Integrating Spatial Utilization and Sustainability Indicators for Residential Area Planning in Kediri Regency

Authors

  • Edi Rusdiyanto INDONESIA
  • Abdillah Munawir INDONESIA

DOI:

https://doi.org/10.32832/astonjadro.v15i2.23208

Keywords:

Kediri, spatial analysis, land use, forest, Built-Up.

Abstract

The aim of this study is to analyze the current condition of land use within the context of spatial utilization in Kediri Regency, as well as to formulate policy directions for land management through a sustainable land-use change transition matrix analysis. The analytical method employed in this study involves spatial-temporal interpretation using a Geographic Information System (GIS), utilizing Landsat-7 ETM, Landsat-8 OLI imagery, and Google Earth data, combined with a mixed-method approach. The results of the spatial analysis indicate that forest land has experienced a consistent decline over time. In 2008, the forest area was 5,363 hectares; in 2013, it decreased to 5,241 hectares; in 2018, it further declined to 5,035 hectares; and by 2023, it was recorded at 4,906 hectares. In contrast, built-up land has shown a steady increase, reflecting rising urbanization in Kediri Regency and indicating growing environmental pressure due to forest reduction. In 2008, the built-up area covered 25,698 hectares; in 2013, it increased to 26,762 hectares; in 2018, it rose again to 27,955 hectares; and by 2023, it significantly expanded to 30,749 hectares. The dynamics of land-use change in Kediri Regency during the 2008–2023 period reflect a significant transformation from an agrarian character toward an increasingly urbanized area. Spatial analysis highlights the rapid expansion of built-up land as the dominant phenomenon, driven by population growth, urbanization, and regional economic development. Therefore, sustainable spatial planning policies are needed through the integration of spatial and temporal data, control of land-use conversion, and adaptive policy-making to maintain a balance between economic development, environmental sustainability, and long term societal well being.

              1.854   The purpose of this study is to analyze the actual condition of land use in the context of spatial utilization in Kediri Regency and to formulate land management policy directions using a transition matrix analysis of sustainable land use. The analytical method used in this study is spatial-temporal interpretation of Geographic Information System (GIS) images using Landsat-7ETM, Landsat-8OLI, and Google Earth data, along with mixed-method analysis. The spatial analysis results indicate that forest land use has decreased over time. In 2008, forest area was 5,363 ha, in 2013 it was 5,241 ha, in 2018 it decreased again to 5,035 ha, and in 2023 the forest area was recorded at 4,906 ha. The increase in built-up land indicates increasing urbanization in Kediri Regency, while the decrease in forest area indicates environmental pressure. In 2008, the built-up area was 25,698 ha. In 2013, this figure increased to 26,762 ha. In 2018, this figure rose again to 27,955 ha. In 2023, this figure significantly increased to 30,749 ha. The dynamics of land use change in Kediri Regency during the 2008–2023 period reflect a significant regional transformation from an agrarian to an increasingly urbanized area. Spatial analysis indicates a rapid increase in built-up area, which has become a dominant phenomenon, in line with population growth, urbanization, and regional economic development. Sustainable spatial management policies are needed through the integration of spatial and temporal data, control of land conversion, and adaptive policies to maintain a balance between economic development, environmental sustainability, and long-term community welfare.

Author Biographies

Edi Rusdiyanto, INDONESIA

Program Studi Magister Ilmu Lingkungan Universitas Terbuka, Tangerang Selatan

Abdillah Munawir, INDONESIA

Sekolah Tinggi Ilmu Hayati Institut Teknologi Bandung, Bandung

References

[1] Munawir, A., June, T., Kusmana, C., & Setiawan, Y. (2019). Dynamics factors that affect the land use change in the Lore Lindu National Park. Proceeding of SPIE 11372, Event : Sixth Internasional Symposium on LAPAN-IPB Satelite. Bogor Indonesia.

[2] Rusdiyanto, E., & Munawir, A. (2023). New built land threat of martapura river–implementation of environmental sustainability in Banjarmasin City, South Kalimantan, Indonesia. Journal of Ecological Engineering, 24(5).

[3] Esfandeh, S., Danehkar, A., Salmanmahiny, A., Sadeghi, S. M. M., & Marcu, M. V. (2021). Climate change risk of urban growth and land use/land cover conversion: An in-depth review of the recent research in Iran. Sustainability, 14(1), 338.

[4] Hansen, H. K., & Eriksson, R. H. (2023). The public sector and regional development: Why public sector employment remains a black box in economic geography, and how should we open it?. Progress in Human Geography, 47(6), 833-849.

[5] Fundeanu, D. D., & Badele, C. S. (2014). The impact of regional innovative clusters on competitiveness. Procedia-Social and Behavioral Sciences, 124, 405-414.

[6] Munawir A. 2017. Kajian Dampak Lingkungan Kegiatan Penambangan Tanah Timbun di Kota Kendari. Hasanuddin Student Journal. Vol. 1 No. (2): 109-119, Desember 2017P-ISSN:2579-7859, E-ISSN: 2579-7867. Universitas Hasanuddin. https://journal.unhas.ac.id/index.php/jt/article/view/2834/pdf.

[7] Coutts, A. M., Harris, R. J., Phan, T., Livesley, S. J., Williams, N. S., & Tapper, N. J. (2016). Thermal infrared remote sensing of urban heat: Hotspots, vegetation, and an assessment of techniques for use in urban planning. Remote sensing of environment, 186, 637-651

[8] Fadilah, I. N., & Munawir, A. (2024). Sustainable Regional Development Strategy for Dealing with the Distribution of Landfill Points in West Lombok Regency. ASTONJADRO, 13(3), 747-757.

[9] Das, S., Choudhury, M. R., Chatterjee, B., Das, P., Bagri, S., Paul, D., Bera, M., & Dutta, S. (2024). Unraveling the urban climate crisis: Exploring the nexus of urbanization, climate change, and their impacts on the environment and human well-being–A global perspective. AIMS Public Health, 11(3), 963.

[10] De Jong, L., De Bruin, S., Knoop, J., & van Vliet, J. (2021). Understanding land-use change conflict: A systematic review of case studies. Journal of Land Use Science, 16(3), 223-239.

[11] Esfandeh, S., Danehkar, A., Salmanmahiny, A., Sadeghi, S. M. M., & Marcu, M. V. (2021). Climate change risk of urban growth and land use/land cover conversion: An in-depth review of the recent research in Iran. Sustainability, 14(1), 338.

[12] Munawir, A., Nurhasanah, Rusdiyanto, E., & Muna, S. U. N. (2022a). Sustainable mangrove forest utilization policy using interpretative structural modeling techniques in Rawa Aopa National Park, Southeast Sulawesi. Scientific Bulletin of Marina Socio-Economics of Marine and Fisheries. [in Indonesian].

[13] El Fitri, L. S. (2018). Pemekaran Kecamatan Dalam Peningkatan Pelayanan Kependudukan (Studi Pada Kecamatan Gampengrejo Kabupaten Kediri) (Doctoral dissertation, Brawijaya University).

[14] Fang, C., & Yu, D. (2017). Urban agglomeration: An evolving concept of an emerging phenomenon. Landscape and urban planning, 162, 126-136.

[15] Warsono, A. (2006). Perkembangan Permukiman Pinggiran Kota Pada Koridor Jalan Kaliurang Kecamatan Ngaglik Kabupaten Sleman (Doctoral dissertation, program Pascasarjana Universitas Diponegoro).

[16] Fiantika, F. R., Sa’Dijah, C., Qohar, A., & Darsono. (2020, February). Link between modern building and Kediri’s tradition: An idea to develop teaching-learning equipment. In Journal of Physics: Conference Series (Vol. 1470, No. 1, p. 012001). IOP Publishing.

[17] Maylin, M. I. (2019). Konstruksi Sosial Simpang Lima Gumul (Studi Makna Simpang Lima Gumul bagi Masyarakat Desa Tugurejo dan Desa Sumberejo, Kecamatan Ngasem, Kabupaten Kediri) (Doctoral dissertation, Universitas Airlangga).

[18] Istiqomah, N. Z., Setyono, D. A., & Hasyim, A. W. (2025). KARAKTERISTIK HARGA LAHAN DI KAWASAN SEKITAR BANDARA DAN JALAN TOL KABUPATEN KEDIRI. Planning for Urban Region and Environment Journal (PURE), 14(4), 107-116.

[19] Hoornweg, D., & Pope, K. (2017). Population predictions for the world’s largest cities in the 21st century. Environment and urbanization, 29(1), 195-216.

[20] Munawir, A., Rusdiyanto, E., Naili Muna, S. U., Ali, F., & Ihsan, M. (2024). Improving Waste Management Sustainability: The Role of Institutional Capacity and Program Objectives. Journal of Natural Resources and Environment Management, 14(3).

[21] Central Statistics Agency (BPS). Kediri Regency in 2022.

[22] Munawir, A., June, T., Kusmana, C., & Setiawan, Y. (2022). SEBAL Model to Estimate Biophysics and Energy Flux Variable: Availability of Evapotranspiration Distribution Using Remote Sensing in Lore Lindu National Park. In IOP Conference Series: Earth and Environmental Science (Vol. 950, No. 1, p. 012022). IOP Publishing.

[23] Mohan, M., & Kandya, A. (2015). Impact of urbanization and land-use/land-cover change on diurnal temperature range: A case study of tropical urban airshed of India using remote sensing data. Science of the Total Environment, 506, 453-465.

[24] Lukman, L., Sodikin, S., & Munawir, A. (2024). Mangrove Management Strategy as a Conservation Effort in Coastal Tarakan City. ASTONJADRO, 13(3), 791-804.

[25] Muna, S. U. N., & Munawir, A. (2024). Net single premium determination of crop insurance product based on rainfall and temperature. In AIP Conference Proceedings (Vol. 3048, No. 1). AIP Publishing.

[26] Masnur, B., Rusdiyanto, E., & Munawir, A. (2023). Analysis of Environmental Management Policy Strategies Due to Increased Land Built in Pekanbaru City. Jurnal Indonesia Sosial Teknologi, 5(7), 3174.

[27] Putri, N. A. (2020). Dinamika perencanaan tata guna lahan di Kabupaten Kediri. Jurnal Ilmiah Administrasi Publik, 6(3), 431-438.

[28] T Hidayat, A. R. (2018). Peri-urban farmland owner in the growing municipality, case study Kediri Municipality. In IOP Conference Series: Earth and Environmental Science (Vol. 202, No. 1, p. 012025). IOP Publishing.

[29] Seto, K. C., Güneralp, B., & Hutyra, L. R. (2012). Global forecasts of urban expansion to 2030 and direct impacts on biodiversity and carbon pools. Proceedings of the National Academy of Sciences, 109(40), 16083-16088.

[30] Chen, S., Woodcock, C. E., Gu, H., Dong, L., Tang, X., & Olofsson, P. (2026). Drivers of forest disturbance in Southeast Asia. International Journal of Applied Earth Observation and Geoinformation, 148, 105220.

[31] Aljaddani, A. H., Song, X. P., & Zhu, Z. (2022). Characterizing the patterns and trends of urban growth in Saudi Arabia’s 13 capital cities using a Landsat time series. Remote Sensing, 14(10), 2382.

[32] Ramankutty, N., Mehrabi, Z., Waha, K., Jarvis, L., Kremen, C., Herrero, M., & Rieseberg, L. H. (2018). Trends in global agricultural land use: implications for environmental health and food security. Annual review of plant biology, 69, 789-815.

[33] Lambin, E. F., Geist, H. J., & Lepers, E. (2003). Dynamics of land-use and land-cover change in tropical regions. Annual review of environment and resources, 28(1), 205-241.

Downloads

Published

2026-05-29

How to Cite

Rusdiyanto, E., & Munawir, A. (2026). Integrating Spatial Utilization and Sustainability Indicators for Residential Area Planning in Kediri Regency. ASTONJADRO, 15(2), 690–698. https://doi.org/10.32832/astonjadro.v15i2.23208

Issue

Vol. 15 No. 2 (2026): ASTONJADRO

Section

Articles

License

Copyright (c) 2026 ASTONJADRO

Creative Commons License

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

Paper submitted to ASTONJADRO is the sole property of the Astonjadro Journal. Unless the author withdraws the paper because he does not want to be published in this journal. The publication rights are in the journal Astonjadro.

ASTONJADRO

LICENSE

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

Based on a work at http://ejournal.uika-bogor.ac.id/index.php/ASTONJADRO