Heavy metals in surface sediments of the intertidal Thai Binh Coast, Gulf of Tonkin, East Sea, Vietnam: distribution, accumulation, and contamination assessment.

Huong Lan Thi Nguyen,Thuy Huong Thi Nguyen,Lim Thi Duong,Cham Dinh Dao,Nhiem Ngoc Dao,Ngo Nghia Pham,Chi Ha Thi Nguyen,Dien Cong Duong,Bac Quang Nguyen

doi:10.1007/s11356-022-18881-0

Abstract

Heavy metals contamination in sediments may endanger ecosystems and human health via the food chain. In fact, there is little to no understanding about heavy metal accumulation in surface sediment of one of the most economically important marine bodies for Vietnam, the Thai Binh Coast, where five large rivers co-discharge into the Gulf of Tonkin. Twenty-seven surface sediment samples were collected from the intertidal regions and analyzed for: arsenic (As), cadmium (Cd), chromium (Cr), copper (Cu), mercury (Hg), nickel (Ni), and zinc (Zn) using inductively coupled plasma mass spectroscopy (ICP-MS). The studied area exhibited a large spatial variation in the concentration of heavy metals, e.g., the dry sediment concentration of Cd was the least (0.05-0.49mg.kg-1), whereas that of Zn was the greatest (45.4-252mg.kg-1). Based on the geoaccumulation index ([Formula: see text]), most of the studied heavy metals were accumulated at low pollution levels, except four locations exhibited moderately and highly polluted levels of Hg with [Formula: see text] Hg values from 1.92 to 2.66. However, the high contamination factor value implicated that not only Hg but also all other detected heavy metals in this area resulted from anthropogenic activities along the coast and the river upstream. This implied the need for quick action from the government. In addition, numerous analytical methods were used to see the association between metals, total organic carbon (TOC), and particle size distribution, including Pearson correlation coefficient (P) and principal component analysis (PCA). Hg demonstrates lowest connection with TOC (PHg-TOC ~ 0) but individual heavy metal correlations are largely positive, with many reaching 1.0 (e.g., PNi-Cr = 0.89, PCd-As = 0.72, PNi-Cu = 0.76, and PCu-Cr = 0.72). From the PCA diagram, we can observe that those sampling points in the positive direction of PC1 were expected to have a high concentration of Cu, Zn, As, Ni while having extremely little sand content.

Highlights

Thai Binh is a deltaic coastal province in the southern part of the Red River delta, with three sides facing the river and one side facing the Gulf of Tonkin at 20°17’–20°44’ north latitude and 106°06’–106°39’ east longitude
There is little to no understanding about heavy metal accumulation in surface sediment of one of the most economically important marine bodies for Vietnam, the Thai Binh Coast, where five large rivers co-discharge into the Gulf of Tonkin
Twenty-seven surface sediment samples were collected from the intertidal regions and analyzed for: arsenic (As), cadmium (Cd), chromium (Cr), copper (Cu), mercury (Hg), nickel (Ni), and zinc (Zn) using inductively coupled plasma mass spectroscopy (ICP-MS)

Summary

Introduction

Thai Binh is a deltaic coastal province in the southern part of the Red River delta, with three sides facing the river and one side facing the Gulf of Tonkin at 20°17’–20°44’ north latitude and 106°06’–106°39’ east longitude. Heavy metals are reported as the most hazardous in the aquatic environment and may pose a serious threat to human health, with arsenic (As), cadmium (Cd), and mercury (Hg) at the top of the hazards list (ATSDR 2019). These three metals can be released by anthropogenic activities or leached from soils, and transported by aquatic systems to the intertidal coast, and deposited on the surface sediment (Amankwaa et al 2021). The surface sediment quality of the intertidal coast is an essential indicator of environmental pollution (Yang et al 2012; Zhu et al 2012) and the potential risk to human health of aquatic produce from these areas (El Nemr et al 2016)

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