Lawsuit Filed against Myrtle Beach for Racially Discriminatory Practices during Black Bike Week

Hurricane Matthew (2016) caused significant beach and dune erosion from Cape Hatteras, North Carolina, USA, to Cape Canaveral, Florida, USA. At Myrtle Beach, South Carolina, the storm caused beach recession, and much of the southern half of the city’s beaches appeared to be overwashed in post-storm surveys. Around half of the city’s beaches appeared overwashed following the storm; however, the Storm Impact Scale (SIS; Sallenger 2000) applied to a pre-storm elevation model suggests less than 10% of the city’s beaches should have experienced overwash. Spatial analysis of elevation and land cover data reveals dunes that were “overwashed” during Matthew drain from watersheds that are >35% impervious, where those showing only dune recession are <5% impervious. The densely developed downtown of Myrtle Beach sits on a low seaward-sloping terrace. Additionally, indurated strata beneath the downtown area can prevent groundwater from draining during excessive rain events. As a result, the most continuous impervious surface cover and near-surface strata lie within a half-kilometer of the beach and drain directly to the backshore. Along the U.S. Southeast coast, this is somewhat rare; many coastal systems feature a lagoon or low-lying bottomland along their landward border, which facilitates drainage of upland impervious surfaces following storm passage. At Myrtle Beach, all of the stormwater runoff is drained directly to the beach through a series of outfall pipes. Many of the outfall pipes are located along the backshore, near the elevation of storm surge during Matthew. Runoff from Matthew’s heavy rains was observed causing ponding on the landward side of the foredune and scouring around beach access walkways. Based on these observations, the severe dune erosion experienced near downtown Myrtle Beach during Hurricane Matthew may have been caused by runoff and/or groundwater flux rather than overwash. These results highlight an unexpected relationship between upland conditions and dune erosion on a developed shoreline. That is, dune erosion can be caused by mechanisms beside overwash during storm events.

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Model Results and Software Comparisons in Myrtle Beach, SC Using Virtual Beach and R Regression Toolboxes

The Journal of South Carolina Water Resources ◽

10.34068/jscwr.02.09 ◽

2015 ◽

pp. 80-85

Author(s):

Matthew J. Neet ◽

R. Heath Kelsey ◽

Dwayne E. Porter ◽

Dan W. Ramage ◽

Adrian B. Jones

Keyword(s):

Environmental Protection Agency ◽

Ease Of Use ◽

Statistical Interpretation ◽

Protection Agency ◽

R Software ◽

Robust Model ◽

Myrtle Beach ◽

Model Setup ◽

User Friendly ◽

Forecast Modeling

Utilizing R software and a variety of data sources, daily forecasts of bacteria levels were developed and automated for beach waters in Myrtle Beach, SC. Modeled results are then shown for beach locations via a website and mobile device app. While R provides a robust set of tools for use in forecast modeling, the software has an extensive learning curve and requires skilled statistical interpretation of results. The Environmental Protection Agency (EPA) created the “Virtual Beach” software package to address these concerns. To evaluate the utility of the more user-friendly Virtual Beach modeling toolbox, predictive models were developed and model results were analyzed using the two software suites. Recommendations were made based on ease of use and several performance measures. Model results indicate the two software toolboxes yield comparable outputs. However, Virtual Beach tends to create more robust model forecasts, while R provides more options for model setup and outputs.

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Water quality in the Withers Swash Basin, with emphasis on enteric bacteria, Myrtle Beach, South Carolina, 1991-93

10.3133/wri954125 ◽

1995 ◽

Keyword(s):

Water Quality ◽

South Carolina ◽

Enteric Bacteria ◽

Myrtle Beach

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Long Bay Hypoxia Monitoring Consortium

The Journal of South Carolina Water Resources ◽

10.34068/jscwr.01.04 ◽

2014 ◽

pp. 26-31 ◽

Cited By ~ 1

Author(s):

Susan Libes ◽

J. Michael Trapp ◽

Scott Kindelberger ◽

Danielle Doremus

Keyword(s):

Water Quality ◽

Water Quality Management ◽

Web Based ◽

Larval Recruitment ◽

Biological Responses ◽

Myrtle Beach ◽

Long Bay ◽

Weather Stations ◽

Education Outreach ◽

Horry County

In October 2011, the coastal municipalities of North Myrtle Beach, Myrtle Beach, Surfside, and Horry County signed a resolution, under the aegis of their Coastal Alliance of mayors, to develop and implement the Long Bay Hypoxia Monitoring Consortium. The goal of this consortium is to support monitoring and studies that further characterize hypoxia and its causes in Long Bay. The baseline data will enable assessments of water quality management efforts. Monitoring stations are to be maintained at three piers, Cherry Grove (NMB), Apache (Horry County), and Second Ave N. Pier (Myrtle Beach). Turbidity and chlorophyll sensors will be deployed at two piers and radon detectors at three piers. All piers will have weather stations. Data will be accessible via a real-time public website. Biological responses to low dissolved oxygen (DO) will be assessed via monitoring of larval recruitment and net plankton. The S.C. Department of Natural Resources (SCDNR) is also conducting creel surveys at the piers. These efforts are being coordinated with a marine education outreach campaign that includes signage at the piers, presentations at pier events, and web-based content.

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Hydrodynamic Drivers of Dissolved Oxygen Variability within a Tidal Creek in Myrtle Beach, South Carolina

Water ◽

10.3390/w11081723 ◽

2019 ◽

Vol 11 (8) ◽

pp. 1723 ◽

Cited By ~ 2

Author(s):

Douglas M. Pastore ◽

Richard N. Peterson ◽

Diane B. Fribance ◽

Richard Viso ◽

Erin E. Hackett

Keyword(s):

Water Quality ◽

South Carolina ◽

Dissolved Oxygen ◽

Tidal Creek ◽

Water Levels ◽

Beach Erosion ◽

Shear Stresses ◽

Myrtle Beach ◽

Do Concentration ◽

Face Morphology

Beach erosion and water quality degradation have been observed in Singleton Swash, a tidal creek that traverses the beach-face connecting land and ocean in Myrtle Beach, SC. The objective of this study in Singleton Swash is to explore relationships between water quality and hydrodynamics, where the latter are influenced by beach face morphology. We measure water velocities, water levels, and dissolved oxygen concentrations (DO) (a proxy for water quality) and apply correlation analysis to examine the relationships between physical processes and dissolved oxygen variations. Results show that larger tidal ranges are associated with higher mean levels of DO in the tidal creek. The larger tidal ranges are linked to larger magnitude currents, which increase both the DO transport via larger fluxes of oxygenated oceanic water into the swash and the magnitude of Reynolds shear stresses; due to tidal asymmetries, flood currents are stronger than ebb currents in this system. Based on these results, it is concluded that the combined transport of oxygenated waters into the tidal creek from the ocean on large flood tides and subsequent mixing due to large Reynolds shear stresses result in the observed net DO concentration increases in the creek over tidal cycles.

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Comparison of Amino Acid Racemization Geochronometry with Lithostratigraphy, Biostratigraphy, Uranium-Series Coral Dating, and Magnetostratigraphy in the Atlantic Coastal Plain of the Southeastern United States

Quaternary Research ◽

10.1016/0033-5894(82)90078-3 ◽

1982 ◽

Vol 18 (3) ◽

pp. 337-359 ◽

Cited By ~ 53

Author(s):

L. McCartan ◽

J. P. Owens ◽

B. W. Blackwelder ◽

B. J. Szabo ◽

D. F. Belknap ◽

...

Keyword(s):

South Carolina ◽

Amino Acid ◽

Coastal Plain ◽

Atlantic Coastal Plain ◽

Amino Acid Racemization ◽

Uranium Series ◽

Myrtle Beach ◽

Atlantic Coastal ◽

North And South ◽

Integrated Study

AbstractThe results of an integrated study comprising litho- and biostratigraphic investigations, uranium-series coral dating, amino acid racemization in molluscs, and paleomagnetic measurements are compared to ascertain relative and absolute ages of Pleistocene deposits of the Atlantic Coastal Plain in North and South Carolina. Four depositional events are inferred for South Carolina and two for North Carolina by all methods. The data suggest that there are four Pleistocene units containing corals that have been dated at about 100,000 yr, 200,000 yr, 450,000 yr, and over 1,000,000 yr. Some conflicts exist between the different methods regarding the correlation of the younger of these depositional events between Charleston and Myrtle Beach. Lack of good uranium-series dates for the younger material at Myrtle Beach makes the correlation with the deposits at Charleston more difficult.

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