Integrating natural resource potential and technological innovation: An interdisciplinary study on the development of seaweed-based bioplastics in indonesia as an alternative to conventional plastics

Chesa Helsin Qiswian

doi:10.61511/safses.v2i1.2025.1786

Authors

Chesa Helsin Qiswian School of Environmental Science, Universitas Indonesia, Jakarta, 10430, Indonesia

DOI:

https://doi.org/10.61511/safses.v2i1.2025.1786

Keywords:

bioplastic, challenge, opportunity, plastic, seaweed

Abstract

Background: Plastic usage has become an integral part of modern life, spanning applications from food packaging and single-use bags to large-scale industrial uses. With plastic waste ranking as the second largest type of waste in Indonesia—and with Indonesia identified by a Nature journal (9 September 2024) as the world’s third largest contributor of plastic pollution at 3.4 million metric tons per year—the environmental impact is significant, especially considering plastic's persistence for hundreds to thousands of years. Methods: This research employs a qualitative approach, analyzing relevant literature, policy documents, and industry reports to assess the opportunities and challenges in developing bioplastics made from seaweed in Indonesia. Findings: he study finds that seaweed-based bioplastics, which are naturally degradable within four to six weeks and even edible, offer a promising alternative to conventional plastics. Indonesia’s position as the second-largest seaweed producer globally presents a unique opportunity to harness social, economic, and environmental benefits. However, challenges remain in scaling sustainable seaweed aquaculture, adopting efficient technologies, and formulating supportive policies, with international cooperation in knowledge and technology transfer deemed essential. Conclusion: The development of seaweed-based bioplastics in Indonesia could serve as a sustainable solution to the plastic waste crisis, provided that targeted research, policy reforms, and industry collaborations are implemented. Novelty/Originality of this article: This research uniquely integrates environmental, economic, and social perspectives to advance the emerging field of seaweed-based bioplastics, highlighting the potential for international partnerships to drive sustainable innovation in Indonesia.

References

Amqam, H., Natsir, M. F., & Yusriani, Z. F. (2024). Microplastic contamination in Indonesian consumable salts. Journal of Sea Research, 198. https://doi.org/10.1016/j.seares.2024.102475

Ardiansyah, R., Asfar, A. M. I. T., Rianti, M., Andriani, I., Malina, A. C., & Kasmiati. (2024). Rumput Laut Ulva sp.: Diversifikasi Produk Olahan. Eureka Media Aksara.

Arifin, Z., Falahudin, D., Saito, H., Mintarsih, T. H., Hafizt, M., & Suteja, Y. (2023). Indonesian policy and researches toward 70% reduction of marine plastic pollution by 2025. Marine Policy, 155. https://doi.org/10.1016/j.marpol.2023.105692

Ayala, M., Arlov, Ø., Nøkling-Eide, K., Sœther, M., Dore, C., Vidal, J., Zhou, Q., Wang, S., Michalak, L., Kyvik, A., Jolain, B., Aubel, L., Strand Jacobsen, S., & Pizzol, M. (2024). A supply-chain perspective on producing and upscaling bioplastic from cultivated brown seaweed. Journal of Cleaner Production, 444. https://doi.org/10.1016/j.jclepro.2024.141248

Basnur, J., Fakhri, M., Putra, F., Vee, S., Jayusman, A., & Zulhilmi, Z. (2024). Sustainable Packaging: Bioplastics as a Low-Carbon Future Step for the Sustainable Development Goals (SDGs). ASEAN Journal for Science and Engineering in Materials, 3(1). https://ejournal.bumipublikasinusantara.id/index.php/ajsem

Basyuni, M., Puspita, M., Rahmania, R., Albasri, H., Pratama, I., Purbani, D., Aznawi, A. A., Mubaraq, A., Al Mustaniroh, S. S., Menne, F., Rahmila, Y. I., Salmo, S. G., Susilowati, A., Larekeng, S. H., Ardli, E., & Kajita, T. (2024). Current biodiversity status, distribution, and prospects of seaweed in Indonesia: A systematic review. Heliyon, 10(10). https://doi.org/10.1016/j.heliyon.2024.e31073

Burhani, D., Sudarmanto, Wijayanto, A., Andreansyah, I., Widyawati, Y., Nurhamiyah, Y., Fransiska, D., Agustina, S., Banar Kusumaningrum, W., Fatriasari, W., & Aulya Syamani, F. (2023). Utilization of Indonesian seaweed in polyethylene-based composite with coconut husk powder as bio-compatibilizer. Materials Today: Proceedings. https://doi.org/10.1016/j.matpr.2023.03.765

Consebit, K. L., Dermil, K. C., Magbanua, E. Y., Racadio, J., Saavedra, S. V., Abusama, H., & Valdez, A. (2021). Bioplastic from Seaweeds (Eucheuma Cottonii) as an Alternative Plastic. ASEAN Journal of Science and Engineering 2(2), 129-132. https://doi.org/10.17509/ijost.v6ix

Dang, B.-T., Bui, X.-T., Tran, D. P. H., Hao Ngo, H., Nghiem, L. D., Hoang, T.-K.-D., … Varjani, S. (2022). Current application of algae derivatives for bioplastic production: A review. Bioresource Technology, 347, 126698. https://doi.org/10.1016/j.biortech.2022.126698

Eri, M. A., Mangiwa, S., & Karunia Dewi, W. (n.d.). Karakterisasi Bioplastik di Biak, AVOGADRO: Jurnal Kimia, 2(1). https://doi.org/10.31957/.V2I1.887

Ghasemlou, M., Barrow, C. J., & Adhikari, B. (2024). The future of bioplastics in food packaging: An industrial perspective. Food Packaging and Shelf Life, 43, 101279. https://doi.org/10.1016/j.fpsl.2024.101279

Jayakumar, A., Radoor, S., Siengchin, S., Shin, G. H., & Kim, J. T. (2023). Recent progress of bioplastics in their properties, standards, certifications and regulations: A review. Science of the Total Environment, 878. https://doi.org/10.1016/j.scitotenv.2023.163156

Kajla, P., Chaudhary, V., Dewan, A., Bangar, S. P., Ramniwas, S., Rustagi, S., & Pandiselvam, R. (2024). Seaweed-based biopolymers for food packaging: A sustainable approach for a cleaner tomorrow. International Journal of Biological Macromolecules, 274. https://doi.org/10.1016/j.ijbiomac.2024.133166

Kartika, K. (2020). Strategi Dan Operasional Pengembangan Agroindustri Berkelanjutan Rumput Laut di Indonesia. EDUFORTECH, 5(1). https://doi.org/10.17509/edufortech.v5i1.23921

Kemenko Bidang Kemaritiman dan Investasi. (2024). Tingkatkan Produksi Rumput Laut: Tingginya Potensi Hilirisasi Rumput Laut. Kementerian Koordinator Bidang Kemaritiman dan Investasi Republik Indonesia.

Khadija, N. A. N. (2023). Peningkatan Laba Bisnis Bioplastik dengan Pemilihan Mesin Terbarukan: Studi Kasus pada Brand HeySooca. Educationist: Journal of Educational and Cultural Studies, 2(1), 367–373. https://jurnal.litnuspublisher.com/index.php/jecs/article/view/142

Kumar, R., Lalnundiki, V., Shelare, S. D., Abhishek, G. J., Sharma, S., Sharma, D., Kumar, A., & Abbas, M. (2024). An investigation of the environmental implications of bioplastics: Recent advancements on the development of environmentally friendly bioplastics solutions. Environmental Research, 244. https://doi.org/10.1016/j.envres.2023.117707

Lomartire, S., Marques, J. C., & Gonçalves, A. M. M. (2022). An Overview of the Alternative Use of Seaweeds to Produce Safe and Sustainable Bio-Packaging. Applied Sciences, 12(6). https://doi.org/10.3390/app12063123

Meirinawati, H., & Wahyudi, A. J. (2023). Seaweed as Bioadsorbent For Nitrogen and Phosphorus Removal. Journal of Environmental Science and Sustainable Development, 6(1). https://doi.org/10.7454/jessd.v6i1.1159

Ministry of Environment and Forestry. (2020). National Plastic Waste Reduction Strategic Actions for Indonesia. Ministry of Environment and Forestry

Moshood, T. D., Nawanir, G., Mahmud, F., Mohamad, F., Ahmad, M. H., & Ghani, A. A. (2021). Expanding policy for biodegradable plastic products and market dynamics of bio-based plastics: Challenges and opportunities. Sustainability (Switzerland), 13(11). https://doi.org/10.3390/su13116170

Muljana, H. (2019). Pengembangan Produk Polimer : Permasalahan, Arah Riset dan Potensi Aplikasinya di Indonesia. Majalah Parahyangan, 6(3). https://repository.unpar.ac.id/handle/123456789/16656

Nesic, A., Meseldzija, S., Benavides, S., Figueroa, F. A., & Cabrera-Barjas, G. (2024). Seaweed as a Valuable and Sustainable Resource for Food Packaging Materials. Foods, 13(19). https://doi.org/10.3390/foods13193212

Okwuejunti, E. (2017). The role of bio-based polyesters in food and liquid packaging. Lappeenranta University of Technology.

Parveen, N., Naik, S. V. C. S., Vanapalli, K. R., & Sharma, H. B. (2024). Bioplastic packaging in circular economy: A systems-based policy approach for multi-sectoral challenges. In Science of the Total Environment, 945. https://doi.org/10.1016/j.scitotenv.2024.173893

Permani, R., Muflikh, Y. N., & Sjahruddin, F. (2024). Mapping the complex web of policies for seaweed industry development in Indonesia: What is the role of a national roadmap? Ocean and Coastal Management, 259. https://doi.org/10.1016/j.ocecoaman.2024.107464

Prasetyo, M. Y., Hendri, M., & Shiyan, S. (2024). Analisis Thermogravimetri dan Sifat Mekanis Edible Film Rumput Laut Gracillaria sp. Sebagai Bahan Alternatif Bioplastik. Jurnal Penelitian Sains, 26(2), 147. https://doi.org/10.56064/jps.v26i2.1016

Ridwan, N. M. ah R., Frimawaty, E., & Herdiansyah, H. (2023). Analyzing Urban Communities Level of Environmental Awareness for a Future Sustainable Use of Plastic Packaging. International Journal of Sustainable Development and Planning, 18(2), 377–383. https://doi.org/10.18280/ijsdp.180205

Rimmer, M. A., Larson, S., Lapong, I., Purnomo, A. H., Pong‐masak, P. R., Swanepoel, L., & Paul, N. A. (2021). Seaweed aquaculture in indonesia contributes to social and economic aspects of livelihoods and community wellbeing. Sustainability (Switzerland), 13(19). https://doi.org/10.3390/su131910946

Sagara, M. R. N., & Suryawan, I. W. K. (2023). Seaweed Waste in Nusa Dua: An Analysis of Environmental Challenges and Recycling Opportunities. Journal of Earth and Marine Technology (JEMT), 4(1), 142-148. https://doi.org/10.31284/j.jemt.2023.v4i1.4994

Saefulloh, A. A., Paramita, R., Sirait, R. A., Dahiri, Wibowo, A. P. S., & Kusumawardhani, R. T. (2021). Budget Issue Brief: Industri dan Pembangunan. Pusat Kajian Anggaran DPR.

Santana, I., Felix, M., & Bengoechea, C. (2024). Seaweed as basis of eco-sustainable plastic materials: focus on alginate. Polymers, 16(12), 1662. https://doi.org/10.3390/polym16121662

Tarigan, E. M., & Cahyonugroho, O. H. (2024). Pemanfaatan Limbah Keraginan Rumput Laut Menjadi Plastik Biodegradable. UPN Veteran Jawa Timur.

Tennakoon, P., Chandika, P., Yi, M., & Jung, W.-K. (2023). Marine-derived biopolymers as potential bioplastics, an eco-friendly alternative. Iscience, 26(4) https://doi.org/10.1016/j.isci

Waldron, S., Langford, Z., Pasaribu, S., Nuryartono, N., Julianto, B., & Siradjuddin, I. (2023). The Indonesian seaweed industry. In Globalisation and Livelihood Transformations in the Indonesian Seaweed Industry (pp. 51–76). Taylor and Francis. https://doi.org/10.4324/9781003183860-4

Waqas, M. A., Hashemi, F., Mogensen, L., & Knudsen, M. T. (2024). Environmental performance of seaweed cultivation and use in different industries: A systematic review. Sustainable Production and Consumption, 48. 123–142.. https://doi.org/10.1016/j.spc.2024.05.001

Wigati, P. E. A., & Mihardja, E. J. (2023). Everlasting Beauty: Biodegradable Plastic Processing As A Unique Marine Tourism Village In Southeast Maluku. IKRA-ITH ABDIMAS, 7(3). https://journals.upi-yai.ac.id/index.php/IKRAITH-ABDIMAS/article/view/4015

Yong, W. T. L., Thien, V. Y., Misson, M., Chin, G. J. W. L., Said Hussin, S. N. I., Chong, H. L. H., Yusof, N. A., Ma, N. L., & Rodrigues, K. F. (2024a). Seaweed: A bioindustrial game-changer for the green revolution. Biomass and Bioenergy, 183. https://doi.org/10.1016/j.biombioe.2024.107122

Yong, W. T. L., Thien, V. Y., Misson, M., Chin, G. J. W. L., Said Hussin, S. N. I., Chong, H. L. H., Yusof, N. A., Ma, N. L., & Rodrigues, K. F. (2024b). Seaweed: A bioindustrial game-changer for the green revolution. Biomass and Bioenergy, 183. https://doi.org/10.1016/j.biombioe.2024.107122

Yong, W. T. L., Thien, V. Y., Rupert, R., & Rodrigues, K. F. (2022). Seaweed: A potential climate change solution. In Renewable and Sustainable Energy Reviews, 159. Elsevier Ltd. https://doi.org/10.1016/j.rser.2022.112222

Zahrah, Y., Yu, J., & Liu, X. (2024). How Indonesia’s Cities Are Grappling with Plastic Waste: An Integrated Approach towards Sustainable Plastic Waste Management. Sustainability (Switzerland) , 16(10). https://doi.org/10.3390/su16103921

Zhang, J., Cran, M., Gao, L., Xie, Z., & Gray, S. (2024). Contribution of seaweed farming to the mitigation of greenhouse gas emissions and microplastics pollution. Algal Research, 82. https://doi.org/10.1016/j.algal.2024.103623