massachusetts, 2017-2018: U.S. Geological Survey data release, https://doi.org/10.5066/P9T167II. Mullaney, J.R., Barclay, J.R., Laabs, K.L., and Lavallee, K.D., 2020, Hydrogeology and interactions of groundwater and surface water near Mill Creek and the Herring River, Wellfleet, Massachusetts, 2017–18: U.S. Geological Survey Scientific Investigations Report 2019–5145, 60 p., https://doi.org/10.3133/sir20195145.

Groundwater and estuary water levels near Mill Creek and the Herring River in Wellfleet, Massachusetts, were measured from June 2017 to August 2022. The data contained in these datasets consist of tables of updated statistics provided in the original work by Mullaney and others (2020, Appendix 2) and associated data release by Mullaney and Barclay (2020). The data include summary tables of water-level statistics and summary tables of updated statistical coefficients for the models in the original work. The data release also includes the underlying input data sets for these statistical regression models and an update of table 2 from the larger work, which consists of summary statistics of water levels for the period of data analysis from 2017-06-01 to 2022-08-05. Mullaney, J.R., and Barclay, J.R., 2020, Data on Tidally Filtered Groundwater and Estuary Water Levels, and Climatological Data Near Mill Creek and the Herring River, Cape Cod, Wellfleet, Massachusetts, 2017-2018: U.S. Geological Survey data release, https://doi.org/10.5066/P9T167II. Mullaney, J.R., Barclay, J.R., Laabs, K.L., and Lavallee, K.D., 2020, Hydrogeology and interactions of groundwater and surface water near Mill Creek and the Herring River, Wellfleet, Massachusetts, 2017–18: U.S. Geological Survey Scientific Investigations Report 2019–5145, 60 p., https://doi.org/10.3133/sir20195145.

This U.S. Geological Survey (USGS) data release provides a comprehensive dataset of water-quality results, physical-parameter measurements, hydrologic measurements, and site information collected to study the nature and extent of water quality along groundwater flow paths adjacent to glacial-kettle lakes on Cape Cod, Massachusetts. Water-quality samples were collected in 2003, 2005, and 2012 through 2018 in and near seven kettle lakes located on western Cape Cod, with most of the data collected in 2015-2017 from Ashumet Pond, which is located in the towns of Falmouth and Mashpee. Data were also collected at other lakes to compare the lake-specific influences of geochemistry and hydrology on the downgradient groundwater systems. Samples were collected over the course of multi-day and multi-month sampling events to capture the influence of annual and diel changes in the lakes. Water-quality results are presented for groundwater samples collected from monitoring wells and multilevel samplers (MLS) located downgradient from the lakes; shallow groundwater samples from beneath the lake bottoms (also referred to herein as porewater samples) collected near shore by using microwells, also known as pushpoints (manufactured by M.H.E. Products1), installed 5-100 centimeters below the lake-bottom surface into known groundwater upwelling and lake-water downwelling zones near the lake shore; grab samples of lake water collected in conjunction with the near-shore groundwater samples; and profiles of the lake water column collected in deeper parts of the lake basins. The data include field water-quality measurements of specific conductance, pH, dissolved oxygen, temperature, and alkalinity (incremental field titration method) using single-parameter field probes as well as multiprobe sondes; concentrations of samples collected for selected organic and inorganic solutes, including major cations and anions, minor elements, nitrate, nitrite, ammonium, total dissolved nitrogen, dissolved organic carbon, and dissolved inorganic carbon; concentrations of dissolved gases, including nitrous oxide and methane, absorbance of ultraviolet/visible light; stable isotopic ratios of carbon (delta 13C, d13C) measured in dissolved inorganic carbon; isotope ratios of oxygen (d18O) and hydrogen (d2H) measured in water; isotope ratios of oxygen (d18O) and nitrogen (d15N) measured in nitrate plus nitrite; and isotope ratios of oxygen (d18O) measured in dissolved oxygen gas. The data release also includes results from analyses of sediment-core material collected from the sediment surface to 30 centimeters below the lake bottom, and analyses of aquatic vegetation and biofilms on pebble surfaces in Ashumet Pond. The sediment-core results include total carbon and nitrogen content of dried organic material scraped from the pebbles, d13C and d15N of carbon and nitrogen of the organic matter, extractions of ammonium, and carbon dioxide and oxygen measurements used to estimate potential respiration rates from incubation experiments. The data are compiled into ten Excel (.xlsx) tables: (1) A summary of all the sampling event names and dates (Summary Sampling Events.xlsx), (2) sample information, field measurements, and results from laboratory water-quality analyses for environmental samples collected from monitoring wells, MLSs, lake-basin profiles, and near-shore pushpoints (Water Quality Samples.xlsx), (3) results from selected water-quality analytes for laboratory duplicates, laboratory blanks, and equipment rinseate samples (QAQC Samples.xlsx), (4) distance from shore and lake-stage measurements for Ashumet Pond pushpoint site ASHPD-GWOUT-R-N at select times used in a regression equation to estimate distance to shore, and measured distances between pushpoint, MLS, and well locations relative to site ASHPD-GWOUT-R-N (Distance Calculations.xlsx), (5) approximate water-level altitudes at monitoring well and MLS sites calculated from water-level measurements made at

This U.S. Geological Survey (USGS) data release provides a comprehensive dataset of water-quality results, physical-parameter measurements, hydrologic measurements, and site information collected to study the nature and extent of water quality along groundwater flow paths adjacent to glacial-kettle lakes on Cape Cod, Massachusetts. Water-quality samples were collected in 2003, 2005, and 2012 through 2018 in and near seven kettle lakes located on western Cape Cod, with most of the data collected in 2015-2017 from Ashumet Pond, which is located in the towns of Falmouth and Mashpee. Data were also collected at other lakes to compare the lake-specific influences of geochemistry and hydrology on the downgradient groundwater systems. Samples were collected over the course of multi-day and multi-month sampling events to capture the influence of annual and diel changes in the lakes. Water-quality results are presented for groundwater samples collected from monitoring wells and multilevel samplers (MLS) located downgradient from the lakes; shallow groundwater samples from beneath the lake bottoms (also referred to herein as porewater samples) collected near shore by using microwells, also known as pushpoints (manufactured by M.H.E. Products1), installed 5-100 centimeters below the lake-bottom surface into known groundwater upwelling and lake-water downwelling zones near the lake shore; grab samples of lake water collected in conjunction with the near-shore groundwater samples; and profiles of the lake water column collected in deeper parts of the lake basins. The data include field water-quality measurements of specific conductance, pH, dissolved oxygen, temperature, and alkalinity (incremental field titration method) using single-parameter field probes as well as multiprobe sondes; concentrations of samples collected for selected organic and inorganic solutes, including major cations and anions, minor elements, nitrate, nitrite, ammonium, total dissolved nitrogen, dissolved organic carbon, and dissolved inorganic carbon; concentrations of dissolved gases, including nitrous oxide and methane, absorbance of ultraviolet/visible light; stable isotopic ratios of carbon (delta 13C, d13C) measured in dissolved inorganic carbon; isotope ratios of oxygen (d18O) and hydrogen (d2H) measured in water; isotope ratios of oxygen (d18O) and nitrogen (d15N) measured in nitrate plus nitrite; and isotope ratios of oxygen (d18O) measured in dissolved oxygen gas. The data release also includes results from analyses of sediment-core material collected from the sediment surface to 30 centimeters below the lake bottom, and analyses of aquatic vegetation and biofilms on pebble surfaces in Ashumet Pond. The sediment-core results include total carbon and nitrogen content of dried organic material scraped from the pebbles, d13C and d15N of carbon and nitrogen of the organic matter, extractions of ammonium, and carbon dioxide and oxygen measurements used to estimate potential respiration rates from incubation experiments. The data are compiled into ten Excel (.xlsx) tables: (1) A summary of all the sampling event names and dates (Summary Sampling Events.xlsx), (2) sample information, field measurements, and results from laboratory water-quality analyses for environmental samples collected from monitoring wells, MLSs, lake-basin profiles, and near-shore pushpoints (Water Quality Samples.xlsx), (3) results from selected water-quality analytes for laboratory duplicates, laboratory blanks, and equipment rinseate samples (QAQC Samples.xlsx), (4) distance from shore and lake-stage measurements for Ashumet Pond pushpoint site ASHPD-GWOUT-R-N at select times used in a regression equation to estimate distance to shore, and measured distances between pushpoint, MLS, and well locations relative to site ASHPD-GWOUT-R-N (Distance Calculations.xlsx), (5) approximate water-level altitudes at monitoring well and MLS sites calculated from water-level measurements made at

Dataset includes site averages of measurements of floodplain and streambank sediment physico-chemistry and long-term (dendrogeomorphic) vertical and lateral geomorphic change, and reach scale floodplain width, streambank height, channel width, and streambed particle size. This information was used to calculate fluxes of sediment, fine sediment, sediment-C, sediment-N, and sediment-P of floodplains and of streambanks at each site. Sixty-eight sites were sampled in the USGS Chesapeake and Delaware Floodplain Network. Sites were chosen to have largely unmodified geomorphology, permission to access, and presence of woody vegetation to enable the dendrogeomorphic technique.

This dataset provides analysis results for status values representing the period of 2015 through 2017 for six indicators of river and stream condition in the Chesapeake Bay watershed. Status (condition at a point in time) was calculated yearly for metrics of the following indicators: stream nutrients and suspended sediment, salinity, temperature, hydromorphology, streamflow and biological assemblages. These yearly status values were then averaged to create mean status values for each indicator and metric. The mean status values were then used to score indicator sites as high quality, low quality, or intermediate quality. Additionally, the relationship between mean status values and three land use/land cover types (developed, agriculture and urban) were analyzed via simple linear regression. Detailed data preparation information, analytical methods and results are presented and discussed in the associated Scientific Investigative Report (https://doi.org/10.3133/sir20255072).

This data release supports analyses of the relations between monthly average nutrient concentrations in the Herring River on the ebb tide near Wellfleet Massachusetts and monthly average precipitation, temperature, runoff, solar radiation, ocean water temperature, mean sea level, nutrient concentrations in Wellfleet Harbor, and atmospheric deposition of nitrogen 2015-2021. The Environmental_Variables.csv file contains the monthly average precipitation, temperature, runoff, solar radiation, ocean water temperature, mean sea level, nutrient concentrations in Wellfleet Harbor, and atmospheric deposition of nitrogen data. The Velocity_andgage_height.csv file contains the data on surface water velocity that were used to determine the time of the beginning of flood and ebb tides from June 2020 through December 2021. The gage height data were used as a backup to the velocity data for determining the time of the beginning of flood and ebb tides.

This data release supports analyses of the relations between monthly average nutrient concentrations in the Herring River on the ebb tide near Wellfleet Massachusetts and monthly average precipitation, temperature, runoff, solar radiation, ocean water temperature, mean sea level, nutrient concentrations in Wellfleet Harbor, and atmospheric deposition of nitrogen 2015-2021. The Environmental_Variables.csv file contains the monthly average precipitation, temperature, runoff, solar radiation, ocean water temperature, mean sea level, nutrient concentrations in Wellfleet Harbor, and atmospheric deposition of nitrogen data. The Velocity_andgage_height.csv file contains the data on surface water velocity that were used to determine the time of the beginning of flood and ebb tides from June 2020 through December 2021. The gage height data were used as a backup to the velocity data for determining the time of the beginning of flood and ebb tides.