Environmental Science and Pollution Research

, Volume 25, Issue 10, pp 9293–9310 | Cite as

Mitigation measures to avert the impacts of plastics and microplastics in the marine environment (a review)

  • Oluniyi Solomon Ogunola
  • Olawale Ahmed Onada
  • Augustine Eyiwunmi Falaye
Review Article
  • 645 Downloads

Abstract

The increasing demand for and reliance on plastics as an everyday item, and rapid rise in their production and subsequent indiscriminate disposal, rise in human population and industrial growth, have made the material an important environmental concern and focus of interest of many research. Historically, plastic production has increased tremendously to over 250 million tonnes by 2009 with an annual increased rate of 9%. In 2015, the global consumption of plastic materials was reported to be > 300 million tonnes and is expected to surge exponentially. Because plastic polymers are ubiquitous, highly resistant to degradation, the influx of these persistent, complex materials is a risk to human and environmental health. Because microplastics are principally generated from the weathering or breakdown of larger plastics (macroplastics), it is noteworthy and expedient to discuss in detail, expatiate, and tackle this main source. Macro- and microplastic pollution has been reported on a global scale from the poles to the equator. The major problem of concern is that they strangulate and are ingested by a number of aquatic biota especially the filter feeders, such as molluscs, mussels, oysters, from where it enters the food chain and consequently could lead to physical and toxicological effects on aquatic organisms and human being as final consumers. To this end, in order to minimise the negative impacts posed by plastic pollution (macro- and microplastics), a plethora of strategies have been developed at various levels to reduce and manage the plastic wastes. The objective of this paper is to review some published literature on management measures of plastic wastes to curb occurrence and incidents of large- and microplastics pollution in the marine environments.

Keywords

Microplastics Rise in plastic production and human population Indiscriminate disposal Environmental concern Mitigation or management measures 

Notes

Acknowledgements

The first author would like to appreciate Deutscher Akademischer Austauschdienst (DAAD), with code number 91534748, desk 431, for full scholarship and financial support during his master’s degree program at the University of Bremen, Germany. Special thanks to Dr. Thava Palanisami, University of Newcastle, Australia for proof-reading, insights, suggestions and comments to the whole write up.

Authors’ contributions

All authors contributed significantly to sample collections, data analyses, write up, insights and comments.

Compliance with ethical standards

This article does not contain any studies with human participants performed by any of the authors.

Ethics approval and consent to participate

This research did not involve human participants.

Consent for publication

All authors have agreed to publish this article for the use of scientific communities and the general public at large.

Availability of data and material

The data and materials used are available with the first author and online.

Conflict of interest

The authors declare that they have no competing interests.

References

  1. Alkalay R, Pasternak G, Zask A and Amir R (2005) Clean Coast Program. Report. In preparationGoogle Scholar
  2. Alkalay R, Pasternak G, Zask A (2007) Clean-coast index- a new approach for beach cleanliness assessment. Ocean and Coast Mgmt 50:352–362CrossRefGoogle Scholar
  3. Allen R, Jarvis D, Sayer S, Mills C (2012) Entanglement of grey seals Halichoerus grypus at a haul out site in Cornwall, UK. Mar Pollut Bull 64(12):2815–2819CrossRefGoogle Scholar
  4. Alomar C, Estarellas F, Deudero S (2016) Microplastics in theMediterranean sea: deposition in coastal shallow sediments, spatial variation and preferential grain size. Mar Environ Res 115:1–10CrossRefGoogle Scholar
  5. Alvarez-Chávez CS, Edwards S, Moure-Eraso R, Geiser K (2012) Sustainability of bio-based plastics: general comparative analysis and recommendations for improvement. J Clean Prod 23:47–56CrossRefGoogle Scholar
  6. Anderson JC, Park BJ, Palace VP (2016) Microplastics in aquatic environments: implications for Canadian ecosystems. Environ Poll 218:269–280CrossRefGoogle Scholar
  7. Andersson E (2014) Microplastics in the oceans and their effects on the marine. Fauna 19pGoogle Scholar
  8. Andrady A (2003) An environmental primer. In: Andrady A (ed) Plastics and the environment. Wiley Intersci, Hoboken, NJ, pp 3–76CrossRefGoogle Scholar
  9. Andrady AL (2011) Microplastics in the marine environment. Mar Pollut Bull 62(8):1596–1605CrossRefGoogle Scholar
  10. Andrady AL, Neal MA (2009) Applications and societal benefits of plastics. Philos Trans R Soc B-Biol Sci 364:1977–1984CrossRefGoogle Scholar
  11. Arena U, Mastellone M, Perugini F (2003) Life cycle assessment of a plastic packaging recycling system. Int’l J Life Cycle Assess 8:92–98CrossRefGoogle Scholar
  12. Aussendorf P, Dillingham G, Gazda S, Hoff D, Stenersen S, Sylvis C, and Williamson R (1995) Coast guard: enforcement under MARPOL, convention on pollution expanded, although problems remain, retrieved from:〈http://www.gpo.gov/fdsys/pkg/GAOREPORTS-RCED-95-143/html/GAOREPORTS-RCED-95-143.htm
  13. Auta HS, Emenike CU, Fauziah SH (2017) Distribution and importance of microplastics in the marine environment: a review of the sources, fate, effects and potential solutions. Envt Int’l 102:165–176Google Scholar
  14. Auta HS, Emenike CU, Jayanthi B, Fauziah SH (2018) Growth kinetics and biodeterioration of polypropylene microplastics by Bacillus sp. and Rhodococcus sp. isolated from mangrove sediment. Mar. Poll. Bull. 127:15–21CrossRefGoogle Scholar
  15. Barboza LGA, Gimenez BCG (2015) Microplastics in the marine environment: current trends and future perspectives. Mar Pollut Bull 97(1–2):5–12CrossRefGoogle Scholar
  16. Barnes DKA, Galgani F, Thompson RC, Barlaz M (2009) Accumulation and fragmentation of plastic debris in global environments. Philos Trans R Soc BBiol Sci 364:1985–1998CrossRefGoogle Scholar
  17. Bassi A (2017) Biotechnology for the management of plastic wastes. University of Western Ontario, Canada. 1–18pGoogle Scholar
  18. Bergmann M, Gutow L and Klages M (2015) Marine anthropogenic litters. Springer Open, 456pGoogle Scholar
  19. Bilkovic DM, Havens KJ, Stanhope DM, Angstadt KT (2012) Use of fully biodegradable panels to reduce derelict pot threats to marine fauna. Conserv Biol 26:957–966CrossRefGoogle Scholar
  20. Bill Status of SB2727 98th General Assembly (2014) Illinois General Assembly. EPA-Cosmetic Product-Microbead; June 2014. Available from:http://www.ilga.gov/legislation/billstatus.asp?DocNum=2727&GAID=12&GA=98&DocTy peID=SB&LegID=78471&SessionID=85
  21. Bioplastics 07/08. Processing parameters and technical characteristics—a global overview, Bioplastics24.com., ISSN 1863–7299
  22. Bond AL, Provencher JF, Daoust P, Lucas ZN (2014) Plastic ingestion by fulmars and shear waters at Sable Island, Nova-scotia, Canada. Mar Pollut Bull 87:68–75CrossRefGoogle Scholar
  23. Boucher C, Morin M, Bendell LI (2016) The influence of cosmetic microbeads on the sorptive behavior of cadmium and lead within intertidal sediments. A laboratory study. Regional Stud Mar Sci 3:1–7CrossRefGoogle Scholar
  24. British BrPlastics Federation (2008) Oil consumption. See www.bpf.co.uk/Oil_Consumption.aspx
  25. Browne MA (2015) Sources and pathways of microplastic to habitats. In: Bergmann M, Gutow L, Klages M (eds) Marine anthropogenic litter. Springer, Berlin, pp 229–244pCrossRefGoogle Scholar
  26. Browne MA, Galloway T, Thompson R (2007) Microplastic- an emerging contaminant of potential concern? Integr Environ Assess Mgmt 3:559–566CrossRefGoogle Scholar
  27. Butterworth A, Clegg I, Bass C (2012) Untangled—marine debris: a global picture of the impact on animal welfare and of animal-focused solutions. World Society for the Protection of Animals, LondonGoogle Scholar
  28. California Legislative Information (2016) AB-888 Waste management: plastic microbeads 2015–2016. Available from: https://leginfo.legislature.ca.gov/faces/billTextClientxhtml?bill_id=201520160AB888.
  29. Canada Environmental Protection Act (2017) Microbeads in toiletries regulations. Canada Gazette, 151 (12), 14 June, 2017 Registration SOR/2017–111 June 2Google Scholar
  30. Carrigan M, Moraes C, Leak S (2011) Fostering responsible communities: a community social marketing approach to sustainable living. J Bus Ethics 100(3):515–534CrossRefGoogle Scholar
  31. Caruso G (2015) Plastic degrading microorganisms as a tool for bioremediation of plastic contamination in aquatic environments. Pollut Eff Control 3:112Google Scholar
  32. Casebeer T (2015). Why the ocean cleanup project won’t save our seas. 10th September, 2015. Boyan Slat’s Ocean Cleanup Project's “Net Array”Google Scholar
  33. Chavarro JM, (2013) Common concern of humankind and its implications in international environmental law. In (K de Feyter ed.) Globalisation and common responsibilities of states, Ashgate, 337–351pGoogle Scholar
  34. Chen S, Su L,Q, Billig S, Zimmermann W, Chen J, Wu J (2010) Biochemical characterization of the cutinases from Thermobifida fusca. J Mol Catal B Enzym 63:121–127CrossRefGoogle Scholar
  35. Chiellini E, Solaro R (1996) Biodegradable polymeric materials. Adv Mater 8(4):305–313CrossRefGoogle Scholar
  36. Cho HS, Moon HS, Kim M, Nam K, Kim JY (2011) Biodegradability and biodegradation rate of poly(caprolactone)-starch blend and poly(butylene succinate) biodegradable polymer under aerobic and anaerobic environment. Waste Manag 31:475–480CrossRefGoogle Scholar
  37. City of Santa Barbara (2016) A two-year review of single use carry-out bag ordinance. City of Santa Barbara, City Council Report, April 26, 2016Google Scholar
  38. Claessens M, De Meester S, Van Landuyt L, De Clerck K, Janssen CR (2011) Occurrence and distribution of microplastics in marine sediments along the Belgian coast. Mar Pollut Bull 62:2199–2204CrossRefGoogle Scholar
  39. Clean Up Australia (2015) Report on actions to reduce circulation of single-use plastic bags around the world: August 2015 (Retrieved from Australia)Google Scholar
  40. Codina-Garcia M, Militto T, Moreno J, Gonzalez-Solis J (2013) Plastic debris in Mediterranean seabirds. Mar Poll Bull 77:220–226CrossRefGoogle Scholar
  41. Puritz A ( 2017) Opinion: Can eco-labels really save our marine life? Available online:www.clientearth.org/can-eco-labels-really-save-our-marine-lifeGoogle Scholar
  42. Cole M, Lindeque P, Halsband C, Galloway TS (2011) Microplastics as contaminants in the marine environment: a review. Mar Pollut Bull 62:2588–2597CrossRefGoogle Scholar
  43. Corcoran PL (2015) Benthic plastics debris in marine and freshwater environments. Environ Sci Process Impacts 17(8):1363–1369CrossRefGoogle Scholar
  44. Cόzar A, Echevarria F, Gonzalez-Gordillo JI, Irigoien X, Úbeda B, Hernandez- Leon S, Palma AT, NAvarro S, García-de-Lomas J, Ruiz A, Fernandez-de- Puelles ML, Duarte CM (2014) Plastic debris in the open ocean. PNAS 111:10239–10244CrossRefGoogle Scholar
  45. Coulter JR (2009) Sea change to change the sea: stopping the spread of the Pacific garbage parch with small scale environmental legislation. William Mary L Rev 51:1959–1995Google Scholar
  46. Da Costa JP (2018) Micro- and nanoplastics in the environment: research and policymaking. Currt Opin Envt Sci Hlth 1:12–16CrossRefGoogle Scholar
  47. Dahlbo H, Poliakova V, Myllari V, Sahimaa O, Anderson R (2018) Recycling potential of post-consumer plastic packaging waste in Finland. Waste Mgmt 71:52–61CrossRefGoogle Scholar
  48. Deguchi T, Kitaoka Y, Kakezawa M, Nishida T (1998) Purification and characterization of a nylon-degrading enzyme. Appl Environ Microbiol 64:1366–1371Google Scholar
  49. del Carvalho DG, Neto Baptista JA (2016) Microplastic pollution of the beaches of Guanabara Bay, Southeast Brazil. Ocean Coastal Mgmt 128:10–17CrossRefGoogle Scholar
  50. Derraik JGB (2002) The pollution of the marine environment by plastic debris: a review. Mar Pollut Bull 44(9):842–852CrossRefGoogle Scholar
  51. Dikgang J, Leiman A, Visser M (2012) Analysis of the plastic-bag levy in South Africa. Resour Conserv Recycl 66:59–65CrossRefGoogle Scholar
  52. Eastaugh S (2016) France becomes first country to ban plastic cups and plates. CNN; September 20, 2016. Available from: https://cnnphilippines.com/world/2016/09/20/france-ban-plastic-cups-plates.html.
  53. Ellen McArthur Foundation (2016) The new plastics economy: rethinking the future of plastics. Ellen Arthur FoundationGoogle Scholar
  54. Environment Protection Administration Executive Yuan (2013) Introduction to resources recycling (in Chinese). EPA. http://www.ttv.com.tw/3r/reduce/p16.htm
  55. Eriksen M, Lebreton LCM, Carson HS, Thiel M, Moore CJ, Borerro JC, Galgani F, Ryan PG, Reisser J (2014) Plastic pollution in the World's oceans: more than 5 trillion plastic pieces weighing over 250,000 tonnes afloat at sea. PLoS One 9(12):E111913CrossRefGoogle Scholar
  56. Eriksson C, Burton H (2003) Origins and biological accumulation of small plastic particles in fur seals from Macquarie Island. AMBIO A J Hum Environ 32:380–384CrossRefGoogle Scholar
  57. Eriksson C, Burton H, Fitch S, Schulz M, van Den Hoff J (2013) Daily accumulation rates of marine debris on sub-Antarctic island beaches. Mar Pollut Bull 66:199–208CrossRefGoogle Scholar
  58. Essel, et al. (2015) Sources of microplastics relevant to marine protection in Germany. Texte 64/2015 German Federal Environment Agency, Dessau-Rosslau, GermanyGoogle Scholar
  59. Eunomia (2015) Preliminary scoping exercise of options to achieve a phase out or ban of microplastics in cosmetic products by Simon Hann. 37pGoogle Scholar
  60. European Bioplastics (2013) Bioplastics—facts and figures. European Bioplastics, BerlinGoogle Scholar
  61. European Union EU (2014) Use of plastic bags: agreement on phasing down. Council of the European Union, BrusselsGoogle Scholar
  62. Farrell P, Nelson K (2013) Trophic level transfer of microplastics: Mytilus edulis (L.) to Carcinus maenas (L.) Environ Pollut 177:1–3CrossRefGoogle Scholar
  63. Fernandez JG, Ingber DE (2014) Manufacturing of large-scale functional objects using biodegradable chitosan bioplastic. Macromol Mater Eng Commun 299:932–938CrossRefGoogle Scholar
  64. Fossi MC, Marsili L, Baini M, Giannetti M, Coppola D, Guarranti C, Caliani I, Minutoli R, Lauriano G, Finoia MG, Rubegni F, Panigada S, Bérubé M, Ramirez JU, Panti C (2016) Fin whales and microplastics: the Mediterranean Sea and the sea of Cortez scenarios. Environ Pollut 209:68–78CrossRefGoogle Scholar
  65. Friedrich J, Zalar P, Mohorcic M, Klun U, Krzan A (2007) Ability of fungi to degrade synthetic polymer nylon-6. Chemosphere 67:2089–2095CrossRefGoogle Scholar
  66. Galgani F, Hanke G, Maes T (2015) Global distribution, composition and abundance of marine litter. In: Bergmann M, Gutow L, Klages M (eds) Marine anthropogenic litter. Springer, Berlin, pp 29–56pCrossRefGoogle Scholar
  67. Galloway TS (2015) Micro- and nano-plastics and human health. In: Bergmann M, Gutow L, Klages M (eds) Marine anthropogenic litter. Springer, Berlin, pp 347–370pGoogle Scholar
  68. GESAMP (2015) Sources, fate and effects of microplastics in the marine environment: a global assessment. Rep. Stud. GESAMP no. 90. International maritime organization, LondonGoogle Scholar
  69. Gold M et al. (2014) Stemming the tide of plastic marine litter: a global action agenda. 27 Tul Envtl L.J. 165, 2013-2014Google Scholar
  70. Goldstein MC, Rosenberg M, Cheng L (2012) Increase oceanic microplastic debris enhances oviposition in an endemic pelagic insect. Biol Lett:1–4Google Scholar
  71. Gu F, Hall P, Miles MJ (2016a) Performance evaluation for composites based on recycled polypropylene using principal component analysis and cluster analysis. J Clean Prod 115:343–353CrossRefGoogle Scholar
  72. Gu F, Hall P, Miles MJ (2016b) Development of composites based on recycled polypropylene for injection moulding automobile parts using hierarchical clustering analysis and principal component estimate. J Clean Prod 137:632–643CrossRefGoogle Scholar
  73. Hadad D, Geresh S, Sivan A (2005) Biodegradation of polyethylene by the thermophilic bacterium, Brevibacillus burstelensis. J of Applied Microbiol 98(5):1093–1100CrossRefGoogle Scholar
  74. Hardesty BD et al. (2014) Understanding the effects of marine debris on wildlife. A final report to Earthwatch Australia. CSIRO Oceans and Atmospheric Flagship. 353pGoogle Scholar
  75. Hartley BL, Thompson RC, Pahl S (2015) Marine litter education boosts children’s understanding and self-reported actions. Mar Pollut Bull 90(1):209–217CrossRefGoogle Scholar
  76. Hoffman R (2016) Seattle bag ban update. Memorandum to Council member Lisa Herbold, Chair of Civil Rights, Utilities, Economic Development and Arts Committee, City Council from Ray Hoffman, Director, Seattle Public Utilities, July 1, 2016Google Scholar
  77. Homonoff TA (2013) Can small incentives have large effects? The impacts of taxes versus bonuses on disposable bag use. In: Working paper #575. University, PrincetonGoogle Scholar
  78. Hopewell J, Dvorak R, Kosior E (2009) Plastic recycling: challenges and opportunities. Philos Trans Roy Soc 364:2115–2126CrossRefGoogle Scholar
  79. Howell D (2016) The 5p plastic bag charge: all you need to know. BBC News; July 3, 2016. Available from: http://www.bbc.com/news/uk-34346309
  80. Iles A, Martin AN (2013) Expanding bioplastics production: sustainable business innovation in the chemical industries. J Cleaner Production 45:38–49CrossRefGoogle Scholar
  81. International Whaling Commission, IWC (2014) Report of the IWC workshop on mitigation and management of the threats posed by marine debris to cetaceans. August 2014, Honolulu. IWC/65/CCRep04. 40 pGoogle Scholar
  82. Ismail A, Adilah NMB, Nurulhudha MJ (2009) Plastic pellets along Kuala Selangor-Sepang coastline. Malays Appl Biol 38:85–88Google Scholar
  83. Ivar do Sul JA, Costa MF (2014) The present and future of microplastic pollution in the marine environment. Env Poll 185:352–364CrossRefGoogle Scholar
  84. Jain S et al (2013) Poly (3-hydroxyalkanoates): biodegradable plastics. Research and reviews. J Chem 3:11–14Google Scholar
  85. Jambeck JR, Geyer R, Wilcox C, Siegler TR, Perryman M, Andrady A, Narayan R, Law KL (2015) Plastic waste inputs from land into the ocean. Science 347:768–771CrossRefGoogle Scholar
  86. Jeyakumar D, Chirsteen J, Doble M (2013) Synergistic effects of pre-treatment and blending on fungi mediated biodegradation of polypropylenes. Bioresour Technol 148:78–85CrossRefGoogle Scholar
  87. Jiang J-Q (2018) Occurrence of microplastics and its pollution in the environment: a review. Sust Prod Consumptn 13:16–23Google Scholar
  88. Kalogerakis N, Arff J, Banat IM, Broch OJ, Daffonchio D, Edvardsen T, Eguiraun H, Giuliano L, Handa A, Lopez-de-Ipina K, Marigomez I, Martinez I, Øie G, Rojo F, Skjermo J, Zanaroli G, Fava F (2015) The role of environmental biotechnology in exploring, exploiting, monitoring, preserving, protecting and decontaminating the marine environment. New Biotech 32(1):157–167CrossRefGoogle Scholar
  89. Kataoka T, Hinata H (2015) Evaluation of beach cleanup effects using linear system analysis. Mar Poll Bull 91:73–81CrossRefGoogle Scholar
  90. Kawai F, Oda M, Tamashiro T, Waku T, Tanaka N, Yamamoto M, Mizushima H, Miyakawa T, Tanokura M (2014) A novel Ca2+-activated, thermos-stabilized polyesterase capable of hydrolyzing polyethylene terephthalate from Saccharomonospora viridis AHK190. Appl Microbiol Biotechnol 98:10053–10064CrossRefGoogle Scholar
  91. Kershaw P, Katsuhiko S, Lee S, Samseth J, Woddring D (2011) Plastic debris in the ocean. UNEP Year Book:20–33pGoogle Scholar
  92. Kiessling T, Salas S, Mutafoglu K, Thiel M (2017) Who cares about dirty beaches? Evaluating environmental awareness and action on coastal litter in Chile. Ocean and Coastal Mgmt. 137:82–95CrossRefGoogle Scholar
  93. Kim S-G, Lee WIL, Yuseok M (2014) The estimation of derelict fishing gear in the coastal waters of South Korea: trap and gill-net fisheries. Mar Policy 46:119–122CrossRefGoogle Scholar
  94. Klauss M (2001) Introducing compostable packaging in Kassel, Germany Orbit Magazine, 1 July 2001Google Scholar
  95. Koch HM, Calafat AM (2009) Human body burdens of chemicals used in plastic manufacture. Philos Trans R Soc Lond B 364:2063–2078CrossRefGoogle Scholar
  96. Koushal V et al (2014) Plastics: issues, challenges and remediation. Int J Waste Resources 4:134.  https://doi.org/10.4172/2252-5211.1000134 Google Scholar
  97. Krueger MC, Harms H, Schlosser D (2015) Prospects for microbiological solutions to environmental pollution with plastics. Appl Microb Biotech 99:8857–8874CrossRefGoogle Scholar
  98. Kuo F-J, Huang H-W (2014) Strategy for mitigation of marine debris: analysis of sources and composition of marine debris in northern Taiwan. Mar Poll Bull 83:30–78CrossRefGoogle Scholar
  99. Lassen, et al. (2015) Microplastics—occurrence, effects and sources of releases to the environment in Denmark. Environmental project no. 1793. Environment Protection Agency. Ministry of Environment and Food of Denmark, CopenhagenGoogle Scholar
  100. Law KL, Thompson RC (2014) Microplastic in the seas. Science 345:144–145CrossRefGoogle Scholar
  101. Lazarevic D, Aoustin E, Buclet N, Brandt N (2010) Plastic waste management in the context of a European recycling society: comparing results and uncertainties in a life cycle perspective. Resour Conserv Recycl 55(2):246–259CrossRefGoogle Scholar
  102. Legislative Assembly of Ontario (2015) Bill 75, Microbead Elimination and Monitoring Act, 2015. 2015Google Scholar
  103. Li JN, Yang DQ, Li L, Jabeen K, Shi HH (2015) Microplastics in commercial bivalves from China. Environ Pollut 207:190–195CrossRefGoogle Scholar
  104. Lin VS (2016) Research highlights: Impacts of microplastics on planktons. Environ Sci 18:160–163Google Scholar
  105. Lithner D, Larsson A, Dave G (2011) Environmental and health hazard ranking and assessment of plastic polymers based on chemical composition. Sci Total Environ 409:3309–3324CrossRefGoogle Scholar
  106. Lönnstedt OM, Eklöv P (2016) Environmentally relevant concentrations of microplastic particles influence larval fish ecology. Ecotoxicol Sci 352:6290Google Scholar
  107. Los Angeles County (2012) Implementation of the County of Los Angeles Plastic and Paper carryout Bag OrdinanceGoogle Scholar
  108. Lozoya JP, de Mello FT, Carrizo D, Weinstein F, Olivera Y, Cedres F, Pereira M, Fossati M (2016) Plastics and microplastics on recreational beaches in Punta del Este (Uruguay): unseen critical residents? Environ Poll 218:931–941CrossRefGoogle Scholar
  109. Luxemburger Wort (2013) Luxembourg leads the way in cutting plastic bag use; November 04, 2013. Available from: http://www.wort.lu/en/luxembourg/luxembourg-leads-the-way-in-cutting-plastic-bag-use-5277d1c2e4b0c9544cdea6bf
  110. Magnusson, et al. (2016) Swedish sources and pathways for microplastics to the marine environment. A review of existing data. IVL Swedish Environmental Research Institute, StockholmGoogle Scholar
  111. Martinho G, Balaia N, Pires A (2017) The Portuguese plastic carrier bag tax: the effects on consumers’ behavior. Waste Manag 61:3–12CrossRefGoogle Scholar
  112. Mathalon A, Hill P (2014) Microplastic fibers in the intertidal ecosystem surrounding Halifax Harbor, Nova Scotia. Mar Pollut Bull 81:69–79CrossRefGoogle Scholar
  113. McLaughlin M (2016) Ban, fee, take-back/recycle: which approach wins out in the end? Master’s Thesis, University of new Hampshire, 2016Google Scholar
  114. McMahon CR, Hooley D, Robinson S (1999) The diet of itinerant male Hooker’s sea lions, Phocarctos hookeri, at sub-Antarctic Macquarie Island. Wildl Res 26(6):839–846CrossRefGoogle Scholar
  115. McPherson K (2015) Charting a course for oceans education and environmental studies, sustainable oceans, in: proceedings of the Healthy Oceans Healthy Canada Conference, Dalhousie UniversityGoogle Scholar
  116. Miller R (2005a) The landscape for biopolymers in packaging. Miller-Klein Associates report. Summary and Full Report available from The National Non-Food Crops Centre, York. www.nnfcc.co.uk
  117. Miller JR (2005b) Biodiversity conservation and the extinction of experience. Trends Ecol Evol 20:430–434CrossRefGoogle Scholar
  118. Mooney BP (2009) The second green revolution? Production of plant-based biodegradable plastics. Biochem J 418:219–232CrossRefGoogle Scholar
  119. Moore CJ, Moore SL, Leecaster MK, Weisberg SB (2001) A comparison of plastic and plankton in the North Pacific Central Gyre. Mar Pollut Bull 42:1297–1300CrossRefGoogle Scholar
  120. Mouat J, Lozano R, Bateson H (2010) Economic impacts of marine litter. KIMO, ShetlandGoogle Scholar
  121. Muller RJ, Kleeberg I, and Deckwer WD, (2001) Biodegradation of polyesters containing aromatic constituents. J Biotechnol 86:87–95CrossRefGoogle Scholar
  122. Negoro S, Shibata N, Tanaka Y, Yasuhira K, Shibata H, Hashimoto H, Lee YH, Oshima S, Santa R, Oshima S, Mochiji K, Goto Y, Ikegami T, Nagai K, Kato D, Takeo M, Higuchi Y (2012) Three-dimensional structure of nylon hydrolase and mechanism of nylon-6 hydrolysis. J Biol Chem 287:5079–5090CrossRefGoogle Scholar
  123. Nelms SE, Duncan EM, Broderick AC, Galloway TS, Godfrey MH, Hamann M, Lindeque PK, Godley BJ (2015) Plastic and marine turtles: a review and call for research. ICES J Mar Sci:1–17Google Scholar
  124. NEPC (2001) Report to the NEPC on the implementation of the National Environmental Protection (used packaging materials) measure for New South wales, Adelaide. Australia, Environmental Protection and Heritage CouncilGoogle Scholar
  125. Neumann S et al. (2013) How to improve EU legislation to tackle marine litter. Institute for European Environmental Policy, London.60pGoogle Scholar
  126. Newman S, Watkins E, Farmer A, Ten Brink P, Schweitzer JP (2015) The economics of marine litter. In: Bergmann M, Gutow L, Klages M (eds) Marine anthropogenic litter. Springer, Berlin, pp 367–394CrossRefGoogle Scholar
  127. Nisbet EK, Zelenski JM, Murphy SA (2009) The nature relatedness scale. Linking individuals' connection with nature to environmental concern and behavior. Environ Behav 41:715–740CrossRefGoogle Scholar
  128. Nuelle MT, Dekiff JH, Remy D, Fries E (2014) A new analytical approach for monitoring microplastics in marine sediments. Environ Pollut 184:161–169CrossRefGoogle Scholar
  129. O’Brine T, Thompson RC (2010) Degradation of plastic carrier bags in the marine environment. Mar Pollut Bull 60:2279–2283CrossRefGoogle Scholar
  130. Conservancy O (2005) Marine debris: where does it come from? The international clean-up 2004:2–5Google Scholar
  131. Ocean Conservancy (2013) International coastal cleanup 2013 report: working for clean beaches and clean water.<http://www.oceanconservancy.org/our-work/ international-coastal-cleanup/>
  132. OECD (2013) Policies for bioplastics in the context of a bioeconomy. OECD Science, Technology and Industry Policy Papers, no. 10. OECD Publishing, ParisGoogle Scholar
  133. OECD (2014) The State of Play on Extended Producer Responsibility (EPR): Opportunities and Challenges. Global Forum on Environment: promoting sustainable materials management through extended producer responsibility (EPR). June 2014, Tokyo, Japan. Issues Paper. 17pGoogle Scholar
  134. Ohta K et al (1999) Chitosan treatment affects plant growth and flower quality in Eustomia grandiflorum. Hortscience 34:233–234Google Scholar
  135. Paco A, Duarte K, da Costa JP, Santos PSM, Pereira R, Pereira ME, Freitas AC, Duarte AC, Rocha-Santos TAP (2017) Biodegradation of polyethylene microplastics by the marine fungus Zalerion maritimum. Sci Tot Envt 586:10–15CrossRefGoogle Scholar
  136. Perugini F, Mastellone M, Arena U (2005) A life cycle assessment of mechanical and feedstock recycling options for management of plastic packaging wastes. Envt Progr 24:137–154CrossRefGoogle Scholar
  137. Petersen K, Nielsen P, Bertelsen G, Lawther M, Olsen M, Nilsson N, Mortensen G (1999) Potential of biobased materials for food packaging. Trend Food Sci Tech 10:52–68CrossRefGoogle Scholar
  138. Pettipas S, Bernier M, Walker TR (2016) A Canadian policy framework to mitigate plastic marine pollution. Mar Policy 68:117–122CrossRefGoogle Scholar
  139. Philp JC, Bartsev A, Ritchie RJ, Baucher MA, Guy K (2013) Bioplastics science from a policy vantage point. New Biotech 30(6):635–646CrossRefGoogle Scholar
  140. Plastics Europe (2015) Plastics-the facts 2014Google Scholar
  141. PlasticsEurope (2015) Plastics- the facts 2014/2015. PlasticsEurope, BrusselsGoogle Scholar
  142. Province of Nova-Scotia (2011) Our Path Forward: Building on the Success of Nova Scotia’s Solid Waste Resource Management Strategy, Retrieved from:〈https://www.novascotia.ca/nse/waste/docs/Solid.Waste.Strategy-Our.Path.Forward.2011.pdf
  143. Puritz, A., 2017. Opinion: Can eco-labels really save our marine life? Available online: http://www.clientearth.org/can-eco-labels-really-save-our-marine-life
  144. Rech S, Macaya-Caquilpán V, Pantuja JF, Rivaldeneria MM, Madariaga DJ, and Thiel M, (2014) Rivers as a source of marine litters – A study from SE Pacific: Mar. Poll. Bull. 82(1-2):66-75Google Scholar
  145. Rivers N, Shenstone-Harris S, Young N (2017) Using nudges to reduce waste? The case of Toronto’s plastic bag levy. J Environ Mgmt 188:153–162CrossRefGoogle Scholar
  146. Rochman CM, Browne MA (2013) Classify plastic waste as hazardous. Nature 494:169–171CrossRefGoogle Scholar
  147. Ronkvist AM, Xie WC, Lu WH, Gross RA (2009) Cutinase-catalyzed hydrolysis of poly(ethylene terephthalate). Macromolecules 42:5128–5138CrossRefGoogle Scholar
  148. Rovira J (2006) Informe y diagn_ostico de la basura marina en Chile. Plan de acci_on para la protecci_on del medio marino y _areas costeras del Pacífico Sudeste, 56pp. Comisi_on Permanente del Pacífico Sur (CPPS), Guayaquil EcuadorGoogle Scholar
  149. Russell JR, Huang J, Anand P, Kucera K, Sandoval AG, Dantzler KW et al (2011) Biodegradation of polyester polyurethane by endophytic fungi. Appl Environ Microbiol 77:6076–6084CrossRefGoogle Scholar
  150. Santo M, Weitsman R, Sivan A (2013) The role of the copper-binding enzyme laccase—in the biodegradation of polyethylene by the actinomycete Rhodococcus ruber. Int Biodeterior Biodegrad 84:204–210CrossRefGoogle Scholar
  151. Ryan PG, Moore CJ, van Franeker JA, Moloney CL (2009) Monitoring the abundance of plastic debris in the marine environment. Philos Trans Royal Soc B-Biol Sci 364(1526):1999–2012CrossRefGoogle Scholar
  152. SBI Energy (2010) Bio-renewable chemicals: world market. Maryland, RockvilleGoogle Scholar
  153. Secretariat of the Convention on Biological Diversity and the Scientific and Technical Advisory Panel – GEF, SCBD&STAP (2012) Impacts of marine debris on biodiversity: current status and potential solutions. Montreal, 67, 61p, https://www.cbd.int/doc/publications/cbd-ts-67-en.pdf
  154. Seltenrich N (2015) Newlink in the food-chain? Marine plastic pollution and seafood safety. Environ Health Perspect 123:34–41CrossRefGoogle Scholar
  155. Shah AA, Hasan F, Hameed A, Ahmed S (2008) Biological degradation of plastics: a comprehensive review. Biotechnol Adv. 26Google Scholar
  156. Sheik S, Chandrashekar KR, Swaroop K, Somashekarappa HM (2015) Biodegradation of gamma irradiation of low density polyethylene and polypropylene by endophytic fungi. Int’l Biodeterior Biodegrad 105:21–29CrossRefGoogle Scholar
  157. Shen L, Haufe J and Patel MK, (2009) Product overview and market projection of emerging biobased plastics (PRO-BIP 2009); report no: NWS-E-2009-32, 245pGoogle Scholar
  158. Sherrington C et al., (2014) Marine debris public awareness and education campaigns (report III). Review for CMS Resolution 10.4. Eunomia Research and Consulting Ltd. March 2014. 34 pp. (UNEP/CMS/ScC18/Inf.10.4.3)Google Scholar
  159. Singh G, Singh AK, Bhatt K (2016) Biodegradtion of polyethylene by bacteria isolated from soil. Int J Res Dev Pharm Life Sci 5(2):2056–2062Google Scholar
  160. Singh N, Hui D, Singh R, Ahuja IPS, Feo L (2017) Recycling of plastic solid waste: a state of art review and future applications. Composites Part B 115:409–422CrossRefGoogle Scholar
  161. Singh P, Sharma VP (2016) Integrated plastic waste management: environmental and improved health approaches. Procedia Envtal Sci 35:692–700CrossRefGoogle Scholar
  162. Sjollema SB, Redondo-Hasselerharm P, Leslie HA, Kraak MHS, Vethaak AD (2015) Do plastic particles affect microalgal photosynthesis and growth? Aquat Toxicol 170:259–261CrossRefGoogle Scholar
  163. Song JH, Murphy RJ, Narayan R, Davies GBH (2009) Biodegradable and compostable alternatives to conventional plastics. Phil Trans R Soc A 364:2127–2139CrossRefGoogle Scholar
  164. Statista (2017) World; PlasticsEurope (PEMRG). Industrieberatung, Consultic Marketing andGoogle Scholar
  165. Sundt, et al. (2014) Sources of microplastic-pollution to the marine environment. Report no M-321/2015Mepex consult, Asker, NorwayGoogle Scholar
  166. The Society of Wilderness (2013) Introduction to Taiwanese Ocean Cleanup Alliance (in Chinese). http://ocean.sow.org.tw
  167. Thevenon F, Caroll C and Sousa J (2014) Plastic debris in the oceans. (IUCN). The characterization of marine plastics and their environmental impacts, situation analysis report. Gland, Switzerland: IUCN. 52 pGoogle Scholar
  168. Thiel M, Hinojosa IA, Mirinda L, Pantoja JF, Rivadeneira MM, Vásquez N (2013) Anthropogenic marine debris in the coastal environment: a multi-year comparison between coastal waters and local shores. Mar Poll Bull 71:307–316CrossRefGoogle Scholar
  169. Thompson R, Moore C, Andrady A, Gregory M, Takada H, Weisberg S (2005) New directions in plastic debris. Science 310:1117–1117CrossRefGoogle Scholar
  170. Tokiwa Y, Calabia B (2004) Degradation of microbial polyesters. Biotechnol Lett 26:1181–1189CrossRefGoogle Scholar
  171. Tran KC (2006) Public perception of development issues: public awareness can contribute to sustainable development of a small island. Ocean Coast Manag 49:367–383CrossRefGoogle Scholar
  172. Turra A, Manzano A, Dias R, Mahiques M, Silva D, Moreira F (2014) Three dimensional distribution of plastic pellets in sandy beaches: shifting paradigms. Nature Sci Rep 4:4435CrossRefGoogle Scholar
  173. United Kingdom Cabinet, (2011) Behavioural insights team annual update 2010–11. Cabinet Office Behavioural Insights Team, 31pGoogle Scholar
  174. United Nations Environment Assembly, UNEA (2014) Plastic waste causes financial damage of US$13 billion to marine ecosystems each year as concern grows over microplastics. In U, Newscentre, NairobiGoogle Scholar
  175. United Nations Environmental Programme, UNEP (2011) UNEP year book: Emerging issues in our global environment (79 p). United Nations Environmental Programme, NairobiGoogle Scholar
  176. United Nations Environmental Programme, UNEP (2014) Plastic debris in the ocean. UNEP Year Book 2014 Emerging issues updateGoogle Scholar
  177. United Nations Environmental Programme, UNEP (2015) Dutch rally support for a Europe wide microplastic banGoogle Scholar
  178. United Nations Environmental Program and National Oceanography and Atmospheric Administration, UNEP and NOAA (2015) The Honolulu Strategy: a global framework for prevention and management of marine debrisGoogle Scholar
  179. United Kingdom Department for Environment Food and Rural Affairs, UKDEFRA (2016) Microbead ban announced to protect sealife. Department for Environment, Food and Rural Affairs https://www.gov.uk/government/news/microbead-ban-announced-to-protectsealife
  180. USEPA (United States Environmental Protection Agency) (2015) What is environmental education? Retrieved from:〈http://www2.epa.gov/education/what-environmental-education
  181. Urtuvia V, Villegas P, González M, Seeger M (2014) Bacterial production of the biodegradable plastics polyhydroxyalkanoates. Int J Biol Macromol 70:208–213CrossRefGoogle Scholar
  182. Van Cauwenberghe LV, Devriese L, Galgani F, Robbens J, Janssen CR (2015) Microplastics in sediments: a review of techniques, occurrence and effects. Mar Entval Res 111:5–17CrossRefGoogle Scholar
  183. Vianello A, Boldrin A, Guerriero P, Moschino V, Rella R, Sturaro A, Da Ros L (2013) Microplastic particles in sediments of Lagoon of Venice, Italy: first observations on occurrence, spatial patterns and identification. Estuar Coast Shelf Sci 130:54–61CrossRefGoogle Scholar
  184. Vignola R, Klinsky S, Tam J, McDaniels T (2013) Public perception, knowledge and policy support for mitigation and adaption to climate change in Costa Rica: comparisons with North American and European studies. Mitig Adapt Strateg Glob Chang 18(3):303–323CrossRefGoogle Scholar
  185. Von Moos N, Burkhardt-Holm P, Koehler A (2012) Uptake and effects of microplastics on cells and tissues of the blue mussel Mytilus edulis L. after experimental exposure. Environ Sci Technol 46:11327–11335CrossRefGoogle Scholar
  186. Wäger PA, Hischier R (2015) Life cycle assessment of post-consumer plastics production from waste electrical and electronic equipment (WEEE) treatmnt residues in a central European plastics recycling plant. Sci Tot Envt 529:158–167CrossRefGoogle Scholar
  187. Wagner T (2016) Municipal approaches in Maine to reduce single use consumer products. Maine Pol Rev 25(2):31–43Google Scholar
  188. Wagner TP, Toews P, Bouvier R (2013) Increasing diversion of household hazardous wastes and materials through mandated retailer take-back. J Environ Mgmt 123:88–97CrossRefGoogle Scholar
  189. Walker TR, Grant J, Archambault MC (2006) Accumulation of marine debris on an intertidal beach in an urban park (Halifax-Harbour, Nova-Scotia). Water Qual Res J Can 41:256–262Google Scholar
  190. Waller CL, Griffiths HJ, Waluda CM, Thorpe SE, Loaiza I, Moreno B, Pacherres CO, Hughes KA (2017) Microplastics in the Antarctic marine system: an emerging area of research. Sci Total Envt 598:220–227CrossRefGoogle Scholar
  191. Waters D, Burnett E, Lamm A, Lucas J (2009) Engaging stakeholders through social networking: how non-profit organizations are using facebook. Publ Relat Rev 35:102–106CrossRefGoogle Scholar
  192. Watts AJR, Lewis C, Goodhead RM, Beckett SJ, Moger J, Tyler CR, Galloway TS (2014) Uptake and retention of microplastics by the shore crab Carcinus maenas. Environ Sci Technol 48:8823–8830CrossRefGoogle Scholar
  193. Wegner A, Besseling E, Foekema EM, Kamermans P, Koelmans AA (2012) Effects of nanopolystyrene on the feeding behaviour of the blue mussel (Mytilus edulis L.) Environ Toxicol Chem 31:2490–2497CrossRefGoogle Scholar
  194. Welsh Government (2014) Single-use carrier bags. Retrieved from. http://gov.wales/topics/environmentcountryside/epq/waste_recycling/substance/carrierbags/?lang=en
  195. Wiener CS, Manset G and Lemus JD (2015) Ocean use in Hawaii as a predictor of marine conservation interests, beliefs, and willingness to participate: an exploratory study. J Environ Stud SciGoogle Scholar
  196. Wilcox C, van Sebille E, and Hardesty BD (2015) Threat of plastic pollution to sea birds is global, pervasive and increasing. Proc Nat Acad Sci. www.pnas.org/cgi/doi/ 10.t 073/pnas.1502108 11
  197. WRAP (2008) Local authorities plastic collection survey. Waste and Resources Action Programme, LondonGoogle Scholar
  198. Wright SL, Thompson RC, Galloway TS (2013) The physical impacts of microplastics on marine organisms: a review. Environ Pollut 178:483–492CrossRefGoogle Scholar
  199. Xanthos D, Walker TR (2017) International policies to reduce plastic marine pollution from single-use plastics (plastic bags and microbeads): a review. (in press) Mar Poll Bull 118(10p):17–26CrossRefGoogle Scholar
  200. Yamano N, Nakayama A, Kawasaki N, Yamamoto N, Aiba S (2008) Mechanism and characterization of polyamide-4 degradation by Pseudomonas spp. J Polymers Envt 16(2):141–146CrossRefGoogle Scholar
  201. Yang DQ, Shi HH, Li L, Li JN, Jabeen K, Kolandhasamy P (2015) Microplastic pollution in table salts from China. Environ Sci Technol 49:13622–13627CrossRefGoogle Scholar
  202. Yang J, Yang Y, Wu WM, Zhao J, Jiang L (2014) Evidence of polyethylene biodegradation by bacterial strains from the guts of plastic eating waxworms. Environ Sci Technol 48:13776–13784CrossRefGoogle Scholar
  203. Yates MR, Barlow CY (2013) Life cycle assessments of biodegradable, commercial biopolymers—a critical review. Resour Conserv Recycl 78:54–66CrossRefGoogle Scholar
  204. Yoon GY, Jeon HJ, Kom MN (2012) Biodegradation of polyethylene by a soil bacterium and alkB cloned recombinant cell. J Biorem Biodegrad 3:145.  https://doi.org/10.4172/2155-6199.1000145 Google Scholar
  205. Zero Waste Europe (2016) Press Release: EU Member States asked to deliver final decisive effort for Europe to break free from single-use plastic bags; July 01, 2016. Brussels. Available from: https://www.zerowasteeurope.eu/2016/07/press-release-eu-member-states-asked-to-deliver-final-decisive-effort-for-europe- to-break-free-from-single-use-plastic-bags/
  206. Zettler ER, Mincer TJ, Amaral-Zettler LA (2013) Life in the “plastisphere”: microbial communities on plastic marine debris. Environ Sci Technol 47:7137–7146CrossRefGoogle Scholar
  207. Zhao P, Liu W, Wu Q and Ren J (2010) Preparation, mechanical and thermal properties of biodegradable polyesters/polylactic acid blends. J Nanomat. 8pGoogle Scholar

Copyright information

© Springer-Verlag GmbH Germany, part of Springer Nature 2018

Authors and Affiliations

  • Oluniyi Solomon Ogunola
    • 1
  • Olawale Ahmed Onada
    • 2
  • Augustine Eyiwunmi Falaye
    • 2
  1. 1.MSc International Studies in Aquatic Tropical EcologyUniversity of BremenBremenGermany
  2. 2.Aquaculture and Fisheries ManagementUniversity of IbadanIbadanNigeria

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