Link to USGS home page.
PUBLICATIONS—Scientific Investigations Report

U.S. Department of the Interior
U.S. Geological Survey

 

In cooperation with the Lake St. Clair Regional Monitoring Project

Estimation of Nonpoint-Source Loads of Total Nitrogen, Total Phosphorous, and Total Suspended Solids in the Black, Belle, and Pine River Basins, Michigan, by Use of the PLOAD Model

U.S. Geological Survey Scientific Investigations Report 2006-5071

By Atiq U. Syed and Richard S. Jodoin


The full report is available in Adobe Acrobat® Portable Document Format (PDF). You will need Adobe Acrobat Reader®, version 5 or higher, to view or print the PDF documents. If you don't already have this free viewing software or need to upgrade your version, download Adobe Acrobat Reader®. Users with visual disabilities can visit http://access.adobe.com/ for conversion tools and information to help make PDF files accessible. The PDF files are large, and may take a long time to download. If you have trouble downloading the files, you may request a copy of the report from USGS Maps and Publications.


Abstract

The Lake St. Clair Regional Monitoring Project partners planned a 3-year assessment study of the surface water in the Lake St. Clair drainage basins in Michigan. This study included water-quality monitoring and analysis, collection of discrete (grab) and automatic water-quality samples, moni-toring of bacteria, and the creation of a database to store all relevant data collected from past and future field-data-collec-tion programs.

 

In cooperation with the Lake St. Clair Monitoring Project, the U.S. Geological Survey assessed nonpoint-source loads of nutrients and total suspended solids in the Black, Belle, and Pine River basins. The principal tool for the assess-ment study was the USEPA’s PLOAD model, a simplified GIS-based numerical program that generates gross estimates of pollutant loads. In this study, annual loads were computed for each watershed using the USEPA’s Simple Method, which is based on scientific studies showing a correlation between different land-use types and loading rates.

 

The two land-use data sets used in the study (representing 1992 and 2001) show a maximum of 0.02-percent change in any of the 15 land use categories between the two timeframes. This small change in land use is reflected in the PLOAD results of the study area between the two time periods. PLOAD model results for the 2001 land-use data include total-nitrogen loads from the Black, Belle, and Pine River basins of approximately 495,599 lb/yr, 156,561 lb/yr, and 121,212 lb/yr, respectively; total-phosphorus loads of 80,777 lb/yr, 25,493 lb/yr, and 19,655 lb/yr, respectively; and total-sus-pended-solids loads of 5,613,282 lb/yr, 1,831,045 lb/yr, and 1,480,352 lb/yr, respectively. The subbasins in the Black, Belle, and Pine River basin with comparatively high loads are characterized by comparatively high percentages of industrial, commercial, transportation, or residential land use.

 

The results from the PLOAD model provide useful information about the approximate average annual loading rates from the three study basins. In particular, the results identify subbasins with comparatively high loading rates per square mile. This could aid water-resources managers and planners in evaluation of the effectiveness of public expenditures for water-quality improvements, assessment of progress towards achieving established water-quality goals, and planning of preventive actions.


Citation:

Syed, A.T., and Jodoin, R.S., 2006, Estimation of nonpoint-source loads of total nitrogen, total phosphorous, and total suspended solids in the Black, Belle, and Pine River basins, Michigan, by use of the PLOAD model: Date Posted: October 25, 2006: U.S. Geological Survey Scientific Investigations Report 2006-5071, 42 p.
[https://pubs.water.usgs.gov/sir20065071/]

Contents

Cover/Contents (148 kb) PDF


For additional information, contact:

U.S. Geological Survey
Michigan Water Science Center
6520 Mercantile Way, Suite 5
Lansing, MI 48911-5991
GS-W-MIlns_DC@usgs.gov
or visit our Web site at:
http://mi.water.usgs.gov

 



Accessibility FOIA Privacy Policies and Notices



Take Pride in America home page. FirstGov button U.S. Department of the Interior | U.S. Geological Survey
Persistent URL: https://pubs.water.usgs.gov/sir20065071
Page Contact Information: USGS Publishing Network
Page Last Modified: Thursday, 01-Dec-2016 19:23:43 EST