New & Noteworthy

 Ground-Water Availability in the United States (Circular 1323)

 CFP: Conduit Flow Process for MODFLOW-2005

 GSFLOW: A New Model for Simulation of Ground-Water and Surface-Water Interaction

 SEAWAT v4: Simulation of 3D Variable-Density Ground-Water Flow and Transport

USGS in Your State

USGS Water Science Centers are located in each state.

Ground-Water and Surface-Water Interactions

Traditionally, management of water resources has focused on surface water or ground water as if they were separate entities. As development of land and water resources increases, it is apparent that development of either of these resources affects the quantity and quality of the other. Nearly all surface-water features (streams, lakes, reservoirs, wetlands, and estuaries) interact with ground water. These interactions take many forms. In many situations, surface-water bodies gain water and solutes from ground-water systems and in others the surface-water body is a source of ground-water recharge and causes changes in ground-water quality. As a result, withdrawal of water from streams can deplete ground water or conversely, pumpage of ground water can deplete water in streams, lakes, or wetlands. Pollution of surface water can cause degradation of ground-water quality and conversely pollution of ground water can degrade surface water. Thus, effective land and water management requires a clear understanding of the linkages between ground water and surface water as it applies to any given hydrologic setting.

- Robert M. Hirsch, Chief Hydrologist, USGS
From USGS Circular 1139: Ground Water And Surface Water: A Single Resource

Selected Publications

• Ground Water And Surface Water: A Single Resource (USGS Circular 1139)
• Sustainability of Ground-Water Resources (USGS Circular 1186)
• Evolving issues and practices in managing ground-water resources - Case studies on the role of science (USGS Circular 1247)
• Flow and Storage in Groundwater Systems (Science Magazine, June 14, 2002)
• The Importance of Ground Water in the Great Lakes Region (USGS WRIR 00-4008)

USGS Web sites

• Hydrologic and Chemical Interactions Between Surface Water and Ground Water
• Role of Lakes in the Hydrologic System, with Emphasis on Their Relation to Ground-Water
• Temperature Effects in the Unsaturated Zone
• Freshwater-Saltwater Interactions along the Atlantic Coast
• Stream/Hyporheic Tracer Techniques

Software

• MODBRNCH - Ground-Water/Surface-Water Coupled Flow Model using USGS MODFLOW and BRANCH Models
• MODFLOW/DAFLOW - Ground-Water/Surface-Water Coupled Flow Model using USGS MODFLOW and DAFLOW Models
• HSPF STRMDEPL. routine: A Precipitation-Runoff Model for Analysis of the Effects of Water Withdrawals on Streamflow, Ipswich River Basin, Massachusetts (USGS WRIR 00-4029)
• PULSE: Model-Estimated Ground-Water Recharge and Hydrograph of Ground-Water Discharge to a Stream
• PART: A computerized method of base-flow-record estimation
• RECESS: A method for analysis of streamflow recession
• RORA: The recession-curve-displacement method for estimating recharge
• HYSEP: Hydrograph Separation Program
• BFI: A Computer Program for Determining an Index to Base Flow (from U.S. Bureau of Reclamation Water Resources Research Laboratory)