Stratigraphic records of microplastic deposition in Puerto Rico coastal sediments: a focus on hurricane impacts

Nicholas Culligan; Kam-biu Liu; Thomas A. Bianchette

doi:10.1007/s44218-026-00136-x

Anthropocene Coasts ›› 2026, Vol. 9 ›› Issue (1) :21 DOI: 10.1007/s44218-026-00136-x

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Stratigraphic records of microplastic deposition in Puerto Rico coastal sediments: a focus on hurricane impacts

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Microplastic in the coastal environment is a massive global problem that has only recently been identified, even though widespread plastic usage and subsequent disposal in the environment have occurred since ~1950 CE. Unfortunately, the vast majority of studies on microplastic focus on surficial sediments rather than investigating microplastic concentrations in three dimensions. We remedy the paucity of studies on this understudied topic by examining two sediment cores from the southern and northern coasts of Puerto Rico. The Guayama study site is a protected lagoon in a rural, arid region, whereas the Levittown site is an unprotected tidal lagoon in an urban/suburban area. Despite their differences, both sites contained microplastic in quantifiable amounts, though relatively low compared to other global sites. Compared with Levittown, Guayama contained a lower total amount (48 vs 72), a lower concentration (79 MP/kg vs 116 MP/kg), and less variety of morphotypes (1 vs 4). Radiometric dating on both cores confirmed an increase in microplastic deposition in recent sediments. Only the Guayama site contained sediment that was deposited prior to 1950 CE, and microplastic was found below this sediment horizon, suggesting post-depositional transport likely via bioturbation. Additionally, hurricane event layers were identified using sedimentary and geochemical data (particularly terrestrial signals) which corresponded with increased microplastic concentration, suggesting that hurricane-induced terrestrial flooding is likely responsible for the transport and deposition of high quantities of microplastic into the coastal region. This study is the first to investigate sedimentary microplastic in three dimensions in Puerto Rico, providing information on multiple novel aspects of microplastic transport and deposition in coastal sediments.

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Microplastics / Hurricanes / Marine Pollution / Puerto Rico / Sedimentary Record

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Nicholas Culligan, Kam-biu Liu, Thomas A. Bianchette. Stratigraphic records of microplastic deposition in Puerto Rico coastal sediments: a focus on hurricane impacts. Anthropocene Coasts, 2026, 9(1): 21 DOI:10.1007/s44218-026-00136-x

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References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	Allen S, Allen D, Karbalaei S, Maselli V, Walker TR. Micro (nano) plastics sources, fate, and effects: what we know after ten years of research. J Hazard Mater Adv, 2022, 6100057

[2]	Alongi DM. Mangrove forests: resilience, protection from tsunamis, and responses to global climate change. Estuar Coast Shelf Sci, 2008, 76(1): 1-13

[3]	Alongi DM. Carbon sequestration in mangrove forests. Carbon Manag, 2012, 3(3): 313-322

[4]	Andrady AL. Microplastics in the marine environment. Mar Pollut Bull, 2011, 62(8): 1596-1605

[5]	Azziz-Baumgartner E, Luber G, Conklin L, Tosteson TR, Granade HR, Dickey RW, Backer LC. Assessing the incidence of ciguatera fish poisoning with two surveys conducted in Culebra, Puerto Rico, during 2005 and 2006. Environ Health Perspect, 2012, 120(4): 526-529

[6]	Barnes DK, Galgani F, Thompson RC, Barlaz M. Accumulation and fragmentation of plastic debris in global environments. Philos Trans R Soc Lond B Biol Sci, 2009, 364(1526): 1985-1998

[7]	Baztan J, Carrasco A, Chouinard O, Cleaud M, Gabaldon JE, Huck T, Jaffrès L, Jorgensen B, Miguelez A, Paillard C. Protected areas in the Atlantic facing the hazards of micro-plastic pollution: first diagnosis of three islands in the Canary Current. Mar Pollut Bull, 2014, 80(1-2): 302-311

[8]	Ben-Haddad M, Abelouah MR, Hajji S, De-la-Torre GE, Abou Oualid H, Rangel-Buitrago N, Alla AA. The wedge clam Donax trunculus L., 1758 as a bioindicator of microplastic pollution. Mar Pollut Bull, 2022, 178 113607

[9]	Bennett SP, Mojica R (1998) Hurricane Georges Preliminary Report: From the Tropical Atlantic to the United States Virgin Islands and Puerto Rico. Retrieved December 8, 2023 from https://www.weather.gov/sju/1998_georges

[10]	Bhattacharya A, Khare S. Ecological and toxicological manifestations of microplastics: current scenario, research gaps, and possible alleviation measures. J Environ Sci Health C, 2020, 38(1): 1-20

[11]	Bianchette TA, Liu KB, McCloskey TA. A 4000-year paleoenvironmental reconstruction and extreme event record from Laguna Nuxco, Guerrero, Mexico. Palaeogeogr Palaeoclimatol Palaeoecol, 2022, 594 110933

[12]	Bianchette TA, McCloskey TA, Liu KB. Re-evaluating the geological evidence for Late Holocene marine incursion events along the Guerrero Seismic Gap on the Pacific Coast of Mexico. PLoS ONE, 2016, 11(8): e0161568

[13]	Bianchette TA, McCloskey TA, Liu KB. A 7000-year history of coastal environmental changes from Mexico’s Pacific Coast: a multi-proxy record from Laguna Mitla, Guerrero. Holocene, 2017, 27(8): 1214-1226

[14]	Blaauw M, Christen JA. Bacon Manual v2. 3.3, 2013, Belfast. Queens University Belfast

[15]	Boose ER, Serrano MI, Foster DR. Landscape and regional impacts of hurricanes in Puerto Rico. Ecol Monogr, 2004, 74(2): 335-352

[16]	Bosker T, Guaita L, Behrens P. Microplastic pollution on Caribbean beaches in the Lesser Antilles. Mar Pollut Bull, 2018, 133: 442-447

[17]	Branoff BL. The role of urbanization in the flooding and surface water chemistry of Puerto Rico’s mangroves. Hydrol Sci J, 2020, 65(8): 1326-1343

[18]	Capparelli MV, Martínez-Colón M, Lucas-Solis O, Valencia-Castañeda G, Celis-Hernández O, Ávila E, Moulatlet GM. Can the bioturbation activity of the fiddler crab Minuca rapax modify the distribution of microplastics in sediments?. Mar Pollut Bull, 2022, 180 113798

[19]	Cinco-Castro S, Herrera-Silveira J, Comín F. Sedimentation as a support ecosystem service in different ecological types of mangroves. Front for Glob Change, 2022, 5 733820

[20]	Clayton CA, Walker TR, Bezerra JC, Adam I. Policy responses to reduce single-use plastic marine pollution in the Caribbean. Mar Pollut Bull, 2021, 162 111833

[21]	Colón-Ortiz AJ, Febles-Moreno K. Description of microplastic on the coast of La Guancha in Ponce, Puerto Rico. ECORFAN-Bolivia Journal, 2018, 5(8): 24-32

[22]	Cózar A, Echevarría F, González-Gordillo JI, Irigoien X, Úbeda B, Hernández-León S, Palma ÁT, Navarro S, García-de-Lomas J, Ruiz A. Plastic debris in the open ocean. Proc Natl Acad Sci, 2014, 111(28): 10239-10244

[23]	Crabtree RE (2019) Comprehensive Fishery Management Plan for the Puerto Rico Exclusive Economic Zone Including Environmental Assessment, Regulatory Impact Review, and Fishery Impact Statement

[24]	Culligan N, Liu KB, Bianchette TA, Tiong EJ, Martínez-Colón M, Lam T. A multi-proxy paleotempestological reconstruction from Cabo Rojo, southwestern Puerto Rico. Quat Sci Rev, 2025, 368 109545

[25]	Culligan N, Liu KB, Ribble K, Ryu J, Dietz M. Sedimentary records of microplastic pollution from coastal Louisiana and their environmental implications. J Coast Conserv, 2022, 26(1): 1-14

[26]	Cusworth SJ, Davies WJ, McAinsh MR, Gregory AS, Storkey J, Stevens CJ. Agricultural fertilisers contribute substantially to microplastic concentrations in UK soils. Commun Earth Environ, 2024, 5(1): 7

[27]	Davies S, Lamb H, Roberts S. (2015) Micro-XRF Core Scanning in Palaeolimnology: Recent Developments. In: Croudace, I., Rothwell, R. (eds) Micro-XRF Studies of Sediment Cores. Developments in Paleoenvironmental Research, vol 17. Springer, Dordrecht. https://doi.org/10.1007/978-94-017-9849-5_7

[28]	de Scisciolo T, Mijts EN, Becker T, Eppinga MB. Beach debris on Aruba, Southern Caribbean: attribution to local land-based and distal marine-based sources. Mar Pollut Bull, 2016, 106(1-2): 49-57

[29]	Debrot AO, Tiel AB, Bradshaw JE. Beach debris in Curacao. Mar Pollut Bull, 1999, 38(9): 795-801

[30]	Debrot AO, van Rijn J, Bron PS, de León R. A baseline assessment of beach debris and tar contamination in Bonaire, Southeastern Caribbean. Mar Pollut Bull, 2013, 71(1-2): 325-329

[31]	Di Mauro R, Kupchik MJ, Benfield MC. Abundant plankton-sized microplastic particles in shelf waters of the northern Gulf of Mexico. Environ Pollut, 2017, 230: 798-809

[32]	Dimante-Deimantovica I, Saarni S, Barone M, Buhhalko N, Stivrins N, Suhareva N, Tylmann W, Vianello A, Vollertsen J. Downward migrating microplastics in lake sediments are a tricky indicator for the onset of the Anthropocene. Sci Adv, 2024, 10(8): eadi8136

[33]	Donnelly JP, Woodruff JD. Intense hurricane activity over the past 5,000 years controlled by El Niño and the West African monsoon. Nature, 2007, 447(7143): 465-468

[34]	Eriksen M, Lebreton LC, Carson HS, Thiel M, Moore CJ, Borerro JC, Galgani F, Ryan PG, Reisser J. Plastic pollution in the world's oceans: more than 5 trillion plastic pieces weighing over 250,000 tons afloat at sea. PLoS ONE, 2014, 9(12): e111913

[35]	Field R, Laboy EN, Capellla J, Robles PO, González CM. Jobos Bay Estuarine Profile, 2008, Aguirre, Puerto Rico. National Oceanic and Atmospheric Administration, Jobos Bay National Estuarine Research Reserve107

[36]	Gebhardt C, Forster S. Size-selective feeding of Arenicola marina promotes long-term burial of microplastic particles in marine sediments. Environ Pollut, 2018, 242: 1777-1786

[37]	Geyer R, Jambeck JR, Law KL. Production, use, and fate of all plastics ever made. Sci Adv, 2017, 3(7): e1700782

[38]	Ginsburg RN, Lloyd RM. A manual piston coring device for use in shallow water. J Sediment Res, 1956, 26(1): 64-66

[39]	Guiney JL (1999) Preliminary report on Hurricane Georges: 15 September - 1 October 1998. (Available online at https://www.nhc.noaa.gov/1998georges.html).

[40]	Hale RC, Seeley ME, La Guardia MJ, Mai L, Zeng EY. A global perspective on microplastics. J Geophys Res Oceans, 2020, 125(1): e2018JC014719

[41]	Hamid A, Dagash Y. Effects of sulfur on sugarcane yield and quality at the heavy clay soil vertisols of Sudan. Univers J Appl Sci, 2014, 2(3): 68-71

[42]	Haug GH, Hughen KA, Sigman DM, Peterson LC, Rohl U. Southward migration of the intertropical convergence zone through the Holocene. Science, 2001, 293(5533): 1304-1308

[43]	Heiri O, Lotter AF, Lemcke G. Loss on ignition as a method for estimating organic and carbonate content in sediments: reproducibility and comparability of results. J Paleolimnol, 2001, 25(1): 101-110

[44]

Hernández-Delgado EA, Ramos-Scharrón CE, Guerrero-Pérez CR, Lucking MA, Laureano R, Méndez-Lázaro PA, Meléndez-Díaz JO. Long-term impacts of non-sustainable tourism and urban development in small tropical islands coastal habitats in a changing climate: lessons learned from Puerto Rico, 2012, Vis. Glob. Tour. Ind.-Creat. Sustain. Compet. Strateg.. InTech Publications, Rijeka: 357-398

[45]	Hidalgo-Ruz V, Thiel M. Distribution and abundance of small plastic debris on beaches in the SE Pacific (Chile): a study supported by a citizen science project. Mar Environ Res, 2013, 87: 12-18

[46]	Iliff SM, Wilczek ER, Harris RJ, Bouldin R, Stoner EW. Evidence of microplastics from benthic jellyfish (Cassiopea xamachana) in Florida estuaries. Mar Pollut Bull, 2020, 159 111521

[47]	Ivar do Sul JA, Costa MF. Marine debris review for Latin America and the wider Caribbean region: from the 1970s until now, and where do we go from here?. Mar Pollut Bull, 2007, 54(8): 1087-1104

[48]	Kaandorp ML, Lobelle D, Kehl C, Dijkstra HA, van Sebille E. Global mass of buoyant marine plastics dominated by large long-lived debris. Nat Geosci, 2023, 16(8): 689-694

[49]	Khan NS, Vane CH, Engelhart SE, Kendrick C, Horton BP. The application of δ13C, TOC and C/N geochemistry of mangrove sediments to reconstruct Holocene paleoenvironments and relative sea levels, Puerto Rico. Mar Geol, 2019, 415 105963

[50]	Lane SN, Bakker M, Costa A, Girardclos S, Loizeau J-L, Molnar P, Silva T, Stutenbecker L, Schlunegger F. Making stratigraphy in the Anthropocene: climate change impacts and economic conditions controlling the supply of sediment to Lake Geneva. Sci Rep, 2019, 9(1): 8904

[51]	Liu K, Wu T, Wang X, Song Z, Zong C, Wei N, Li D. Consistent transport of terrestrial microplastics to the ocean through atmosphere. Environ Sci Technol, 2019, 53(18): 10612-10619

[52]	Liu KB, Fearn ML. Reconstruction of prehistoric landfall frequencies of catastrophic hurricanes in northwestern Florida from lake sediment records. Quat Res, 2000, 54(2): 238-245

[53]	Liu K-B, McCloskey T, Ortego S, Maiti K. Sedimentary signature of Hurricane Isaac in a Taxodium swamp on the western margin of Lake Pontchartrain, Louisiana, USA. Proc Int Assoc Hydrol Sci, 2014, 367: 421-428

[54]	Machendiranathan M, Jin G, Huang H, Liang T, Lin Z, Lin H, Xie L, Chen F (2025) Vertical distribution of microplastics in coastal sediments of Xuwen Coral Reef National Nature Reserve, China. J Oceanol Limnol 43(2):422-432

[55]	Masura J, Baker J, Foster G, Arthur C (2015) Laboratory methods for the analysis of microplastics in the marine environment: recommendations for quantifying synthetic particles in waters and sediments. NOAA Technical Memorandum NOS-OR&R-48.

[56]	Matsuguma Y, Takada H, Kumata H, Kanke H, Sakurai S, Suzuki T, Itoh M, Okazaki Y, Boonyatumanond R, Zakaria MP. Microplastics in sediment cores from Asia and Africa as indicators of temporal trends in plastic pollution. Arch Environ Contam Toxicol, 2017, 73(2): 230-239

[57]	McCloskey TA, Smith CG, Liu KB, Marot M, Haller C. How could a freshwater swamp produce a chemical signature characteristic of a saltmarsh?. ACS Earth Space Chem, 2018, 2(1): 9-20

[58]	Monteiro RC, do Sul JAI, Costa MF. Plastic pollution in islands of the Atlantic Ocean. Environ Pollut, 2018, 238: 103-110

[59]	Näkki P, Setälä O, Lehtiniemi M. Bioturbation transports secondary microplastics to deeper layers in soft marine sediments of the northern Baltic Sea. Mar Pollut Bull, 2017, 119(1): 255-261

[60]	National Wild and Scenic Rivers System (2021) Puerto Rico. Retrieved January 22, 2021 from https://www.rivers.gov/puerto-rico.php

[61]	NOAA Office for Coastal Management (2021) Historical Hurricane Tracks. Retrieved January 22, 2021 from https://coast.noaa.gov/hurricanes

[62]	Noaghiul S, Hibbeln JR. Cross-national comparisons of seafood consumption and rates of bipolar disorders. Am J Psychiatry, 2003, 160(12): 2222-2227

[63]	Pasch RJ, Penny AB, Berg R (2019) National Hurricane center tropical cyclone report: Hurricane Maria. TROPICAL CYCLONE REPORT AL152017, National Oceanic and Atmospheric Administration and the National Weather Service, 1–48. (Available online at https://www.nhc.noaa.gov/data/tcr/AL152017_Maria.pdf)

[64]	Pérez-Alvelo KM, Llegus EM, Forestier-Babilonia JM, Elías-Arroyo CV, Pagán-Malavé KN, Bird-Rivera GJ, Rodríguez-Sierra CJ. Microplastic pollution on sandy beaches of Puerto Rico. Mar Pollut Bull, 2021, 164 112010

[65]	Quinones F, Johnson KG. The Floods of May 17-18, 1985 and October 6-7, 1985 in Puerto Rico, 1987, Reston, Va. US Geological Survey

[66]	Ramírez-Herrera M-T, Lagos M, Hutchinson I, Kostoglodov V, Machain ML, Caballero M, Goguitchaichvili A, Aguilar B, Chagué-Goff C, Goff J. Extreme wave deposits on the Pacific coast of Mexico: tsunamis or storms?—a multi-proxy approach. Geomorphology, 2012, 139: 360-371

[67]	Roth DM (2007) Tropical Storm Isabel - October 4–16, 1985. Retrieved October 16, 2023 from https://www.wpc.ncep.noaa.gov/tropical/rain/isabel1985.html

[68]	Ruiz-Fernández AC, Pérez-Bernal LH, Sanchez-Cabeza J-A, Valencia-Castañeda G, Ontiveros-Cuadras JF, Alonso-Hernández CM. Accelerating microplastic contamination in 210Pb dated sediment cores from an urbanized coastal lagoon (NW Mexico) since the 1990s. Sci Total Environ, 2024, 951 175613

[69]	Ryu J, Liu KB, McCloskey TA, Yun S-L (2023) An integrated methodology for assessing ecosystem response to environmental stressors under changing climatic conditions in coastal wetlands. Heliyon 9(11):1-15

[70]	Schnurr RE, Alboiu V, Chaudhary M, Corbett RA, Quanz ME, Sankar K, Srain HS, Thavarajah V, Xanthos D, Walker TR. Reducing marine pollution from single-use plastics (SUPs): a review. Mar Pollut Bull, 2018, 137: 157-171

[71]	Sharma D, Dhanker R, Bhawna Tomar A, Raza S, Sharma A (2024) Fishing gears and nets as a source of microplastic. In Microplastic pollut, Singapore: Springer Nature Singapore, pp. 127-140

[72]	Stuiver M, Reimer PJ. CALIB rev. 8. Radiocarbon, 1993, 35(1): 215-230

[73]	Tarte JV, Johir MAH, Tra V-T, Cai Z, Wang Q, Nghiem LD. Optimising microplastics analysis for quantifying and identifying microplastic fibres in laundry wastewater. Sci Total Environ, 2024, 952 175907

[74]	Thornton L, Jackson NL. Spatial and temporal variations in debris accumulation and composition on an estuarine shoreline, Cliffwood Beach, New Jersey, USA. Mar Pollut Bull, 1998, 36(9): 705-711

[75]	Tiong EJ, Culligan N, Liu KB, Martínez-Colón M, Bianchette TA (2025) A 3700-year paleoenvironmental record from Jobos Bay, Puerto Rico: Applying multiple proxies to reconstruct late Holocene extreme events. Palaeogeogr, Palaeoclimatol, Palaeoecol 667:112872

[76]	Turra A, Manzano AB, Dias RJS, Mahiques MM, Barbosa L, Balthazar-Silva D, Moreira FT. Three-dimensional distribution of plastic pellets in sandy beaches: shifting paradigms. Sci Rep, 2014, 4(1): 1-7

[77]	United States Census Bureau (2022) Toa Baja Municipio, Puerto Rico. Retrieved January 11, 2022 from https://www.census.gov/quickfacts/toabajamunicipiopuertorico

[78]	Wang F, Shao W, Yu H, Kan G, He X, Zhang D, Ren M, Wang G. Re-evaluation of the power of the Mann-Kendall test for detecting monotonic trends in hydrometeorological time series. Front Earth Sci, 2020, 8 14

[79]	Williams HF, Beaubouef CE, Liu KB, Culligan N, Riedlinger L. Testing XRF identification of marine washover sediment beds in a Coastal Lake in Southeastern Texas, USA. Mar Geol, 2022, 443 106705

[80]	Williams HF, Liu KB. Testing XRF discrimination of marine and terrestrial flood deposits in Southeastern Texas coastal marshes. J Coast Res, 2021, 37(6): 1081-1087

[81]	Wright LS, Napper IE, Thompson RC. Potential microplastic release from beached fishing gear in Great Britain's region of highest fishing litter density. Mar Pollut Bull, 2021, 173 113115

[82]	Xue B, Zhang L, Li R, Wang Y, Guo J, Yu K, Wang S. Underestimated microplastic pollution derived from fishery activities and “hidden” in deep sediment. Environ Sci Technol, 2020, 54(4): 2210-2217

[83]	Yao Q, Liu K-b, Ryu J. Multi-proxy characterization of Hurricanes Rita and Ike storm deposits in the Rockefeller Wildlife Refuge, southwestern Louisiana. J Coast Res, 2018, 85(10085): 841-845

[84]	Yao Q, Liu K-B, Williams H, Joshi S, Bianchette TA, Ryu J, Dietz M. Hurricane Harvey storm sedimentation in the San Bernard national wildlife refuge, Texas: fluvial versus storm surge deposition. Estuaries Coasts, 2019, 43(5): 971-983

[85]	Yao Q, Liu KB, Rodrigues E, Bianchette T, Aragón‐Moreno AA, Zhang Z. A geochemical record of late‐Holocene hurricane events from the Florida Everglades. Water Resour Res, 2020, 56(8): e2019WR026857

[86]	Yu X, Peng J, Wang J, Wang K, Bao S. Occurrence of microplastics in the beach sand of the Chinese inner sea: the Bohai Sea. Environ Pollut, 2016, 214: 722-730

[87]	Zhang H. Transport of microplastics in coastal seas. Estuar Coast Shelf Sci, 2017, 199: 74-86

[88]	Zhao P, Wang X, Jiang H, Zhang B, Chen L, Zhao J, Teng J, Wang Q. Vertical distribution of microplastics in sediment columns along the coastline of China. Sci Total Environ, 2024, 947 174685