Relevant bibliographies by topics / Myrtle beech

Academic literature on the topic 'Myrtle beech'

Author: Grafiati
Published: 10 December 2022
Last updated: 29 January 2023

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Journal articles on the topic "Myrtle beech"

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Dean, Christopher, and Ernst Horn. "A hard, high-carbon, lignomor with conchoidal fracture: Cunnite, from mature myrtle beech (Nothofagus cunninghamii (Hook. f.) Oerst.)." Geoderma 333 (January 2019): 178–87. http://dx.doi.org/10.1016/j.geoderma.2018.07.006.

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Yazaki, Yoshikazu. "Wood Colors and their Coloring Matters: A Review." Natural Product Communications 10, no. 3 (March 2015): 1934578X1501000. http://dx.doi.org/10.1177/1934578x1501000332.

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A number of colored specialty woods, such as ebony, rosewood, mahogany and amboyna, and commercially important woods, such as morus, logwood, Brazilwood, Japanese yellowwood, blackwood, kwila, red beech and myrtle beech, exhibit a wide range of colors from black, violet, dark red, reddish brown, to pale yellow. These colors are not only due to colored pigments contained in extractives from those woods but also to insoluble polymers. Wood and bark from many species of both hardwood and softwood trees contain many types of flavonoid compounds. Research on flavonoids has been conducted mainly from two points of view. The first is chemotaxonomy with flavonoid compounds as taxonomic markers, and the second relates to the utilization of woods for pulp and paper and the use of tannins from bark for wood adhesives. Most chemotaxonomic studies have been conducted on flavonoids in the extracts from softwoods such as Podocarpus, Pinus, Pseudotsuga, Larix, Taxus, Libocedrus, Tsuja, Taxodium, Sequoia, Cedrus, Tsuga, Abies and Picea. Hardwood chemotaxonomic studies include those on Prunus and Eucalyptus species. Studies on flavonoids in pulp and paper production were conducted on Eucalyptus woods in Australia and woods from Douglas fir in the USA and larch in Japan. Flavonoids as tannin resources from black wattle tannin and quebracho tannin have been used commercially as wood adhesives. Flavonoids in the bark from radiata pine and southern pine, from western and eastern hemlock, southern red oak and Quercus dentata are also discussed. In addition, the distribution of flavonoids among tree species is described, as is the first isolation of rare procyanidin glycosides in nature.
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Lindenmayer, D. B., B. G. Mackey, R. B. Cunningham, C. F. Donnelly, I. C. Mullen, M. A. McCarthy, and A. M. Gill. "Factors affecting the presence of the cool temperate rain forest tree myrtle beech (Nothofagus cunninghamii) in southern Australia: integrating climatic, terrain and disturbance predictors of distribution patterns." Journal of Biogeography 27, no. 4 (July 2000): 1001–9. http://dx.doi.org/10.1046/j.1365-2699.2000.00443.x.

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Polly, Drew. "Myrtle Beach boardwalk." Teaching Children Mathematics 18, no. 8 (April 2012): 468–71. http://dx.doi.org/10.5951/teacchilmath.18.8.0468.

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This department showcases students' in-depth thinking and work on problems previously published in TCM. Five teachers report on their students' responses to the April 2011 problem scenario, which has students use familiar fact families to help determine inequalities.
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Walton, John K. "Myrtle Beach: a history, 1900–1980." Journal of Tourism History 4, no. 3 (November 2012): 327–29. http://dx.doi.org/10.1080/1755182x.2012.720133.

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Geissele, Al. "Sunrise Over Myrtle Beach, South Carolina." Spine 38, no. 14 (June 2013): i. http://dx.doi.org/10.1097/brs.0b013e31829be4aa.

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Libes, Susan, J. Michael Trapp, Scott Kindelberger, and Danielle Doremus. "Long Bay Hypoxia Monitoring Consortium." Journal of South Carolina Water Resources, no. 1 (June 1, 2014): 26–31. http://dx.doi.org/10.34068/jscwr.01.04.

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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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Neet, Matthew J., R. Heath Kelsey, Dwayne E. Porter, Dan W. Ramage, and Adrian B. Jones. "Model Results and Software Comparisons in Myrtle Beach, SC Using Virtual Beach and R Regression Toolboxes." Journal of South Carolina Water Resources, no. 2 (June 1, 2015): 80–85. http://dx.doi.org/10.34068/jscwr.02.09.

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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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Fite, Kelby, E. Thomas Smiley, John McIntyre, and Christina Wells. "Evaluation of a Soil Decompaction and Amendment Process for Urban Trees." Arboriculture & Urban Forestry 37, no. 6 (November 1, 2011): 293–300. http://dx.doi.org/10.48044/jauf.2011.038.

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Researchers investigated the effects of a soil decompaction and amendment process (AFM) and its individual components (air tillage, fertilizer, and mulch) on soil properties at four urban sites: Anderson, South Carolina; Boston, Massachusetts; Myrtle Beach, South Carolina; and Pittsburgh, Pennsylvania, U.S. At each site, 50 red maples (Acer rubrum) were growing on compacted and/or nutrient-poor soils whose pretreatment bulk densities ranged from 1.14 to 1.74 g/cm3. Treatments were applied in the autumn and winter of 2005–2006, and measurements were taken through the end of 2008. The AFM treatment significantly reduced soil strength relative to control at all sites in 2006. There were significant treatment × location interactions in all years, with higher bulk density sites (Anderson and Myrtle Beach) showing the greatest magnitude and duration of response. The AFM and mulch treatments generally increased soil organic matter content, while air tillage alone significantly lowered soil organic matter content in Pittsburgh. At most sites, the AFM treatment was more effective than surface fertilizer application at improving soil fertility. AFM and mulched plots had significantly higher soil water content than other plots during periods of summer drought. Overall, AFM was effective in improving soils beneath established trees, and mulching was the most beneficial of the individual treatments.
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Pastore, Douglas M., Richard N. Peterson, Diane B. Fribance, Richard Viso, and Erin E. Hackett. "Hydrodynamic Drivers of Dissolved Oxygen Variability within a Tidal Creek in Myrtle Beach, South Carolina." Water 11, no. 8 (August 19, 2019): 1723. http://dx.doi.org/10.3390/w11081723.

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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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Dissertations / Theses on the topic "Myrtle beech"

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Demir, Huseyin. "A Process-Based Model for Beach Profile Evolution." Diss., Georgia Institute of Technology, 2007. http://hdl.handle.net/1853/19811.

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Beach profile models predict the changes in bathymetry along a line perpendicular to the shoreline. These models are used to forecast bathymetric changes in response to storms, sea level rise or human activities such as dredging and beach nourishment. Process-based models achieve this by simulating the physical processes that drive the sediment transport as opposed to behavior models which simulate observed profile changes without resolving the underlying processes. Some of these processes are wave shoaling and breaking, boundary layer streaming, and offshore-directed undertow currents. These hydrodynamic processes control the sediment processes such as sediment pick-up from the bottom, diffusion of the sediment across the water column and its advection with waves and currents. For this study, newly developed sediment transport and boundary layer models were coupled with existing models of wave transformation, nearshore circulation and bathymetry update, to predict beach profile changes. The models covered the region from the dry land to a depth of 6-8 meters, spanning up to 500 meters in the cross-shore direction. The modeling system was applied at storm time scales, extending from a couple of hours to several days. Two field experiments were conducted at Myrtle Beach, SC, involving the collection of wave, current and bathymetric data as a part of this study. The results were used to calibrate and test the numerical models along with data from various laboratory studies from the literature. The sediment transport model computes the variation of sediment concentrations over a wave period and over the water column, solving the advection-diffusion equation using the Crank-Nicholson finite-difference numerical scheme. Using a new approach, erosion depth thickness and sediment concentrations within the bed were also predicted. The model could predict sediment transport rates for a range of conditions, within a factor of two. It successfully computed the sediment concentration profile over the water column and within the bed and its variation throughout a wave period. Erosion depth and sheet flow layer thickness were also predicted reasonably well. Wave heights across the profile were predicted within ten percent when the empirical wave breaking parameter was tuned appropriately. Mean cross-shore velocities contain more uncertainty, even after tuning. The importance of capturing the location of the maximum, near-bottom, cross-shore velocity when predicting bar behavior was shown. Bar formation, erosion, accretion, onshore and offshore bar movement were all computed with the model successfully
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Books on the topic "Myrtle beech"

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1958-, McDonald Janice, ed. Myrtle Beach Pavilion. Charleston, SC: Arcadia Pub., 2010.

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Gilbert, Marie. Myrtle Beach back when. Laurinburg, N.C: St. Andrews, 1989.

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Nooe, Troy D. Damn yankee: Murder in Myrtle Beach. Banner Elk, NC: Ingalls Pub. Group, 2012.

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McMillan, Susan Hoffer. Myrtle Beach and the Grand Strand. Charleston, SC: Arcadia, 2004.

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Nooe, Troy D. The ocean forest: Murder in Myrtle Beach. Banner Elk, NC: Ingalls Pub. Group, 2011.

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Hardee, Lesta Sue. Legendary locals of Myrtle Beach, South Carolina. Charleston, South Carolina: Legendary Locals, 2014.

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Long-legged Rosie: Murder in Myrtle Beach. Banner Elk, NC: Ingalls Publishing Group, 2015.

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8

Castro, Joffre. Aquifer storage and recovery, Myrtle Beach, South Carolina. [Columbia, S.C.]: State of South Carolina, Department of Natural Resources, Water Resources Division, 1995.

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The history of the Dunes Golf and Beach Club. Virginia Beach, Va: Donning Co., 2005.

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DuBard, Trip. A visitor's guideto Myrtle Beach and the Grand Strand. Charleston, SC: Wyrick & Co, 1994.

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Book chapters on the topic "Myrtle beech"

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"chapter four DIVING INTO THE RACIAL WATERS OF BEACH S PACE IN JAMAICA Tropical Modernity and the Myrtle Bank Hotel’s Pool." In An Eye for the Tropics, 204–83. Duke University Press, 2020. http://dx.doi.org/10.1515/9780822388562-008.

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Wallace, Daniel J., and Janice Brock Wallace. "“I’m Stiff and Achy”— Musculoskeletal Complaints." In All About Fibromyalgia. Oxford University Press, 2002. http://dx.doi.org/10.1093/oso/9780195147537.003.0016.

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Patients with each of the 150 distinct rheumatic disorders frequently have overlapping muscle and joint complaints. Weakness, myalgias, arthralgias, spasm, lack of endurance, and stiffness are prominent features of fibromyalgia that may be difficult to differentiate from other conditions. The prominence of complaints in this area is what frequently brings patients to a musculoskeletal specialist such as a rheumatologist, as opposed to an infectious disease expert, general internist, or endocrinologist. Abigail was devastated after the unexpected death of her younger brother at age 30. Her physical and mental health had seemed tenuous, but she managed to pull herself together for the funeral and the visits of relatives from the Midwest. When it was over, Abigail’s coping skills began to fray. First, she began experiencing left-sided upper back pain and thought it was from lifting Aunt Minnie’s suitcase when taking her to the airport. Abigail saw the chiropractor she had consulted three or four times over a five-year period for similar backaches. However, this time the pain did not go away and spread to the right side. Dr. Johnson’s manipulations usually “snapped things back into place,” but this time they made her worse. Abigail became very concerned when her fiancée tried to take her to Myrtle Beach for a relaxing weekend and found that she was in agony whenever he hugged her. Although she had been an aerobics instructor, Abigail found it very difficult to do her morning exercise routine and after several weeks gave up. Trying to exercise was extremely painful. Innocent movements such as washing her back in the shower caused her muscles to tighten up and go into spasm. Dr. Johnson referred her to a rheumatologist, who diagnosed fibromyalgia and instituted a medication, education, and rehabilitation program. Over 80 percent of fibromyalgia patients have muscular symptoms or signs. Aching in the muscles, or myalgias, is common in the upper or lower back and neck area. Myalgias are usually present on both the right and left sides and present as a dull, throbbing discomfort. Spasm, defined as an involuntary muscular contraction, is less common than the sense of tightness in muscles that seems like spasm.
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Conference papers on the topic "Myrtle beech"

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Haas, Kevin A., and M. Kemal Cambazoglu. "VIDEO OBSERVATIONS OF LONGSHORE CURRENTS, MYRTLE BEACH, SOUTH CAROLINA." In Proceedings of the 30th International Conference. World Scientific Publishing Company, 2007. http://dx.doi.org/10.1142/9789812709554_0092.

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Kana, Timothy W., Haiqing Liu Kaczkowski, and Philip A. McKee. "Myrtle Beach (2001-2010)—Another Decade of Beach Monitoring Surveys after the 1997 Federal Shore-Protection Project." In Conference on Coastal Engineering Practice 2011. Reston, VA: American Society of Civil Engineers, 2011. http://dx.doi.org/10.1061/41190(422)63.

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Sanford, Eric K., and James M. Wooten. "City of Myrtle Beach Stormwater Management Master Plan and Final Design for Upgrade and Replacement of Beach Outfalls." In Pipeline Division Specialty Conference 2006. Reston, VA: American Society of Civil Engineers, 2006. http://dx.doi.org/10.1061/40854(211)65.

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Vassilakis, Emmanuel, Aliki Konsolaki, Stelios Petrakis, Evangelia Kotsi, Christos Filis, Stelios Lozios, and Efthymios Lekkas. "4D point cloud analysis of the September 2020 Medicane impact on Myrtos beach in Cephalonia, Greece." In 5th Joint International Symposium on Deformation Monitoring. Valencia: Editorial de la Universitat Politècnica de València, 2022. http://dx.doi.org/10.4995/jisdm2022.2022.13755.

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The coastal area of Myrtos beach, is a very popular Natura protected area at the Northern part of Cephalonia Island, in W. Greece, which suffered severe damages during the Medicane named after “Ianos”, that affected the Greek territory in September 2020. Most of the steep slope area, which hosts the road that leads to the beach area itself were extensively covered by debris due to mudflows, interrupting aggressively the road connection with the inland network. The use of Unmanned Aerial Systems proved to be an ideal way of mapping quite small areas, with limited access to road networks. The generation of ultra-high resolution spatial products seems to be optimal for mapping and quantifying mass movements that cover areas ranging from less than one square kilometer up to few square kilometers. The aim of such a multi-temporal study, which is described herein, contains aerial image data collection and analysis, before and after the catastrophic event. It is leading to the quantification of the surface topographic changes, by generating a time series of point clouds, after creating several terrain models along with ortho-photo-mosaics, based on Structure-from-Motion photogrammetric techniques. The digital comparison of the co-registered photogrammetric products showed that significant surface alterations have taken place due to the 2020 Medicane. The diachronic point clouds led to the detection and quantification of elevation changes, mainly at the central part of the area of interest, whereas the elevation values of the point clouds were found rather altered, before and after “Ianos”, either positively (deposition) or negatively (erosion), delineating the areas that suffered surface changes.
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Reports on the topic "Myrtle beech"

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EDAW INC ALEXANDRIA VA. Myrtle Beach Air Force Base Community Redevelopment Plan. Fort Belvoir, VA: Defense Technical Information Center, January 1993. http://dx.doi.org/10.21236/ada261559.

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Moutoux, David E., R. T. Herrington, and Todd H. Wiedemeier. Corrective Action Study to Evaluate Intrinsic Remediation for the POL Bulk Fuel Storage Area, Myrtle Beach Air Force Base, Myrtle Beach, South Carolina. Fort Belvoir, VA: Defense Technical Information Center, May 1997. http://dx.doi.org/10.21236/ada381403.

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BATTELLE PACIFIC NORTHWEST LABS RICHLAND WA. Corrective Action Plan for the Risk-Based Remediation of the MOGAS Site, Myrtle Beach Air Force Base, South Carolina. Volume II. Fort Belvoir, VA: Defense Technical Information Center, March 1997. http://dx.doi.org/10.21236/ada386614.

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CALIFORNIA UNIV BERKELEY. Corrective Action Plan for the Risk-Based Remediation of the MOGAS Site, Myrtle Beach Air Force Base, South Carolina. Volume I. Fort Belvoir, VA: Defense Technical Information Center, March 1997. http://dx.doi.org/10.21236/ada386776.

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PARSONS ENGINEERING SCIENCE INC DENVER CO. Corrective Action Plan for the Risk-Based Remediation of the MOGAS Site, Myrtle Beach Air Force Base, South Carolina. Volume 1. Fort Belvoir, VA: Defense Technical Information Center, July 1997. http://dx.doi.org/10.21236/ada381629.

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Freshwater supply potential of the Atlantic Intracoastal Waterway near Myrtle Beach, South Carolina. US Geological Survey, 1988. http://dx.doi.org/10.3133/wri884066.

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Health hazard evaluation report: HETA-91-051-2177, AVX Corporation, Myrtle Beach, South Carolina. U.S. Department of Health and Human Services, Public Health Service, Centers for Disease Control, National Institute for Occupational Safety and Health, February 1992. http://dx.doi.org/10.26616/nioshheta910512177.

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Biostratigraphy of the Middendorf Formation (Upper Cretaceous) in a corehole at Myrtle Beach, South Carolina. US Geological Survey, 1992. http://dx.doi.org/10.3133/b2030.

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Assimilative capacity of the Waccamaw River and the Atlantic Intracoastal Waterway near Myrtle Beach, South Carolina, 1989-92. US Geological Survey, 1995. http://dx.doi.org/10.3133/wri954111.

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Water quality in the Withers Swash Basin, with emphasis on enteric bacteria, Myrtle Beach, South Carolina, 1991-93. US Geological Survey, 1995. http://dx.doi.org/10.3133/wri954125.

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