Hydrological Impacts of Urbanization: White Rock Creek, Dallas Texas

Vicars, Julie Anne Groening

12 1900

This research project concerns changes in hydrology resulting from urbanization of the upper sub-basin of the White Rock Creek Watershed in Collin and Dallas Counties, Texas. The objectives of this study are: to calculate the percent watershed urbanized for the period of 1961 through 1968 and the period of 2000 through 2005; to derive a 1960s average unit hydrograph and a 2000s average unit hydrograph; and, to use the two averaged hydrographs to develop a range of hypothetical storm scenarios to evaluate how the storm response of the watershed has changed between these two periods. Results of this study show that stormflow occurs under lower intensity precipitation in the post-urbanized period and that stormflow peaks and volumes are substantially larger compared to the pre-urbanized period. It is concluded that changes in watershed surface conditions resulting from urbanization have lowered the precipitation-intensity threshold that must be surpassed before storm run-off is generated.

White Rock Creek Watershed (Tex.)

urbanization

hydrology

unit hydrograph

Development and Application of a Method for Determination of Metals in Environmental Sediments

Nguyen, Tuong Van

04 May 2023

No description available.

Analytical Chemistry

Yellow Creek watershed

Metals

ICP-MS

Sediments

The Influence of Land Use on Sediment Quality in the Mill Creek Watershed

Ampomah, Shadrack, AMPOMAH

04 May 2018

No description available.

Environmental Science

Land Use Planning

Soil Sciences

Water Resource Management

Geographic Information Science

Mill Creek Watershed, Youngstown, Ohio

Sediment quality in Mill Creek Watershed

REMEDIATION OF ACID MINE DRAINAGE AND METAL RETENTION BY NATURALLY OCCURRING ACID WETLANDS IN PIERCE RUN WATERSHED, RACCOON CREEK, OHIO

Hovart, Amy Lora

January 2006

No description available.

acid mine drainage

wetlands

metals retention

Raccoon Creek Watershed

remediation

Effects of Adjacent Land-use Practices and Environmental Factors on Riparian Vegetation and Water Quality in the Sugar Creek Watershed, Northeastern Ohio

Whitman, Heather L.

25 September 2009

No description available.

Ecology

Sugar Creek watershed

riparian

riparian vegetation

Ohio

Economic inventory and value added estimates of the natural resources of a watershed region located in the Appalachian Highland area of Ohio /

Drugge, Sten Erik

January 1964

No description available.

Economics

Natural resources

Raccoon Creek Watershed

Ohio

Watersheds

THE CONTROLS AND DRIVERS OF DISSOLVED ORGANIC CARBON QUANTITY AND DISSOLVED ORGANIC MATTER QUALITY IN AN IMPACTED GREAT LAKES WATERSHED

Singh, Supriya

January 2019

Intensely managed and modified catchments in the Great Lakes are linked to eutrophication and hypoxia of receiving water bodies downstream, resulting in water quality impairment, and adverse impacts on aquatic ecology. While much focus has been on the role of phosphorous and nitrogen, dissolved organic carbon (DOC) plays a complex and critical role in lake biogeochemical cycles, as it influences the interations between nutrients and contaminants in water and soil through processes of mobilization, transport, biological uptake, and deposition. Human-dominated landscapes have a range of consequences on DOC dynamics as catchment hydrology, plant cover, and nutrient inputs are altered in these environments. As such, the objectives of this study were to identify the controls and drivers of DOC quantity and DOM quality in the Spencer Creek watershed, which is the largest contributor of water to Cootes Paradise that ultimately drains into Lake Ontario. The 159 km2 study area of the catchment is complex, as the present landscape is composed of a mosaic of various land uses including agriculture, forest, wetland, urban, and industrial regions. Flow alterations contribute to the complexity of the watershed as there are managed reservoirs and alterations in water courses. From 2016- 2018, hydrometric data was collected across 9 monitoring sites, along with surface water samples that were analyzed for DOC concentration and optical properties. Results indicate differences in flow magnitudes and stream DOC between dry and wet conditions, where concentrations during wet conditions were significantly higher compared to dry. Additionally, there was substantial variation in DOC concentration and quality across the Spencer Creek watershed. DOC concentrations were found to be the lowest at groundwater influenced sites in the headwaters of the watershed, and the highest in the mid-catchment region where DOC quality was strongly influenced by wetland sources. The reservoir-influenced sites showed relatively intermediate concentrations of DOC, with quality that exhibited strong microbial signatures. At the outlet, DOC concentrations were attenuated and DOC quality was intermediate between allochthonous and autochthonous end members, reflecting upstream mixing processes. These processes were presented as a conceptual model of water and DOC movement through the Spencer Creek watershed. The implications of this research suggest that with anticipated wetter and warmer conditions DOC concentrations would increase in the watershed. The repercussions of increased DOC concentrations overall imply a decrease of terrestrial carbon storage, and greater input into more reactive and susceptible pools, which may result in further water quality degradation. Overall, the findings from this research provide insight into the fate and transport of water and DOC in a complex, managed catchment in the Great Lakes region, with the aims of providing key information for local stakeholders. / Thesis / Master of Science (MSc)

dissolved organic carbon

hydrology

dissolved organic matter

Spencer Creek Watershed

Late archaic variability and change on the southern Columbia plateau : archaeological investigations in the Pine Creek drainage of the Middle John Day River, Wheeler County, Oregon

Endzweig, Pamela

06 1900

2 v. (xxiii, 627 p.): ill., maps. A print copy of this title is available through the UO Libraries under the call number: KNIGHT E78.O6 E53 1994 / A major concern of Columbia Plateau archaeology has been the development of the ethnographic "Plateau pattern." Observed during historic times, this lifeway focused on permanent riverine winter villages and intensive use of anadromous fish, with ephemeral use of interior tributaries and uplands for hunting and root gathering. Constrained by a salvage-driven orientation, past archaeological research on the Plateau has been biased towards major rivers, leaving aboriginal lifeways in the interior to be interpreted on the basis of ethnographic analogy, rather than archaeological evidence. The present study utilizes museum collections from the Pine Creek basin, a small tributary of the John Day River, to provide information on prehistoric lifeways in a non-riverine Plateau setting. Cultural assemblages and features from two sites, 35WH7 and 35WH14, were described, classified, and analyzed with regard to temporal distribution, spatial and functional patterning, and regional ties. At 35WH14, evidence of semisubterranean pithouses containing a rich and diverse cultural assemblage suggests long-term and repeated residential occupation of this site by about 2600 B.P. This contrasts with the ephemeral use predicted for the area by ethnographic accounts. Faunal remains identified from 35WH7 and 35WH14 show a persistent emphasis on deer, and little evidence for use of fish; this non-riverine economic base represents a further departure from the ethnographic "Plateau pattern." At both 35WH14 and 35WH7, large pithouses are not evident in components dating after 900 B.P., reflecting a shift to shorter sojourns at these sites. Use of the Study Area as a whole persists, however, and is marked by a proliferation of radiocarbon-dated occupations between 630 and 300 B.P. Clustering of radiocarbon dates from ten sites in the Study Area shows correlations with regional environmental changes. Both taphonomic and cultural factors are discussed. Reduced human use of the area after 300 B.P. is reflected in an abrupt decline in radiocarbon-dated occupations and the near-absence of Euroamerican trade goods. The role of precontact introduced epidemics is considered. Further consideration of spatial and temporal variability in Late Archaic Plateau prehistory is urged. / Committee in charge: Dr. C. Melvin Aikens, Co-chair; Dr. Don E. Dwnond, Co-chair; Dr. Ann Simonds; Dr. Patricia F. McDowell

The influence of contemporary forest management on stream nutrient concentrations in an industrialized forest in the Oregon Cascades

Meininger, William Scott

19 December 2011

The increased demand for wood and fiber from a continually shrinking land base has resulted in the use of intensively managed forest plantations. The concentration of timber production on the most suitable sites allows the world's demand for forest products to be met on less land and enable native forests to be conserved. Because much of the water flowing in rivers in the U.S. originates as precipitation in forests, there is a justified concern about the impacts of forest management on water quality. Nutrient concentrations were measured in eight streams from October 2002 to September 2011 to assess nutrient response to contemporary forest practices at the Hinkle Creek Paired Watershed Study in the Oregon Cascades. This period of time included a two-year pre-treatment calibration between control and treatment watersheds, a fertilization treatment of both basins in October 2004, and a post-treatment period from 2005 to 2011. A treatment schedule comprised of two temporally explicit harvest entries was used to assess the effects of clearcutting at the non-fish-bearing headwater scale and the fish-bearing watershed scale. Stream water samples were analyzed for nitrogen, phosphorus, calcium, sodium, potassium, magnesium, sulfate, chloride, and silicon as well as specific conductance, pH, and alkalinity. Programmable water samplers were used to take water samples during fall freshets in November 2009 to assess the stream water discharge versus NO₃ + NO₂ concentration relationship. All treatment watersheds showed a statistically significant increase in NO₃ + NO₂ concentrations after clearcutting (p < 0.001). The slope of the streambed through the disturbance was a stronger predictor of the magnitude of the response than was the magnitude of disturbance. Ammonia and organic nitrogen displayed notable increases after harvest treatment, but these increases were attributed to increases in the control watersheds. Phosphorus showed a response to timber harvest in one headwater stream. The remaining nutrients showed a small decrease in the control and treatment watersheds for the period after harvest. There was some evidence to suggest that the addition of urea nitrogen to both basins may have caused an increase in in-stream biota uptake of these nutrients. The storm response results showed that NO₃ + NO₂ concentrations in stream water increase with discharge during small storms that occur after periods of negligible precipitation. Concentrations of NO₃ + NO₂ observed during the calibration period were similar to concentrations observed in an old-growth forest in the H.J. Andrews, suggesting that nutrient processing within the Hinkle Creek watershed had returned to levels that existed prior to its initial harvest sixty years ago. This finding helps to assess long-term impacts of shorter rotation timber harvest of regenerated Douglas-fir stands characteristic of industrialized timber harvest in Oregon. / Graduation date: 2012

harvest

nutrients

watershed

nitrate

Climatic conditions and storm hydrology of a small agricultural watershed

Edelstein, Christopher

January 2005

Climatic conditions (precipitation, evapotranspiration, available soil moisture, and temperature) are important variables when considering cumulative storm streamflow for a watershed. The objective of this study was to determine what climatic conditions, if any, could be used to mathematically model cumulative storm streamflow for an extensively-drained small agricultural watershed in northwest Delaware County, Indiana. A water-level recorder was installed in Killbuck Creek during autumn 2002, spring, summer, and autumn 2003 and 2004. To determine discharge, velocity measurements were collected following US Geological Survey (USGS) methods and two rating curves (high and low flow) were constructed. Simple linear regressions were performed using cumulative streamflow as the dependent variable and precipitation, evapotranspiration, available soil moisture, temperature, and runoff as independent variables. Multiple linear regressions were used to examine combinations of the independent variables. Cumulative streamflow was most related to precipitation (r2 = 0.23 and p < 0.001) and least related to temperature (r2 = 0.03 and p < 0.5). The multiple linear regression from the combination of precipitation, runoff, and temperature provided the most accurate cumulative streamflow simulation (R2 = 0.53 and p < 0.001). Multiple linear regressions using climatic variables can be used to estimate cumulative streamflow for an agricultural watershed. / Department of Natural Resources and Environmental Management