Abstract
Over the last decade, many areas of Iran have been increased in suffering from land subsidence due to a large exploitation of groundwater, needed to cope with the water scarcity caused by low precipitation. The plateau of Qom, especially the area of Aliabad village (Aliabad plain), has encountered many problems due to subsidence which occurs as cracks in building walls and fractures in wells. In this paper, we are going to evaluate land subsidence in some parts of Qom plateau, in particular Aliabad plain, by a numerical model (PLAXIS® 3D; v1.6) considering aquifer pressure changes, hydrological and geotechnical data. Results of the study reveal that since 2001–2013, the average groundwater level decline was measured 26.35 m and the corresponding subsidence had been 0–76 cm in different areas of the plain. Response of the saturated geologic units toward the changes in ground water level due to groundwater extraction and, in turn, land subsidence depends on the characteristics of geological materials in the units. Moreover, the units containing a combination of grain and fine soil, such as sand and clay which are completely different in the geotechnical parameters, tend to react differently due to all changes in the groundwater level.
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References
Abbasi Nejad A, Shahi Dasht A (2013) Sirjan plain vulnerability scanning due to indiscriminate harvesting of the aquifer. In: Proceedings of the geography and urban planning conference (in Persian)
Abidin HZ, Djaja R, Darmawan D, Hadi S, Akbar A, Rajiyowiryono H, Sudibyo Y, Meilano I, Kasuma MA, Kahar J, Subarya C (2001) Land subsidence of Jakarta (Indonesia) and its geodetic monitoring system. Nat Hazards 23(2):365–387
Adiyaman IB (2012) Land subsidence and earth fissure due to groundwater pumping. Ph.D. dissertation in Civil Engineering, University of Arizona
Agha Babaie H, Arab Bafrani A, Nazari A (2010) Study of subsidence in Saveh and its impact on the cover of wells using the radiometric techniques, Geological Survey of Iran. In: Proceeding of 29th meeting of Earth sciences of Iran (in Persian)
Altinbilek (2006) Estimation of consolidation settlements caused by groundwater drainage at ULUS-KEÇİÖREN subway project. M.Sc. thesis in Geological Engineering, Middle East Technical University, p 189
Amer AM, Awad AA (1974) Permeability of cohesionless soils. J Geotech Eng Div ASCE 100(12):1309–1316
American Society for Testing and Materials (1986) ASTM book of standards, Sec. 4, vol, 04.08, Philadelphia
Amigh Pay M, Arabi S, Talebi A (2010) Study on Yazd plain subsidence using InSAR and its precise leveling. Geosci Sci Q J 77:157–164 (in Persian)
Ammar A, Khalid B (1997) Causes of land subsidence in the Kingdom of Saudi Arabia. Nat Hazards 16(1):57–63
Biot MA (1941) General theory of three-dimensional consolidation. J Appl Phys 12:155–164
Brinkgreve RBJ, Broere W (2006) PLAXIS 3D foundation-manual-versional. Balkema Publishers, Amsterdam
Brown S, Nicholls RJ (2015) Subsidence and human influences in mega deltas: the case of the Ganges–Brahmaputra–Meghna. Sci Total Environ J 527–528:362–374
Budihardjo MA, Chegenizadeh A, Nikraz H (2014) Land subsidence: the presence of well and clay layer in aquifer. Aust J Basic Appl Sci 8(6):217–224
Calderhead AI, Therrien R, Rivera A, Martel R, Garfias J (2011) Simulating pumping induced regional land subsidence with the use of InSAR and field data in the Toluca Valley Mexico. Adv Water Resour 34:83–97
Cao G, Han D, Moser J (2013) Groundwater exploitation management under land subsidence constraint empirical evidence from the Hangzhou–Jiaxing-Huzhou plain, China. Environ Manag 51:1109–1125
Chaussard E, Amelung F, Abidin H, Hong SH (2013) Sinking cities in Indonesia: ALOS PALSAR detects rapid subsidence due to groundwater and gas extraction. Remote Sens Environ 128:150–161
Cui ZD, Yang JQ, Li Yuan (2015) Land subsidence caused by the interaction of high-rise buildings in soft soil areas. Nat Hazards 79:1199–1217
Darvishzadeh A (1991) Geology of Iran. Neda Publication, Tehran (in Persian)
Fereydouni D, Shirzadipour K, Abbasi M (2006) Failure analysis of the structure of the West and South West of Qom. Institute of Seismology of Iran (in Persian)
Gabrysch RK (1984) Ground-water withdrawals and land-surface subsidence in the Houston-Galveston region, Texas, 1906–80, U.S. Geological Survey, Report 287
Galloway DL, Jones DR, Ingebritsen SE (1999) Land subsidence in United States. US Geological Survey Circular 1182
Geological Survey of Iran (2002) Geological Map of Qom 1:1,000,000 (in Persian)
Gumilar I, Abidin HZ, Hutasoit LM, Hakim D, Sidiq T, Andeas H (2015) Land subsidence in Bandung Basin and its possible caused factors. Proc Earth Planet Sci J 12:47–62
Hansbo S (1960) Consolidation of clay with special reference to influence of vertical sand drains. In: Swedish Geotechnical Institute, proceedings, vol 18, pp 41–61
Hsieh PA (1996) Deformation-induced changes in hydraulic head during ground-water withdrawal. Ground Water 34(6):1082–1089
Hu RL, Yue ZQ, Wang LC, Wang SJ (2004) Review on current status and challenging issues of land subsidence in China. Eng Geol 76:65–77
Jafari F, Javadi S, Karimi NA (2013) The forecast utilization rate of subsidence caused by underground water resources using satellite radar interferometry hybrid modeling techniques, case study Qom plain Aliabad. Proceedings, Department of Groundwater studies in Qom province (in Persian)
Khan AS, Khan SD, Kakar DM (2013) Land subsidence and declining water resources in Quetta Valley, Pakistan. Environ Earth Sci 70:2719–2727
Lashgaripour GHR, Ghafori M, Rostami Barani HR (2008) Investigate the causes of the cracks and subsidence of land in West Plains Kashmar. In: Proceedings of the geological survey bulletins (in Persian)
Lashkaripour G, Ghafouri M, Salehi R (2010) Land subsidence of southern Mahyar plain and effects of induced fissures on residential, industrial and agricultural. In: Fifth national conference of geology and the environment. Islamic Azad University of Eslamshahr (in Persian)
Lofgren BE (1969) Field measurement of aquifer system Compaction. Sanjoaquin Balley, California, USA. In: Proceeding of the Tokyo symposium on land subsidence, IASH-UNESCO, pp 272–284
Mahmoudpour M, Mashalah Khamehchiyan M, Nikudel MR, Ghassemi MR (2016) Numerical simulation and prediction of regional land subsidence caused by groundwater exploitation in the southwest plain of Tehran, Iran. Eng Geol 201:6–28
Mayne PW, Poulos HG (1999) approximate displacement influence factors for elastic shallow foundation. J Geotech Geo-environ Eng ASCE 125:453–460
Moghadam Fereydouni R, Alimadadi M, Mohammadi A (2011) Check subsidence in the plain of Aliabad Qom. In: Proceedings of the 13th meeting of Earth sciences (in Persian)
Motagh M, Djamour Y, Walter TR, Wetzel HU, Zschau J, Arabi S (2007) Land subsidence in Mashhad Valley, northeast Iran: results from InSAR, levelling and GPS. Geophys J Int 168(2):518–526
Motagh M, Shamshiri R, Haghshenas Haghighi M, Wetzel HU, Akbari B, Nahavandchi H, Roessner S, Arabi S (2017) Quantifying groundwater exploitation induced subsidence in the Rafsanjan plain, southeastern Iran, using InSAR time-series and in situ measurements. Eng Geol 218:134–151
Nazari A, Arab Nejad Z (2006) Study of ground subsidence in the plain of Aliabad. Ministry of Energy, Water Resources Management in Iran (in Persian)
Pascheco Martinez J, Hernandez Marin MJ, Burbey Th, Gonzalez N, Angel J, Eduardo ZM, Solis Pinto A (2013) Land subsidence and ground failure associated to groundwater exploitation in the Aguascalientes Valley, Mexico. In: Proceedings of the engineering geology, vol 164, pp 172–186
Phien-wej N, Giao PH, Nutulaya P (2006) Land subsidence in Bangkok, Thailand. Eng Geol 82:187–201
Plaxis (1998) PLAXIS Bulletin, 5. www.plaxis.nl/files/files/05%20PLAXIS%20Bulletin%20(S).pdf. Accessed 21 Dec 2013
Qom Regional Water Company (2011a) Report justification for extending the ban on the plain of Aliabad Qom (in Persian)
Qom Regional Water Company (2011b) Forecasting of Subsidence due to groundwater over exploitation using MODFLOW and interferometry technique in Radar imagery (Aliabad plain, Qom)
Qom Regional Water Company (2013) Report of unit hydrograph of the Qom plain, Groundwater Group Studies of Water Company of Qom (in Persian)
Radouane N, Boukelloul M, Fredj M (2015) Stability analysis of underground mining and their application on the Mine Chaabte El Hamra, Algeria. Proc Earth Planet Sci 15:237–243
Rahmanian D (1986) Establishing land subsidence due to groundwater discharge gap in Kerman. In: Proceedings of the Journal of Iran water (in Persian)
Rajabi AM, Ghorbani E (2016) Land subsidence due to groundwater withdrawal in Arak plain, Markazi province, Iran. Arab J Geosci 9:738
Sasaoka T, Takamoto H, Shimada H, Oya J, Hamanaka A, Matsui K (2015) Surface subsidence due to underground mining operation under weak geological condition in Indonesia. J Rock Mech Geotech Eng 7:337–344
Schmertman JH (1953) Undisturbed consolidation behavior of clay. Trans ASCE 120:1201
Scott RF (1979) Subsidence evaluation and prediction of subsidence. In: Saxama SK (ed) Proceeding of the conference ASCE, Gainsville, pp 1–25
Sedighi M, Nankali HR, Arabi S, Tavakoli F (2010) Check subsidence in the plains of Salmas using interferometry (InSAR) and geodetic observations, scientific publication promoting engineering and geospatial mapping, vol 4, pp 25–33 (in Persian)
Sneed M, Ikehara ME, Stork SV, Amelung F, Galloway DL (2003) Detection and measurement of land subsidence using interferometric synthetic aperture radar and global positioning system, San Bernardino County, Mojave Desert, California. U.S. Geological Survey, Water-Resources Investigations, Report 03-4015
Strozzi T, Caduff R, Wegmuller U, Raetzo H, Hauser M (2014) Widespread surface subsidence induced in Alpine hard rocks by the construction of the 57 kilometers-long Gotthard Base Tunnel (Switzerland) observed with satellite SAR interferometry. Proc Technol J 16:69–73
Tavenas F, Jean P, Leblond FTP, Leroueil S (1983) The permeability on natural soft clays, Part 2: permeability characteristics. Can Geotech J 20(4):545–660
Teatini P, Tosi L, Strozzi T, Carbognin L, Cecconi G, Rosselli R, Libardo S (2012) Resolving land subsidence within the Venice lagoon by persistent scatterer SAR interferometry. Phys Chem Earth 40–41:72–79. https://doi.org/10.1016/j.pce.2010.01.002
Terzaghi K (1925) Principles of soil mechanics: IV. Settlement and consolidation of clay. Erdbaummechanic 95(3):874–878
Tomás R, Domenech C, Mira A, Cuenca A, Delgado J (2007) Preconsolidation stress in the Vega Baja and Media areas of the River Segura (SE Spain): causes and relationship with piezometric level changes. Eng Geol 91:135–151
Xu YS, Shen ShL, Cai ZY, Zhou GY (2007) The state of land subsidence and prediction approaches due to groundwater withdrawal in China. Nat Hazards 45(1):123–135
Yan Y, Doin MP, Lopez-Quiroz P, Tupin F, Fruneau B, Pinel V, Trouve E (2012) Mexico City subsidence measured by InSAR time series: joint analysis using PS and SBAS approaches. IEEE J Sel Top Appl Earth Obs Remote Sens 5(4):1312–1326
Yi L, Zhang F, Xu H, Chen S, Wang W, Yu Q (2011) Land subsidence in Tianjin, China. J Environ Earth Sci 62:1151–1161
Zare Mehrjerdi A (2011) Review land subsidence and fractures in Rastagh district south of Meibod. J Geogr Environ Plann 43:155–166 (in Persian)
Zhou GY, Esaki TJ (2003) GIS based spatial and temporal prediction system development for regional land subsidence hazard mitigation. Environ Geol 44:665–678
Zhou XL, Huang KY, Wang JH (2017) Numerical simulation of groundwater flow and land deformation due to groundwater pumping in cross-anisotropic layered aquifer system. J Hydro-Environ Res 14:19–33
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Authors are willing to thank Qom Regional Water Company for provision of useful information.
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Rajabi, A.M. A numerical study on land subsidence due to extensive overexploitation of groundwater in Aliabad plain, Qom-Iran. Nat Hazards 93, 1085–1103 (2018). https://doi.org/10.1007/s11069-018-3448-z
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DOI: https://doi.org/10.1007/s11069-018-3448-z