MODFLOW-NWT and MODPATH groundwater flow models of the Farmington River Watershed (Connecticut and Massachusetts)

Dates

Release Date: 2020-01-01
Start Date: 2000-01-01
End Date: 2013-12-31
Publication Date: 2023-09-15

Citation

Barclay, J.R., Starn, J.Jeff, Briggs, M.A., and Helton, A.M., 2020, MODFLOW-NWT and MODPATH groundwater flow models of the Farmington River Watershed (Connecticut and Massachusetts): U.S. Geological Survey data release, https://doi.org/10.5066/P960RSKM.

Summary

Groundwater flow models have the potential to predict spatial groundwater discharge dynamics within river networks, but models are often not evaluated against discharge dynamics. The objective of this study was to understand the variation in simulated discharge dynamics (discharge location, flowpath depth, and subsurface travel time) for models with common, but varying frameworks and assumptions. The University of Connecticut in collaboration with the United States Geological Survey developed a groundwater flow model (MODFLOW-NWT) for the Farmington River Watershed (1,570 km2) in the northeastern United States and systematically varied the type of typical calibration data (well head and stream elevation); calibration parameters; parameters [...]

Summary

Groundwater flow models have the potential to predict spatial groundwater discharge dynamics within river networks, but models are often not evaluated against discharge dynamics. The objective of this study was to understand the variation in simulated discharge dynamics (discharge location, flowpath depth, and subsurface travel time) for models with common, but varying frameworks and assumptions. The University of Connecticut in collaboration with the United States Geological Survey developed a groundwater flow model (MODFLOW-NWT) for the Farmington River Watershed (1,570 km2) in the northeastern United States and systematically varied the type of typical calibration data (well head and stream elevation); calibration parameters; parameters related to permeability of the surficial materials, bedrock, and riverbed sediments; control of river-aquifer exchange directionality; and model resolution. Each model variation has an associated particle tracking (MODPATH) model. Subsequent work, not described in this model archive, compared with simulated spatial patterns of groundwater discharge with patterns observed with hand-held thermal infrared imagery. This dataset contains model inputs and outputs, post-processing python scripts, and pest calibration input files for 12 model variations described in the associated journal article (https://doi.org/10.1029/2020WR028027)

Contacts

Point of Contact :: Janet R Barclay, U.S. Geological Survey, New England Water Science Center
Originator :: Janet R. Barclay, J. Jeff Starn, Martin A. Briggs, Ashley M. Helton
Metadata Contact :: U.S. Geological Survey
SDC Data Owner :: New England Water Science Center
USGS Mission Area :: Water Resources

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barclay2020_WRR.xml Original FGDC Metadata	View	15.16 KB	application/fgdc+xml
readme.txt		32.19 KB	text/plain
modelgeoref.txt		847 Bytes	text/plain
bin.zip		7.18 MB	application/zip
georef.zip		28.83 KB	application/zip
model.zip		45.49 MB	application/zip
output.BedrockK.zip		1.09 MB	application/zip
output.DepthDecay.zip		1.12 MB	application/zip
output.DepthDecay_Modpath.zip		97.67 MB	application/zip
output.HighRes.zip		9.03 MB	application/zip
output.HighRes_drn.zip		9.01 MB	application/zip
output.Initial.zip		1.13 MB	application/zip
output.RiverbedK.zip		1.1 MB	application/zip
output.RiverbedK_drn.zip		1.12 MB	application/zip
output.RiverbedK_drn_Modpath.zip		93.48 MB	application/zip
output.RiverbedK_synth.zip		1.12 MB	application/zip
output.RiverbedK_drn_synth.zip		1.11 MB	application/zip
output.RivK_BedK.zip		1.07 MB	application/zip
output.RivK_BedK_drn.zip		1.06 MB	application/zip
output.RivK_BedK_drn_Modpath.zip		109.15 MB	application/zip
output.RivK_BedK_Modpath.zip		108.82 MB	application/zip
output.StreamsOnly.zip		1.2 MB	application/zip
output.StreamsOnly_Modpath.zip		85.52 MB	application/zip
output.SurfMatZones.zip		1.11 MB	application/zip
output.SurfMatZones_Modpath.zip		100.37 MB	application/zip
output.WellsOnly.zip		1.16 MB	application/zip
output.WellsOnly_Modpath.zip		93.72 MB	application/zip
output.WellsOnly_synth.zip		1.15 MB	application/zip
source.zip		30.96 MB	application/zip
barclay2020_wrr_Thumbnail.jpg		225.29 KB	image/jpeg
ancillary.zip		313.4 MB	application/zip
output.BedrockK_Modpath.zip		114.21 MB	application/zip
output.Initial_Modpath.zip		96.5 MB	application/zip
output.RiverbedK_Modpath.zip		96.16 MB	application/zip
		1.87 GB	application/zip
		1.87 GB	application/zip

Related External Resources

Type: Related Primary Publication

Related Primary Publication	https://doi.org/10.1029/2020WR028027

Type: browseImage

Image of the model domain and active area of the model.	https://www.sciencebase.gov/catalog/file/get/631405dcd34e36012efa3467?name=barclay2020_wrr_Thumbnail.jpg

Purpose

These models were used to quantify discharge dynamics across a suite of models with commonly used frameworks and calibration data. Groundwater discharge zones connect aquifers to surface water, generating baseflow and serving as ecosystem control points across aquatic ecosystems. The influence of discharge on surface flow connectivity, fate and transport of contaminants and nutrients, and thermal habitat depends strongly on physical dynamics such as the spatial distribution, age, and depth of flowpaths that source discharge zones throughout river networks. The development of the model input and output files for the MODFLOW-NWT and MODPATH models in this data release are documented in the associcated jounral article (https://doi.org/10.1029/2020WR028027).

MODFLOW-NWT and MODPATH groundwater flow models of the Farmington River Watershed (Connecticut and Massachusetts)

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