Heavy Metal Accumulation and Ecological Risk on Seagrass Cymodocea and Thalassia in Pahawang Island, Indonesia

Ariqoh Athallah Gusri; Rozirwan Rozirwan; Wike Ayu Eka Putri; Melki Melki; Isnaini Isnaini; Redho Yoga Nugroho; Che Abd Rahim Mohamed

doi:10.14710/ik.ijms.30.2.274-288

DOI: https://doi.org/10.14710/ik.ijms.30.2.274-288

Heavy Metal Accumulation and Ecological Risk on Seagrass Cymodocea and Thalassia in Pahawang Island, Indonesia

Ariqoh Athallah Gusri¹, Rozirwan Rozirwan²

, Wike Ayu Eka Putri², Melki Melki², Isnaini Isnaini², Redho Yoga Nugroho², Che Abd Rahim Mohamed³

¹Environmental Management Study Program, Graduate Program, Universitas Sriwijaya, Indonesia

²Department of Marine Science, Faculty of Mathematics and Natural Sciences, Universitas Sriwijaya, Indonesia

³Faculty of Science and Technology, Universiti Kebangsaan Malaysia, Malaysia

Received: 27 Mar 2025; Revised: 3 May 2025; Accepted: 22 May 2025; Available online: 4 Jun 2025; Published: 15 Jun 2025.

This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.

BibTex Citation Data :

@article{IK.IJMS67097,
    author = {Ariqoh Gusri and Rozirwan Rozirwan and Wike Putri and Melki Melki and Isnaini Isnaini and Redho Nugroho and Che Mohamed},
    title = {Heavy Metal Accumulation and Ecological Risk on Seagrass Cymodocea and Thalassia in Pahawang Island, Indonesia},
    journal = {ILMU KELAUTAN: Indonesian Journal of Marine Sciences},
  volume = {30},
    number = {2},
    year = {2025},
    keywords = {Accumulation; Cymodocea; Ecological risk assessment; Heavy metal; Thalassia},
    abstract = {  Seagrass species thrive in coastal ecosystems and known for their ability to accumulate heavy metals from their surrounding environment. This study aims to evaluate the ecological risks related to the accumulation of heavy metals in seagrass roots, leaves, and sediments. The seagrass examined belong to the genera Cymodocea and Thalassia, collected from two sites: Jeralangan and Cukuh Nyai on Pahawang Island, Lampung, Indonesia. The heavy metals analyzed included Pb, Cu, Ni, and Zn, which were measured using the wet destruction method and quantified with a SHIMADZU AA-7000 Atomic Absorption Spectrophotometer (AAS). The ecological risk was evaluated through various indices, such as the Bioconcentration Factor (BCF), Translocation Factor (TF), Geoaccumulation Index (I geo ), Contamination Factor (Cf), and Pollution Load Index (PLI). The highest concentrations of heavy metals in sediment were detected at station 1 was Zn (15.486 mg.kg -1 ). In the roots of Cymodocea was Zn (8.772 mg.kg -1 ), while the highest concentration in leaves was Cu in Thalassia (10.541 mg.kg -1 ). The ecological risk assessment revealed that BCF < 1 categorize an excluder, while TF > 1 for Pb and Zn indicate effective translocation from roots to leaves. Additionally, I geo  < 0 signify no contamination, Cf < 1 indicate low pollution levels, and PLI < 0 confirm a non-polluted status. In conclusion, the results show that the seagrass ecosystems at the study sites currently have low levels of heavy metal pollution and minimal ecological risk, suggesting they remain in a relatively safe condition.  },
   issn = {2406-7598},   pages = {274--288}  doi = {10.14710/ik.ijms.30.2.274-288},
    url = {https://ejournal.undip.ac.id/index.php/ijms/article/view/67097}
}

Citation Format:

Abstract

Seagrass species thrive in coastal ecosystems and known for their ability to accumulate heavy metals from their surrounding environment. This study aims to evaluate the ecological risks related to the accumulation of heavy metals in seagrass roots, leaves, and sediments. The seagrass examined belong to the genera Cymodocea and Thalassia, collected from two sites: Jeralangan and Cukuh Nyai on Pahawang Island, Lampung, Indonesia. The heavy metals analyzed included Pb, Cu, Ni, and Zn, which were measured using the wet destruction method and quantified with a SHIMADZU AA-7000 Atomic Absorption Spectrophotometer (AAS). The ecological risk was evaluated through various indices, such as the Bioconcentration Factor (BCF), Translocation Factor (TF), Geoaccumulation Index (I_geo), Contamination Factor (Cf), and Pollution Load Index (PLI). The highest concentrations of heavy metals in sediment were detected at station 1 was Zn (15.486 mg.kg^-1). In the roots of Cymodocea was Zn (8.772 mg.kg^-1), while the highest concentration in leaves was Cu in Thalassia (10.541 mg.kg^-1). The ecological risk assessment revealed that BCF < 1 categorize an excluder, while TF > 1 for Pb and Zn indicate effective translocation from roots to leaves. Additionally, I_geo < 0 signify no contamination, Cf < 1 indicate low pollution levels, and PLI < 0 confirm a non-polluted status. In conclusion, the results show that the seagrass ecosystems at the study sites currently have low levels of heavy metal pollution and minimal ecological risk, suggesting they remain in a relatively safe condition.

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Keywords: Accumulation; Cymodocea; Ecological risk assessment; Heavy metal; Thalassia

Funding: Ministry of Research, Technology, and Higher Education of the Republic of Indonesia under contract Number 090/E5/PG.02.00.PL/2024

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Section: Research Articles

Language : EN

In Vol 30, No 2 (2025): Ilmu Kelautan

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