Tren Riset Disaster Risk Reduction Berbasis Perubahan Iklim: Analisis Bibliometrik Scopus 2003–2024

Penulis

  • Loso Judijanto IPOSS Jakarta, Indonesia
  • Richard Parlindungan Universitas Tjut Nyak Dhien image/svg+xml
  • Puspa Salsabila Institut Pemerintahan Dalam Negeri

DOI:

https://doi.org/10.58812/jgws.v4i01.3280

Kata Kunci:

Pengurangan Risiko Bencana, Perubahan Iklim, Analisis Bibliometrik, Pengelolaan Bencana, Penilaian Risiko

Abstrak

Penelitian ini bertujuan untuk memetakan tren perkembangan penelitian mengenai Disaster Risk Reduction (DRR) berbasis perubahan iklim melalui pendekatan analisis bibliometrik terhadap publikasi ilmiah yang terindeks dalam basis data Scopus selama periode 2003–2024. Metode yang digunakan dalam penelitian ini adalah analisis bibliometrik dengan memanfaatkan perangkat lunak VOSviewer untuk memvisualisasikan jaringan kolaborasi penulis, institusi, negara, serta keterkaitan kata kunci dalam publikasi ilmiah. Hasil analisis menunjukkan bahwa penelitian mengenai disaster risk reduction semakin berkembang dan didominasi oleh tema utama climate change, yang menjadi pusat keterkaitan dengan berbagai topik penelitian lainnya seperti risk assessment, disaster management, global warming, flood disaster, dan drought. Visualisasi jaringan kata kunci mengungkapkan adanya beberapa klaster penelitian yang mencerminkan fokus kajian pada analisis risiko bencana, manajemen bencana, serta dampak perubahan iklim terhadap kejadian bencana alam. Analisis temporal menunjukkan bahwa penelitian pada tahap awal lebih menitikberatkan pada pendekatan analitis dan pemodelan, sementara penelitian terbaru cenderung mengarah pada strategi manajemen risiko, pencegahan bencana, serta adaptasi terhadap perubahan iklim. Selain itu, analisis kolaborasi menunjukkan bahwa penelitian masih terkonsentrasi pada beberapa negara dan institusi tertentu, meskipun terdapat peluang besar untuk memperluas kerja sama internasional.

Referensi

Alexander, D. E. (2013). Resilience and disaster risk reduction: an etymological journey. Natural Hazards and Earth System Sciences, 13(11), 2707–2716.

Aria, M., & Cuccurullo, C. (2017). A brief introduction to bibliometrix. Journal of Informetrics, 11(4), 959–975.

Chen, J., Liu, Y., Pan, T., Liu, Y., Sun, F., & Ge, Q. (2018). Population exposure to droughts in China under the 1.5∘ C global warming target. Earth System Dynamics, 9(3), 1097–1106.

Cornes, I. C., & Cook, B. (2018). Localising climate change: heatwave responses in urban households. Disaster Prevention and Management: An International Journal, 27(2), 159–174.

Djalante, R., Garschagen, M., Thomalla, F., & Shaw, R. (2017). Introduction: Disaster risk reduction in Indonesia: Progress, challenges, and issues. Disaster Risk Reduction in Indonesia: Progress, Challenges, and Issues, 1–17.

Guo, H., Wang, R., Garfin, G. M., Zhang, A., Lin, D., Liang, Q., & Wang, J. (2021). Rice drought risk assessment under climate change: Based on physical vulnerability a quantitative assessment method. Science of the Total Environment, 751, 141481.

Huang, H. H., Kerstein, J., Wang, C., & Wu, F. (2022). Firm climate risk, risk management, and bank loan financing. Strategic Management Journal, 43(13), 2849–2880.

Izumi, T., Shaw, R., Djalante, R., Ishiwatari, M., & Komino, T. (2019). Disaster risk reduction and innovations. Progress in Disaster Science, 2, 100033.

Ji, G., Lai, Z., Xia, H., Liu, H., & Wang, Z. (2021). Future runoff variation and flood disaster prediction of the yellow river basin based on CA-Markov and SWAT. Land, 10(4), 421.

Jia, J., Han, L.-Y., Liu, Y.-F., He, N., Zhang, Q., Wan, X., Zhang, Y., & Hu, J. (2016). Drought risk analysis of maize under climate change based on natural disaster system theory in Southwest China. Acta Ecologica Sinica, 36(5), 340–349.

Mercer, J., Gaillard, J., Crowley, K., Shannon, R., Alexander, B., Day, S., & Becker, J. (2016). Culture and disaster risk reduction: Lessons and opportunities. In Natural hazards and disaster risk reduction (pp. 4–25). Routledge.

Oliver‐Smith, A. (2016). Disaster risk reduction and applied anthropology. Annals of Anthropological Practice, 40(1), 73–85.

Shen, S., Feng, X., & Peng, Z. R. (2016). A framework to analyze vulnerability of critical infrastructure to climate change: the case of a coastal community in Florida. Natural Hazards, 84(1), 589–609.

Su, Q. (2020). Long-term flood risk assessment of watersheds under climate change based on the game cross-efficiency DEA. Natural Hazards, 104(3), 2213–2237.

Twigg, J. (2015). Disaster risk reduction.

Wamsler, C. (2018). Mind the gap: The role of mindfulness in adapting to increasing risk and climate change. Sustainability Science, 13(4), 1121–1135.

Weichselgartner, J., & Pigeon, P. (2015). The role of knowledge in disaster risk reduction. International Journal of Disaster Risk Science, 6(2), 107–116.

Yao, J., Mao, W., Chen, J., & Dilinuer, T. (2021). Signal and impact of wet-to-dry shift over Xinjiang, China. Acta Geographica Sinica, 76(1), 57–72.

Unduhan

Diterbitkan

2026-02-28

Terbitan

Vol 4 No 01 (2026): Jurnal Geosains West Science

Bagian

Artikel

Lisensi

Hak Cipta (c) 2026 Loso Judijanto, Richard Parlindungan, Puspa Salsabila

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Artikel ini berlisensiCreative Commons Attribution-ShareAlike 4.0 International License.

Cara Mengutip

Tren Riset Disaster Risk Reduction Berbasis Perubahan Iklim: Analisis Bibliometrik Scopus 2003–2024. (2026). Jurnal Geosains West Science, 4(01), 91~101. https://doi.org/10.58812/jgws.v4i01.3280