Ohio State University Extension

Food, Agricultural and Biological Engineering

590 Woody Hayes Dr., Columbus, Ohio 43210

Water Resources of Paulding County

AEX-480.63-97

Water is a resource often taken for granted. In recent years, water availability and quality have become important public concerns in Paulding County. The county's population of 20,114 (1992 Ohio Department of Development estimate) is predominantly rural, and 83 percent of the residents rely on ground water from private and public systems for their water supply. This fact sheet provides a brief overview of Paulding County's water resources, and is intended to help increase public awareness and understanding about this vital resource. By understanding where water is obtained and how it is used in the county, residents can gain a better appreciation for their water supply. Water resources terminology used in this publication is included in Surface and Ground Water Terminology, Fact Sheet AEX 460, which provides a listing of generally accepted water resource definitions. Ohio State University Extension publications are available through all Ohio county Extension offices.

Precipitation

An average of approximately 33.6 inches of precipitation falls on Paulding County annually. Figure 1 illustrates the average monthly precipitation for the county for the period 1961 to 1990. Based on this 30-year record, the average precipitation is 2.8 inches per month, with January and February (1.7 inches each) typically being the driest months, and May (3.6 inches) the wettest. However, there can be extreme variations in some years and in certain months within a year. Such seasonal and yearly extremes may have serious consequences and are not always apparent from the long-term precipitation information.

Figure 1. Average monthly precipitation (in inches) in Paulding County, Ohio (1961-1990); data collected at Village of Paulding.

Surface-Water Resources

The majority of Paulding County lies in the vast Maumee River Basin. Twenty-three percent of Paulding County drains into the Maumee River. The remaining 77 percent of the county drains into the Auglaize River before the Auglaize enters the Maumee. Major rivers in the county include the Maumee, Auglaize and the Little Auglaize. The Maumee River flows east-northeast in the northwestern part of the county. The Auglaize River is a major tributary of the Maumee River and is located in the eastern part of the county. The following streams flow into the Auglaize River in Paulding County: Six Mile Creek, Little Flat Rock Creek, Flat Rock Creek, Little Auglaize River, and Blue Creek. Major creeks flowing into the Little Auglaize River include Prairie and Dog creeks. Nearly all these streams flow in an eastern to northern direction and are fed by precipitation and runoff, and discharge from surface and subsurface drainage systems. Ponds are common among homeowners and they are filled by precipitation and surface runoff. A generalized surface-water map of Paulding County is given in Figure 2.

Figure 2. Surface-water resources in Paulding County, Ohio (adapted from ODNR Division of Water river basin maps; illustration prepared by M. Trefz).

Surface waters are affected by the soil type, geology, the topography of adjacent land, and the way people use the land. Land use, such as residential development and agricultural production, may increase the amount of sediment and other pollutants entering a body of water. Residential and urban areas contain many impervious surfaces, such as streets and parking lots, that increase the amount of runoff. The soils and terrain also influence the amount of runoff because of infiltration, percolation, and water holding characteristics. With some soils, rainfall is more likely to run off, while other soils allow water to infiltrate more readily.

The county contains approximately 268,100 land acres, of which 225,500 acres (84 percent) are farmland. Five major soil types have been identified in the county and vary in drainage quality from poorly drained to well drained. A large portion of the soils are Paulding Clay, Latty Clay, and Hoytville Clay.

The county has no major lakes of significant size. However, approximately 1,062 ponds are present in the county. The county contains approximately 163 linear miles of major streams and rivers [estimated from river basin maps, Ohio Department of Natural Resources (ODNR) Division of Water]. In addition, 315 miles of county-maintained ditches and numerous miles of privately-maintained ditches are used for land drainage.

Ground-Water Resources

Paulding County's primary ground-water source is the carbonate aquifer which is composed of limestone. Yields of up to 500 gallons per minute (gpm) have been obtained at depths exceeding 300 feet. Farm and domestic supplies of about 10 to 15 gpm are usually obtained at depths of less than 90 feet. The limestone aquifer found in the northern part of the county may yield as much as 90 gpm at depths 25 to 64 feet beneath the glacial drift.

In the northwestern corner of the county, sand and gravel aquifers are common; depth to water is usually less than 10 feet. The most northern parts of the county may have yields of 10 gpm at depths of 40 to 65 feet. An overview of the ground-water resources in the county is given in Paulding County Ground-Water Resources, AEX-490.63.

The yield of a well will vary considerably depending on the age and depth of the well, well construction, the diameter of the casing, pump capacity and age, and more importantly, properties of the geologic formation. Specific information on ground-water availability and wells can be obtained by contacting the ODNR Division of Water.

Where Does the Water Go?

Based on long-term statewide weather records, Ohio receives an average of 38 inches of precipitation per year. These 38 inches move through a complex path called the hydrologic cycle. Of these 38 inches, about 10 inches (26 percent) become runoff, which moves immediately to surface-water bodies like streams and lakes. Two inches are retained at the ground surface and evaporate back into the atmosphere in a relatively short period of time. Twenty-six of the 38 total inches enter the soil surface through infiltration. Twenty of these 26 inches go into soil storage and later are returned to the atmosphere by the combination of evaporation and transpiration (evapotranspiration). The remaining 6 inches of precipitation (16 percent of the total) have the potential to recharge the ground-water supply. Two of these 6 inches eventually move to springs, lakes, or streams as ground-water discharge. The remaining 4 inches either return to the atmosphere by evapotranspiration or are withdrawn to supply water needs. For further reading, refer to Ohio's Hydrologic Cycle, AEX 461.

Statewide averages applied to the county's average annual precipitation provide a rough estimate of how many inches may result in runoff and how many inches have the potential to reach aquifers. Based on statewide averages of runoff and ground-water recharge, Paulding County's 33.6 inches of average annual precipitation result in about 9 inches of runoff to streams and lakes, and about 5 inches have the potential to recharge aquifers annually. Values for particular locations will differ according to local conditions.

Water Use

Water use for each of Paulding County's public water-supply systems is given in Table 1. For each water system, this table presents an estimate of the population served, water source, estimated daily usage and treatment plant capacity. The county's largest public-water system is the Village of Paulding system, which uses Flatrock Creek for its supply. Other community water systems include Antwerp, Payne, and Oakwood--all of these systems use ground water.

Ground water is a major water source for rural households in Paulding County. Approximately 62 percent of the population obtains their water from private wells. Based on an estimated usage of 75 gallons per person per day, 940,000 gallons per day (gpd) from private wells are used. Additional private water uses include industry and livestock mostly from ground-water supplies. The remaining households use public-water supplies, as identified in Table 1.

Table 1. Water Use in Paulding County, Ohio.1
Public Water System	Population Served	Primary Water Source	Water Usage (GPD)2	Treatment Plant Capacity (GPD)
Paulding	3,355	Surface Water	514,000	1,500,000
Antwerp	2,000	Ground Water	367,000	216,000
Payne	1,350	Ground Water	140,000	287,000
Oakwood	780	Ground Water	112,000	216,000
Brentwood Mobile Home Court	95	Ground Water	8,600	N/A3
1 Estimates from Ohio EPA 1996; information is based on data available at time of publication.
2 GPD = gallons per day.
3 Treatment plant capacity figure not available.

Some water users in Ohio must register their withdrawals with the ODNR Division of Water. Through the Water Withdrawal Facility Registration Program, owners of facilities capable of withdrawing 100,000 gpd (70 gpm) or more must register those facilities. Information collected through this program includes withdrawal capacity, type of water sources, location and use, and location of discharge points. The program is for registration only, and not for allocation or permission. Registered withdrawers file annual reports of their water use. This information helps planners at ODNR to determine the availability of water for projected needs and to better manage and protect Ohio's water resources. Documenting water use also provides official records for individual uses. For more information, contact the ODNR Division of Water.

Water Quality

Human activities and natural processes affect the quality of our water supplies. Throughout Ohio, human activities contribute to both point and nonpoint source pollution. Point source pollution is the introduction of impurities into water (ground water or surface water) from an identifiable, known location. Examples of point sources can include industrial plants, power plants, commercial businesses, and wastewater treatment facilities.

Nonpoint source pollution also involves the introduction of impurities into a surface-water body or an aquifer, except the route is usually non-direct and the sources are diffuse in nature. A major portion of the sediment, nutrients, acids and salts, heavy metals, toxic chemicals, and pathogens enter the state's water resources through nonpoint pollution sources, affecting both ground and surface water. Examples include automobile emissions, runoff from parking lots, and runoff and drainage from agricultural fields, feedlots, home lawns and gardens, residential development, construction, mining, and logging activities.

Natural processes such as precipitation also have an impact on surface water and, to a lesser extent, ground water. For example, rainfall that is acidic ("acid rain") may alter the quality of a stream, lake, or other water resource that receives the rainfall.

Ground Water

As water moves through the fractured limestone and sand and gravel materials underlying Paulding County, it dissolves the minerals contained in these formations and carries them in solution. Publication AEX-490.63 summarizes some of the county's natural ground-water quality aspects.

Human activities, such as agricultural production, domestic waste disposal, and lawn and turf care, may have some influence on the county's ground-water quality. In a 1987 study by Heidelberg College, 331 wells in the county were sampled for nitrate-nitrogen content, an indicator of water quality. Results showed that 321 wells (97 percent of total) contained nitrate-nitrogen concentrations in the range of 0 to 0.3 parts-per-million (ppm). This range is assumed to represent natural background levels. Eight wells (2.5 percent) tested in the range of 0.3 to 3.0 ppm, values that may or may not indicate human influence. The 2 wells (0.5 percent) that tested in the range of 3.0 to 10 ppm may indicate elevated concentrations resulting from human activities. None of the wells tested over the safe drinking-water standard of 10 ppm nitrate-nitrogen. The average nitrate-nitrogen concentration for the 331 wells tested was 0.06 ppm. The design, location, and condition of a well, combined with the characteristics of the soils and geologic formations in which the well is constructed, influence the potential for pollutants to enter the well. The Paulding County Department of Health provides bacteriological water sampling for local citizens, and results of these tests generally indicate that the water meets current bacteriological standards. For more information contact the county health department (101 W. Perry, Paulding, OH 45879).

Surface Water

Runoff and sediment from residential development, construction sites and agricultural lands may enter the county's streams and lakes. Also, runoff may carry pollutants such as lawn and agricultural chemicals (pesticides and fertilizers), oil and gas from spills, and industrial wastes.

Through the Ohio Nonpoint Source Assessment and Water Resources Inventory, the Ohio Environmental Protection Agency (Ohio EPA) has identified 13,000 stream miles in Ohio that have been affected by nonpoint source pollution. Based on the findings of the Assessment and Inventory, the Ohio Nonpoint Source Management Program has been implemented to help improve the quality of the state's waters.

Water quality monitoring indicates that all or parts of the following Paulding County streams are affected by nonpoint source (NPS) pollution: Maumee River (Zuber cutoff to Gordon Creek), Gordon Creek, Auglaize River, Little Auglaize River, Flatrock Creek, and Blue Creek. These streams are affected by one or more of the following NPS pollution categories: agriculture (crop production, livestock, and speciality crops), streambank modification, on-site wastewater treatment systems, and channelization. Other county streams are affected by point source pollution (municipal and/or industrial wastewater). Point source affected streams include the Maumee River, Auglaize River, and Flatrock Creek. Paulding County also contains streams that have good water quality and are attaining chemical and biological water quality standards. Monitoring has shown that all or parts of Flatrock Creek (OH/IN border to Wildcat Creek) and Wildcat Creek have good water quality. For specific information about the streams listed in the Assessment and Inventory documents, and details about the Nonpoint Source Management Program for the county, contact the Ohio EPA Northwest District Office (347 Dunridge Road, Bowling Green, Ohio, 43402). Information about nonpoint source pollution is also discussed in Nonpoint Source Pollution: Water Primer, AEX 465, available from your county Extension office.

It is important to note that as of June 1996 less than half of Ohio's streams have been evaluated by the Assessment. As water quality monitoring continues statewide, the list of Paulding County affected streams and streams with good water quality will change. Residents have a major challenge to protect water resources from pollutants that could affect the quality of the water supply.

Summary

Water availability and quality are important public concerns. Water problems can be both costly and inconvenient. While the present availability of water is good for Paulding County, water is a precious resource that must be conserved and protected. We must all work together to maintain an adequate supply of good quality water.

This fact sheet provided information about the water resources in Paulding County. For more information concerning water resources and drinking-water quality in the county, contact the Paulding County office of Ohio State University Extension (Fairground Drive, PO Box 87, Paulding, Ohio 45879). In addition, the following agencies may be able to provide information on other water resources topics in the county: Paulding Soil and Water Conservation District; Paulding County Health Department; ODNR Division of Water (Fountain Square, Columbus, OH 43224); U.S. Geological Survey (USGS), Ohio District (975 W. Third Ave., Columbus, OH 43212); Ohio EPA (P.O. Box 1049, Columbus, OH 43216-1049); and Ohio Department of Health (ODH; P.O. Box 118, Columbus, OH 43266).

Bibliography

1990 Census and 1992 Estimates of Ohio's Population: State, Counties, Cities, and Villages. 1994. Ohio Department of Development.

Doane's Agricultural Report. 1992. Farm Water Systems.

Estimated Water Use in Ohio, 1990, Public Supply Data. 1993. USGS. Open-File Report 93-72.

Gazetteer of Ohio Streams. 1960. Ohio Water Inventory Report No.12. ODNR Div. of Water.

Ground-Water Resources of Paulding County. 1986. J. M. Raab. ODNR Div. of Water. (map).

Hydrologic Atlas for Ohio: Average Annual Precipitation, Temperature, Streamflow, and Water Loss for the 50-Year Period 1931-1980. 1991. L. J. Hartstine. Water Inventory Report No. 28. ODNR Div. of Water.

Inventory of Municipal Water-Supply Systems by County, Ohio. 1977. Ohio Water Inventory Report No. 24. ODNR Div. of Water.

Inventory of Ohio's Lakes. 1980. Ohio Water Inventory Report No. 26. ODNR Div. of Water.

Monthly Station Normals of Temperature, Precipitation, and Heating and Cooling Degree Days, 1961-90, Ohio. 1992. Climatology of the United States, No. 81 (by state). NOAA.

Nitrate and Pesticides in Private Wells of Ohio: A State Atlas. 1989. Water Quality Laboratory, Heidelberg College.

Nitrate In Drinking Water. 1987. K. M. Mancl. Bulletin No. 744. Ohio State University Extension.

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Ohio Ground-Water Quality. USGS National Water Summary--Ohio. 1986. USGS. Water-Supply Paper 2325.

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Acknowledgments

This publication was produced through the Ohio Water Resources Education Project, in cooperation with: ODNR Division of Water; Ohio EPA; USGS, Ohio District; and ODH. Project leaders are Larry C. Brown and Karen T. Ricker. Partial financial support for this publication was provided by these cooperating agencies and programs: Paulding County office of OSU Extension; Paulding County Commissioners, Overholt Drainage Education and Research Program; and the Ohio Management Systems Evaluation Area Project (USDA CREES Grant No. 94-EWQI-1-9057).

The project leaders express appreciation to the following reviewers: Liz Pessefall and Tim Franklin (Paulding Soil Water Conservation District), Al Moore (USDA Natural Resources Conservation Service), A. Wayne Jones, David Cashell and Leonard Black (ODNR Division of Water); Scott Golden (Bureau of Local Services, ODH); Steve Hindall (USGS, Ohio District); Anthony J. Kramer (USDA Natural Resources Conservation Service, State Office, Columbus); Julie Gillenwater (Ohio EPA Division of Drinking and Ground Waters); and Larry Antosch and Richard McClay (Ohio EPA Division of Surface Water).

A special thanks to Vicki Ramirez and Lou Ann Wannamacher (Paulding County Extension), and Kim Wintringham, Associate Editor (Section of Communications and Technology, Ohio State University Extension), for editorial and graphic production.