Converging Paths to Resilience: Analyzing Food and Energy Security Dynamics in SULAMPUA
, Research Article

Converging Paths to Resilience: Analyzing Food and Energy Security Dynamics in SULAMPUA

Research Article
https://doi.org/10.26487/hebr.v9i3.6640
Published 2026-02-28
Basri
Postgraduate Program, Sunan Kalijaga State Islamic University, Yogyakartay, Indonesia
https://orcid.org/0009-0003-4385-6191
Yusri
Postgraduate Program, State Islamic Institute of Bone, Indonesia
PDF

Keywords

Food Security
Energy Security
Green Infrastructure
SULAMPUA
GMM

How to Cite

Basri, & Yusri. (2026). Converging Paths to Resilience: Analyzing Food and Energy Security Dynamics in SULAMPUA. Hasanuddin Economics and Business Review, 9(3), 264–283. https://doi.org/10.26487/hebr.v9i3.6640
ACM ACS APA ABNT Chicago Harvard IEEE MLA Turabian Vancouver

Download Citation

Endnote/Zotero/Mendeley (RIS) BibTeX

Abstract

This study examines the convergence of food and energy security in the Sulawesi, Maluku, and Papua (SULAMPUA) region as a key element of national resilience. Using a dynamic panel model with the Generalized Method of Moments (GMM) on data from 10 provinces (2018–2023), the analysis reveals that food security is strongly supported by agricultural technology assistance, which boosts productivity despite shrinking farmland. Equitable fertilizer subsidies are also critical, while natural disasters require targeted adaptation strategies. On the energy side, declining crude oil production weakens stability, but renewable energy development offers significant potential. However, infrastructure limitations and global oil price fluctuations remain significant challenges. Policy implications underscore the need to integrate food and energy strategies, combining agricultural technology, fertilizer subsidies, and accelerating renewable energy development. Green infrastructure, including clean-energy irrigation systems, can enhance resilience while reducing carbon emissions. Strengthening disaster risk management through early warning systems and local crop diversification is also vital. Additionally, energy price-stabilization policies, such as buffer stocks and fiscal incentives for renewables, are necessary to reduce dependence on global markets. Overall, the findings underscore the importance of a multisectoral, evidence-based approach to building sustainable resilience in the SULAMPUA region.

https://doi.org/10.26487/hebr.v9i3.6640
PDF

References

Alfiandy, S., & Ilahi, A. F. (2023). Pendidikan Mengatasi Perubahan Iklim berdasarkan Literasi Iklim untuk Pertanian Berkelanjutan di Provinsi Sulawesi Tengah. Buletin GAW Bariri (BGB), 4(2), 31–39.

Arellano, M., & Bond, S. (1991). Some Test of Spesification for Data Panel: Monte Carlo Evidence and an Aplication of Employment Equations. Source: The Review of Economic Studies, 58(2), 277–297.

Arora, N. K., & Mishra, I. (2023). Sustainable development goal 13: recent progress and challenges to climate action. Environmental Sustainability, 6(3), 297–301.

Bazilian, M., Rogner, H., Howells, M., Hermann, S., Arent, D., Gielen, D., Steduto, P., Mueller, A., Komor, P., & Tol, R. S. J. (2011). Considering the energy, water and food nexus: Towards an integrated modelling approach. Energy Policy, 39(12), 7896–7906.

Bilqis, M., Hendrarini, H., & Atasa, D. (2026). Analisis ketahanan pangan rumah tangga petani berdasarkan proporsi pengeluaran pangan dan kecukupan energi di Kecamatan Mantup Kabupaten Lamongan. Journal of Tropical AgriFood, 7(2), 100–109.

Blundell, R., & Bond, S. (1998). Initial conditions and moment restrictions in dynamic panel data models. Journal of Econometrics, 87(1), 115–143. https://doi.org/https://doi.org/10.1016/S0304-4076(98)00009-8

BPS. (2023). Produksi Padi dan Beras Menurut Provinsi, 2023. Central Bureau of Statistics of Indonesia. https://www.bps.go.id/id/statistics-table/3/ZDNaak0yODBUVTlGYW5sa2REUkVUVVY1YVZkbmR6MDkjMw==/produksi-padi-sup-1--sup--dan-beras-menurut-provinsi--2023.html?year=2023

Cergibozan, R. (2022). Renewable energy sources as a solution for energy security risk: Empirical evidence from OECD countries. Renewable Energy, 183, 617–626.

D’Odorico, P., Davis, K. F., Rosa, L., Carr, J. A., Chiarelli, D., Dell’Angelo, J., Gephart, J., MacDonald, G. K., Seekell, D. A., & Suweis, S. (2018). The global food‐energy‐water nexus. Reviews of Geophysics, 56(3), 456–531.

Data, O. W. in. (2024). Primary energy consumption, 2024. Energy Institute - Statistical Review of World Energy. https://ourworldindata.org/grapher/primary-energy-cons

Dercon, S., Gilligan, D. O., Hoddinott, J., & Woldehanna, T. (2009). The impact of agricultural extension and roads on poverty and consumption growth in fifteen Ethiopian villages. American Journal of Agricultural Economics, 91(4), 1007–1021.

FAO. (2023). GREENING THE ECONOMY WITH AGRICULTURE (GEA). Food and Agriculture Organization of the United Nations. https://www.fao.org/fileadmin/user_upload/suistainability/docs/GEA__concept_note_3March_references_01.pdf

Fatimah, S., Rasyid, A., Anirwan, A., Qamal, Q., & Arwakon, H. O. (2024). Kebijakan Makan Bergizi Gratis di Indonesia Timur: Tantangan, Implementasi, dan Solusi untuk Ketahanan Pangan. Journal of Governance and Policy Innovation, 4(1), 14–21.

Folke, C. (2006). Resilience: The emergence of a perspective for social–ecological systems analyses. Global Environmental Change, 16(3), 253–267. https://doi.org/https://doi.org/10.1016/j.gloenvcha.2006.04.002

Hasan, M. M., & Adnan, A. T. M. (2025). Nexus between environmental sustainability, energy intensity and food security: evidence from emerging economies. Journal of Business and Socio-Economic Development, 5(2), 139–154.

He, J., Osabohien, R., Yin, W., Adeleke, O. K., Uduma, K., Agene, D., & Su, F. (2024). Green economic growth, renewable energy and food security in Sub-Saharan Africa. Energy Strategy Reviews, 55, 101503.

Hellegers, P. (2022). Food security vulnerability due to trade dependencies on Russia and Ukraine. Food Security, 14(6), 1503–1510.

Hodbod, J., & Eakin, H. (2015). Adapting a social-ecological resilience framework for food systems. Journal of Environmental Studies and Sciences, 5(3), 474–484.

IEA. (2021). Achieving Net Zero Heavy Industry Sectors in G7 Members. IEA Publications. https://www.iea.org/reports/achieving-net-zero-heavy-industry-sectors-in-g7-members/executive-summary?utm_source=chatgpt.com

IPCC. (2022). Climate Change 2022 - Mitigation of Climate Change - Full Report. In Cambridge University Press (Issue 1).

Karunathilake, H., Prabatha, T., Sadiq, R., & Hewage, K. (2022). Overcoming the energy security challenges in developing countries. In Handbook of Energy and Environmental Security (pp. 61–88). Elsevier.

Khan, K., Su, C. W., Khurshid, A., & Qin, M. (2023). Does energy security improve renewable energy? A geopolitical perspective. Energy, 282, 128824.

Lisanty, N., Andajani, W., Pamudjiati, A. D., & Artini, W. (2021). Regional overview of food security from two dimensions: Availability and access to food, East Java Province. Journal of Physics: Conference Series, 1899(1), 12067.

North, D. C. (1990). Institutions, institutional change and economic performance. Cambridge university press. https://doi.org/https://doi.org/10.1017/CBO9780511808678

Putnam, R. D. (1993). The prosperous community. The American Prospect, 4(13), 35–42.

Rachmaningsih, T., & Priyarsono, D. S. (2012). Ketahanan pangan di kawasan timur Indonesia. Jurnal Ekonomi Dan Pembangunan Indonesia, 13(1), 1.

Sachs, J. D., & Warner, A. M. (2001). The curse of natural resources. European Economic Review, 45(4–6), 827–838.

Singh, P. (2006). Hunger amidst plenty: Reflections on law, poverty and governance. Journal of the Indian Law Institute, 48(1), 57–77.

South, D. W., & Alpay, S. (2025). Analyzing Global Progress on United Nations Sustainable Development Goals 7 and 13—Clean Energy and Climate Action. Climate and Energy, 41(9), 23–32.

Syuhada, A., Armanto, M. E., Siswanto, A., Yazid, M., & Wildayana, E. (2020). Food security and environmental sustainability on the South Sumatra Wetlands, Indonesia. Systematic Reviews in Pharmacy, 11(3), 457–464.

Taghizadeh-Hesary, F., Rasoulinezhad, E., & Yoshino, N. (2019). Energy and food security: Linkages through price volatility. Energy Policy, 128, 796–806.

To, H., & Grafton, R. Q. (2015). Oil prices, biofuels production and food security: past trends and future challenges. Food Security, 7(2), 323–336.

Wudil, A. H., Usman, M., Rosak-Szyrocka, J., Pilař, L., & Boye, M. (2022). Reversing years for global food security: A review of the food security situation in Sub-Saharan Africa (SSA). International Journal of Environmental Research and Public Health, 19(22), 14836.

Zhuang, D., Abbas, J., Al-Sulaiti, K., Fahlevi, M., Aljuaid, M., & Saniuk, S. (2022). Land-use and food security in energy transition: Role of food supply. Frontiers in Sustainable Food Systems, 6, 1053031.

Creative Commons License

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

Copyright (c) 2026 Hasanuddin Economics and Business Review