Understanding trace elements dynamics and environmental health: insights from Fish Mortality in Rajshahi, Bangladesh

Journal of trace elements and minerals Pub Date : 2025-09-24 DOI:10.1016/j.jtemin.2025.100264

A․H․M․Selim Reza , Md․Shazzadur Rahman , Fazal Md․Mohi Shine , Md․Abu Bakar Siddique , Md․Abdur Rahman , Sudip Saha , Abu Bakar Siddique , Fawzia Adib Flowra

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引用次数: 0

Abstract

Introduction

This study investigates the combined impact of trace metal contamination and environmental factors on fish mortality in aquaculture ponds in the Rajshahi region of Bangladesh. The primary objective is to assess how physicochemical parameters and trace metal concentrations interact with climatic conditions to influence fish health and survival.

Materials and Methods

Water, sediment, and fish tissue samples were collected and analyzed for arsenic (As), mercury (Hg), chromium (Cr), cadmium (Cd), and lead (Pb) using Atomic Absorption Spectrometry (AAS-240FS). Key physicochemical parameters such as pH, electrical conductivity (EC), total dissolved solids (TDS), and dissolved oxygen (DO) were measured. Climatic variables, including relative humidity and temperature, were recorded to evaluate their relationship with DO levels and fish mortality events.

Results and Discussion

Mean values of pH, EC, and TDS were 6.77, 433.4 µS cm⁻¹, and 209 mg L⁻¹, respectively. Trace metal concentrations in water followed the order Pb > As > Cr > Hg > Cd; in sediment, Cr > Pb > As > Hg > Cd; and in fish tissue, Cr > Pb > As > Hg > Cd. A significant inverse correlation was found between high relative humidity (90–95 %) and DO levels, which decreased from 4.00 mg L⁻¹ to 1.08 mg L⁻¹ well below the critical threshold of 5–6 mg L⁻¹ required for fish survival. Additionally, TDS exhibited a negative correlation with DO and a positive correlation with sedimentary arsenic, indicating that siltation from heavy rainfall contributes to oxygen depletion. The highest fish mortality, recorded on September 1, 2020, coincided with overcast conditions, elevated temperatures, and reduced photosynthetic activity, all of which exacerbated hypoxic stress.

Conclusion

The findings highlight the complex interplay between environmental stressors and trace metal pollution in aquaculture ponds. Regular water quality monitoring, pollution control, and adaptive management strategies are essential to reduce fish mortality risks and ensure the long-term sustainability of aquaculture in the region.

查看原文本刊更多论文

了解微量元素动态和环境健康：来自孟加拉国拉杰沙希鱼类死亡率的见解

本研究调查了痕量金属污染和环境因素对孟加拉国Rajshahi地区水产养殖池塘鱼类死亡率的综合影响。主要目的是评估理化参数和微量金属浓度如何与气候条件相互作用，从而影响鱼类健康和生存。材料与方法采用原子吸收光谱法（AAS-240FS）对水、沉积物和鱼类组织样品中的砷（As）、汞（Hg）、铬（Cr）、镉（Cd）和铅（Pb）进行分析。测量了关键的理化参数，如pH、电导率（EC）、总溶解固体（TDS）和溶解氧（DO）。记录了包括相对湿度和温度在内的气候变量，以评估它们与DO水平和鱼类死亡事件的关系。结果与讨论pH、EC和TDS的平均值分别为6.77、433.4µS cm−1和209 mg L−1。水中微量金属的浓度顺序为Pb >； As > Cr > Hg >；沉积物中Cr >； Pb > As > Hg > Cd；在鱼类组织中，Cr > Pb > As > Hg > Cd。在高相对湿度（90 - 95%）和DO水平之间发现了显著的负相关，DO水平从4.00 mg L - 1下降到1.08 mg L - 1，远低于鱼类生存所需的5-6 mg L - 1的临界阈值。此外，TDS与DO呈负相关，与沉积砷呈正相关，表明强降雨淤积导致氧耗竭。2020年9月1日记录的鱼类死亡率最高，恰逢阴天、气温升高和光合活性降低，所有这些都加剧了缺氧应激。结论环境应激因素与水产养殖池塘微量金属污染之间存在复杂的相互作用。定期进行水质监测、污染控制和适应性管理战略对于降低鱼类死亡风险和确保该区域水产养殖的长期可持续性至关重要。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of trace elements and minerals Medicine and Dentistry (General), Analytical Chemistry, Environmental Science (General), Toxicology, Biochemistry, Genetics and Molecular Biology (General), Nutrition, Veterinary Science and Veterinary Medicine (General)

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审稿时长

65 days