Estimating the Volume of Fine-Grained Sediments Behind Four Low-Head Dams, Kalamazoo River, Michigan. In cooperation with the Michigan Department of Environmental.

Slides:

Advertisements

Similar presentations

Action Effectiveness Monitoring in the Upper Columbia (Chapter 4) Karl M. Polivka, Pacific Northwest Research Station, USDA Forest Service.

Advertisements

April 4, 2008 Variation in salmonid bed-habitat conditions with sediment yields in Lagunitas and San Geronimo Creeks Marin County, California Barry Hecht,

Assessing effects of Columbia River Basin anadromous fish flow management on the aquatic ecology of the Henrys Fork watershed A Proposal By The Henrys.

Moffatt Thomas Lower Boise River Wetlands Restoration Project Sponsor:Pioneer Irrigation District Presenter: Scott L. Campbell Legal Counsel for Pioneer.

Summary of Aquatic Programs Administered by the WV Division of Natural Resources Dan Cincotta WVDNR P. O. Box 67 Elkins, WV

Technical Requirements for Site Remediation Backbone of New Jerseys Site Remediation Program.

Step 1: Valley Segment Classification Our first step will be to assign environmental parameters to stream valley segments using a series of GIS tools developed.

Streamgaging Task Force Final Report Advisory Committee on Water Information Herndon, Virginia April 3, 2002.

BoRit Superfund Site Timeline

CITY OF SAN MARCOS/TEXAS STATE UNIVERSITY 2015 WORK PLAN BUDGETED CONSERVATION MEASURES.

Geomorphic Impacts of Dam Removal Rollin H. Hotchkiss Director, Albrook Hydraulics Laboratory Washington State University, Pullman, WA

Assessment of gravel transport characteristics of the upper Santa Ana River Scott Wright and Toby Minear USGS California Water Science Center Sacramento,

Connecticut River Habitat Restoration: A Significant Population of Rare Mussel Species? and Paul. Boison Northeast Utilities Service Company James W. Athey.

Breaching the Mahar Regional School Dam Presentation to Ralph C. Mahar Regional School Committee GZA GeoEnvironmental, Inc. February 9, 2011.

Introduction Out of the nearly 75,000 dams in the lower 48, the Pacific Northwest contains about 2,048 and many are adding to river degradation, as affected.

U.S. EPA: NCEA/Global Change Research Program Jim Pizzuto and students University of Delaware Changing Climate and Land Use in the Mid-Atlantic: Modeling.

Overview of Exercise Module 1 – Geologic Setting Module 2 – Flow Regimes Module 3 – Downstream Effects.

CE 510 Hazardous Waste Engineering Department of Civil Engineering Southern Illinois University Carbondale Instructor: Dr. L.R. Chevalier Lecture Series.

1 Determining How to Calculate River Discharge HOW MUCH WATER IS FLOWING IN THE RIVER? Quantifying discharge gives us an understanding of the hydrologic.

Pomme de Terre Lake Water Quality Summary Pomme de Terre Lake Water Quality Summary US Army Corps of Engineers Environmental Resources Section.

Assessing the feasibility of reestablishing ecosystem processes on the Mississippi River in the Twin Cities, Minnesota Christian Lenhart 1, John L. Nieber.

Hydrologic Issues in Mountaintop Mining Areas Ronald Evaldi, USGS-WSC, Charleston, WV Daniel Evans, USGS-WSC, Louisville, KY Hugh Bevans, USGS-WSC, Charleston,

West Virginia University Natural Stream Restoration Program An Interdisciplinary Program Focusing on Research, Education, and Professional Services in.

Climate Change: An Aquatic Perspective and State Management Needs Gary Whelan MI DNR Fisheries Division September 2008.

Management Issues in the Lake Michigan Basin  Aquatic invasive species  Nutrient enrichment  Beach Health  Contaminants – in Sediments, Fish and Drinking.

Ecosystems Climate and Land-Use Change Water Natural Hazards Core Science Systems Energy and Minerals, and Environmental Health U.S. Geological Survey.

Abstract Background Conclusion Stream Bed Morphology and Discharge Rates of Deckers Creek Data was collected at 5 different points along a 100 meter transect.

West Fork of the White River Stream Restoration Monitoring Dan DeVun Ecological Conservation Organization (501)

Jan 2005 Kissimmee Basin Projects Jan Kissimmee Basin Projects Kissimmee River Restoration Project (KRR) Kissimmee Chain of Lakes Long Term Management.

LCA Mississippi River Hydrodynamic and Delta Management Study (MRHDMS) Carol Parsons Richards River Studies Manager Governor’s Advisory Commission on Coastal.

Understanding Instream Flow Incremental Methodology (IFIM) Joey Kleiner.

Materials Transport & NSCD Material Classes Velocity to Transport Relationships York NSCD Restoration PSY CCREP.

Big Horn Lake Sediment Management Study. US Army Corps of Engineers Omaha District Study Background Bureau of Reclamation and Omaha District Interagency.

Collaborative Monitoring in the Great Lakes: Revisiting the Lake Michigan Mass Balance Project Collaborative Monitoring in the Great Lakes: Revisiting.

Changes in Phosphorus Concentrations and Loads in the Assabet River Following Mandated Reductions in Wastewater Treatment Plant Discharges U.S. Geological.

Asian Carp Regional Coordinating Committee [TITLE] [Author] [Date]

U.S. Department of the Interior U.S. Geological Survey Dr. Robert M. Hirsch Associate Director for Water April 16, 2007 USGS: Water Resources Program.

Oregon Case Studies Ryan Johnson. Studies  The response of impounded sediment to a culvert replacement project on Sutter Creek, a tributary of Honey.

OHHI Beach Modeling Group Meeting March 23, 2006 GLERL, Ann Arbor, MI Project Summary Project Title: Predicting Pathogen Fate in the Great Lakes Coastal.

Gerry Pratt State AOC Coordinator, Division of Water New York State Department of Environmental Conservation 625 Broadway, Albany, NY P: 518.

Teaching where science and policy intersect by developing a river restoration plan on a local stream Gabrielle David Department of Earth and Environmental.

Sediment Yield and Channel Processes. Definitions Suspend Sediment – sediment (orgranic or inorganic) which remains in suspension in water for a considerable.

Managing Western Water as Climate Changes Denver, CO February 20-21, 2008.

Assessing changes in contaminant fluxes following removal of a dam in the Pawtuxet River Results and Discussion Methods and Approach Passive samplers (polyethylene;

Cleanup and Remediation of Persistent Bioaccumulative Toxics in the Great Lakes Basin Gina Bayer, CH2M HILL PBT Strategy Team Maumee Bay Meeting February.

Review of Current Conditions Report and Work Plan for Area 1 Presented by The Great Plains/Rocky Mountain Technical Outreach Services for Communities.

Timeline Impaired for turbidity on Minnesota’s list of impaired waters (2004) MPCA must complete a study to determine the total maximum daily load (TMDL)

Baird Claytor Hydroelectric Project Sedimentation Study.

S. 1 Pilot study 2: Assessment of sediment traps.

The U. S. Geological Survey Streamgaging Network Supporting Society’s Water-Resource Decisions Presented by: Bob Hainly, Assistant Director USGS-PA Water.

Trends in Precipitation and Stream Discharge over the Past Century for the Continental United States Andrew Simon 1 and Lauren Klimetz 1,2 1 USDA-ARS National.

Dam Removal as a Solution to Increase Water Quality Matthew Nechvatal, Tim Granata Department of Civil and Environmental Engineering and Geodetic Science.

Comparison of Benthic Invertebrate Communities Upstream and Downstream of Proposed Culvert Installations in Alabama Amy C. Gill USGS, Alabama Water Science.

Findings Is the City of Oberlin a source or a sink for pollutants? Water quality in Plum Creek as a function of urban land cover Jonathan Cummings, Tami.

Margaret Byrne, U.S. Fish and Wildlife Service

STRATEGIES FOR FRESHWATER. CONTEXT FOR STRATEGIES.

PCWA Study Plan Physical Habitat Characterization Study Plan –Geomorphology Study Plan –Riparian Habitat Mapping Study Plan –Aquatic Habitat Characterization.

Iowa Rivers Information System Inventory, Modeling, and Evaluation of Basin, In-Stream Habitat, and Fishery Resource Relationships Kevin Kane, Iowa State.

U.S. Department of the Interior U.S. Geological Survey Monitoring Surface-Water-Quality in the Tongue River Watershed of Montana and Wyoming Stacy Kinsey.

Storm Water Permit Program Authority to regulate storm water discharges derives from 40 CFR Illinois EPA is delegated authority to administer this.

Defining Good Ecological Potential : Method used in the UK Niall Jones Hydro-morphology senior advisor Environment Agency.

Watershed Monitoring *Background Watershed Stewardship Plan-2004 Gap Projects IRWMP-Dec Policies SFEI study-2007 Joint TC/WC meeting-June 2010 *Proposed.

Culler Lake Bathymetry: Potential Changes Following Dredging Spring 2013 Sampling Methods Class: J. Bruland, M. Dybala, N. Gunther, A. Hoffman, J. Jones,

Developing recommendations for sustainable flows in the Great Lakes Basin of New York and Pennsylvania Sustainable Flows: The flow of water in a natural.

Kansas Experience in Technical Negotiations for Tribal Water Right Settlements Symposium on the Settlement of Indian Reserved Water Rights Claims, Great.

Jon Risgaard, Wastewater Branch Rick Bolich, Raleigh Regional Office

Watershed Literacy & Engagement

Milltown Phase II Draft Restoration Plan

Mary River Project Phase 2 Proposal Freshwater Environment

Presentation transcript:

Estimating the Volume of Fine-Grained Sediments Behind Four Low-Head Dams, Kalamazoo River, Michigan. In cooperation with the Michigan Department of Environmental Quality, Environmental Response Division (MDEQ-ERD), the U.S. Geological Survey is estimating the volume of fine- grained materials within the impoundments of four low-head dams (Plainwell, Otsego City, Otsego, and Trowbridge), located on the Kalamazoo River.

Problem The restoration of natural flow regimes to rivers can have significant environmental and aesthetic benefits. In many cases, restoring the natural flow regime requires the removal of non-functioning low-head dams. A series of dams exists on the Kalamazoo River between Plainwell and Allegan, Michigan. All are under consideration for removal in the future. Removal of these dams will return the Kalamazoo River to its pre-dam flow, increase recreation uses and safety of the river, and improve aquatic habitat in this section of the river. The removal of any dam comes with some risks. The two most common problems encountered are the movement of contaminated sediment downstream and the migration of invasive species from the Great Lakes upstream to the headwater areas. Since additional dams downstream of the project will remain in place, migration of invasive species should not be an issue; however, movement of contaminated sediments is a major concern. The USEPA has designated the Kalamazoo River from the city of Kalamazoo to where it discharges into Lake Michigan as a Federal Superfund site. The bed sediments are known to contain PCBs from paper-mill carbonless copy paper production (up to 150 ppm PCB--Blasland, Bouck, & Lee, 1994). Therefore, it is essential that the volume, grain-size distribution, degree of contamination, and potential for down-stream movement of sediments from behind these dams be known before any dam removal can take place. This ongoing multi-phase study will provide valuable information for dam removals on the Kalamazoo River and other dam removal projects in the Great Lakes watershed. This multi-year effort has provided estimates of volume of fine-grain sediment behind three dams; is currently collecting sediment coring data below the Plainwell Dam; plans to continue monitoring streamflow and sediment transport before, during, and after dam removals; and proposes an additional volume estimate at the Otsego City Dam. A sediment-transport model on the upstream Plainwell Dam could be designed and calibrated and would be useful in predicting downstream sediment movement before dam removal takes place. Objectives Estimate the volume, grain-size distribution, and potential for down-stream movement of sediments from behind the Plainwell, Otsego City, Otsego, and Trowbridge Dams. Continue to operate two daily-discharge gaging stations; one above and one below this multi-dam reach. Continue to collect background suspended sediment data (before removals) using automatic samplers at the downstream Trowbridge gage. Design and calibrate a sediment-transport model at the upstream Plainwell Dam that will predict sediment movement from the City of Plainwell to the Otsego City Dam and possibly project similar effects at other dam sites downstream. Document the effects of removal of these dams on the Kalamazoo River environment, including suspended-sediment, bed load, and stream flow. Figure 2. (A) Using auger to determine water depth and sediment thickness. (B) Collecting a core sample. A B

Figure 2. Transect locations. In addition to collecting data along transects, miscellaneous points were used to collect information at random locations between the transects (shown in yellow). Figure 4. Depth of Water grid. Generated using contours with a 1 ft. contour interval. Grid cell size is 2 ft. Figure 5. Depth bottom of fine-grained material grid. Generated using contours with a 1 ft. contour interval. Grid cell size is 2 ft. Figure 6. Thickness of fine-grained material grid. Generated by subtracting grid in figure 4 from that in figure 5. Grid cell size is 2 ft. While the figures depicted illustrate the grids for the Plainwell dam, the above procedure was identically applied to each dam in the study.

Benefits Although engineering studies and construction efforts have addressed the stabilization of some of these dams on the Kalamazoo River (CDM, 1999, 2000, 2001), the consequences of the removal of the dams are basically unknown. The study of these sites provide an opportunity to monitor the actual mobilization, transport, and ultimate fate of contaminated sediment and has substantial potential to advance the understanding of these hydrologic processes and transfer knowledge to other sites. Refinement and improved accuracy of mathematical approaches to contaminated-sediment transport and other impacts at the Plainwell Dam removal site may mean that future downstream dam removals may only require pre-removal “snapshots” of sediment availability and geomorphic assessments, rather than long-term monitoring, at substantial decrease in cost. Data from the proposed study will aid in making decisions regarding removal of the downstream structures more cost effective and scientifically based. Products Technical results of the project will be published in a USGS Water-Resources Investigations Report (WRIR) on the stratigraphy, sedimentology, and volume of fine-grained sediments behind each dam. References: Blasland, Bouck & Lee, Inc., 1994, Allied Paper, Inc./Portage Creek/Kalamazoo River Superfund Site Remedial Investigation/Feasibility Study: draft technical memorandum 10--Sediment Characterization/Geostatistical Pilot Study. Blasland, Bouck & Lee, Inc., 2000, Sediment behind the Plainwell, Otsego, and Trowbridge Dams: Project # #2, 14 p. Camp Dresser & McKee, 1999, Evaluation Report of Plainwell Dam--Kalamazoo, Michigan: January 1999, 5 p. Camp Dresser & McKee, 1999, Evaluation Report of Trowbridge Dam--Kalamazoo, Michigan: January 1999, 5 p. Camp Dresser & McKee, 1999, Baseline Ecological Risk Assessment--Allied Paper, Inc./Portage Creek/Kalamazoo River Superfund Site: June 1999, various pagination. Camp Dresser & McKee, 2000, Otsego Dam--Evaluation and phase II investigation report: April 2000, 8 p.