Effects of urbanization on watershed hydrology: The scaling of discharge with drainage area

Galster, Joshua C.; Pazzaglia, Frank J.; Hargreaves, Bruce R.; Morris, Donald P.; Peters, Stephen C.; Weisman, Richard N.

doi:10.1130/g22633.1

Cited by 63 publications

(57 citation statements)

References 15 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…3). A linear relationship between upstream drainage area and discharge has been commonly assumed in small basins (e.g., Pazzaglia et al, 1998;Montgomery and Gran, 2001), but for larger rivers this relationship may become nonlinear if the basin includes variations in geology, tectonic deformation, climate, or land use (Stall and Fok, 1968;Galster et al, 2006;Tague and Grant, 2004). To account for these variations, we developed discharge-drainage area relationships for individual sub-basins using values of discharge and drainage area for all USGS stations with ≥ 10 years of approved mean annual discharge.…”

Section: Construction Of Downstream Hydraulic Geometrymentioning

confidence: 99%

Quantifying river form variations in the Mississippi Basin using remotely sensed imagery

Miller

Pavelsky

Allen

2014

Hydrol. Earth Syst. Sci.

View full text Add to dashboard Cite

Abstract. Geographic variations in river form are often estimated using the framework of downstream hydraulic geometry (DHG), which links spatial changes in discharge to channel width, depth, and velocity through power-law models. These empirical relationships are developed from limited in situ data and do not capture the full variability in channel form. Here, we present a data set of 1.2 × 10 6 river widths in the Mississippi Basin measured from the Landsat-derived National Land Cover Dataset that characterizes width variability observationally. We construct DHG for the Mississippi drainage by linking digital elevation model (DEM)-estimated discharge values to each width measurement. Welldeveloped DHG exists over the entire Mississippi Basin, though individual sub-basins vary substantially from existing width-discharge scaling. Comparison of depth predictions from traditional depth-discharge relationships with a new model incorporating width into the DHG framework shows that including width improves depth estimates by, on average, 24 %. Results suggest that channel geometry derived from remotely sensed imagery better characterizes variability in river form than do estimates based on DHG.

show abstract

Section: Construction Of Downstream Hydraulic Geometrymentioning

confidence: 99%

Quantifying river form variations in the Mississippi Basin using remotely sensed imagery

Miller

Pavelsky

Allen

2014

Hydrol. Earth Syst. Sci.

View full text Add to dashboard Cite

show abstract

“…Land use can also change the concentration and/or optical quality of dissolved organic carbon (DOC) transported from the watershed (Frost et al, 2005). Conversion of forest to agricultural or urban land use, for example, can change the quantity and grain size distribution of sediment contributed to the stream (Kondolf et al, 2002), which has implications for stream channel morphology (Leopold et al, 1964;Pizzuto et al, 2000;Galster et al, 2006). For example, transition to a wider, shallower channel increases UVR exposure on the benthos.…”

Section: Land Use Effects On Stream Optical Environmentmentioning

confidence: 99%

“…For example, transition to a wider, shallower channel increases UVR exposure on the benthos. Loss of riparian vegetation can have the direct effect of causing an instantaneous, localized increase in UVR flux reaching the stream (DeNicola et al, 1992;Kelly et al, 2003;Brown et al, 1994) or indirectly increase benthic exposure to UVR through bank destabilization (Hession et al, 2003), which could also lead to channel widening and shallowing (Galster et al, 2006). Current lack of understanding of how upland hillslope form and geomorphic process influence many of the environmental parameters that influence UVR transparency is a critical limitation on the development of broadly applicable, predictive models of UVR penetration in streams.…”

Section: Land Use Effects On Stream Optical Environmentmentioning

confidence: 99%

Penetration of ultraviolet radiation in streams of eastern Pennsylvania: Topographic controls and the role of suspended particulates

et al. 2009

Self Cite

View full text Add to dashboard Cite

Penetration of ultraviolet radiation (UVR) in stream ecosystems is determined by the concentration and optical properties of suspended sediment and dissolved organic carbon (DOC). This study documents the base-flow optical environment of 37 first-and second-order tributaries distributed throughout the Lehigh River watershed, eastern Pennsylvania, over a four year period. We measured a large range of attenuation coefficients (K d380 : 0.68 -151.1 m -1 , K d320 : 0.95 -316.2 m -1 ) and 1 % transmission depths (2 cm -147 cm). In addition, we quantified the significance of particulate material in UVR attenuation in streams, which generally accounted for 10 -30 % of attenuation for the UV-B waveband. Our results indicated that basin morphology, particularly mean watershed slope (MWS), was highly correlated with UVR penetration (MWS:K d320 , r 2 = 0.68, P < 0.0001), DOC concentration (MWS:DOC, r 2 = 0.65, P < 0.0001), and DOC optical quality (MWS:Fluorescence Index, r 2 = 0.71, P < 0.0001). The fact that these relationships are robust across a variety of watersheds that differ in land use, forest coverage, and wetland coverage, indicates that the geomorphic coevolution of hillslope form and process exert a strong control on stream optical environments via the establishment of hydrologic and edaphic conditions. Agricultural land use exerts secondary, but discernable effects on DOC concentration (% Agriculture:DOC, r 2 = 0.39, P = 0.012) and optical quality (% Agriculture:Fluorescence Index, r 2 = 0.32, P = 0.036) in watersheds devoid of wetlands.

show abstract

“…Human development of watersheds, particularly urbanization and agriculture, has a strong impact on the quality and ecological functions of aquatic systems (Booth and Jackson, 1997;King et al, 2005;Galster et al, 2006;Brown et al, 2009;Johnson and Host, 2010). Urbanization is typically positively correlated with the concentrations and loads of many contaminants, including nutrients, sediments, heavy metals, petroleum products, salts, fecal indicator bacteria, organic contaminants and others (Paul and Meyer, 2001).…”

Section: Introductionmentioning

confidence: 99%

Evaluating a Great Lakes scale landscape stressor index to assess water quality in the St. Louis River Area of Concern

Bartsch

Axler

Host

2015

Journal of Great Lakes Research

View full text Add to dashboard Cite

Effects of urbanization on watershed hydrology: The scaling of discharge with drainage area

Cited by 63 publications

References 15 publications

Quantifying river form variations in the Mississippi Basin using remotely sensed imagery

Quantifying river form variations in the Mississippi Basin using remotely sensed imagery

Penetration of ultraviolet radiation in streams of eastern Pennsylvania: Topographic controls and the role of suspended particulates

Evaluating a Great Lakes scale landscape stressor index to assess water quality in the St. Louis River Area of Concern

Contact Info

Product

Resources

About