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RESEARCH ARTICLE: An Unexpected Consequence of Plastic Litter Clean-Up on Beaches: Too Much Sand Might Be Removed

Published online by Cambridge University Press:  24 October 2016

Corrado Battisti ,
Gianluca Poeta ,
Loris Pietrelli  and
Alicia T.R. Acosta
Corrado Battisti*
Affiliation:
“Torre Flavia” LTER (Long Term Ecological Research) Station, Città Metropolitana di Roma, Rome, Italy
Gianluca Poeta
Affiliation:
Department of Science, University of Roma III, Rome, Italy
Loris Pietrelli
Affiliation:
ENEA, Rome, Italy
Alicia T.R. Acosta
Affiliation:
Department of Science, University of Roma III, Rome, Italy.
*
Address correspondence to: Corrado Battisti, “Torre Flavia” LTER (Long Term Ecological Research) Station, Città Metropolitana di Roma, Servizio Aree protette, parchi regionali, via Tiburtina, 691, 00159 Rome, Italy; (phone) +390667663321; (e-mail) c.battisti@cittametropolitanaroma.gov.it.
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Abstract

We removed plastic meso- and macro-litter (PML) during a beach clean-up practice on a protected Mediterranean sandy beach in central Italy from the high tide line to a berm half-way up the beach and from the berm to a sand dune the rest of the way up the beach. Plastic fragments, cotton buds, and expanded polystyrene (EPS) fragments were the most common categories constituting about 90% of total abundance. We separated sand from PML and found that the weight of the sand was about 14% of the total weight removed. Although our data may be affected by local factors, they have general implications for management actions. Environmental practitioners who develop projects in beach cleaning should pay attention when removing PML since a significant amount of sand could be unintentionally removed resulting in unnecessary material in landfills or other disposal, and over time potentially could significantly affect sandy beaches.

Environmental Practice 18: 242–246 (2016)

Type
Features
Information
Environmental Practice , Volume 18 , Issue 4 , December 2016 , pp. 242 - 246
Copyright
© National Association of Environmental Professionals 2016 

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References

Acosta, A.T., and Izzi, C.F.. 2006. Analisi dei Disturbi Reali e Potenziali sulla Flora e Vegetazione Dunale. In: Battisti, C., ed. Biodiversità, Gestione, Conservazione di Un’area Umida del Litorale Tirrenico: La Palude di Torre Flavia. Provincia di Roma. Gangemi editore, Rome, pp. 384387.Google Scholar
Acosta, A., Stanisci, A., Ercole, S., and Blasi, C.. 2003. Sandy Coastal Landscape of the Lazio Region (Central Italy). Phytocoenologia 33(4):715726.Google Scholar
Acosta, A., Ercole, S., Stanisci, A., Pillar, V.D.P., and Blasi, C.. 2007. Coastal Vegetation Zonation and Dune Morphology in some Mediterranean Ecosystems. Journal of Coastal Research 23(6):15181524.CrossRefGoogle Scholar
Alkalay, R., Pasternak, G., and Zask, A.. 2007. Clean-Coast Index—A New Approach for Beach Cleanliness Assessment. Ocean and Coastal Management 50:352362.Google Scholar
Battisti, C. (ed.). 2006. Biodiversità, Gestione, Conservazione di Un’area Umida del Litorale Tirrenico: La Palude di Torre Flavia. Provincia di Roma, Gangemi editore, Rome, 493 pp.Google Scholar
Battisti, C., Luiselli, L., Pantano, D., and Teofili, C.. 2008. Threats Analysis Approach Applied to a Mediterranean Remnant Wetland: Is the Assessment of Human-Induced Threats Related into Different Level of Expertise of Respondents? Biodiversity and Conservation 16(6):15291542.CrossRefGoogle Scholar
Battisti, C., Franco, D., and Luiselli, L.. 2013. Searching the Conditioning Factors Explaining the (In)Effectiveness of Protected Areas Management: A Case Study Using a SWOT Approach. Environmental Practice 15(4):401407.Google Scholar
Chapman, P.M. 2014. Scientific papers should not be boring. Marine Pollution Bulletin 87(1–2):2.CrossRefGoogle Scholar
Day, R.H., Shaw, D.G., and Ignell, S.E.. 1990. The Quantitative Distribution and Characteristics of Neustonic Plastic in the North Pacific Ocean, 1984–1988. In: Snomura, R.S., and M.L. Godfrey, eds. Proceedings of the Second International Conference on Marine Debris, April 2-7, 1989, Honolulu, Hawaii, USA. US Dept. of Commerce, NOAA Technical Memorandum NMFS,NOAA-TM-NMFS-SWFC-154, pp. 247–66.Google Scholar
Defeo, O., McLachlan, A., Schoeman, D.S., Schlacher, T.A., Dugan, J., Jones, A., Lastra, M., and Scapini, F.. 2012. Threats to Sandy Beach Ecosystems: A Review. Estuarine and Coastal Shelf Sciences 81(1):112.Google Scholar
Derraik, J.G.B. 2002. The Pollution of the Marine Environment by Plastic Debris: A Review. Marine Pollution Bulletin 44(9):842852.Google Scholar
Dytham, C. 2011. Choosing and Using Statistics: A Biologist’s Guide. Blackwell, Oxford, UK, 248 pp.Google Scholar
Elliott, G., Mitchell, B., Wiltshire, B., Manan, I.A., and Wismer, S.. 2001. Community Participation in Marine Protected Area Management: Wakatobi National Park, Sulawesi, Indonesia. Coastal Management 29(4):295316.Google Scholar
Eriksen, M., Lebreton, L.C.M., Carson, H.S., Thiel, M., Moore, C.J., Borerro, J.C., Galgani, F., Ryan, P.G., and Reisser, J.. 2014. Plastic Pollution in the World’s Oceans: More than 5 trillion Plastic Pieces Weighing over 250,000 Tons Afloat at Sea. PLoS ONE 9(12):e111913.Google Scholar
Fossi, M.C., Coppola, D., Baini, M., Giannetti, M., Guerranti, C., Marsili, L., Panti, C., de Sabata, E., and Clò, S.. 2014. Large Filter Feeding Marine Organisms as Indicators of Microplastic in the Pelagic Environment: The Case Studies of the Mediterranean Basking Shark (Cetorhinus maximus) and Fin Whale (Balaenoptera physalus). Marine Environmental Research 100:1724.Google Scholar
Gabrielides, G., Golik, A., Loizides, L., Marino, M., Bingel, F., and Torregrossa, M.. 1991. Man-Made Garbage Pollution on the Mediterranean Coastline. Marine Pollution Bulletin 23:437441.CrossRefGoogle Scholar
Gregory, M.R. 2009. Environmental Implications of Plastic Debris in Marine Settings—Entanglement, Ingestion, Smothering, Hangers-On, Hitch-Hiking and Alien Invasions. Philosophical Transactions of Royal Society of London. Series B, Biological Sciences 364(1526):20132025.CrossRefGoogle ScholarPubMed
Golik, A., and Gertner, Y.. 1992. Litter on the Israeli coastline. Marine Environmental Research 33(1):115.Google Scholar
Ivar do Sul, J.A., and Costa, M.F.. 2007. Marine debris in the eider Caribbean region: From the 1970s until now, and where do we go from here? Marine Pollution Bulletin 54(8):10871104.CrossRefGoogle Scholar
Laglbauer, B.J.L., Franco-Santos, R.M., Andreu-Cazenave, M., Brunelli, L., Papadatou, M., Palatinus, A., Grego, M., and Deprez, T.. 2014. Macrodebris and Microplastics from Beaches in Slovenia. Marine Pollution Bulletin 89(1–2):356366.Google Scholar
Lippiatt, S., Opfer, S., and Arthur, C.. 2013. Marine Debris Monitoring and Assessment. Recommendations for Monitoring Debris Trends in the Marine Environment. NOAA Technical Memorandum NOS-OR&R-46, Silver Spring, MD, USA.Google Scholar
Liu, T.-K., Wang, M.-W., and Chen, P.. 2013. Influence of Waste Management Policy on the Characteristics of Beach Litter in Kaohsiung, Taiwan. Marine Pollution Bulletin 72(1):99106.CrossRefGoogle ScholarPubMed
McDermid, K.J., and McMullen, T.L.. 2004. Quantitative Analysis of Small-Plastic Debris on Beaches in the Hawaiian Archipelago. Marine Pollution Bulletin 48(7–8):790794.CrossRefGoogle ScholarPubMed
McLachlan, A., and Brown, A.C.. 2006. The Ecology of Sandy Shores. Academic Press, Burlington, MA, USA, 328 pp.Google Scholar
Moore, S.L., Gregorio, D., Carreon, M., Weisberg, S.B., and Leecaster, M.K.. 2001. Composition and Distribution of Beach Debris in Orange County, California. Marine Pollution Bulletin 42(3):241245.Google Scholar
Oigman-Pszczol, S.S., and Creed, J.C.. 2007. Quantification and Classification of Marine Litter on Beaches along Armacao dos Buzios, Rio de Janeiro, Brazil. Journal of Coastal Research 23(2):421428.CrossRefGoogle Scholar
Poeta, G., Battisti, C., and Acosta, A.T.R.. 2014. Marine Litter in Mediterranean Sandy Littorals: Spatial Distribution Patterns along Central Italy Coastal Dunes. Marine Pollution Bulletin 89(1–2):168173.Google Scholar
Reddy, M.S., Basha, S., Adimurthy, S., and Ramachandraiah, G.. 2006. Description of the Small Plastics Fragments in Marine Sediments along the Alang-Sosiya Ship-Breaking Yard, India. Estuarine and Coastal Shelf Sciences 68(3–4):656660.CrossRefGoogle Scholar
Schulz, M., Clemens, T., Förster, H., Harder, T., Fleet, D., Gaus, S., Grave, C., Flegel, I., Schrey, E., and Hartwig, E.. 2015. Statistical Analyses of the Results of 25 Years of Beach Litter Surveys on the South-Eastern North Sea Coast. Marine Environmental Research 109:2127.Google Scholar
Setälä, O., Fleming-Lehtinen, V., and Lehtiniemi, M.. 2014. Ingestion and Transfer of Microplastics in the Planktonic Food Web. Environmental Pollution 185:7783.Google Scholar
Silva-Iñiguez, L., and Fischer, D.W.. 2003. Quantification and Classification of Marine Litter on the Municipal Beach of Ensenada, Baja California, Mexico. Marine Pollution Bulletin 46(1):132138.Google Scholar
SPSS Inc. 2003. SPSS for Windows— Release 13.0 (1 Sep 2004), Leadtools (c), Lead Technologies Inc., Chicago, IL, USA.Google Scholar
Teuten, E., Rowland, S., Galloway, T., and Thompson, R.. 2007. Potential for Plastics to Transport Hydrophobic Contaminants. Environmental Science and Technology 41(22):77597764.Google Scholar
Teuten, E., Saquing, J., Knappe, D., Barlaz, M., Jonsson, S., Annika Bjorn, A., Rowland, S.J., Thompson, R.C., Galloway, T.S., Yamashita, R., Ochi, D., Watanuki, Y., Moore, C., Viet, Hung, Seang Tana, T., Prudente, M., Boonyatumanond, R., Zakaria, M.P., Akkhavong, K., Ogata, Y., Hirai, H., Iwasa, S., Mizukawa, K., Hagino, Y., Imamura, A., Saha, M., and Takada, H.. 2009. Transport and Release of Chemicals from Plastics to the Environment and to Wildlife. Philosophical Transactions of Royal Society of London . Series B, Biological Sciences 364(1526):20272045.Google Scholar
Topcu, E.N., Tonay, A.M., Dede, A., Ozturk, A.A., and Ozturk, B.. 2013. Origin and Abundance of Marine Litter along Sandy Beaches of the Turkish Western Black Sea Coast. Marine Environmental Research 85:2128.CrossRefGoogle ScholarPubMed
USEPA (United States Environmental Protection Agency). 1992. Plastic Pellets in the Aquatic Environment: Sources and Recommendations. Washington, DC, USA: Oceans and Coastal Protection Division Final Report 842-B-92-010.Google Scholar
Williams, A.T., and Tudor, D.T.. 2001. Litter Burial and Exhumation: Spatial and Temporal Distribution on a Cobble Pocket Beach. Marine Pollution Bulletin 42(11):10311039.CrossRefGoogle ScholarPubMed