How to cite this paper
Sadjadi, S. (2022). Review on current status and challenging issues of land subsidence in Iran.Journal of Future Sustainability, 2(1), 33-38.
Refrences
Abbasnejad, A., Abbasnejad, B., Derakhshani, R., & Hemmati Sarapardeh, A. (2016). Qanat hazard in Iranian urban are-as: explanation and remedies. Environmental Earth Sciences, 75(19), 1-14.
Alizadeh, A., & Keshavarz, A. (2005, March). Status of agricultural water use in Iran. In Water conservation, reuse, and recycling: Proceedings of an Iranian-American workshop (Vol. 4, pp. 94-105). Washington DC, USA: National Academies Press.
Amin, P., Ghalibaf, M. A., & Hosseini, M. (2019). Land subsidence and soil cracks monitoring by surveying on the clayey plain soils in Central Iran (case study: Yazd City). Arabian Journal of Geosciences, 12(3), 1-11.
Ashraf, S., Nazemi, A., & AghaKouchak, A. (2021). Anthropogenic drought dominates groundwater depletion in Iran. Scientific reports, 11(1), 1-10.
Bagheri-Gavkosh, M., Hosseini, S. M., Ataie-Ashtiani, B., Sohani, Y., Ebrahimian, H., Morovat, F., & Ashrafi, S. (2021). Land subsidence: A global challenge. Science of The Total Environment, 778, 146193.
Cigna, F., & Tapete, D. (2021). Satellite InSAR survey of structurally-controlled land subsidence due to groundwater exploitation in the Aguascalientes Valley, Mexico. Remote Sensing of Environment, 254, 112254.
Fatolahzadeh, S., Nadi, B., & Ajalloeian, R. (2022). Land Subsidence Susceptibility Zonation of Isfahan Plain Based on Geological Bedrock Layer. Geotechnical and Geological Engineering, 40(4), 1989-1996.
Galloway, D. L., Bawden, G. W., Leake, S. A., & Honegger, D. G. (2008). Land subsidence hazards. Landslide and land subsidence hazards to pipelines: US Geological Survey Open-File Report, 1164.
Gharechelou, S., Akbari Ghoochani, H., Golian, S., & Ganji, K. (2021). Evaluation of land subsidence relationship with groundwater depletion using Sentinel-1 and ALOS-1 radar data (Case study: Mashhad plain). Journal of RS and GIS for Natural Resources, 12(3), 40-61.
Golian, M., Saffarzadeh, A., Katibeh, H., Mahdad, M., Saadat, H., Khazaei, M., ... & Dashti Barmaki, M. (2021). Conse-quences of groundwater overexploitation on land subsidence in Fars Province of Iran and its mitigation management programme. Water and Environment Journal, 35(3), 975-985.
Khorrami, M., Abrishami, S., & Maghsoudi, Y. (2020). Mashhad subsidence monitoring by interferometric synthetic aperture radar technique. Amirkabir Journal of Civil Engineering, 51(6), 1187-1204.
Lachenbruch, A. H. (1961). Depth and spacing of tension cracks. Journal of Geophysical Research, 66(12), 4273-4292.
Li, D., Hou, X., Song, Y., Zhang, Y., & Wang, C. (2020). Ground subsidence analysis in Tianjin (China) based on Senti-nel-1A data using MT-InSAR methods. Applied Sciences, 10(16), 5514.
Madani, K., AghaKouchak, A., & Mirchi, A. (2016). Iran’s socio-economic drought: challenges of a water-bankrupt na-tion. Iranian studies, 49(6), 997-1016.
Messerklinger, S. (2014). Formation mechanism of large subsidence sinkholes in the Lar valley in Iran. Quarterly Jour-nal of Engineering Geology and Hydrogeology, 47(3), 237-250.
Minderhoud, P. S. J., Erkens, G., Pham, V. H., Bui, V. T., Erban, L., Kooi, H., & Stouthamer, E. (2017). Impacts of 25 years of groundwater extraction on subsidence in the Mekong delta, Vietnam. Environmental research letters, 12(6), 064006.
Motagh, M., Djamour, Y., Walter, T. R., Wetzel, H. U., Zschau, J., & Arabi, S. (2007). Land subsidence in Mashhad Valley, northeast Iran: results from InSAR, levelling and GPS. Geophysical Journal International, 168(2), 518-526.
Motagh, M., Walter, T. R., Sharifi, M. A., Fielding, E., Schenk, A., Anderssohn, J., & Zschau, J. (2008). Land subsid-ence in Iran caused by widespread water reservoir overexploitation. Geophysical Research Letters, 35(16).
Negahdary, M. (2022). Shrinking aquifers and land subsidence in Iran. Science, 376(6599), 1279-1279.
Rafiee, M., Ajalloeian, R., Dehghani, M., & Mahmoudpour, M. (2022). Artificial neural network modeling of the sub-sidence induced by overexploitation of groundwater in Isfahan-Borkhar Plain, Iran. Bulletin of Engineering Geology and the Environment, 81(5), 1-16.
Talebiniya, M., Khosravi, H., Zehtabian, G., Malekian, A., & Keshtkar, H. (2022). Investigation of subsidence trend in Isfahan plain using radar differential interferometry technique. Journal of RS and GIS for Natural Resources.
Rahmati, O., Golkarian, A., Biggs, T., Keesstra, S., Mohammadi, F., & Daliakopoulos, I. N. (2019). Land subsidence hazard modeling: Machine learning to identify predictors and the role of human activities. Journal of Environmental Management, 236, 466-480.
Rezaee, A., Bozorg-Haddad, O., & Chu, X. (2021). Reallocation of water resources according to social, economic, and environmental parameters. Scientific Reports, 11(1), 1-13.
Rokni, J., Hosseinzadeh, S. R., Lashgaripour, G. R., & Velayati, S. (2019). Analysis of Spatial Distribution and Mecha-nism of Formation of Fissures due to Land Subsidence in Neyshabur plain. Iranian Journal of Engineering Geology, 12(3).
Sadighi, A. A. (1998). Energy conservation for IR Iran. University of Surrey (United Kingdom).
Salehi Moteahd, F., Hafezi Moghaddas, N., Lashkaripour, G. R., & Dehghani, M. (2019). Geological parameters affect-ed land subsidence in Mashhad plain, north-east of Iran. Environmental Earth Sciences, 78(14), 1-12.
Sorkhabi, O. M., Nejad, A. S., & Khajehzadeh, M. (2022). Evaluation of Isfahan City Subsidence Rate Using InSAR and Artificial Intelligence. KSCE Journal of Civil Engineering, 26(6), 2901-2908.
Alizadeh, A., & Keshavarz, A. (2005, March). Status of agricultural water use in Iran. In Water conservation, reuse, and recycling: Proceedings of an Iranian-American workshop (Vol. 4, pp. 94-105). Washington DC, USA: National Academies Press.
Amin, P., Ghalibaf, M. A., & Hosseini, M. (2019). Land subsidence and soil cracks monitoring by surveying on the clayey plain soils in Central Iran (case study: Yazd City). Arabian Journal of Geosciences, 12(3), 1-11.
Ashraf, S., Nazemi, A., & AghaKouchak, A. (2021). Anthropogenic drought dominates groundwater depletion in Iran. Scientific reports, 11(1), 1-10.
Bagheri-Gavkosh, M., Hosseini, S. M., Ataie-Ashtiani, B., Sohani, Y., Ebrahimian, H., Morovat, F., & Ashrafi, S. (2021). Land subsidence: A global challenge. Science of The Total Environment, 778, 146193.
Cigna, F., & Tapete, D. (2021). Satellite InSAR survey of structurally-controlled land subsidence due to groundwater exploitation in the Aguascalientes Valley, Mexico. Remote Sensing of Environment, 254, 112254.
Fatolahzadeh, S., Nadi, B., & Ajalloeian, R. (2022). Land Subsidence Susceptibility Zonation of Isfahan Plain Based on Geological Bedrock Layer. Geotechnical and Geological Engineering, 40(4), 1989-1996.
Galloway, D. L., Bawden, G. W., Leake, S. A., & Honegger, D. G. (2008). Land subsidence hazards. Landslide and land subsidence hazards to pipelines: US Geological Survey Open-File Report, 1164.
Gharechelou, S., Akbari Ghoochani, H., Golian, S., & Ganji, K. (2021). Evaluation of land subsidence relationship with groundwater depletion using Sentinel-1 and ALOS-1 radar data (Case study: Mashhad plain). Journal of RS and GIS for Natural Resources, 12(3), 40-61.
Golian, M., Saffarzadeh, A., Katibeh, H., Mahdad, M., Saadat, H., Khazaei, M., ... & Dashti Barmaki, M. (2021). Conse-quences of groundwater overexploitation on land subsidence in Fars Province of Iran and its mitigation management programme. Water and Environment Journal, 35(3), 975-985.
Khorrami, M., Abrishami, S., & Maghsoudi, Y. (2020). Mashhad subsidence monitoring by interferometric synthetic aperture radar technique. Amirkabir Journal of Civil Engineering, 51(6), 1187-1204.
Lachenbruch, A. H. (1961). Depth and spacing of tension cracks. Journal of Geophysical Research, 66(12), 4273-4292.
Li, D., Hou, X., Song, Y., Zhang, Y., & Wang, C. (2020). Ground subsidence analysis in Tianjin (China) based on Senti-nel-1A data using MT-InSAR methods. Applied Sciences, 10(16), 5514.
Madani, K., AghaKouchak, A., & Mirchi, A. (2016). Iran’s socio-economic drought: challenges of a water-bankrupt na-tion. Iranian studies, 49(6), 997-1016.
Messerklinger, S. (2014). Formation mechanism of large subsidence sinkholes in the Lar valley in Iran. Quarterly Jour-nal of Engineering Geology and Hydrogeology, 47(3), 237-250.
Minderhoud, P. S. J., Erkens, G., Pham, V. H., Bui, V. T., Erban, L., Kooi, H., & Stouthamer, E. (2017). Impacts of 25 years of groundwater extraction on subsidence in the Mekong delta, Vietnam. Environmental research letters, 12(6), 064006.
Motagh, M., Djamour, Y., Walter, T. R., Wetzel, H. U., Zschau, J., & Arabi, S. (2007). Land subsidence in Mashhad Valley, northeast Iran: results from InSAR, levelling and GPS. Geophysical Journal International, 168(2), 518-526.
Motagh, M., Walter, T. R., Sharifi, M. A., Fielding, E., Schenk, A., Anderssohn, J., & Zschau, J. (2008). Land subsid-ence in Iran caused by widespread water reservoir overexploitation. Geophysical Research Letters, 35(16).
Negahdary, M. (2022). Shrinking aquifers and land subsidence in Iran. Science, 376(6599), 1279-1279.
Rafiee, M., Ajalloeian, R., Dehghani, M., & Mahmoudpour, M. (2022). Artificial neural network modeling of the sub-sidence induced by overexploitation of groundwater in Isfahan-Borkhar Plain, Iran. Bulletin of Engineering Geology and the Environment, 81(5), 1-16.
Talebiniya, M., Khosravi, H., Zehtabian, G., Malekian, A., & Keshtkar, H. (2022). Investigation of subsidence trend in Isfahan plain using radar differential interferometry technique. Journal of RS and GIS for Natural Resources.
Rahmati, O., Golkarian, A., Biggs, T., Keesstra, S., Mohammadi, F., & Daliakopoulos, I. N. (2019). Land subsidence hazard modeling: Machine learning to identify predictors and the role of human activities. Journal of Environmental Management, 236, 466-480.
Rezaee, A., Bozorg-Haddad, O., & Chu, X. (2021). Reallocation of water resources according to social, economic, and environmental parameters. Scientific Reports, 11(1), 1-13.
Rokni, J., Hosseinzadeh, S. R., Lashgaripour, G. R., & Velayati, S. (2019). Analysis of Spatial Distribution and Mecha-nism of Formation of Fissures due to Land Subsidence in Neyshabur plain. Iranian Journal of Engineering Geology, 12(3).
Sadighi, A. A. (1998). Energy conservation for IR Iran. University of Surrey (United Kingdom).
Salehi Moteahd, F., Hafezi Moghaddas, N., Lashkaripour, G. R., & Dehghani, M. (2019). Geological parameters affect-ed land subsidence in Mashhad plain, north-east of Iran. Environmental Earth Sciences, 78(14), 1-12.
Sorkhabi, O. M., Nejad, A. S., & Khajehzadeh, M. (2022). Evaluation of Isfahan City Subsidence Rate Using InSAR and Artificial Intelligence. KSCE Journal of Civil Engineering, 26(6), 2901-2908.