REFERENCES

1. Bhuyan, M. S.; Kunda, M.; Bakar, M. A.; et al. Heavy metal and mineral analysis of cultivated seaweeds from Cox’s Bazar Coast, Bay of Bengal, Bangladesh: a human health risk implication. Discov. Oceans. 2024, 1, 12.

2. Pandey, S.; Kumar, G.; Kumari, N.; Pandey, R. Assessment of causes and impacts of sand mining on river ecosystem. In: Madhav S, Singh VB, Kumar M, Singh S, editors. Hydrogeochemistry of Aquatic Ecosystems. Wiley; 2023. pp. 357-79.

3. Bat, L.; Öztekin, A.; Arici, E.; Şahin, F.; Bhuyan, M. S. Trace Element risk assessment for the consumption of Sarda sarda (Bloch, 1793) from the mid-South Black Sea coastline. Water. Air. Soil. Pollut. 2022, 233, 5918.

4. Bisht, A.; Martinez-alier, J. Coastal sand mining of heavy mineral sands: contestations, resistance, and ecological distribution conflicts at HMS extraction frontiers across the world. J. Ind. Ecol. 2023, 27, 238-53.

5. Bhuyan, M. S.; Haider, S. M. B.; Meraj, G.; et al. Assessment of heavy metal contamination in beach sediments of Eastern St. Martin’s Island, Bangladesh: implications for environmental and human health risks. Water 2023, 15, 2494.

6. Yang, T.; Cheng, H.; Wang, H.; et al. Comparative study of polycyclic aromatic hydrocarbons (PAHs) and heavy metals (HMs) in corals, surrounding sediments and surface water at the Dazhou Island, China. Chemosphere 2019, 218, 157-68.

7. Goddard-Dwyer, M. Marine humic substances: distribution, cycling pathways, and biogeochemical function [dissertation]. University of Liverpool; 2024. Available from: chrome-extension://efaidnbmnnnibpcajpcglclefindmkaj/https://livrepository.liverpool.ac.uk/3187037/1/201508189_Jun2024.pdf (accessed on 2025-7-14).

8. Oros, A. Bioaccumulation and trophic transfer of heavy metals in marine fish: ecological and ecosystem-level impacts. J. Xenobiot. 2025, 15, 59.

9. Santhiya, G.; Lakshumanan, C.; Jonathan, M. P.; et al. Metal enrichment in beach sediments from Chennai Metropolis, SE coast of India. Mar. Pollut. Bull. 2011, 62, 2537-42.

10. Sanz-Prada, L.; García-Ordiales, E.; Roqueñí, N.; Grande, Gil. J. A.; Loredo, J. Geochemical distribution of selected heavy metals in the Asturian coastline sediments (North of Spain). Mar. Pollut. Bull. 2020, 156, 111263.

11. Rizo O, Buzón González F, Arado López JO, Denis Alpízar O. Heavy metal levels in dune sands from Matanzas urban resorts and Varadero beach (Cuba): assessment of contamination and ecological risks. Mar. Pollut. Bull. 2015, 101, 961-4.

12. Alam, J. Problems and prospects of the tourism industry in Bangladesh: a case of Cox’s Bazar tourist spots. Int. J. Sci. Bus. 2018, 2, 568-79.

13. Sahabuddin, M.; Tan, Q.; Hossain, I.; Alam, M. S.; Nekmahmud, M. Tourist environmentally responsible behavior and satisfaction; study on the world’s longest natural sea beach, Cox’s Bazar, Bangladesh. Sustainability 2021, 13, 9383.

14. Mohammad, B. T. An appraisal of the economic outlook for the tourism industry, specially Cox’s Bazar in Bangladesh. JECOM 2020, 1, 24-34.

15. Geng, N.; Xia, Y.; Li, D.; Bai, F.; Xu, C. Migration and transformation of heavy metal and its fate in intertidal sediments: a review. Processes 2024, 12, 311.

16. Liu, Q.; Yang, P.; Hu, Z.; Shu, Q.; Chen, Y. Identification of the sources and influencing factors of the spatial variation of heavy metals in surface sediments along the northern Jiangsu coast. Ecol. Indic. 2022, 137, 108716.

17. Walkley, A.; Black, I. A. An examination of the Degtjareff method for determining soil organic matter, and a proposed modification of the chromic acid titration method. Soil. Sci. 1934, 37, 29-38.

18. Allison, L. E.; Organic, carbon. In: Blac CA, editor. Methods of Soil Analysis: Part 2. Chemical and Microbiological Properties. Madison: American Society of Agronomy; 1965. pp. 1367-78.

19. Day, P. R. Particle Fractionation and particle-size analysis. In: Black CA, editor. Methods of Soil Analysis. Madison: American Society of Agronomy, Soil Science Society of America; 1965. pp. 545-67.

20. Saleem, M.; Pierce, D.; Wang, Y.; Sens, D. A.; Somji, S.; Garrett, S. H. Heavy metal(oid)s contamination and potential ecological risk assessment in agricultural soils. J. Xenobiot. 2024, 14, 634-50.

21. Panda, B. P.; Mohanta, Y. K.; Paul, R.; et al. Assessment of environmental and carcinogenic health hazards from heavy metal contamination in sediments of wetlands. Sci. Rep. 2023, 13, 16314.

22. Rahman, M. S.; Ahmed, Z.; Seefat, S. M.; et al. Assessment of heavy metal contamination in sediment at the newly established tannery industrial Estate in Bangladesh: A case study. Environ. Chem. Ecotox. 2022, 4, 1-12.

23. Müller, G. Index of geo-accumulation in sediments of the Rhine River. GeoJournal 1969, 2, 108-18. Available from: https://scispace.com/papers/index (accessed on 2025-7-14).

24. Wedepohl K. The composition of the continental crust. Geochimica. et. Cosmochimica. Acta. 1995, 59, 1217-32.

25. Hakanson, L. An ecological risk index for aquatic pollution control.a sedimentological approach. Water. Research. 1980, 14, 975-1001.

26. Saha, A.; Gupta, B. S.; Patidar, S.; MartínezVillegas, N. Evaluation of potential ecological risk index of toxic metals contamination in the soils. Chem. Proc. 2022, 10, 59.

27. Simeon, E. O.; Friday, K. Index models assessment of heavy metal pollution in soils within selected abattoirs in Port Harcourt, Rivers State, Nigeria. Singap. J. Sci. Res. 2016, 7, 9-15.

28. Soliman, N. F.; Nasr, S. M.; Okbah, M. A. Potential ecological risk of heavy metals in sediments from the Mediterranean coast, Egypt. J. Environ. Health. Sci. Eng. 2015, 13, 70.

29. Liu, J.; Li, Y.; Zhang, B.; Cao, J.; Cao, Z.; Domagalski, J. Ecological risk of heavy metals in sediments of the Luan River source water. Ecotoxicology 2009, 18, 748-58.

30. Tomlinson, D. L.; Wilson, J. G.; Harris, C. R.; Jeffrey, D. W. Problems in the assessment of heavy-metal levels in estuaries and the formation of a pollution index. Helgolander. Meeresunters. 1980, 33, 566-75.

31. USEPA. Baseline human health risk assessment: Vasquez Boulevard and I-70 Superfund Site, Denver, Colorado. Denver (CO): US Environmental Protection Agency, Region VIII; 2001:1-170. Available from: https://nepis.epa.gov/Exe/ZyPDF.cgi/P1006STM.PDF?Dockey=P1006STM.PDF (accessed on 2025-7-14).

32. USEPA. Exposure Factors Handbook (1997 Final Report). National Center for Environmental Assessment, Office of Research and Development; 1997: 1-201. Available from: https://cfpub.epa.gov/ncea/efp/recordisplay.cfm?deid=12464 (accessed on 2025-7-14).

33. USEPA. Risk Assessment Guidance for Superfund. Volume I Human Health Evaluation Manual (Part A). Washington, DC: U.S. Environmental Protection Agency;1989. Available from: https://www.epa.gov/sites/default/files/2015-09/documents/rags_a.pdf (accessed on 2025-7-14).

34. Yap, C. K.; Chew, W.; Al-Mutairi, K. A.; et al. Assessments of the ecological and health risks of potentially toxic metals in the topsoils of different land uses: a case study in Peninsular Malaysia. Biology. (Basel). 2021, 11, 2.

35. Barnes, D. G.; Dourson, M. Reference dose (RfD): description and use in health risk assessments. Regul. Toxicol. Pharmacol. 1988, 8, 471-86.

36. Chabukdhara, M.; Nema, A. K. Heavy metals assessment in urban soil around industrial clusters in Ghaziabad, India: probabilistic health risk approach. Ecotoxicol. Environ. Saf. 2013, 87, 57-64.

37. USEPA. Risk Assessment Guidance for Superfund (RAGS). Volume I: Human Health Evaluation Manual (HHEM). Part E: Supplemental Guidance for Dermal Risk Assessment. US EPA 2004, 1. Available from: https://www.epa.gov/sites/default/files/2015-09/documents/part_e_impl_2004_final_supp.pdf (accessed on 2025-7-14).

38. Şimşek, A.; Özkoç, H. B.; Bakan, G. Environmental, ecological and human health risk assessment of heavy metals in sediments at Samsun-Tekkeköy, North of Turkey. Environ. Sci. Pollut. Res. Int. 2022, 29, 2009-23.

39. Li, Z.; Ma, Z.; van, der. Kuijp. T. J.; Yuan, Z.; Huang, L. A review of soil heavy metal pollution from mines in China: pollution and health risk assessment. Sci. Total. Environ. 2014, 468-469, 843-53.

40. Zheng, X.; Zhao, W.; Yan, X.; Shu, T.; Xiong, Q.; Chen, F. Pollution characteristics and health risk assessment of airborne heavy metals collected from Beijing bus stations. Int. J. Environ. Res. Public. Health. 2015, 12, 9658-71.

41. Aguilera, A.; Cortés, J. L.; Delgado, C.; et al. Heavy Metal contamination (Cu, Pb, Zn, Fe, and Mn) in urban dust and its possible ecological and human health risk in Mexican cities. Front. Environ. Sci. 2022, 10, 854460.

42. Li, X.; Ding, D.; Xie, W.; et al. Risk assessment and source analysis of heavy metals in soil around an asbestos mine in an arid plateau region, China. Sci. Rep. 2024, 14, 7552.

43. Oni, A. A.; Babalola, S. O.; Adeleye, A. D.; et al. Non-carcinogenic and carcinogenic health risks associated with heavy metals and polycyclic aromatic hydrocarbons in well-water samples from an automobile junk market in Ibadan, SW-Nigeria. Heliyon 2022, 8, e10688.

44. Huang, S.; Li, Q.; Yang, Y.; et al. Risk assessment of heavy metals in soils of a lead-zinc mining area in Hunan Province (China). Kem. Ind. 2017, 66, 173-8.

45. Nur-e-alam, M.; Salam, M. A.; Dewanjee, S.; et al. Distribution, concentration, and ecological risk assessment of trace metals in surface sediment of a tropical Bangladeshi Urban river. Sustainability 2022, 14, 5033.

46. Yu, D.; Wang, J.; Wang, Y.; Du, X.; Li, G.; Li, B. Identifying the source of heavy metal pollution and apportionment in agricultural soils impacted by different smelters in china by the positive matrix factorization model and the Pb isotope ratio method. Sustainability 2021, 13, 6526.

47. Ling, S. Y.; Junaidi, A.; Mohd, Harun. A.; Baba, M. Geochemical assessment of heavy metal contamination in coastal sediment cores from Usukan Beach, Kota Belud, Sabah, Malaysia. J. Phys. :. Conf. Ser. 2022, 2314, 012008.

48. McCauley, A.; Jones, C.; Jacobsen, J. Soil pH and organic matter. Nutr. Manag. Modul. 2009, 8, 1-12. Available from:.

49. United States Department of Agriculture, Soil Conservation Service (USDA). Soil taxonomy: a basic system of soil classification for making and interpreting soil surveys. Soil Survey Staff U.S. Department Agriculture Handbook 436; U.S. Department Agriculture: 1975. Available from: https://www.nrcs.usda.gov/sites/default/files/2022-06/Soil%20Taxonomy.pdf (accessed on 2025-7-14).

50. Bramha, S. N.; Mohanty, A. K.; Satpathy, K. K.; et al. Heavy metal content in the beach sediment with respect to contamination levels and sediment quality guidelines: a study at Kalpakkam coast, southeast coast of India. Environ. Earth. Sci. 2014, 72, 4463-72.

51. Luo, J.; Sheng, B.; Shi, Q. A review on the migration and transformation of heavy metals influence by alkali/alkaline earth metals during combustion. J. Fuel. Chem. Technol. 2020, 48, 1318-26.

52. Rudnick, R.; Gao, S. Composition of the continental crust. Treatise on Geochemistry. Amsterdam: Elsevier; 2014.

53. USEPA. An overview of sediment quality in the United States (EPA 905/9-88-002). Office of Water Regulations and Standards, U.S. EPA Region 5; 1987. Available from: https://archive.epa.gov/water/archive/polwaste/web/pdf/overview.pdf (accessed on 2025-7-14).

54. Muzuka, A. Distribution of heavy metals in the coastal marine surficial sediments in the Msasani Bay-Dar es Salaam Harbour Area. West. Ind. Oc. J. Mar. Sci. 2009, 6.

55. Elgendy, A. R.; El, Daba. A. E. M. S.; El-Sawy, M. A.; Alprol, A. E.; Zaghloul, G. Y. A comparative study of the risk assessment and heavy metal contamination of coastal sediments in the Red sea, Egypt, between the cities of El-Quseir and Safaga. Geochem. Trans. 2024, 25, 3.

56. Halawani, R. F.; Wilson, M. E.; Hamilton, K. M.; et al. Spatial distribution of heavy metals in near-shore marine sediments of the Jeddah, Saudi Arabia region: enrichment and associated risk indices. JMSE 2022, 10, 614.

57. Hossain, M. S.; Ahmed, M. K.; Liyana, E.; et al. A case study on metal contamination in water and sediment near a coal thermal power plant on the eastern coast of Bangladesh. Environments 2021, 8, 108.

58. Hasan, A. B.; Reza, A. H. M. S.; Kabir, S.; Siddique, M. A. B.; Ahsan, M. A.; Akbor, M. A. Accumulation and distribution of heavy metals in soil and food crops around the ship breaking area in southern Bangladesh and associated health risk assessment. SN. Appl. Sci. 2020, 2, 1933.

59. Kabir, M. Z.; Deeba, F.; Majumder, R. K.; Khalil, M. I.; Islam, M. S. Heavy mineral distribution and geochemical studies of coastal sediments at Sonadia Island, Bangladesh. Nucl. Sci. Appl. 2018, 27, 2. Available from: https://baec.portal.gov.bd/sites/default/files/files/baec.portal.gov.bd/page/1f00cd0e_737d_4e2e_ab9f_08183800b7a2/Article%201.pdf (accessed on 2025-7-14).

60. Buzzi, N. S.; Menéndez, M. C.; Truchet, D. M.; Delgado, A. L.; Severini, M. D. F. An overview on metal pollution on touristic sandy beaches: Is the COVID-19 pandemic an opportunity to improve coastal management? Mar. Pollut. Bull. 2022, 174, 113275.

61. Zhou, Q.; Yang, N.; Li, Y.; et al. Total concentrations and sources of heavy metal pollution in global river and lake water bodies from 1972 to 2017. Global. Ecology. and. Conservation. 2020, 22, e00925.

62. Wang, S. L.; Xu, X. R.; Sun, Y. X.; Liu, J. L.; Li, H. B. Heavy metal pollution in coastal areas of South China: a review. Mar. Pollut. Bull. 2013, 76, 7-15.

63. Chakraborty, T. K.; Hossain, M. R.; Ghosh, G. C.; et al. Distribution, source identification and potential ecological risk of heavy metals in surface sediments of the Mongla port area, Bangladesh. Toxin. Reviews. 2022, 41, 834-45.

64. Hossain, M. B.; Sultana, J.; Pingki, F. H.; et al. Accumulation and contamination assessment of heavy metals in sediments of commercial aquaculture farms from a coastal area along the northern Bay of Bengal. Front. Environ. Sci. 2023, 11, 1148360.

65. Hassan, M.; Rahman, M. A. T.; Saha, B.; Kamal, A. K. I. Status of heavy metals in water and sediment of the Meghna River, Bangladesh. Am. J. Environ. Sci. 2015, 11, 427-39.

66. Islam, M. S.; Ahmed, M. K.; Habibullah-al-mamun, M.; Hoque, M. F. Preliminary assessment of heavy metal contamination in surface sediments from a river in Bangladesh. Environ. Earth. Sci. 2015, 73, 1837-48.

67. Nazir, A.; Hussain, S. M.; Riyaz, M.; Kere, Z.; Zargar, M. A.; L, K. K. D. Environmental risk assessment, spatial distribution, and abundance of heavy metals in surface sediments of Dal Lake-Kashmir, India. Environ. Adv. 2024, 17, 100562.

68. Siddiqua, A.; Hahladakis, J. N.; Al-Attiya, W. A. K. A. An overview of the environmental pollution and health effects associated with waste landfilling and open dumping. Environ. Sci. Pollut. Res. Int. 2022, 29, 58514-36.

69. Kibria, G.; Hossain, M. M.; Mallick, D.; Lau, T. C.; Wu, R. Monitoring of metal pollution in waterways across Bangladesh and ecological and public health implications of pollution. Chemosphere 2016, 165, 1-9.

70. Apori, S. O.; Giltrap, M.; Dunne, J.; Tian, F. Human health and ecological risk assessment of heavy metals in topsoil of different peatland use types. Heliyon 2024, 10, e33624.

71. Kabir, .; H, . G., Yar’adua, A. I., Matazu, K. I., et al. Heavy metal contamination risks in environmental and vegetable samples around a metal workshop in Kofar Marusa, Katsina Metropolis. UJMR 2024.

72. Khan, A.; Khan, M. S.; Hadi, F.; Khan, Q.; Ali, K.; Saddiq, G. Risk assessment and soil heavy metal contamination near marble processing plants (MPPs) in district Malakand, Pakistan. Sci. Rep. 2024, 14, 21533.

73. Shetty, B. R.; Pai, B. J.; Salmataj, S. A.; Naik, N. Assessment of Carcinogenic and non-carcinogenic risk indices of heavy metal exposure in different age groups using Monte Carlo simulation approach. Sci. Rep. 2024, 14, 30319.

74. Kawichai, S.; Prapamontol, T.; Santijitpakdee, T.; Bootdee, S. Risk assessment of heavy metals in sediment samples from the Mae Chaem River, Chiang Mai, Thailand. Toxics 2023, 11, 780.

75. Li, B.; Deng, J.; Li, Z.; Chen, J.; Zhan, F.; He, Y.; et al. Contamination and health risk assessment of heavy metals in soil and ditch sediments in long-term mine wastes area. Toxics 2022, 10, 607.

76. Li, B.; Deng, J.; Li, Z.; et al. Contamination and health risk assessment of heavy metals in soil and ditch sediments in long-term mine wastes area. Toxics 2022, 10, 607.

77. Odochi, U. B.; Enimakpokpo, J.; Akaolisa, C. C. Z.; Agbasi, O.; Nwachukwu, H. Assessment of heavy metal contamination and health risks in road deposited sediments: a study in Owerri, Nigeria. EQ 2024, 35, 1-24.

78. Karmaker, K. D.; Khan, N.; Akhtar, U. S.; et al. First assessment of trace metals in the intertidal zone of the world's longest continuous beach, Cox’s Bazar, Bangladesh. Mar. Pollut. Bull. 2024, 207, 116928.

79. Khan, R.; Rouf, M. A.; Das, S.; et al. Spatial and multi-layered assessment of heavy metals in the sand of Cox’s-Bazar beach of Bangladesh. Reg. Stud. Mar. Sci. 2017, 16, 171-80.

80. Arora, S.; Saha, P.; Shende, A. D. Assessment of heavy metal pollution of surface water through multivariate analysis, HPI and GIS techniques. Water. Pract. Technol. 2025, 20, 148-67.

81. Jolaosho, T. L.; Mustapha, A. A.; Hundeyin, S. T. Hydrogeochemical evolution and heavy metal characterization of groundwater from southwestern, Nigeria: an integrated assessment using spatial, indexical, irrigation, chemometric, and health risk models. Heliyon 2024, 10, e38364.

82. Ilechukwu, I.; Osuji, L. C.; Okoli, C. P.; Onyema, M. O.; Ndukwe, G. I. Assessment of heavy metal pollution in soils and health risk consequences of human exposure within the vicinity of hot mix asphalt plants in Rivers State, Nigeria. Environ. Monit. Assess. 2021, 193, 461.

83. Ravisankar, R.; Tholkappian, M.; Chandrasekaran, A.; Eswaran, P.; El-taher, A. Effects of physicochemical properties on heavy metal, magnetic susceptibility and natural radionuclides with statistical approach in the Chennai coastal sediment of east coast of Tamilnadu, India. Appl. Water. Sci. 2019, 9, 1031.

84. Paramasivam, K.; Ramasamy, V.; Suresh, G. Impact of sediment characteristics on the heavy metal concentration and their ecological risk level of surface sediments of Vaigai river, Tamilnadu, India. Spectrochim. Acta. A. Mol. Biomol. Spectrosc. 2015, 137, 397-407.

85. Onwukeme, V. I.; Eze, V. C. Identification of heavy metals source within selected active dumpsites in southeastern Nigeria. Environ. Anal. Health. Toxicol. 2021, 36, e2021008-0.

86. Zhang, Q.; Zhang, X. Quantitative source apportionment and ecological risk assessment of heavy metals in soil of a grain base in Henan Province, China, using PCA, PMF modeling, and geostatistical techniques. Environ. Monit. Assess. 2021, 193, 655.

87. Huang, X.; Luo, D.; Zhao, D.; et al. Distribution, source and risk assessment of heavy metal(oid)s in water, sediments, and Corbicula Fluminea of Xijiang River, China. Int. J. Environ. Res. Public. Health. 2019, 16, 1823.

88. Chen, H.; Wu, D.; Wang, Q.; et al. The predominant sources of heavy metals in different types of fugitive dust determined by principal component analysis (PCA) and Positive matrix factorization (PMF) modeling in Southeast Hubei: a typical mining and metallurgy area in central China. Int. J. Environ. Res. Public. Health. 2022, 19, 13227.

89. Uddin, M. J.; Jeong, Y. K. Urban river pollution in Bangladesh during last 40 years: potential public health and ecological risk, present policy, and future prospects toward smart water management. Heliyon 2021, 7, e06107.

90. Ali, M. M.; Ali, M. L.; Islam, M. S.; Rahman, M. Z. Preliminary assessment of heavy metals in water and sediment of Karnaphuli River, Bangladesh. Environ. Nanotechnol. Monit. Manag. 2016, 5, 27-35.