Towards sustainable land subsidence mitigation in Semarang and Demak, Central Java: Analysis using DPSIR Framework

Sarah, Dwi; Mulyono, Asep; Satriyo, Nugroho Aji; Soebowo, Eko; Wirabuana, Taufiq

doi:10.24425/jwld.2022.142317

Artykuł - szczegóły

Tytuł artykułu

Towards sustainable land subsidence mitigation in Semarang and Demak, Central Java: Analysis using DPSIR Framework

Autorzy

Sarah Dwi , Mulyono Asep , Satriyo Nugroho Aji , Soebowo Eko , Wirabuana Taufiq

Treść / Zawartość

Pełne teksty:

Pobierz

Identyfikatory

DOI

10.24425/jwld.2022.142317

Warianty tytułu

Języki publikacji

Abstrakty

The Semarang-Demak plain has experienced intense human intervention over the last 40 years, thereby causing land subsidence. This study aims to assess long-term conditions in the study area using the drivers-pressures- state-impacts-response (DPSIR) framework to mitigate land subsidence. Methods include analysis of land subsidence, socioeconomic, surface, and subsurface data, as well as spatial analysis. Results show that rapid population growth and economic activities are major driving forces, manifesting as pressures exerted from overexploitation of groundwater, increasing building and infrastructure loads, and decreasing non-built areas. Groundwater overexploitation reduced the artesian pressure in the 1980s, forming depression cones of the groundwater level from 5 to 30 m below mean sea level. From 1984 to the present, the constructed areas have increased more than tenfold, with Semarang City possessing the most densely built area. Based on our findings, we propose responses consisting of surface water utilization, spatial building regulation, and rigorous groundwater and land subsidence monitoring. Moreover, we encourage the strengthening of law enforcement and inter-sectoral management to ensure the successful land subsidence mitigation.

Słowa kluczowe

coastal area driver-pressure-state-impact-response DPSIR land subsidence mitigation response Semarang-Demak plain

Wydawca

Wydawnictwo ITP

Czasopismo

Journal of Water and Land Development

Rocznik

2022

Tom

no. 55

Strony

150--165

Opis fizyczny

Bibliogr. 64 poz., rys., tab., wykr.

Twórcy

autor

Sarah Dwi

sarahpr28@gmail.com

Research Centre for Geological Disaster, National Research and Innovation Agency (BRIN), Gedung B.J Habibie, Jl. M.H. Thamrin no. 8, Jakarta 10340, Indonesia

https://orcid.org/0000-0003-2707-3464

autor

Mulyono Asep

Research Centre for Environmental and Clean Technology, National Research and Innovation Agency (BRIN), Jakarta, Indonesia

https://orcid.org/0000-0001-5999-4247

autor

Satriyo Nugroho Aji

Research Centre for Geological Disaster, National Research and Innovation Agency (BRIN), Gedung B.J Habibie, Jl. M.H. Thamrin no. 8, Jakarta 10340, Indonesia

https://orcid.org/0000-0003-3387-0822

autor

Soebowo Eko

Research Centre for Geological Disaster, National Research and Innovation Agency (BRIN), Gedung B.J Habibie, Jl. M.H. Thamrin no. 8, Jakarta 10340, Indonesia

https://orcid.org/0000-0001-9437-9194

autor

Wirabuana Taufiq

Center for Groundwater and Environmental Geology, Geological Agency, Ministry of Energy and Mineral Resources, Bandung, Indonesia

Bibliografia

ABDI S., UTOMO S. 2019. Sistem Pelayanan Air Bersih Di Perumahan Pucang Gading Dalam Mendukung Tercapainya Sustainable Development Goals [Clean water service system in Pucang Gading Housing to support the achievement of sustainable development goals]. Prosiding Seminar Nasional Multidisiplin Ilmu dan Call For Papers Unisbank ke-5: Optimalisasi Bonus Demografi Indonesia Dalam Era Revolusi Industri 4.0 [Proceedings of the 5th Multidisciplinary National Seminar and Call For Papers Unisbank: Optimizing Indonesia’s Demographic Bonus in the Era of the Industrial Revolution 4.0]. Vol. 5. [Access 9.08.2022]. Available at: https://www.unisbank.ac.id/ojs/index.php/sendi_u/article/view/7374
ABIDIN H.Z., ANDREAS H., GUMILAR I., SIDIQ T.P., FUKUDA Y. 2013. Land subsidence in coastal city of Semarang (Indonesia): Characteristics, impacts and causes. Geomatics, Natural Hazards and Risk. Vol. 4 p. 226–240. DOI 10.1080/19475705.2012.692336.
ANDREAS H., ABIDIN H.Z, GUMILAR I., SIDIQ T.P., SARSITO D.A. 2019. On the acceleration of land subsidence rate in Semarang City as detected from GPS surveys. In: E3S Web of Conferences. Vol. 94, 04002. DOI 10.1051/e3sconf/20199404002.
ANDREAS H., ABIDIN H.Z., SARSITO D.A. 2017. Tidal inundation (“Rob”) investigation using time series of high resolution satellite image data and from insitu measurements along northern coast of Java (Pantura). In: 2nd Transdisciplinary Research on Environmental Problems in Southeast Asia. 20–22.09.2016 Bandung, Indonesia. Eds. M. Sakakibara, A. Saepuloh, I.A. Kurniawan. IOP Conferences Series: Earth and Environmental Science. Vol. 71. DOI 10.1088/1755-1315/71/1/012005.
Bappeda 2013. Penyusunan Rencana Induk Sistem Penyediaan Air Minum (RISPAM) Kota Semarang [Composing the Semarang City Drinking Water Supply System Master Plan (RISPAM)]. Semarang. Badan Perencanaan Pembangunan Daerah Kota Semarang.
BELL F.G. 2007. Engineering geology. 2 nd ed. Oxford. Butterworth-Heineman. ISBN 978-0-7506-8077-6 pp. 593.
BPS 2019. Profil industri besar dan sedang Kota Semarang 2019 [Profile of large and medium-sized industries in Semarang city] [online]. Semarang. Badan Pusat Statistik Kota Semarang. ISBN 978-623-95123-3-0 pp. 44. [Access 4.01.2021]. Available at: https://semarangkota.bps.go.id/publication/2020/11/30/fa72c8bf-d80ee2f3639ba477/profil-industri-besar-dan-sedang-kota-semar-ang-2019.html
BPS 2021a. Kabupaten Demak dalam angka 2021 [Demak Regency in figures 2021] [online]. Demak. Badan Pusat Statistik Kabupaten Demak. [Access 27.02.2021]. Available at: https://demakkab.bps.go.id/publication/2021/02/26/4c67df8f88d4775ddbe4a420/kabu-paten-demak-dalam-angka-2021.html
BPS 2021b. Kota Semarang dalam angka 2021 [Semarang City in figures 2021] [online]. Semarang. Badan Pusat Statistik Kabupaten Semarang. [Access 27.02.2021]. Available at: https://semarangkota.bps.go.id/publication/2021/02/26/cf7000f79cd1c7015c2939fc/kota-semarang-dalam-angka-2021.html
CARR E.R., WINGARD P.M., YORTY S.C., THOMPSON M.C., JENSEN N.K., ROBERSON J. 2007. Applying DPSIR to sustainable development. International Journal of Sustainable Development and World Ecology. Vol. 14 p. 543–555. DOI 10.1080/13504500709469753.
CHAUSSARD E., AMELUNG F., ABIDIN H., HONG S.H. 2013. Sinking cities in Indonesia: ALOS PALSAR detects rapid subsidence due to groundwater and gas extraction. Remote Sensing of Environment. Vol. 128 p. 150–161. DOI 10.1016/j.rse.2012.10.015.
CHEN C.T., HU J.C., LU C.Y., LEE J.C., CHAN Y.C. 2007. Thirty-year land elevation change from subsidence to uplift following the termination of groundwater pumping and its geological implications in the Metropolitan Taipei Basin, Northern Taiwan. Engineering Geology. Vol. 95 p. 30–47. DOI 10.1016/j.enggeo.2007.09.001.
CUI Z.D., TANG Y.Q. 2010. Land subsidence and pore structure of soils caused by the high-rise building group through centrifuge model test. Engineering Geology. Vol. 113 p. 44–52. DOI 10.1016/j.enggeo.2010.02.003.
DAY R.W. 2009. Foundation engineering handbook: Design and construction with the 2009 international building code. 2nd ed. New York. The McGraw-Hill Companies, Inc. ISBN 978-0-0717-4009-8 pp. 1008.
DOKKA R.K. 2006. Modern-day tectonic subsidence in coastal Louisiana. Geology. Vol. 34 p. 281–284. DOI 10.1130/G22264.1.
GAMBOLATI G., TEATINI P., TOMASI L., GONELLA M. 1999. Coastline regression of the Romagna region, Italy, due to natural and anthropogenic land subsidence and sea level rise. Water Resources Research. Vol. 35 p. 163–184. DOI 10.1029/1998WR900031.
GARI S.R., NEWTON A., ICELY J.D. 2015. A review of the application and evolution of the DPSIR framework with an emphasis on coastal social-ecological systems. Ocean and Coastal Management. Vol. 103 p. 63–77. DOI 10.1016/j.ocecoaman.2014.11.013.
HAMDANI R.S., HADI S.P., RUDIARTO I., PURNAWENI H. 2020. Do we care enough? Revisiting land subsidence and coastal spatial planning policy in Semarang, Indonesia. In: The 5th International Conference on Energy, Environmental and Information System (ICENIS 2020). E3S Web of Conferences. Vol. 202, 06005. DOI 10.1051/e3sconf/202020206005.
HOLZER T.L., GALLOWAY D.L. 2005. Impacts of land subsidence caused by withdrawal of underground fluids in the United States. Reviews in Engineering Geology. Vol. 16 p. 87–99. DOI 10.1130/2005.4016(08).
IRAWAN A.M., MARFAI M.A., MUNAWAR NUGRAHENI I.R., GUSTONO S.T., REJEKI H.A., WIDODO A., MAHMUDIAH R.R., FARIDATUNNISA M. 2021. Comparison between averaged and localised subsidence measurements for coastal floods projection in 2050 Semarang, Indonesia. Urban Climate. Vol. 35, 100760. DOI 10.1016/j.uclim.2020.100760.
JAGO-ON K.A.B., KANEKO S., FUJIKURA R., FUJIWARA A., IMAI T., MATSUMOTO T., ..., TANIGUCHI M. 2008. Urbanization and subsurface environmental issues: an attempt at DPSIR model application in Asian cities. Science of the Total Environment. Vol. 407 p. 3089–3104. DOI 10.1016/j.scitotenv.2008.08.004.
KANEKO S., TOYOTA T. 2011. Long-term urbanization and land subsidence in Asian megacities: An indicators system approach. In: Groundwater and subsurface environments: Human impacts in asian coastal cities. Ed. M. Taniguchi. Berlin. Springer p. 249–270. DOI 10.1007/978-4-431-53904-9_13.
KARAGEORGIS A.P., KAPSIMALIS V., KONTOGIANNI A., SKOURTOS M., TURNER K.R., SALOMONS W. 2006. Impact of 100-year human interventions on the deltaic coastal zone of the Inner Thermaikos Gulf (Greece): A DPSIR framework analysis. Environmental Management. Vol. 38 p. 304–315. DOI 10.1007/s00267-004-0290-8.
Kemenkomarves 2019. Peta jalan mitigasi dan adaptasi amblesan (subsiden) tanah di dataran rendah pesisir [Roadmap for mitigation and adaptation of land subsidence in coastal low-lands]. Jakarta. Kementerian Koordinator Bidang Kemaritiman dan Investasi RI, Yayasan Lahan Basah (Wetlands International Indonesia), Institut Teknologi Bandung (ITB)] pp. 72. [Access 14.08.2021]. Available at: https://indonesia.wetlands.org/id/pub-likasi/peta-jalan-road-map-mitigasi-dan-adaptasi-amblasan-sub-siden-tanah-di-dataran-rendah-pesisir-2/
Kemenkomarves 2020. Rumuskan Program Kerja Pokja Land Subsidence, Pemerintah Telusuri Wilayah Pantura Jateng [Formulate the Land Subsidence Working Group Working Program, the Government Explores the Pantura Region of Central Java] [online]. Jakarta. Kementerian Koordinator Bidang Kemaritiman dan Investasi RI [Access 24.06.2021]. Available at: https://maritim.go.id/detail/rumuskan-program-kerja-pokja-land-subsi-dence-pemerintah-telusuri
KOOI H. 2000. Land subsidence due to compaction in the coastal area of The Netherlands: The role of lateral fluid flow and constraints from well-log data. Global and Planetary Change. Vol. 27 p. 207–222. DOI 10.1016/S0921-8181(01)00067-4.
KRISTENSEN P. 2004. The DPSIR framework. In: Workshop on a comprehensive / Detailed assessment of the vulnerability of water resources to environmental change in Africa using river basin approach [online]. Nairobi. UNEP Headquarters. [Access 21.02.2021]. Available at: http://fis.freshwatertools.eu/files/MARS_resources/Info_lib/Kristensen(2004)DPSIR%20Frame-work.pdf
LUBIS A.M., SATO T., TOMIYAMA N., ISEZAKI N., YAMANOKUCHI T. 2011. Ground subsidence in Semarang-Indonesia investigated by ALOS–PALSAR satellite SAR interferometry. Journal of Asian Earth Sciences. Vol. 40 p. 1079–1088. DOI 10.1016/j.jseaes.2010.12.001.
MARFAI M.A., ALMOHAMMAD H., DEY S., SUSANTO B., KING L. 2008. Coastal dynamic and shoreline mapping: multi-sources spatial data analysis in Semarang Indonesia. Environmental Monitoring and Assessment. Vol. 142 p. 297–308. DOI 10.1007/s10661-007-9929-2.
MARFAI M.A., KING L. 2007. Monitoring land subsidence in Semarang, Indonesia. Environmental Geology. Vol. 53 p. 651–659. DOI 10.1007/s00254-007-0680-3.
MARFAI M.A., KING L., SARTOHADI J., SUDRAJAT S., BUDIANI S.R., YULIANTO F. 2007. The impact of tidal flooding on a coastal community in Semarang, Indonesia. Environmentalist. Vol. 28 p. 237–248. DOI 10.1007/s10669-007-9134-4.
MARSUDI 2001. Prediksi laju amblesan tanah di dataran aluvial semarang Propinsi Jawa Tengah [Prediction of land subsidence rate in the alluvial plain of Semarang, Central Java Province]. Institut Teknologi Bandung (ITB) pp. 176.
MATTAS C., VOUDOURIS K.S., PANAGOPOULOS A. 2014. Integrated groundwater resources management using the DPSIR approach in a GIS environment: A case study from the Gallikos River Basin, North Greece. Water. Vol. 6(4) p. 1043–1068. DOI 10.3390/w6041043.
MURDOHARDONO D., TOBING M.H., SAYEKTI A. 2007. Over pumping of ground water as one of causes of sea water inundation in Semarang City. [International Symposium and Workshop on Current Problems in Groundwater Management and Related Water Resources Issues in the Southeast and East Asia Region]. [3–8.12.2007 Bali, Indonesia].
NEUMANN B., VAFEIDIS A.T., ZIMMERMANN J., NICHOLLS R.J. 2015. Future coastal population growth and exposure to sea-level rise and coastal flooding – A global assessment. PLoS One. Vol. 10 p. 1–34. DOI 10.1371/journal.pone.0118571.
Peraturan Bupati Kabupaten Demak Nomor 20 Tahun 2014 tentang Rencana Induk Sistem Penyediaan Air Minum Kabupaten Demak [Regent Regulation (PERBUP) of Demak Regency Number 20 of 2014 concerning the Master plan for the Demak Regency Drinking Water Supply System] [online]. [Access 22.02.21]. Available at: https://peraturan.bpk.go.id/Home/De-tails/215238/perbup-kab-demak-no-20-tahun-2014
Peraturan Daerah Kota Semarang No. 14 tahun 2011 tentang Rencana Tata Ruang Wilayah Kota Semarang [Regional Regulation (PERDA) of Semarang City No. 14 of 2011 concerning Spatial Planning of the City of Semarang] [online].[Access 22.06.2021]. Available at: https://jdih.semarangkota.go.id/ildis_v2/public/do-kumen/data_dokumen/LD_Perda_14_2011.pdf
Peraturan Daerah Kota Semarang No. 7 tahun 2014 tentang Rencana Induk Sistem Drainase Kota Semarang tahun 2011–2031 [Regional Regulation of the City of Semarang Number 7 of 2014 concerning Master Plan of Semarang City Drainage system 2011-2031] [online]. [Access 20.06.2021]. Available at: https://jdih.semarangkota.go.id/ildis_v2/public/pencarian/53/detail
Peraturan Daerah Provinsi Jawa Tengah No. 3 tahun 2018 tentang pengelolaan air tanah [Regional Regulation of Central Java Province No. 3 of 2018 concerning groundwater management] [online]. [Access 24.06.2021]. Available at: https://peraturan.bpk.go.id/Home/Details/75102/perda-prov-jawa-tengah-no-3-tahun-2018
Peraturan Pemerintah No. 18 Tahun 2020 Rencana Pembangunan Jangka Menengah Nasional tahun 2020–2024 [Government Regulation No. 18 of 2020 National Medium Term Development Plan (RPJMN) 2020–2024] [online]. [Access 20.05.2021]. Available at: https://jdih.bappenas.go.id/peraturan/detailperaturan/1037
Peraturan Pemerintah Republik Indonesia No. 43 tahun 2008 tentang air tanah [Government Regulation of the Republic of Indonesia No. 43 of 2008 on groundwater] [online]. [Access 24.06.2021]. Available at: https://peraturan.bpk.go.id/Home/Details/4857/pp-no-43-tahun-2008
PRATAMA F.A, RAHDRIAWAN M., WAHYONO H., DAMAYANTI M., ARTINING-SIH A. 2020. Estimasi daya beli air PDAM masyarakat permukiman kumuh kelurahan Mangkang Wetan, Semarang [Estimation of water purchasing power of PDAM slum communities, Mangkang Wetan Village, Semarang]. Jurnal Riptek. Vol. 14 p. 134–52.
PUTRA S.I., HERMAWAN F., HATMOKO J.U.D. 2020. Penilaian kerusakan dan kerugian infrastruktur publik akibat dampak bencana banjir di kota Semarang [Damages and losses assessment of public infrastructure due to the impact of Semarang City flood]. Wahana Teknik Sipil Jurnal Pengembangan Teknik Sipil. Vol. 25 (2) p. 86–97. DOI 10.32497/wahanats.v25i2.2154.
PUTRANTO T.T., RUDE T.R. 2016. Hydrogeological model of an urban city in a coastal area, Case study: Semarang, Indonesia. Indonesian Journal on Geoscience. Vol. 3 p. 17–27. DOI 10.17014/ijog.3.1.17-27.
RAHMAWAN L.E., YUWONO B.D., AWALUDIN M. 2016. Survei pemantauan deformasi muka tanah kawasan pesisir menggunakan metode pengukuran GPS di Kabupaten Demak tahun 2016 (Studi kasus: Pesisir Kecamatan Sayung, Demak) [Monitoring of the earth surface deformation in the coastal area using GPS survey in Demak Regency 2016 (case study: Coastal Sayung sub-district, Demak)]. Jurnal Geodesi Undip. Vol. 5 p. 44–55.
ReliefWeb 2021. Flooding in Semarang City, Indonesia – Flash update #1 [online]. [Access 24.06.2021. Available at: https://reliefweb.int/report/indonesia/flooding-semarang-city-indonesia-flash-up-date-1
ROBERTSON P.K. 2006. Guide to in-situ testing [online]. Signal Hill, California. Gregg Drilling & Testing Inc. pp. 87. [Access 20.06.2021]. Available at: http://www.geoplanning.it/test/wp-content/uploads/2012/02/Guide-to-in-situ-testing.pdf
SARAH D., HUTASOIT L.M., DELINOM R.D., SADISUN I.A. 2020. Natural compaction of Semarang Demak alluvial plain and its relationship to the present land subsidence. Indonesian Journal on Geoscience. Vol. 7 p. 273–289. DOI 10.17014/ijog.7.3.273-289.
SARAH D., HUTASOIT L.M., DELINOM R.M., SADISUN I.A., WIRABUANA T. 2018. A physical study of the effect of groundwater salinity on the compressibility of the Semarang-Demak aquitard, Java Island. Geosciences. Vol. 8, 130. DOI 10.3390/geosciences8040130.
SARAH D., SATRIYO N.A., MULYONO A., SOEBOWO E. 2014. Kajian awal estimasi kerugian fisik akibat amblesan tanah di Kota Semarang. Dalam: Prosiding Pemaparan Hasil Penelitian Pusat Penelitian Geoteknologi LIPI 2014: Peran Penelitian Geoteknologi Untuk Menunjang Pembangunan Berkelanjutan di Indonesia [Preliminary assessment on the physical losses due to land subsidence in Semarang City. In: Proceedings of the Research Center for Geotechnology LIPI 2014: The Role of Geotechnology to Support Sustainable Development in Indonesia]. Lembaga Ilmu Pengetahuan Indonesia (LIPI) Pusat Penelitian Geoteknologi. 1–2.12.2014 Bandung, Indonesia. Eds. H. Harjono, R. Delinom, E.P Utomo p. 37–44.
SEKOVSKI I., NEWTON A., DENNISON W.C. 2012. Megacities in the coastal zone: Using a driver-pressure-state-impact-response framework to address complex environmental problems. Estuarine Coastal and Shelf Science. Vol. 96 p. 48–59. DOI 10.1016/j.ecss.2011.07.011.
SIDIQ T.P., GUMILAR I., MEILANO I., ABIDIN H.Z., ANDREAS H., PERMANA A. 2021. Land subsidence of Java north coast observed by SAR interferometry. In: 3rd Southeast Asian Conference on Geophysics. 3–5.11.2020 Bandung, Indonesia. Eds. Zulfakriza, A. Hendriyana, E. Saygin, C. Chhun. IOP Conference Series: Earth and Environmental Science. Vol. 873. DOI 10.1088/1755-1315/873/1/012078.
SYVITSKI J.P.M. 2008. Deltas at risk. Sustainability Science. Vol. 3(1) p. 23–32. DOI 10.1007/s11625-008-0043-3.
TAUFIQ N.Z.A. 2010. Penyelidikan konservasi airtanah di Cekungan Airtanah Semarang- Demak, Provinsi Jawa Tengah [Investigation of groundwater conservation in Semarang-Demak groundwater basin, Central Java Province]. Pusat Geologi Tata Lingkungan, Badan Geologi.
THADEN R.E., SUMARDIRDJA H., RICHARDS P.W. 1996. Peta Geologi Lembar Semarang- Magelang, Jawa, skala 1:100.000 [Geological map of Semarang-Magelang Quadrangle, Java, scale 1:100,000]. Pusat Survei Geologi, Badan Geologi.
TING C.S., CHIANG K.F., HSIEH S.H., TSAO C.H., CHUANG C.H., FAN K.T. 2020. Land subsidence and managed aquifer recharge in Pingtung Plain, Taiwan. In: Proceedings of the International Association of Hydrological Sciences. Vol. 382 p. 843–849. DOI 10.5194/piahs-382-843-2020.
TOBING M.H.L., SYARIEF E.A., MURDOHARDONO D. 2000. Penyelidikan geologi teknik amblesan tanah di Kota Semarang dan sekitarnya, Provinsi Jawa Tengah [Engineering geological investigation on land subsidence in Semarang City and its surrounding, Central Java Province]. Pusat Geologi Tata Lingkungan, Badan Geologi [Center for Environmental Geology, the Geological Agency].
UN 2017. Factsheet: People and oceans [online]. In: The Ocean Conference. New York. United Nations. [Access 20.06.2021]. Available at: https://www.un.org/sustainabledevelopment/wp-content/uploads/2017/05/Ocean-fact-sheet-package.pdf
VALENTINO D. 2013. Kajian pengawasan pemanfaatan sumberdaya air tanah di kawasan industri Kota Semarang [Assessment of the monitoring of the groundwater utilization in industrial area in Semarang City]. Jurnal Wilayah dan Lingkungan. Vol. 1(3) p. 265–274. DOI 10.14710/jwl.1.3.265-274.
VAN BEMMELEN R.W. 1949. The geology of Indonesia. Vol. 1A. The Hague, Netherlands. Martinus Nijhoff. ISBN 978-9-0247-1171-0 pp. 799.
VAN SCHAECK MATHON F.M.A. 1975. Analysis of groundwater conditions on the basis of existing data: A study of the East Semarang-Demak plain Central Java. In: Seminar on groundwater development for the purpose of irrigation. Surabaya. Department of Public Works Republic of Indonesia pp. 1–23.
WIDADA S., ZAINURI M., YULIANTO G., SATRIADI A., JATIWIJAYA Y., HELMI M. 2020a. Mitigation of floodwaters inundation due to land subsidence in the coastal area of Semarang City. In: The 5th International Conference on Tropical and Coastal Region Eco Development. IOP Conference Series: Earth and Environmental Science. Vol. 530 p. 17–18. DOI 10.1088/1755-1315/530/1/012006.
WIDADA S., ZAINURI M., YULIANTO G., SATRIADI A., WIJAYA Y.J. 2020b. Estimation of land subsidence using sentinel image analysis and its relation to subsurface lithology based on resistivity data in the coastal area of Semarang City, Indonesia. Journal of Ecological Engineering. Vol. 21 p. 47–56. DOI 10.12911/22998993/127394.
YANG T., YAN X., HUANG X., WU J. 2020. Integrated management of groundwater exploitation and recharge in Shanghai based on land subsidence control. Proceedings of the International Association of Hydrological Sciences. Vol. 382 p. 831–836. DOI 10.5194/piahs-382-831-2020.

Uwagi

Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).

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Bibliografia

Identyfikator YADDA

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