Suggestion of Quantitative Assessment of Groundwater Resilience
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Yu, Soonyoung
(Smart Subsurface Environment Management (Smart-SEM) Research Center, Korea University)
Kim, Ho-Rim (Korea Institute of Geoscience and Mineral Resources (KIGAM)) Yun, Seong-Taek (Department of Earth and Environmental Sciences, Korea University) Ryu, Dong-Woo (Korea Institute of Geoscience and Mineral Resources (KIGAM)) Yum, Byoung-Woo (Korea Institute of Geoscience and Mineral Resources (KIGAM)) |
| 1 | Cutter, S.L., Barnes, L., Berry, M., Burton, C., Evans, E., Tate, E., and Webb, J., 2008, A place-based model for understanding community resilience to natural disasters, Global Environmental Change, 18(4), 598-606. DOI |
| 2 | Maurice, L., Taylor, R., MacDonald, A., Sanga, H., Johnson, P., Darling, G., and Gooddy, D., 2010, Case study note: Resilience of intensive groundwater abstraction from weathered crystalline rock aquifer systems to climate change in sub-Saharan Africa, BRITISH GEOLOGICAL SURVEY Internal Report IR/10/105, 37 pp. |
| 3 | Paton, D. and Johnston, D., 2001, Disasters and communities: vulnerabilities, resilience, and preparedness, Disaster Prevention and Management, 10(4), 270-277. DOI |
| 4 | Paton, D. and Johnston, D., 2006. Disaster Resilience: An Integrated Approach. Charles C. Thomas, Springfield, IL. |
| 5 | US EPA (Enviromental Protection Agency), 2004, Handbook of Groundwater Protection and Cleanup Policies for RCRA Corrective Action. EPA530-R-04-030 |
| 6 | Park, H.N. and Song, J.M., 2015, Identification of main factors affecting urban flood resilience using resilience using resilience cost index - A case of flooding in Seoul city, Korea, Journal of Korea Planning Association, 50(8), 95-113. DOI |
| 7 | Shamsudduha, M., 2013, Groundwater resilience to human development and climate change in South Asia, GWF Discussion Paper 1332, Global Water Forum, Canberra, Australia. |
| 8 | Tierney, K. and Bruneau, M., 2007, Conceptualizing and measuring resilience: a key to disaster loss reduction, TR News May-June, 14-17. |
| 9 | Vugrin, E.D., Warren, D.E., and Ehlen, M.A., 2011, A resilience assessment framework for infrastructure and economic systems: Quantitative and qualitative resilience analysis of petrochemical supply chains to a hurricane, Process Safety Progress, 30(3), 280-290. DOI |
| 10 | Xu, Y.S., Shen, S.L., Ren, D.J., and Wu, H.N., 2016, Analysis of factors in land subsidence in Shanghai: a view based on a strategic environmental assessment, Sustainability, 8(6), 573. DOI |
| 11 | Holling, C.S., 1973, Resilience and stability of ecological systems, Annual Review of Ecology and Systematics, 4, 1-23. DOI |
| 12 | Kim, M.S., Min, H.G., Hyun, S.H., and Kim, J.G., 2020a, Soil resilience and threat factors related to agricultural environment, Ecology and Resilient Infrastructure, 7(1), 26-42. DOI |
| 13 | Vugrin, E.D. and Camphouse, R.C., 2011, Infrastructure resilience assessment through control design, International Journal of Critical Infrastructure, 7(3), 243-260. DOI |
| 14 | Shrestha. S., Neupane, S., Mohanasundaram, S., and Pandey, V.P., 2020, Mapping groundwater resiliency under climate change scenarios: A case study of Kathmandu Valley, Nepal. Environmental Research, 183, 109149. DOI |
| 15 | Simsek, C., 2007, The GIS-integrated surficial aquifer potential mapping and its importance for aquifer protection, Kucuk Menderes Basin/West Turkey. State Hydraulic Works. International Congress on River Basin Management. Vol. 2224. |
| 16 | US EPA (Enviromental Protection Agency), 1994, Groundwater Treatment Technology Resource Guide, EPA/542-B-94-009 |
| 17 | Aller, L., Bennett, T., Lehr, JH., Petty, RH., and Hackett. G., 1987. DRASTIC: a standardized system for evaluating groundwater pollution potential using hydrogeologic settings, USEPA Report 600/2- 87/035 |
| 18 | Kim, Y.C. and Kim, Y.J., 2010, A review on the state of the art in the management of aquifer recharge, Journal of the Geological Society of Korea, 46(5), 521-533. |
| 19 | Lal, R., 1997, Degradation and resilience of soils, Philosophical Transactions of The Royal Society B: Biological Sciences, 352(1356), 997-1010. DOI |
| 20 | MacDonald, A.M., Bonsor, H.C., Calow, R.C., Taylor, R.G., Lapworth, D.J., Maurice, L., Tucker, J., and O Dochartaigh, BE, 2011, Groundwater resilience to climate change in Africa, British Geological Survey Open Report, OR/11/031. 25 pp. |
| 21 | APN E-Lib, 2020, Mapping groundwater resilience to climate change and human development in Asian cities, https://www.apn-gcr.org/resources/items/show/2087 [accessed 21. 02. 16]. |
| 22 | Choi, C., Kim, Y., Kim, J., Kim, D., Kim, J., and Kim, H.S., 2018, Indicator development and evaluation of storm and flood resilience using big data analysis: (2) Evaluation of resilience, Journal of the Korean Society of Hazard Mitigation, 18(4), 109-123. DOI |
| 23 | Chung, S.Y., Kim, T.H., and Park, N., 2012, The Influence of the surrounding groundwater by groundwater discharge from the subway tunnel at suyeong district, Busan city, Journal of Korean Society of Soil and Groundwater Environment, 17(2), 28-36. DOI |
| 24 | Fuchs, E.H., Carroll, K.C., and King, J.P., 2018, Quantifying groundwater resilience through conjunctive use for irrigated agriculture in a constrained aquifer system, Journal of Hydrology, 565, 747-759. DOI |
| 25 | Yu, S.Y., 2011, A review of critical infrastructure resilience study as the future area of geosciences, Economic and Environmental Geology, 44(6), 533-539. DOI |
| 26 | Vugrin, E.D., Turnquist, M.A., and Brown, N.J.K., 2010a, Optimal recovery sequencing for critical infrastructure resilience assessment. Sandia report, SAND2010-6237. |
| 27 | Vugrin, E.D., Warren, D.E., Ehlen, M.A., and Camphouse, R.C., 2010b, A Framework for Assessing the Resilience of Infrastructure and Economic Systems, In Gopalakrishnan, K. and Peeta, S. (ed.) Sustainable and Resilient Critical Infrastructure Systems: Simulation, Modeling, and Intelligent Engineering. Springer-Verlag Berlin Heidelberg, 77-116. |
| 28 | Ryu, D.W., Son, B.K., Song, W.K., and Joo, K.S., 2005, A study of probabilistic groundwater flow modeling considering the uncertainty of hydraulic conductivity, Tunnel and Underground Space, 15(2), 145-156. |
| 29 | Yu, S., An, H., Kim, S. W., Lee, K. H., and Kim, J.M., 2014, Impact analysis of disaster recovery using resilience cost index, Journal of Environmental Policy and Administration, 22(1), 31-54. |
| 30 | Yu, S., Kim, S.-W., Oh, C.-W., An, H., and Kim, J.-M., 2015, Quantitative assessment of disaster resilience: An empirical study on the importance of post-disaster recovery costs, Reliability Engineering and System Safety 137, 6-17. DOI |
| 31 | Gronwall, J. and Oduro-Kwarteng, S., 2017, Groundwater as a strategic resource for improved resilience: a case study from peri-urban Accra, Environmental Earth Sciences, 77(1), 6. DOI |
| 32 | Choi, H.-M. and Lee, J.-Y., 2011, Groundwater contamination and natural attenuation capacity at a petroleum spilled facility in Korea, Journal of Environmental Sciences, 23(10), 1650-1659. DOI |
| 33 | Chung, S.Y., 2010, Groundwater obstructions and countermeasures for groundwater discharge from subway in Seoul, Korea, Journal of the Geological Society of Korea, 46(1), 61-72. |
| 34 | Cuthbert et al., 2019, Observed controls on resilience of groundwater to climate variability in sub-Saharan Africa, Nature, 572, 230-234. DOI |
| 35 | Foster, S., 2020, Global Policy Overview of Groundwater in Urban Development-A Tale of 10 Cities! Water, 12(2), 456; doi:10.3390/w12020456 DOI |
| 36 | Foster, S., Eichholz, M., Nlend, B., and Gathu, J., 2020, Securing the critical role of groundwater for the resilient water-supply of urban Africa, Water Policy, 22(1), 121-132. DOI |
| 37 | Gunderson, L.H., 2000, Ecological resilience - in theory and application, Annual Review of Ecology and Systematics, 31(1), 425-439. DOI |
| 38 | Im, J., Rizzo, C.B., and de Barros, F.P.J., 2020, Resilience of groundwater systems in the presence of Bisphenol A under uncertainty, Science of the Total Environment, 727, 138363. DOI |
| 39 | Kang, H.J., Jung, S.K., Maeng, S.J., and Jang, C.D., 2015, Analysis for drought resilience of monoculture on climate change, Crisisonomy, 11(1), 63-81. |
| 40 | Kim, M.S., Min, H.G., Hyun, S.H., and Kim, J.G., 2020b, Evaluation methods of soil resilience related to agricultural environment, Ecology and Resilient Infrastructure, 7(2), 97-113. |
| 41 | Kim, Y.-T., Hyun, S.G., Cheong, J.-Y., Woo, N.C., and Lee, S., 2018, Hydrogeochemistry in the coastal area during construction of geological repository, Journal of Hydrology, 562, 40-49. DOI |
| 42 | Kwon, S.A., 2018, A study on local economic resilience after disasters through time series analysis-focusing on the sewol ferry disaster, The Journal of the Korea Contents Association, 18(5), 456-463. DOI |
| 43 | MOIS (Ministry of the Interior and Safety), 2017, Study on disaster prevention projects and regulations, Sejong. |
| 44 | Razafindrabe, B.H.N., Parvin, G.A., Surjan, A., Takeuchi, Y., and Shaw, R., 2009, Climate disaster resilience: Focus on coastal urban cities in Asia, Asian Journal of Environment and Disaster Management, 1(1), 101-116. DOI |
| 45 | Lee, G.M., Cha, K.U., and Yi, J., 2013, Analysis of non-monotonic phenomena of resilience and vulnerability in water resources systems, Journal of Korea Water Resources Association, 46(2), 183-193. DOI |
| 46 | Lee, J.Y. and Koo, M.H., 2007, A review of effects of land development and urbanization on groundwater environment, Journal of the Geological Society of Korea, 43(4), 517-528. |
| 47 | MacDonald, A.M., Bonsor, H.C., Taylor, R., Shamsudduha, M., Burgess, W.G., Ahmed, K.M., Mukherjee, A., Zahid, A., Lapworth, D., Gopal, K., Rao, M.S., Moench, M., Bricker, S., Yadav, S.K., Satyal, Y., Smith, L., Dixit, A., Bell, R., van Steenbergen, F., Basharat, M., Gohar, M.S., Tucker, J., Calow, R.S., and Maurice, L., 2015, Groundwater resources in the Indo-Gangetic Basin: resilience to climate change and abstraction. British Geological Survey Open Report, OR/15/047, 63pp |
| 48 | Manyena, S.B., 2006. The concept of resilience revisited, Disasters, 30(4), 433-450. DOI |
| 49 | World bank, 2020, Managing Groundwater for Drought Resilience in South Asia. Delivered under the South Asia Water Initiative (SAWI) Regional Cross-Cutting Knowledge, Dialogue, and Cooperation Focus Area. |
| 50 | Chang, S.E. and Shinozuka, M., 2004, Measuring improvements in the disaster resilience of communities, Earthquake Spectra, 20(3), 739-755. DOI |
| 51 | NDMI (National Disaster Management Institute), 2010, Development of the Indicators and Checklist for Diagnosis of the Urban Resilience, Ulsan. |
| 52 | British Geological Survey, 2019, Gateway to the Earth: Science Strategy For The British Geological Survey 2019-2023, 33p. |
| 53 | Aamir, M.S., 2011, Value of Resilience from Critical Infrastructure Perspective, Invited talks on Critical Infrastructure Resilience, Daejeon, Korea. |
| 54 | Alraggad, M., Johnsen-Harris, B., Shdaifat, A., Abugazleh, M.K., and Hamaideh, A., 2017, Groundwater resilience to climate change in the eastern Dead Sea basin - Jordan, Scientific Research and Essays, 12(3), 24-41. DOI |
| 55 | Appelo, T. and Postma, D., 2005, Geochemistry, Ground Water and Pollution, CRC Press. |
| 56 | British Geological Survey, 2021, Groundwater resilience: some definitions, https://www2.bgs.ac.uk/groundwater/international/africangroundwater/definitions.html [accessed 21. 10. 21] |
| 57 | Kim, Y., Choi, C., Bae, Y., Kim, D., Kim, D., and Kim, H. S., 2018, Indicator development and evaluation of storm and flood resilience using big data analysis:(1) development of resilience indicators, Journal of the Korean Society of Hazard Mitigation, 18(4), 97-107. DOI |
| 58 | APHA, AWWA, WEF, 2001, Standard Methods for the Examination of Water and Wastewater, 21st ed. American Public Health Association, Washington, DC. |
| 59 | US DOE (Department of Energy), 1994, In situ remediation ntegrated program, Technical Summary, DOE/EM-0134P |
| 60 | Bruneau, M., Chang, S.E., Eguchi, R.T., Lee, G.C., O'Rourke, T.D., Reinhorn, A.M., Shinozuka, M., Tierney, K., Wallace, W.A., and von Winterfeldt, D., 2003, A framework to quantitatively assess and enhance the seismic resilience of communities, Earthquake Spectra, 19(4), 733-752. DOI |
| 61 | Yu, S., Yoon, S.-M., Choi, E.-K., Kim, S.-D., Lee, Y.-J., Lee, Y., and Choi, K.-H., 2016, Quantitative assessment of national resilience: A case study of Mount Paektu eruption scenarios on South Korea, International Journal of Disaster Risk Reduction, 19, 118-132. DOI |
| 62 | Rose, A., 2007, Economic resilience to natural and manmade disasters: multidisciplinary origins and contextual dimensions, Environmental Hazards, 7(4), 383-398. DOI |
| 63 | Embaby, A.A., Sadek, M.A., and Rayan, R.A., 2017, Natural attenuation capacity indicators for groundwater remediation to the northeastern cairo, Journal of Geoscience and Environment Protection, 5, 152-168. DOI |
| 64 | Yu, S., Kim, S.W., Park, K.H., Oh, C.W., Park, D.K., and Kim, C.Y., 2012, Quantitative resilience analysis of Fiji to cyclones, Journal of Korean Society of Hazard Mitigation, 12(2), 55-63. DOI |
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