Lead Level Analysis in Roots and Leaves of Mangrove Plants Ceriops tagal and Rhizophora apiculata in Clungup Mangrove Conservation

Febri Arif Cahyo Wibowo, Mochamad Chanan, Suci Intan Pratama
https://doi.org/10.29244/medkon.29.2.137

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Issue
Vol. 29 No. 2 (2024): Media Konservasi Vol 29 No 2 May 2024
Accepted
21 February 2024
Published
15 April 2024
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Abstract

Indonesia is an archipelago with more water than land, which is battling water and land pollution. One form of pollution is lead which is commonly caused by battery waste, fishing boat activities, diesel waste. One solution is phytoremediation using hyperaccumulator plants such as mangroves. Mangroves can absorb heavy metals and maintain ecosystem stability. The dominant species in Clungup Mangrove Conservation are Ceriops tagal and Rhizophora apiculata. The objectives of this study were: 1) To determine the level of lead metal (Pb) pollution in mangrove sediments in the area. 2) To determine the levels of lead metal (Pb) in the roots and leaves of mangrove species Ceriops tagal and Rhizophora apiculata. 3) To determine the ability of lead metal (Pb) absorption in mangrove plants Rhizophora apiculata and Ceriops tagal. Research activities began on February 20th - May 31th, 2023. The research was conducted at Clungup Mangrove Conservation in Sumbermanjing Wetan District, Malang Regency. Lab tests were conducted at the Unism Integrated Laboratory and Halal Center. Lead test results in sediments in this area are classified as very low. Lead levels in the roots of Ceriops tagal were higher than Rhizophora apiculata. Pb levels in the leaves of Ceriops tagal were also higher than the leaves of Rhizophora apiculata. Bioconcentration Factor (BCF) values were higher than Rhizophora apiculata, but both were categorized as lead removal plants (BCF < 1). The Transfer Factor (TF) value showed a lower value for Ceriops tagal than Rhizophora apiculata, indicating that Rhizophora apiculata has better translocation ability. However, both are categorized as unstable plants (TF < 1). The results of the phytoremediation calculations showed that Ceriops tagal had superior absorption potential compared to Rhizophora apiculata.

References

1. Nursabrina, A.; Joko, T.; Septiani, O. Kondisi Pengelolaan Limbah B3 Industri Di Indonesia Dan Potensi Dampaknya: Studi Literatur. J. Ris. Kesehat. Poltekkes Depkes Bandung 2021, 13, 80–90, doi:10.34011/juriskesbdg.v13i1.1841.
2. Malik, D.P.; Yusuf, S.; William, I. Analisis Kandungan Logam Berat Timbal (Pb) Pada Air Laut Dan Sedimen Di Perairan Tanggul Soreang Kota Parepare. J. Ilm. Mns. Dan Kesehat. 2021, 4, 135–145.
3. Ulumudin, M.M.; Purnomo, T. Analisis Kandungan Logam Berat Timbal (Pb) pada Tumbuhan Papirus (Cyperus papyrus L.) di Sungai Wangi Pasuruan analysis of the heavy metal content of Lead (Pb) in papyrus (Cyperus papyrus L.) in Wangi River Pasuruan. Lentera Bio 2022, 11, 273–283.
4. Brooks, D.B. Sustainable Energy: An Initial Policy Assessment for Indonesia Environmental Management Development in Indonesia Project (EMDI); Halifax, 1992;
5. Anisyah, A.U.; Joko, T.; Nurjazuli Studi Kandungan Dan Beban Pencemaran Logam Timbal (Pb) Pada Air Balas Kapal Barang Dan Penumpang Di Pelabuhan Tanjung Emas Semarang. J. Kesehat. Masy. 2016, 4, 843–851.
6. Yolanda, S.; Armansyah, T.; Balqis, U.; Fahrimal, Y. Pengaruh Paparan Timbal (Pb) Terhadap Histopatologis Insang Ikan Nila (Oreochromis Nilloticus) The Effect Of Lead (Pb) Exposure To The Histopathology Of Nile Tilapia (Oreochromis Nilloticus) Gill. JIMVET 2017, 1, 736–741.
7. Ratnawati, R.; Fatmasari, R.D. Fitoremediasi Tanah Tercemar Logam Timbal (Pb) Menggunakan Tanaman Lidah Mertua (Sansevieria Trifasciata) Dan Jengger Ayam (Celosia Plumosa). AL-ARD J. Tek. Lingkung. 2018, 3, 62–69.
8. Kafle, A.; Timilsina, A.; Gautam, A.; Adhikari, K.; Bhattarai, A.; Aryal, N. Phytoremediation: Mechanisms, plant selection and enhancement by natural and synthetic agents. Environ. Adv. 2022, 8, doi:10.1016/j.envadv.2022.100203.
9. Elfrida, E.; Setyoko, S.; Indriaty, I. Analisis Serapan Logam Pb, Cu dan Zn pada Tumbuhan Buguiera gymnorriza dan Rhizophora apiculata di Hutan Mangrove Kuala Langsa. Sainmatika J. Ilm. Mat. Dan Ilmu Pengetah. Alam 2020, 17, 117, doi:10.31851/sainmatika.v17i2.3749.
10. Khairuddin; Yamin, M.; Syukur, A. Analisis Kandungan Logam Berat pada Tumbuhan Mangrove Sebagai Bioindikator di Teluk Bima. J. Biol. Trop. 2018, 18, 69–79.
11. Sanadi, T.H.; Schaduw, J.N.; Tilaar, S.O.; Mantiri, D.; Bara, R.; Pelle, W. Analisis Logam Berat Timbal (Pb) Pada Akar Mangrove Di Desa Bahowo Dan Desa Talawaan Bajo Kecamatan Tongkaina (Analisis Of Heavy Methal Lead (Pb) In Mangrove Roots In Bawoho Village And Talawaan Bajo Village, Tongkaina District). J. Pesisir Dan Laut Trop. 2018, 2, 8–18.
12. Imaduddien, M.R.; Krisnadi Konservasi Mangrove Oleh Masyarakat Pesisir Malang Selatan 2012-2016. Historia Santiago. 2020, 2, 215–234.
13. Retnaningdyah, C.; Febriansyah, S.C.; Hakim, L. Evaluation of the quality of mangrove ecosystems using macrozoobenthos as bioindicators in the Southern Coast of East Java, Indonesia. Biodiversitas 2022, 23, 6480–6491, doi:10.13057/biodiv/d231247.
14. Malau, R.; Azizah, R.; Susanto, A.; Santosa, G.W.; Irwani, I. Kandungan Logam Berat Timbal (Pb) Pada Air, Sedimen, Dan Rumput Laut Sargassum sp. Di Perairan Teluk Awur, Jepara. J. Kelaut. Trop. 2018, 21, 155, doi:10.14710/jkt.v21i2.3010.
15. Marasabessy, R.N.; Fesanrey, W.; Ambon, A.F.; Susiati Kondisi Lamun di Perairan Dusun Ory Pulau Haruku Kabupaten Maluku Tengah Seagrass Condition in the Waters of Ory Village, Haruku Island, Central Maluku District. J. Perikan. Dan Kelaut. 2022, 27, 227–234.
16. Samman, A.; Pertiwi, A.R.T.; Wahono, B. Hubungan C-Organik dengan Konsentrasi Merkuri pada Sedimen Hutan Mangrove di Kecamatan Kao Teluk, Halmahera Utara. J. Sumberd. Kelaut. Dan Perikan. 2013, 1, 115–124.
17. Rinawati, D.; Sofiatun Analisis Logam Berat Pada Perairan Hutan Mangrove Di Kabupaten Tangerang. J. Med. 2018, 5, 48–59.
18. Testi, E.H.; Soenardjo, N.; Pramesti, R. Logam Pb pada Avicennia marina Forssk, 1844 (Angiosperms: Acanthaceae) di Lingkungan Air, Sedimen, di Pesisir Timur Semarang. J. Mar. Res. 2019, 8.
19. Suwandewi, A.A.S.I.A.; Eka Suprihatin, I.; Manuntun Manurung, dan Akumulasi Logam Kromium (Cr) Dalam Sedimen, Akar Dan Daun Mangrove Avicennia Marina Di Muara Sungai Badung. J. Kim. 2013, 7, 181–185.
20. Ismail, I.; Mangesa, R.; Irsan Bioakumulasi Logam Berat Merkuri (Hg) Pada Mangrove Jenis Rhizophora Mucronata Di Teluk Kayeli Kabupaten Buru. J. Biol. Sci. Educ. 2020, 9, 139–152.
21. Dewi, L.; Hadisoebroto, G.; Anwar, K. Penentuan Kadar Logam Timbal (Pb) Dan Tembaga (Cu) Pada Sumber Air Di Kawasan Gunung Salak Kabupaten Sukabumi Dengan Metode Spektrofotometri Serapan Atom (SSA). J. Sabdariffarma 2021, 9, 15–24.
22. Rachmawati, R.; Yona, D.; Dyah Kasitowati, R. Potensi mangrove Avicennia alba sebagai agen fitoremediasi timbal (Pb) dan tembaga (Cu) di Perairan Wonorejo, Surabaya Potential of Avicennia alba as an agent of phytoremediation heavy metal (Pb and Cu) in Wonorejo, Surabaya. J. Ilmu-Ilmu Perairan, Pesisir Dan Perikan. 2018, 7, 227–236, doi:10.13170/depik.7.3.10555.
23. Tangahu, B. V; Sheikh Abdullah, S.R.; Basri, H.; Idris, M.; Anuar, N.; Mukhlisin, M. A review on heavy metals (As, Pb, and Hg) uptake by plants through phytoremediation. Int. J. Chem. Eng. 2011, doi:10.1155/2011/939161.
24. Sugiyanto, R.A.N.; Yona, D.; Kasitowati, R.D. Analisis akumulasi logam berat timbal (Pb) dan kadmium (Cd) pada lamun Enhalus acoroides sebagai agen fitoremediasi di Pantai Paciran, Lamongan. In Proceedings of the Seminar Nasional Perikanan Dan Kelautan; 2016; Vol. 6, hal. 449–455.
25. Nurbarasamuma; Chaerul, M.; Anshari, E.; Deniyatno Pencemaran Logam Berat Hg, As, Cd Di Sedimen Sungai Langkowala Akibat Aktivitas Penambangan Kabupaten Bombana Sulawesi Tenggara (Heavy Metal Pollution Hg, As, Cd In Sediments Of The Langkowala River Due To Mining Activities Bombana Regency Southeast Sulawesi). J. Lingkung. Almuslim 2022, 1, 1–7.
26. He, Z.; Shentu, J.; Yang, X.; Baligar, V.C.; Zhang, T.; Stoffella, P.J. Heavy Metal Contamination of Soils: Sources, Indicators, and Assessment. J. Environ. Indic. 2015, 9, 17–18.
27. Alzahrani, D.A.; Selim, E.M.M.; El-Sherbiny, M.M. Ecological assessment of heavy metals in the grey mangrove (Avicennia marina) and associated sediments along the Red Sea coast of Saudi Arabia. Oceanologia 2018, 60, 513–526, doi:10.1016/j.oceano.2018.04.002.
28. Manikasari, G.P.; Mahayani, N.P.D. Peran Hutan Mangrove Sebagai Biofilter Dalam Pengendalian Polutan Pb Dan Cu Di Hutan Mangrove Sungai Donan, Cilacap, Jawa Tengah. J. Nas. Teknol. Terap. 2018, 2, 105–117.
29. Analuddin, K.; Sharma, S.; Jamili; Septiana, A.; Sahidin, I.; Rianse, U.; Nadaoka, K. Heavy metal bioaccumulation in mangrove ecosystem at the coral triangle ecoregion, Southeast Sulawesi, Indonesia. Mar. Pollut. Bull. 2017, 125, 472–480, doi:10.1016/j.marpolbul.2017.07.065.

Authors

Febri Arif Cahyo Wibowo
Muhammadiyah Malang University
Mochamad Chanan
Muhammadiyah Malang University
Suci Intan Pratama
Muhammadiyah Malang University
suci74380@gmail.com (Primary Contact)
[1]
WibowoF.A.C., ChananM. and PratamaS.I. 2024. Lead Level Analysis in Roots and Leaves of Mangrove Plants Ceriops tagal and Rhizophora apiculata in Clungup Mangrove Conservation. Media Konservasi. 29, 2 (Apr. 2024), 137. DOI:https://doi.org/10.29244/medkon.29.2.137.
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