Jessica Driscoll, PhD

Filter Total Items: 17

June 28, 2023

U.S. Geological Survey Rocky Mountain Region 2022 science exchange, showcasing interdisciplinary and state-of-the-art USGS science

IntroductionThe Rocky Mountains and the Colorado River Basin in the Western United States represent complex, interconnected systems that sustain a number of species, including tens of millions of humans. These systems face several challenges, including worsening drought, altered wildfire regimes, climate change, and the spread of invasive species. These factors can exacerbate one another, further

Authors

Dana E. Peterson, Katherine L. French, Jeannette H. Oden, Patrick J. Anderson, Timothy N. Titus, Katharine G. Dahm, Jessica M. Driscoll, William J. Andrews

By

Natural Hazards Mission Area, Water Resources Mission Area, Ecosystems Mission Area, Energy Resources Program, Mineral Resources Program, Astrogeology Science Center, Central Energy Resources Science Center, Colorado Water Science Center, Fort Collins Science Center, Geosciences and Environmental Change Science Center, Geology, Geophysics, and Geochemistry Science Center

January 17, 2023

High resolution SnowModel simulations reveal future elevation-dependent snow loss and earlier, flashier surface water input for the Upper Colorado River Basin

Continued climate warming is reducing seasonal snowpacks in the western United States, where >50% of historical water supplies were snowmelt-derived. In the Upper Colorado River Basin, declining snow water equivalent (SWE) and altered surface water input (SWI, rainfall and snowmelt available to enter the soil) timing and magnitude affect streamflow generation and water availability. To adapt effec

Authors

John C. Hammond, Graham A. Sexstone, Annie Laura Putman, Theodore B. Barnhart, David Rey, Jessica M. Driscoll, Glen Liston, Kristen L. Rasmussen, Daniel McGrath, Steven R. Fassnacht, Stephanie K. Kampf

By

Water Resources Mission Area, Colorado Water Science Center, New Mexico Water Science Center, Wyoming-Montana Water Science Center

September 30, 2022

HydroBench: Jupyter supported reproducible hydrological model benchmarking and diagnostic tool

Evaluating whether hydrological models are right for the right reasons demands reproducible model benchmarking and diagnostics that evaluate not just statistical predictive model performance but also internal processes. Such model benchmarking and diagnostic efforts will benefit from standardized methods and ready-to-use toolkits. Using the Jupyter platform, this work presents HydroBench, a model-

Authors

Edom Moges, Benjamin Ruddell, Liang Zhang, Jessica M. Driscoll, Parker A. Norton, Fernando Perez, Laurel Larsen

By

Water Resources Mission Area, New Mexico Water Science Center, Dakota Water Science Center

August 3, 2022

Evaluating hydrologic region assignment techniques for ungaged basins in Alaska, USA

Building continental-scale hydrologic models in data-sparse regions requires an understanding of spatial variation in hydrologic processes. Extending these models to ungaged locations requires techniques to group ungaged locations with gaged ones to make process importance and model parameter transfer decisions to ungaged locations. This analysis (1) tested the utility of fundamental streamflow st

Authors

Theodore B. Barnhart, William H. Farmer, John C. Hammond, Graham A. Sexstone, Janet H. Curran, Joshua C. Koch, Jessica M. Driscoll

By

Water Resources Mission Area, Alaska Science Center, Wyoming-Montana Water Science Center

March 1, 2022

Strength and memory of precipitation's control over streamflow across the conterminous United States

How precipitation (P) is translated into streamflow (Q) and over what timescales (i.e., “memory”) is difficult to predict without calibration of site-specific models or using geochemical approaches, posing barriers to prediction in ungauged basins or advancement of general theories. Here, we used a data-driven approach to identify regional patterns and exogenous controls on P–Q interactions. We ap

Authors

Edom Moges, Benjamin L. Ruddell, Liang Zhang, Jessica M. Driscoll, Laurel Larsen

By

Water Resources Mission Area

March 26, 2021

Implications of model selection: A comparison of publicly available, conterminous US-extent hydrologic component estimates

Spatiotemporally continuous estimates of the hydrologic cycle are often generated through hydrologic modeling, reanalysis, or remote sensing (RS) methods and are commonly applied as a supplement to, or a substitute for, in situ measurements when observational data are sparse or unavailable. This study compares estimates of precipitation (P), actual evapotranspiration (ET), runoff (R), snow water e

Authors

Samuel Saxe, William H. Farmer, Jessica M. Driscoll, Terri S. Hogue

By

Water Resources Mission Area

July 2, 2020

Prioritizing river basins for intensive monitoring and assessment by the US Geological Survey

The US Geological Survey (USGS) is currently (2020) integrating its water science programs to better address the nation’s greatest water resource challenges now and into the future. This integration will rely, in part, on data from 10 or more intensively monitored river basins from across the USA. A team of USGS scientists was convened to develop a systematic, quantitative approach to prioritize c

Authors

Peter C. Van Metre, Sharon L. Qi, Jeffrey R. Deacon, Cheryl A. Dieter, Jessica M. Driscoll, Michael N. Fienen, Terry A. Kenney, Patrick M. Lambert, David P. Lesmes, Christopher Allen Mason, Anke Mueller-Solger, MaryLynn Musgrove, Jaime A. Painter, Donald O. Rosenberry, Lori A. Sprague, Anthony J. Tesoriero, Lisamarie Windham-Myers, David M. Wolock

By

Water Resources Mission Area, Wildland Fire Science

February 24, 2020

Runoff sensitivity to snow depletion curve representation within a continental scale hydrologic model

The spatial variability of snow water equivalent (SWE) can exert a strong influence on the timing and magnitude of snowmelt delivery to a watershed. Therefore, the representation of subgrid or subwatershed snow variability in hydrologic models is important for accurately simulating snowmelt dynamics and runoff response. The U.S. Geological Survey National Hydrologic Model infrastructure with the P

Authors

Graham A. Sexstone, Jessica M. Driscoll, Lauren Hay, John C. Hammond, Theodore B. Barnhart

By

Water Resources Mission Area, Colorado Water Science Center

January 8, 2020

Spatiotemporal variability of modeled watershed scale surface-depression storage and runoff for the conterminous United States

This study uses the explores the viability of a proxy model calibration strategy through assessment of the spatiotemporal variability of surface-depression storage and runoff generated with the U.S. Geological Survey’s National Hydrologic Model (NHM) infrastructure for hydrologic response units (HRUs; n=109,951) across the conterminous United States (CONUS). Simulated values for each HRU of daily

Authors

Jessica M. Driscoll, Lauren Hay, Melanie K. Vanderhoof, Roland J. Viger

By

Water Resources Mission Area, Geosciences and Environmental Change Science Center

August 7, 2019

Estimation of base flow by optimal hydrograph separation for the conterminous United States and implications for national-extent hydrologic models

Optimal hydrograph separation (OHS) uses a two-parameter recursive digital filter that applies specific conductance mass-balance constraints to estimate the base flow contribution to total streamflow at stream gages where discharge and specific conductance are measured. OHS was applied to U.S. Geological Survey (USGS) stream gages across the conterminous United States to examine the range/distribu

Authors

Sydney Foks, Jeff P. Raffensperger, Colin A. Penn, Jessica M. Driscoll

By

Water Resources Mission Area, Maryland-Delaware-D.C. Water Science Center, Colorado Water Science Center

June 19, 2019

Simulation of water availability in the Southeastern United States for historical and potential future climate and land-cover conditions

A study was conducted by the U.S. Geological Survey (USGS), in cooperation with the Gulf Coastal Plains and Ozarks Landscape Conservation Cooperative (GCPO LCC) and the Department of the Interior Southeast Climate Adaptation Science Center, to evaluate the hydrologic response of a daily time step hydrologic model to historical observations and projections of potential climate and land-cover change

Authors

Jacob H. LaFontaine, Rheannon M. Hart, Lauren E. Hay, William H. Farmer, Andy R. Bock, Roland J. Viger, Steven L. Markstrom, R. Steve Regan, Jessica M. Driscoll

By

Water Resources Mission Area, Colorado Water Science Center, Lower Mississippi-Gulf Water Science Center, New Mexico Water Science Center, South Atlantic Water Science Center (SAWSC)

April 18, 2019

GRACE storage change characteristics (2003–2016) over major surface basins and principal aquifers in the Conterminous United States

In this research, we characterized the changes in Gravity Recovery and Climate Experiment’s (GRACE) monthly total water storage anomaly (TWSA) in 18 surface basins and 12 principal aquifers in the Conterminous United States (CONUS) over 2003–2016. Regions with high variability in storage were identified. Ten basins and 4 aquifers showed significant change in storage. Eight surface basins and 8 aqu

Authors

Naga Manohar Velpuri, Gabriel Senay, Jessica M. Driscoll, Samuel Saxe, Lauren E. Hay, William H. Farmer, Julie E. Kiang

By

Earth Resources Observation and Science (EROS) Center

Science

Data

August 21, 2020

National Hydrologic Model Alaska Domain parameter database, version 1

This data release contains input data for hydrologic simulations of the Alaska Domain application of the U.S. Geological Survey (USGS) Precipitation Runoff Modelling System (PRMS) as implemented in the National Hydrologic Model (NHM) infrastructure (Regan and others, 2018). The NHM Alaska Domain parameter database consists of 114 parameter files in ASCII format (CSV), two files needed to run the A

By

Wyoming-Montana Water Science Center

June 2, 2020

Geospatial Fabric for the National Hydrologic Model Alaska Domain, version 1

This metadata record documents a geospatial dataset for the U.S. Geological Survey Precipitation Runoff Modeling System (PRMS) used to drive the National Hydrologic Model (NHM). The Alaska Geospatial Fabric v1 is the spatial representation of the hydrologic response units (HRUs) used for the PRMS NHM Alaska domain. These HRUs were generated using the twelve-digit Hydrologic Unit Code (HUC12) water

By

Wyoming-Montana Water Science Center

May 18, 2020

Data release in support of Runoff sensitivity to snow depletion curve representation within a continental scale hydrologic model

This data release includes simulation output from a modeling experiment conducted using the initial calibration of the conterminous United States (CONUS) application of the Precipitation-Runoff Modeling System (PRMS) (Hay, 2019) as implemented in the National Hydrologic Model (NHM) infrastructure (Regan et al, 2018). The study associated with this data release (Sexstone et al., 2019) used the same

By

Colorado Water Science Center

August 8, 2019

Base flow estimation via optimal hydrograph separation at CONUS watersheds and comparison to the National Hydrologic Model - Precipitation-Runoff Modeling System by HRU calibrated version

Optimal hydrograph separation (OHS) is a two-component, hydrograph separation method that uses a two-parameter, recursive digital filter (RDF) constrained via chemical mass balance to estimate the base flow contribution to a stream or river (Rimmer and Hartman, 2014; Raffensperger et al., 2017). A recursive digital filter distinguishes between high-frequency and low-frequency discharge data within

By

Water Resources Mission Area

Multimedia

News

A team of USGS scientists will be participating in a new USGS Tribal Engagement Series on drought in the Colorado River Basin

Tribal Engagement Series: Drought in the Colorado River Basin

A team of USGS scientists will be participating in a new USGS Tribal Engagement Series on drought in the Colorado River Basin

Tribal Engagement Series: Drought in the Colorado River Basin

U.S. Geological Survey

U.S. Department of the Interior

Jessica Driscoll, PhD

Professional Experience

Education and Certifications

Science and Products

Integrated Water Availability Assessments

Colorado River Basin: Actionable and Strategic Integrated Science and Technology

National Hydrologic Model Infrastructure

Improved hydrologic forecasting through synthesis of critical storage components and timescales across watersheds worldwide

National Water Census

A team of USGS scientists will be participating in a new USGS Tribal Engagement Series on drought in the Colorado River Basin

Tribal Engagement Series: Drought in the Colorado River Basin

Science and Products

Integrated Water Availability Assessments

Colorado River Basin: Actionable and Strategic Integrated Science and Technology

National Hydrologic Model Infrastructure

Improved hydrologic forecasting through synthesis of critical storage components and timescales across watersheds worldwide

National Water Census

A team of USGS scientists will be participating in a new USGS Tribal Engagement Series on drought in the Colorado River Basin

Tribal Engagement Series: Drought in the Colorado River Basin