Dampak perubahan tutupan lahan terhadap suhu permukaan di Perkotaan Temanggung: Menuju realisasi program infrastruktur hijau
Hendra Sumaryana(1*), Imam Buchori(2), Anang Wahyu Sejati(3)
(1) 1Program Doktor Ilmu Arsitektur dan Perkotaan, Universitas Diponegoro, Semarang, Jawa Tengah
(2) Departemen Perencanaan Wilayah dan Kota, Universitas Diponegoro, Semarang, Jawa Tengah
(3) Departemen Perencanaan Wilayah dan Kota, Universitas Diponegoro, Semarang, Jawa Tengah
(*) Corresponding Author
Abstract
Abstrak Urbanisasi membawa pengaruh yang besar pada lingkungan perkotaan, salah satunya adalah perubahan guna lahan yang memengaruhi perubahan iklim seperti kenaikan suhu permukaan di perkotaan atau Surface Urban Heat Islands (SUHI). Penelitian di Perkotaan Temanggung untuk melihat dampak fenomena SUHI, menemukenali ancaman dan respon yang tepat dalam penanganannya. Analisis spasial dengan SIG yang dilakukan antara lain klasifikasi, overlay, dan digital image processing. Hasil penelitian menunjukan Infrastruktur Hijau (IH) yang sudah ada belum dapat menurunkan SUHI secara optimal. Didapat kawasan terbangun bertambah seluas 98,29 atau naik 22% di wilayah penelitian pada priode 2013 – 2020, sehingga mengakibatkan kenaikan suhu permukaan. Wilayah yang mengalami kenaikan suhu permukaan diatas 30 °C bertambah 84,96 ha atau naik 268 % dibandingkan pada tahun 2013. .Hal ini mengindikasikan bahwa pengembangan Infrastruktur Hijau (IH) masih harus terus dilakukan. Penelitian ini membuktikan bahwa untuk menjamin kota yang berkelanjutan, perencanaan IH harus menjadi program prioritas.
Abstract Urbanization has a big influence on the urban environment, one of which is land use changes that affect climate change such as the increase in Surface Urban Heat Islands (SUHI). Based on the impact and the urgency of this phenomenon, this study aims to identify threats and appropriate responses in handling them. Spatial analysis in GIS carried out include classification, Overlay, and Digital Image Processing. The results show that the existing Green Infrastructure (IH) has not been able to reduce SUHI. It was found that the built area increased by 98.29 or increased by 22% in the research area in the 2013 - 2020 period, resulting in an increase in surface temperature. Areas experiencing a high increase in surface temperature above 30 ° C increased by 84.96 ha or an increase of 268% compared to 2013.. This indicates that the development of Green Infrastructure (GI) still has to be carried out. This research proves that to ensure a sustainable city, GI planning must be a priority program.
Keywords
Full Text:
PDFReferences
Abdulateef, M. F., & A. S. Al-Alwan, H. (2021). The effectiveness of urban green infrastructure in reducing surface urban heat island: Baghdad city as a case study. Ain Shams Engineering Journal, xxxx. https://doi.org/10.1016/j.asej.2021.06.012Abebe, M. T., & Megento, T. L. (2016). The city of addis ababa from ‘forest city’ to ‘urban heat island’: Assessment of urban green space dynamics. Journal of Urban and Environmental Engineering, 10(2), 254–262. https://doi.org/10.4090/juee.2016.v10n2.254262
Brown, R. D., Vanos, J., Kenny, N., & Lenzholzer, S. (2015). Designing urban parks that ameliorate the effects of climate change. Landscape and Urban Planning, 138, 118–131. https://doi.org/10.1016/j.landurbplan.2015.02.006
Caparrós Martínez, J. L., Milán García, J., Rueda López, N., & de Pablo Valenciano, J. (2020). Mapping green infrastructure and socioeconomic indicators as a public management tool: the case of the municipalities of Andalusia (Spain). Environmental Sciences Europe, 32(1). https://doi.org/10.1186/s12302-020-00418-2
Chang, H.-S., Lin, Z.-H., & Hsu, Y.-Y. (2021). Planning for green infrastructure and mapping synergies and trade-offs: A case study in the Yanshuei River Basin, Taiwan. Urban Forestry & Urban Greening, 65(128), 127325. https://doi.org/10.1016/j.ufug.2021.127325
Chen, Z. (2021). Application of environmental ecological strategy in smart city space architecture planning. Environmental Technology and Innovation, 23, 101684. https://doi.org/10.1016/j.eti.2021.101684
Cheval, S., Popa, A. M., Șandric, I., & Iojă, I. C. (2020). Exploratory analysis of cooling effect of urban lakes on land surface temperature in Bucharest (Romania) using Landsat imagery. Urban Climate, 34(July), 100696. https://doi.org/10.1016/j.uclim.2020.100696
Gao, J., Sun, Y., Liu, Q., Zhou, M., Lu, Y., & Li, L. (2015). Impact of extreme high temperature on mortality and regional level definition of heat wave: A multi-city study in China. Science of the Total Environment, 505, 535–544. https://doi.org/10.1016/j.scitotenv.2014.10.028
Hasibuan, A., & Sulaiman, oris krianto. (2019). Smart City, konsep kota cerdas Sebagai alternatif penyelesaian masalah perkotaan kabupaten/kota. Buletinutama Teknik, 14(2), 127–135.
Khamchiangta, D., & Dhakal, S. (2020). Time series analysis of land use and land cover changes related to urban heat island intensity: Case of Bangkok Metropolitan Area in Thailand. Journal of Urban Management, 9(4), 383–395. https://doi.org/10.1016/j.jum.2020.09.001
Koc, C. B., Osmond, P., Peters, A., & Irger, M. (2017). A Methodological Framework to Assess the Thermal Performance of Green Infrastructure Through Airborne Remote Sensing. Procedia Engineering, 180(02), 1306–1315. https://doi.org/10.1016/j.proeng.2017.04.293
Li, F., Sun, W., Yang, G., & Weng, Q. (2019). Investigating spatiotemporal patterns of surface Urban heat islands in the Hangzhou Metropolitan area, China, 2000-2015. Remote Sensing, 11(13), 2000–2015. https://doi.org/10.3390/rs11131553
Liu, L., & Jensen, M. B. (2018). Green infrastructure for sustainable urban water management: Practices of five forerunner cities. Cities, 74(January), 126–133. https://doi.org/10.1016/j.cities.2017.11.013
Mensah, C. A. (2014). Destruction of Urban Green Spaces: A Problem Beyond Urbanization in Kumasi City (Ghana). American Journal of Environmental Protection, 3(1), 1. https://doi.org/10.11648/j.ajep.20140301.11
Oke, T. R., Mills, G., Christen, A., & Voogt, J. A. (2017). Urban Climates. Cambridge University Press.
Pichler-Milanovič, N., & Foški, M. (2015). Green infrastructure and urban revitalisation in central Europe: Meeting environmental and spatial challenges in the inner city of Ljubljana, Slovenia. Urbani Izziv, 26, S50–S64. https://doi.org/10.5379/urbani-izziv-en-2015-26-supplement-004
Pratiwi, R. D., Fatimah, I. S., & Munandar, A. (2019). Persepsi dan Preferensi Masyarakat terhadap Infrastruktur Hijau Kota Yogyakarta. Jurnal Lanskap Indonesia, 11(1), 33–42. https://doi.org/10.29244/jli.v11i1.20563
Rohman, M. N., & Hayati, R. (2015). Geo Image ( Spatial-Ecological-Regional ). Jurnal Geo Image, 4(1), 30–37.
Schiappacasse, P., & Müller, B. (2015). Planning green infrastructure as a source of urban and regional resilience - towards institutional challenges. Urbani Izziv, 26, S13–S24. https://doi.org/10.5379/urbani-izziv-en-2015-26-supplement-001
Sejati, A. W., Buchori, I., & Rudiarto, I. (2019). The spatio-temporal trends of urban growth and surface urban heat islands over two decades in the Semarang Metropolitan Region. Sustainable Cities and Society, 46(July 2018), 101432. https://doi.org/10.1016/j.scs.2019.101432
Sejati, Anang Wahyu, Buchori, I., Kurniawati, S., Brana, Y. C., & Fariha, T. I. (2020). Quantifying the impact of industrialization on blue carbon storage in the coastal area of Metropolitan Semarang, Indonesia. Applied Geography, 124(January), 102319. https://doi.org/10.1016/j.apgeog.2020.102319
Series, C. S. (2009). Green Infrastructure Case Study. City, August, 1–14.
Shaw, B. J. (2017). The Science and Practice of Landscape Stewardship (C. Bieling & T. Plieninger (eds.)). Cambridge University Press.
Tian, P., Li, J., Cao, L., Pu, R., Wang, Z., Zhang, H., Chen, H., & Gong, H. (2021). Assessing spatiotemporal characteristics of urban heat islands from the perspective of an urban expansion and green infrastructure. Sustainable Cities and Society, 74(April), 103208. https://doi.org/10.1016/j.scs.2021.103208
Tursilowati, L. (2015). URBAN HEAT ISLAND DAN KONTRIBUSINYA PADA PERUBAHAN IKLIM DAN IKLIM DAN HUBUNGANNYA DENGAN PERUBAHAN LAHAN Urban Heat Island ( UHI ) dicirikan seperti “ pulau ” udara permukaan panas yang terpusat suburban / rural ( gambar 1 . 1 ). Urban Heat Island diseba. Prosiding Seminar Nasional Pemanasan Global Dan Perubahan Global, April, 89–96.
Verry Damayanti. (2019). POTENSI PENGEMBANGAN INFRASTRUKTUR HIJAU. Jurnal Penelitian Dan Pengabdian Kepada Masyarakat, Vol 7, No., 233-243.
Wijaya, H. B. (2016). Urbanisasi Kawasan Perdesaan : Perkembangan Industri. 179–191.
Yang, F., Wen, X., Aziz, A., & Luhach, A. K. (2021). The need for local adaptation of smart infrastructure for sustainable economic management. Environmental Impact Assessment Review, 88(January), 106565. https://doi.org/10.1016/j.eiar.2021.106565
Yudantoro, P. (2016). Mewujudkan Kota Cerdas Berkelanjutan infrastruktur PUPR terpadu untuk negeri. 60.
Zhang, J., Feng, X., Shi, W., Cui, J., Peng, J., Lei, L., Zhang, J., Astell-Burt, T., Jiang, Y., & Ma, J. (2021). Health promoting green infrastructure associated with green space visitation. Urban Forestry and Urban Greening, 64(June), 127237. https://doi.org/10.1016/j.ufug.2021.127237
Zheng, W., & Barker, A. (2021). Green infrastructure and urbanisation in suburban Beijing: An improved neighbourhood assessment framework. Habitat International, 117(July), 102423. https://doi.org/10.1016/j.habitatint.2021.102423
Zhou, N., Hu, X., Byskov, I., Næss, J. S., Wu, Q., Zhao, W., & Cherubini, F. (2020). Overview of recent land cover changes, forest harvest areas, and soil erosion trends in Nordic countries. Geography and Sustainability, 2, 163–174.
DOI: https://doi.org/10.22146/mgi.70978
Article Metrics
Abstract views : 6318 | views : 6925Refbacks
- There are currently no refbacks.
Copyright (c) 2022 HENDRA SUMARYANA, ANANG WAHYU SEJATI
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.
Volume 35 No 2 the Year 2021 for Volume 39 No 1 the Year 2025
ISSN 0215-1790 (print) ISSN 2540-945X (online)
Statistik MGI