Global Trends in Research on Microplastic Contamination and River Water Quality: A Bibliometric Review

Nisa Nur Agistni Eriana, Nia Kania, Meitria Syahadatina Noor, Eko Suhartono, Herawati Herawati

Sari


ABSTRACT

 

This study aims to analyse global trends in research related to microplastic contamination and river water quality using a bibliometric approach. Microplastics have become one of the most pressing environmental issues in recent decades, mainly due to their significant impact on aquatic ecosystems and potential harm to human health. Along with the increasing attention to this issue, the scientific literature related to microplastics and river water quality has grown rapidly. However, a thorough understanding of the distribution of research, relationships between topics, as well as potential research gaps is still needed to direct future research more effectively. This study used a literature search method through the Publish or Perish app, with keywords including "microplastics," "water quality," "water pollution," "microplastic contamination," and "river." The search was conducted from 2014 to 2024, resulting in 50 relevant articles for further analysis. The data obtained was then processed using VOSviewer to map and visualise the bibliometric network, identify key clusters, and evaluate the temporal progression of these research topics. The resulting visualisations, including network visualisation, overlay visualisation, and density visualisation, provide deep insights into how key terms are connected and evolve in the literature. The analysis showed that research on microplastics in the context of rivers and water quality is heavily dominated by a few key terms such as "microplastic," "river," and "water," indicating the high level of scientific attention on this topic. In addition, it was found that research often focuses on the distribution of microplastics, physicochemical parameters of water, and sources of contamination. However, there are some significant research gaps, especially related to the effect of salinity on microplastic distribution, the accumulation of microplastics in river sediments, and the role of wastewater treatment plants in preventing the spread of microplastics to aquatic ecosystems. The conclusion of this study is that despite significant progress in understanding the distribution and impacts of microplastics, many aspects still require further research. In particular, research on the long-term impacts of microplastics and their interactions with other environmental components should be further enhanced. The findings are expected to provide guidance for future researchers to explore under-explored areas and contribute to better environmental management.

 

Keywords: Microplastic, Water Quality, River Pollution, Bibliometric Analysis, Environmental Research


Kata Kunci


Microplastic, Water Quality, River Pollution, Bibliometric Analysis, Environmental Research

Teks Lengkap:

Download Artikel

Referensi


Abdulraheem M. Tackling Increasing Plastic Waste [Internet]. (2021) [cited 2022 Aug 5]. Available from: https://datatopics.worldbank.org/what-awaste/tackling_increasing_plastic_waste.html

Adil Bakir, Steven J. Rowland, Richard C. Thompson, (2012). Competitive sorption of persistent organic pollutants onto microplastics in the marine environment, Marine Pollution Bulletin, Volume 64, Issue 12, Pages 2782-2789, ISSN 0025-326X, https://doi.org/10.1016/j.marpolbul.2012.09.010.

Andrady A.L. (2011). Microplastics in the marine environment. Marine Pollution Bulletin, 62, 1596- 1605.

Bosker, T., Guaita, L., & Behrens, P. (2018). Microplastic pollution on Caribbean beaches in the Lesser Antilles. Marine Pollution Bulletin, 133, 442-447. doi: 10.1016/j.marpolbul.2018.05.060

Boucher, C., Morin, M., Bendell, L. I., (2016). The influence of cosmetic microbeads on the sorptive behaviour of cadmium and lead within intertidal sediments. A Laboratory Study. Regional Studies in Marine Science. 3: 1-7.

Browne M. Accumulation of microplastic on shorelines worldwide: Sources and sinks. Sci Technol [Internet]. (2011);45(21):9175-9. Available from: https://api.elsevier.com/content/abstract/scopus_i d/80055096730

Cordova, R. & Nurhati, I. S. (2019). Major sources and monthly variations in the release of land derived marine debris from greater Jakarta area, Indonesia. Scientific Reports: Nature research, 9: 18730. https://doi.org/ 10/1038/s41598-019-55065-

Crawford, C.B., Quinn, B., (2017). The biological impacts and effects of contaminated microplastics, in: Microplastic Pollutants. Elsevier. 159-178.

Dewi, I. S., Budiarsa, A. A., Ritonga, I. R. (2015). Distribution of microplastics in sediments of Badak estuary, Kutai Kartanegara regency. Depik. 4 (3): 121- 131.

Eriksen, M., Lebreton, L. C. M., Carson, H. S., Thiel, M., Moore, C. J., Borerro, ..., & 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. https://doi.org/10.1371/journal.pone. 0111913.

Fischer, E. K., Paglialonga, L., Czech, E., Tamminga, M. (2016). Microplastic pollution in lakes and lake shoreline sediments - a case study on lake Bolsena and lake Chiusi (central Italy). Environmental Pollution. 213: 648-657.

Jeyasanta KI, Sathish N, Patterson J, Edward JKP.( 2020). Macro-, meso- and microplastic debris in the beaches of Tuticorin district, Southeast coast of India. Mar Pollut Bull [Internet].;154(January):111055. Available from: https://doi.org/10.1016/j.marpolbul.2020.111055

Jia, E. (2010). A world without humans. Disaster Reduct. China 32, 52-53. [Google Scholar].

Kole, P. J., Löhr, A. J., van Belleghem, F. G. A. J., & Ragas, A. M. J. (2017). Wear and Tear of Tyres: A Stealthy Source of Microplastics in the Environment. Int. J. Environ. Res. Public Health. 14: 1265. https:// doi.org/10.3390/ijerph14101265

Lackmann C, Velki M, Šimić A, Müller A, Braun U, Ečimović S, et al. (2022).Two types of microplastics (polystyrene-HBCD and car tire abrasion) affect oxidative stress-related biomarkers in the earthworm Eisenia andrei in a time-dependent manner. Environ Int [Internet].;163:107190. Available from: https://www.sciencedirect.com/science/article/pii/ S0160412022001167

Lebreton, L. C., van der Zwet, J., Damsteeg, J. W., Slat, B., Andrady, A., & Reisser, J. (2017). River plastic emissions to the world's oceans. Nature Communications, 8: 15611. https://www.nature.com/articles/nco mms15611

Li, W. C., Tse, H. F., & Fok, L. (2016). Plastic waste in the marine environment: A review of sources, occurrence and effects. Science of the Total Environment, 566: 333-349. https://www.sciencedirect.com/science/article/pii/S0048969716310154

Lu Li, Shixiong Geng, Chenxi Wu, Kang Song, Fuhong Sun, C. Visvanathan, Fazhi Xie, Qilin Wang. (2019). Microplastics contamination in different trophic state lakes along the middle and lower reaches of Yangtze River Basin, Environmental Pollution, Volume 254, Part A, 112951,

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. National Oceanic and Atmospheric Administration. NOAA Technical Memorandum NOSOR&R-48.

Nugroho DH, Restu IW, Ernawati NM. (2018). Assessment of Microplastic Abundance in Benoa Bay Waters, Bali Province. Curr Trends Aquat Sci.;1(1):80.Obbard, R.W., Sadri, S., Qi Wong, Y., Khitun, A.A., Baker, I., & Thompson, R.C. (2014). Global warming releases micro plastic legacy frozen in Arctic Sea ice. Earth's Future, 2, 315-320.

OECD.( 2022). Plastic pollution is growing relentlessly as waste management and recycling fall short, says OECD [Internet]. 2022 [cited Aug 5]. Available from:https://www.oecd.org/newsroom/plasticpollutionisgrowingrelentlesslyaswastemanagement-and-recycling-fall-short.htm

Setala, O., Fleming-Lehtinen, V., & Lehtiniemi, M. (2014). Ingestion and transfer of micro plastics in the planktonic food web. Environmental Pollution, 185, 77-83

Sutanhaji AT, Rahadi B, Firdausi NT. (2021). Analysis of Microplastic Abundance in Surface Water in Metro River, Malang. J Sumberd Alam dan Lingkung.;8(2):74-84.

Sutanhaji, Alexander & Rahadi, Bambang & Firdausi, Nazarina. (2021). Analysis of Microplastic Abundance in Surface Water in Metro River, Malang. Journal of Natural Resources and Environment. 8. 74-84. 10.21776/ub.jsal.2021.008.02.3.

Urbanek, A. K., Rymowicz, W., & Mirończuk, A. M. (2018). Degradation of plastics and plasticdegrading bacteria in cold marine habitats. Applied Microbiology and Biotechnology, 102(18): 7669-7678. https://doi.org/10.1007/s00253-018- 9195-y.

Westminster C of.( 2022). Plastic waste - everything you need to know [Internet]. [cited Aug 5]. Available from: https://cleanstreets.westminster.gov.uk/plasticwaste-complete-guide/

Westminster C of. Plastic waste - everything you need to know [Internet]. [cited 2022 Aug 5]. Available from: https://cleanstreets.westminster.gov.uk/plasticwaste-complete-guide/

Wright, S. L. & Kelly, F. J. (2017). Plastic and Human Health: A Micro Issue. Environ. Sci. Technol., 51(12): 6634- 6647. https://doi.org/10.1021/acs.est. 7b00423

Yang X, Man YB, Wong MH, Owen RB, Chow KL.( 2022). Environmental health impacts of microplastics exposure on structural organisation levels in the human body. Sci Total Environ [Internet].;825:154025. Available from: https://doi.org/10.1016/j.scitotenv.2022.154025

Yona D, Samantha CD, Kasitowati RD. (2021). Comparison of Microplastic Content in Blood Clams and Tofu Clams from the Waters of Banyuurip Village, Gresik. Indonesian J Fish Sci Technol.;17(2):108-14.




DOI: https://doi.org/10.33024/mnj.v6i12.17482

Refbacks

  • Saat ini tidak ada refbacks.


Penerbit: Universitas Malahayati


 Creative Commons License

Semua artikel dapat digunakan dibawah lisensi Creative Commons Attribution-ShareAlike 4.0 International License