Research Article
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Year 2023, Volume: 6 Issue: 1, 13 - 20, 31.03.2023
https://doi.org/10.35208/ert.1204883

Abstract

Supporting Institution

Zonguldak Bulent Ecevit University

Project Number

2019-77047330-03

Thanks

Çağlar Bayık Mustafa Ekinci Oral Ergül

References

  • [1] G. Macfadyen, T. Huntington, R. Cappell, Abandoned, lost or otherwise discarded fishing gear, 2009.
  • [2] M. Viitala, Z. Steinmetz, M. Sillanpää, M. Mänttäri, M. Sillanpää, Historical and current occurrence of microplastics in water and sediment of a Finnish lake affected by WWTP effluents, Environmental Pollution, (2022) 120298.
  • [3] D. Zhang, Y. Cui, H. Zhou, C. Jin, X. Yu, Y. Xu, Y. Li, C. Zhang, Microplastic pollution in water, sediment, and fish from artificial reefs around the Ma’an Archipelago, Shengsi, China, Science of The Total Environment, 703 (2020) 134768.
  • [4] D. Liu, Z.-F. Guo, Y.-Y. Xu, F. Ka Shun Chan, Y.-Y. Xu, M. Johnson, Y.-G. Zhu, Widespread occurrence of microplastics in marine bays with diverse drivers and environmental risk, Environment International, 168 (2022) 107483.
  • [5] X. Xiong, S. Xie, K. Feng, Q. Wang, Occurrence of microplastics in a pond-river-lake connection water system: How does the aquaculture process affect microplastics in natural water bodies, Journal of Cleaner Production, 352 (2022) 131632.
  • [6] L. Zhang, S. Zhang, J. Guo, K. Yu, Y. Wang, R. Li, Dynamic distribution of microplastics in mangrove sediments in Beibu Gulf, South China: Implications of tidal current velocity and tidal range, Journal of Hazardous Materials, 399 (2020) 122849.
  • [7] K. Enders, R. Lenz, C.A. Stedmon, T.G. Nielsen, Abundance, size and polymer composition of marine microplastics ≥10 μm in the Atlantic Ocean and their modelled vertical distribution, Marine Pollution Bulletin, 100 (2015) 70-81.
  • [8] J.-H. Kang, O.Y. Kwon, K.-W. Lee, Y.K. Song, W.J. Shim, Marine neustonic microplastics around the southeastern coast of Korea, Marine Pollution Bulletin, 96 (2015) 304-312.
  • [9] A. Reboa, L. Cutroneo, S. Consani, I. Geneselli, M. Petrillo, G. Besio, M. Capello, Mugilidae fish as bioindicator for monitoring plastic pollution: Comparison between a commercial port and a fishpond (north-western Mediterranean Sea), Marine Pollution Bulletin, 177 (2022) 113531.
  • [10] M. Mali, D. Malcangio, M.M. Dell’ Anna, L. Damiani, P. Mastrorilli, Influence of hydrodynamic features in the transport and fate of hazard contaminants within touristic ports. Case study: Torre a Mare (Italy), Heliyon, 4 (2018) e00494.
  • [11] F. Preston-Whyte, B. Silburn, B. Meakins, A. Bakir, K. Pillay, M. Worship, S. Paruk, Y. Mdazuka, G. Mooi, R. Harmer, D. Doran, F. Tooley, T. Maes, Meso- and microplastics monitoring in harbour environments: A case study for the Port of Durban, South Africa, Marine Pollution Bulletin, 163 (2021) 111948.
  • [12] H.A. Nel, J.W. Hean, X.S. Noundou, P.W. Froneman, Do microplastic loads reflect the population demographics along the southern African coastline?, Marine Pollution Bulletin, 115 (2017) 115-119.
  • [13] F. Dubaish, G. Liebezeit, Suspended Microplastics and Black Carbon Particles in the Jade System, Southern North Sea, Water, Air, & Soil Pollution, 224 (2013) 1352.
  • [14] L. Lahens, E. Strady, T.-C. Kieu-Le, R. Dris, K. Boukerma, E. Rinnert, J. Gasperi, B. Tassin, Macroplastic and microplastic contamination assessment of a tropical river (Saigon River, Vietnam) transversed by a developing megacity, Environmental Pollution, 236 (2018) 661-671.
  • [15] J. Zhang, H. Chen, H. He, X. Cheng, T. Ma, J. Hu, S. Yang, S. Li, L. Zhang, Adsorption behavior and mechanism of 9-Nitroanthracene on typical microplastics in aqueous solutions, Chemosphere, 245 (2020) 125628.
  • [16] P. Wu, Y. Tang, M. Dang, S. Wang, H. Jin, Y. Liu, H. Jing, C. Zheng, S. Yi, Z. Cai, Spatial-temporal distribution of microplastics in surface water and sediments of Maozhou River within Guangdong-Hong Kong-Macao Greater Bay Area, Science of The Total Environment, 717 (2020) 135187.
  • [17] G. Wang, J. Lu, Y. Tong, Z. Liu, H. Zhou, N. Xiayihazi, Occurrence and pollution characteristics of microplastics in surface water of the Manas River Basin, China, Science of The Total Environment, 710 (2020) 136099.
  • [18] G. Everaert, L. Van Cauwenberghe, M. De Rijcke, A.A. Koelmans, J. Mees, M. Vandegehuchte, C.R. Janssen, Risk assessment of microplastics in the ocean: Modelling approach and first conclusions, Environmental Pollution, 242 (2018) 1930-1938.
  • [19] E.D. Osorio, M.A.N. Tanchuling, M.B.L.D. Diola, Microplastics Occurrence in Surface Waters and Sediments in Five River Mouths of Manila Bay, Frontiers in Environmental Science, 9 (2021).
  • [20] U. Aytan, A. Valente, Y. Senturk, R. Usta, F.B. Esensoy Sahin, R.E. Mazlum, E. Agirbas, First evaluation of neustonic microplastics in Black Sea waters, Marine Environmental Research, 119 (2016) 22-30.
  • [21] Y. Terzi, K. Gedik, A.R. Eryaşar, R.Ç. Öztürk, A. Şahin, F. Yılmaz, Microplastic contamination and characteristics spatially vary in the southern Black Sea beach sediment and sea surface water, Marine Pollution Bulletin, 174 (2022) 113228.
  • [22] V.Z. Sönmez, C. Akarsu, N. Sivri, Impact of coastal wastewater treatment plants on microplastic pollution in surface seawater and ecological risk assessment, Environmental Pollution, 318 (2023) 120922.
  • [23] R. Egessa, A. Nankabirwa, H. Ocaya, W.G. Pabire, Microplastic pollution in surface water of Lake Victoria, Science of The Total Environment, 741 (2020) 140201.
  • [24] M. Kazour, S. Jemaa, C. Issa, G. Khalaf, R. Amara, Microplastics pollution along the Lebanese coast (Eastern Mediterranean Basin): Occurrence in surface water, sediments and biota samples, Science of The Total Environment, 696 (2019) 133933.
  • [25] J.-P.W. Desforges, M. Galbraith, N. Dangerfield, P.S. Ross, Widespread distribution of microplastics in subsurface seawater in the NE Pacific Ocean, Marine Pollution Bulletin, 79 (2014) 94-99.
  • [26] O. Garcés-Ordóñez, J.F. Saldarriaga-Vélez, L.F. Espinosa-Díaz, A.D. Patiño, J. Cusba, M. Canals, K. Mejía-Esquivia, L. Fragozo-Velásquez, S. Sáenz-Arias, T. Córdoba-Meza, M. Thiel, Microplastic pollution in water, sediments and commercial fish species from Ciénaga Grande de Santa Marta lagoon complex, Colombian Caribbean, Science of The Total Environment, 829 (2022) 154643.
  • [27] C. Schönlau, T.M. Karlsson, A. Rotander, H. Nilsson, M. Engwall, B. van Bavel, A. Kärrman, Microplastics in sea-surface waters surrounding Sweden sampled by manta trawl and in-situ pump, Marine Pollution Bulletin, 153 (2020) 111019.
  • [28] K.L. Kaposi, B. Mos, B.P. Kelaher, S.A. Dworjanyn, Ingestion of Microplastic Has Limited Impact on a Marine Larva, Environmental Science & Technology, 48 (2014) 1638-1645.
  • [29] A.A. Koelmans, P.E. Redondo-Hasselerharm, N.H.M. Nor, V.N. de Ruijter, S.M. Mintenig, M. Kooi, Risk assessment of microplastic particles, Nature Reviews Materials, 7 (2022) 138-152.
  • [30] I.B. Jâms, F.M. Windsor, T. Poudevigne-Durance, S.J. Ormerod, I. Durance, Estimating the size distribution of plastics ingested by animals, Nature Communications, 11 (2020) 1594.
  • [31] U. Aytan, F.B. Esensoy, Y. Senturk, E. Arifoğlu, K. Karaoğlu, Y. Ceylan, A. Valente, Plastic occurrence in commercial fish species of the Black Sea, Turkish Journal of Fisheries and Aquatic Sciences, 22 (2021).
  • [32] UNDP, https://www.undp.org/ukraine/press-releases/black-sea-twice-polluted-marine-litter-mediterranean-sea-%E2%80%93-eu-project%E2%80%99s-survey, 2019.

Microplastic pollution in a small fishing port in Zonguldak/Turkey

Year 2023, Volume: 6 Issue: 1, 13 - 20, 31.03.2023
https://doi.org/10.35208/ert.1204883

Abstract

In this study, the occurrence and morphology of microplastics in a small fishing port in the Black Sea were determined by bulk sampling and visually analyzed by a stereo microscope. Three sampling campaigns were carried out, two of which were after the opening of the legal fishing season. The average abundance of the microplastics was found to be 3417+1401 items/m3. The determined microplastic concentration was 1.43 times higher on the day of the most intense fishing activities. No statistically significant differences were observed for the different sampling locations (coast, middle, and seaside). The most frequent microplastic colors observed were blue, followed by black, green, red, white and grey, while fibers represented the dominant shape. The prevalent size of microplastics was <50 µm which makes it easy to ingest by even the smaller fishes and introduce into the food chain as well. However the NP value which shows the bioavailability of microplastic was calculated as 0.72 indicating a low bioavailability (≤2).

Project Number

2019-77047330-03

References

  • [1] G. Macfadyen, T. Huntington, R. Cappell, Abandoned, lost or otherwise discarded fishing gear, 2009.
  • [2] M. Viitala, Z. Steinmetz, M. Sillanpää, M. Mänttäri, M. Sillanpää, Historical and current occurrence of microplastics in water and sediment of a Finnish lake affected by WWTP effluents, Environmental Pollution, (2022) 120298.
  • [3] D. Zhang, Y. Cui, H. Zhou, C. Jin, X. Yu, Y. Xu, Y. Li, C. Zhang, Microplastic pollution in water, sediment, and fish from artificial reefs around the Ma’an Archipelago, Shengsi, China, Science of The Total Environment, 703 (2020) 134768.
  • [4] D. Liu, Z.-F. Guo, Y.-Y. Xu, F. Ka Shun Chan, Y.-Y. Xu, M. Johnson, Y.-G. Zhu, Widespread occurrence of microplastics in marine bays with diverse drivers and environmental risk, Environment International, 168 (2022) 107483.
  • [5] X. Xiong, S. Xie, K. Feng, Q. Wang, Occurrence of microplastics in a pond-river-lake connection water system: How does the aquaculture process affect microplastics in natural water bodies, Journal of Cleaner Production, 352 (2022) 131632.
  • [6] L. Zhang, S. Zhang, J. Guo, K. Yu, Y. Wang, R. Li, Dynamic distribution of microplastics in mangrove sediments in Beibu Gulf, South China: Implications of tidal current velocity and tidal range, Journal of Hazardous Materials, 399 (2020) 122849.
  • [7] K. Enders, R. Lenz, C.A. Stedmon, T.G. Nielsen, Abundance, size and polymer composition of marine microplastics ≥10 μm in the Atlantic Ocean and their modelled vertical distribution, Marine Pollution Bulletin, 100 (2015) 70-81.
  • [8] J.-H. Kang, O.Y. Kwon, K.-W. Lee, Y.K. Song, W.J. Shim, Marine neustonic microplastics around the southeastern coast of Korea, Marine Pollution Bulletin, 96 (2015) 304-312.
  • [9] A. Reboa, L. Cutroneo, S. Consani, I. Geneselli, M. Petrillo, G. Besio, M. Capello, Mugilidae fish as bioindicator for monitoring plastic pollution: Comparison between a commercial port and a fishpond (north-western Mediterranean Sea), Marine Pollution Bulletin, 177 (2022) 113531.
  • [10] M. Mali, D. Malcangio, M.M. Dell’ Anna, L. Damiani, P. Mastrorilli, Influence of hydrodynamic features in the transport and fate of hazard contaminants within touristic ports. Case study: Torre a Mare (Italy), Heliyon, 4 (2018) e00494.
  • [11] F. Preston-Whyte, B. Silburn, B. Meakins, A. Bakir, K. Pillay, M. Worship, S. Paruk, Y. Mdazuka, G. Mooi, R. Harmer, D. Doran, F. Tooley, T. Maes, Meso- and microplastics monitoring in harbour environments: A case study for the Port of Durban, South Africa, Marine Pollution Bulletin, 163 (2021) 111948.
  • [12] H.A. Nel, J.W. Hean, X.S. Noundou, P.W. Froneman, Do microplastic loads reflect the population demographics along the southern African coastline?, Marine Pollution Bulletin, 115 (2017) 115-119.
  • [13] F. Dubaish, G. Liebezeit, Suspended Microplastics and Black Carbon Particles in the Jade System, Southern North Sea, Water, Air, & Soil Pollution, 224 (2013) 1352.
  • [14] L. Lahens, E. Strady, T.-C. Kieu-Le, R. Dris, K. Boukerma, E. Rinnert, J. Gasperi, B. Tassin, Macroplastic and microplastic contamination assessment of a tropical river (Saigon River, Vietnam) transversed by a developing megacity, Environmental Pollution, 236 (2018) 661-671.
  • [15] J. Zhang, H. Chen, H. He, X. Cheng, T. Ma, J. Hu, S. Yang, S. Li, L. Zhang, Adsorption behavior and mechanism of 9-Nitroanthracene on typical microplastics in aqueous solutions, Chemosphere, 245 (2020) 125628.
  • [16] P. Wu, Y. Tang, M. Dang, S. Wang, H. Jin, Y. Liu, H. Jing, C. Zheng, S. Yi, Z. Cai, Spatial-temporal distribution of microplastics in surface water and sediments of Maozhou River within Guangdong-Hong Kong-Macao Greater Bay Area, Science of The Total Environment, 717 (2020) 135187.
  • [17] G. Wang, J. Lu, Y. Tong, Z. Liu, H. Zhou, N. Xiayihazi, Occurrence and pollution characteristics of microplastics in surface water of the Manas River Basin, China, Science of The Total Environment, 710 (2020) 136099.
  • [18] G. Everaert, L. Van Cauwenberghe, M. De Rijcke, A.A. Koelmans, J. Mees, M. Vandegehuchte, C.R. Janssen, Risk assessment of microplastics in the ocean: Modelling approach and first conclusions, Environmental Pollution, 242 (2018) 1930-1938.
  • [19] E.D. Osorio, M.A.N. Tanchuling, M.B.L.D. Diola, Microplastics Occurrence in Surface Waters and Sediments in Five River Mouths of Manila Bay, Frontiers in Environmental Science, 9 (2021).
  • [20] U. Aytan, A. Valente, Y. Senturk, R. Usta, F.B. Esensoy Sahin, R.E. Mazlum, E. Agirbas, First evaluation of neustonic microplastics in Black Sea waters, Marine Environmental Research, 119 (2016) 22-30.
  • [21] Y. Terzi, K. Gedik, A.R. Eryaşar, R.Ç. Öztürk, A. Şahin, F. Yılmaz, Microplastic contamination and characteristics spatially vary in the southern Black Sea beach sediment and sea surface water, Marine Pollution Bulletin, 174 (2022) 113228.
  • [22] V.Z. Sönmez, C. Akarsu, N. Sivri, Impact of coastal wastewater treatment plants on microplastic pollution in surface seawater and ecological risk assessment, Environmental Pollution, 318 (2023) 120922.
  • [23] R. Egessa, A. Nankabirwa, H. Ocaya, W.G. Pabire, Microplastic pollution in surface water of Lake Victoria, Science of The Total Environment, 741 (2020) 140201.
  • [24] M. Kazour, S. Jemaa, C. Issa, G. Khalaf, R. Amara, Microplastics pollution along the Lebanese coast (Eastern Mediterranean Basin): Occurrence in surface water, sediments and biota samples, Science of The Total Environment, 696 (2019) 133933.
  • [25] J.-P.W. Desforges, M. Galbraith, N. Dangerfield, P.S. Ross, Widespread distribution of microplastics in subsurface seawater in the NE Pacific Ocean, Marine Pollution Bulletin, 79 (2014) 94-99.
  • [26] O. Garcés-Ordóñez, J.F. Saldarriaga-Vélez, L.F. Espinosa-Díaz, A.D. Patiño, J. Cusba, M. Canals, K. Mejía-Esquivia, L. Fragozo-Velásquez, S. Sáenz-Arias, T. Córdoba-Meza, M. Thiel, Microplastic pollution in water, sediments and commercial fish species from Ciénaga Grande de Santa Marta lagoon complex, Colombian Caribbean, Science of The Total Environment, 829 (2022) 154643.
  • [27] C. Schönlau, T.M. Karlsson, A. Rotander, H. Nilsson, M. Engwall, B. van Bavel, A. Kärrman, Microplastics in sea-surface waters surrounding Sweden sampled by manta trawl and in-situ pump, Marine Pollution Bulletin, 153 (2020) 111019.
  • [28] K.L. Kaposi, B. Mos, B.P. Kelaher, S.A. Dworjanyn, Ingestion of Microplastic Has Limited Impact on a Marine Larva, Environmental Science & Technology, 48 (2014) 1638-1645.
  • [29] A.A. Koelmans, P.E. Redondo-Hasselerharm, N.H.M. Nor, V.N. de Ruijter, S.M. Mintenig, M. Kooi, Risk assessment of microplastic particles, Nature Reviews Materials, 7 (2022) 138-152.
  • [30] I.B. Jâms, F.M. Windsor, T. Poudevigne-Durance, S.J. Ormerod, I. Durance, Estimating the size distribution of plastics ingested by animals, Nature Communications, 11 (2020) 1594.
  • [31] U. Aytan, F.B. Esensoy, Y. Senturk, E. Arifoğlu, K. Karaoğlu, Y. Ceylan, A. Valente, Plastic occurrence in commercial fish species of the Black Sea, Turkish Journal of Fisheries and Aquatic Sciences, 22 (2021).
  • [32] UNDP, https://www.undp.org/ukraine/press-releases/black-sea-twice-polluted-marine-litter-mediterranean-sea-%E2%80%93-eu-project%E2%80%99s-survey, 2019.
There are 32 citations in total.

Details

Primary Language English
Subjects Environmental Sciences, Environmental Engineering
Journal Section Research Articles
Authors

Gülçin Demirel Bayık 0000-0002-5761-5327

Elif Aydemir 0000-0001-5771-3202

Project Number 2019-77047330-03
Publication Date March 31, 2023
Submission Date November 15, 2022
Acceptance Date February 1, 2023
Published in Issue Year 2023 Volume: 6 Issue: 1

Cite

APA Demirel Bayık, G., & Aydemir, E. (2023). Microplastic pollution in a small fishing port in Zonguldak/Turkey. Environmental Research and Technology, 6(1), 13-20. https://doi.org/10.35208/ert.1204883
AMA Demirel Bayık G, Aydemir E. Microplastic pollution in a small fishing port in Zonguldak/Turkey. ERT. March 2023;6(1):13-20. doi:10.35208/ert.1204883
Chicago Demirel Bayık, Gülçin, and Elif Aydemir. “Microplastic Pollution in a Small Fishing Port in Zonguldak/Turkey”. Environmental Research and Technology 6, no. 1 (March 2023): 13-20. https://doi.org/10.35208/ert.1204883.
EndNote Demirel Bayık G, Aydemir E (March 1, 2023) Microplastic pollution in a small fishing port in Zonguldak/Turkey. Environmental Research and Technology 6 1 13–20.
IEEE G. Demirel Bayık and E. Aydemir, “Microplastic pollution in a small fishing port in Zonguldak/Turkey”, ERT, vol. 6, no. 1, pp. 13–20, 2023, doi: 10.35208/ert.1204883.
ISNAD Demirel Bayık, Gülçin - Aydemir, Elif. “Microplastic Pollution in a Small Fishing Port in Zonguldak/Turkey”. Environmental Research and Technology 6/1 (March 2023), 13-20. https://doi.org/10.35208/ert.1204883.
JAMA Demirel Bayık G, Aydemir E. Microplastic pollution in a small fishing port in Zonguldak/Turkey. ERT. 2023;6:13–20.
MLA Demirel Bayık, Gülçin and Elif Aydemir. “Microplastic Pollution in a Small Fishing Port in Zonguldak/Turkey”. Environmental Research and Technology, vol. 6, no. 1, 2023, pp. 13-20, doi:10.35208/ert.1204883.
Vancouver Demirel Bayık G, Aydemir E. Microplastic pollution in a small fishing port in Zonguldak/Turkey. ERT. 2023;6(1):13-20.