Abstract
Coastal and offshore regions, regarded as key zones for earth science, are vulnerable to the effects of natural and anthropogenic factors because of the complicated interactions between the land, ocean, and atmosphere. Rapid social-economic growth has changed the geological environment of the earth, and a series of geological hazards have been seriously intensified, especially in coastal and offshore areas. Previous researches have indicated that coastal and marine engineering construction or resource exploitation tends to exacerbate geo-environmental hazards to varying degrees. These geo-hazards may include coastal erosion, coastal subsidence, seawater intrusion, and seabed instability. In this paper, we review the characteristics of and advances in typical coastal and marine geo-environmental hazards that are intensified by human activities, as well as the associated impacts. The main anthropogenic factors that exacerbate coastal and marine geo-hazards are summarized, and the influencing mechanisms of those factors are analyzed and discussed in detail. In addition, to achieve a sustainable development of the marine economy, prevention and control measures related to such geo-environmental hazards are briefly proposed and discussed.
Similar content being viewed by others
References
Abarca E, Carrera J, Sánchez-Vila X, Voss CI (2007) Quasi-horizontal circulation cells in 3D seawater intrusion. J Hydrol 339:118–129
Abd-Elhamid HF, Javadi AA (2011) A cost-effective method to control seawater intrusion in coastal aquifers. Water Resour Manag 25:2755–2780
Abidin HZ, Andreas H, Djaja R et al (2008) Land subsidence characteristics of Jakarta between 1997 and 2005, as estimated using GPS surveys. GPS Solutions 12(1):23–32
Abidin HZ, Andreas H, Gumilar I et al (2011) Land subsidence of Jakarta (Indonesia) and its relation with urban development. Nat Hazards 59(3):1753–1771
Abidin HZ, Gumilar I, Andreas H et al (2013a) On causes and impacts of land subsidence in Bandung Basin, Indonesia. Environ Earth Sci 68(6):1545–1553
Abidin HZ, Andreas H, Gumilar I et al (2013b) Land subsidence in coastal city of Semarang (Indonesia): characteristics, impacts and causes. Geomatics 4(3):226–240
Albert P, Jorge G (1998) Coastal changes in the Ebro delta: natural and human factors. J Coast Conserv 4(1):17–26
Andredaki M, Georgoulas A, Hrissanthou V et al (2014) Assessment of reservoir sedimentation effect on coastal erosion in the case of Nestos River, Greece. Int J Sediment Res 29(1):34–48
Aydın M, Uysal M (2014) Risk assessment of coastal erosion of Karasu coast in Black Sea. J Coast Conserv 18(6):673–682
Barlow PM, Reichard EG (2010) Saltwater intrusion in coastal regions of North America. Hydrogeol J 18(1):247–260
Bell FG, Cripps JC, Culshaw MG (1986) A review of the engineering behaviour of soils and rocks with respect to groundwater. In: groundwater in engineering geology. Geol Soc Eng Geol Spec Publ 3:1–23
Borowski WS, Paul CK (1997) The gas hydrate detection problem: recognition of shallow-subbottom gas hazards in deep-water areas. In: Offshore technology conference (OTC), Houston, Texas, May 1997, pp 211–216
Carriquiry JD, Sánchez A, Camacho-Ibar VF (2001) Sedimentation in the northern Gulf of California after cessation of the Colorado River discharge. Sediment Geol 144(1):37–62
Chaussard E, Wdowinski S, Cabral-Cano E et al (2014) Land subsidence in central Mexico detected by ALOS InSAR time-series. Remote Sens Environ 140:94–106
Cheng HL, Huang Y, Xu Q (2014) Numerical modeling of the submarine debris flows run-out using SPH. In: Engineering geology for society and territory, vol. 4. Springer International Publishing, pp 157–160
Custodio E, Bruggeman GA (1987) Groundwater problems in coastal areas. In: Studies and reports in hydrology, no. 45. International Hydrological Programme (IHP), UNESCO, Paris
Custodio E (2010) Coastal aquifers of Europe: an overview. Hydrogeol J 18(1):269–280
Dai SB, Yang SL, Cai AM (2008) Impacts of dams on the sediment flux of the Pearl River, southern China. Catena 76(1):36–43
Fanos AM (1995) The impact of human activities on the erosion and accretion of the Nile Delta coast. J Coast Res 11(3):821–833
Ford M (2013) Shoreline changes interpreted from multi-temporal aerial photographs and high resolution satellite images: Wotje atoll, Marshall Islands. Remote Sens Environ 135:130–140
Galloway DL, Jones DR, Ingebritsen SE (1999) Land subsidence in the United States. U.S. Geological Survey Circular 1182, 177 pp
Goncalves RM, Awange JL, Krueger CP et al (2012) A comparison between three short-term shoreline prediction models. Ocean Coast Manag 69:102–110
Hovland M, Gudmestad OT (2001) Potential influence of gas hydrates on seabed installations. In: Paull CK, Dillon WP (eds) Natural gas hydrates: occurrence, distribution, and detection. American Geophysical Union, Washington, DC, pp 307–315
Hsu TW, Lin TY, Tseng IF (2007) Human impact on coastal erosion in Taiwan. J Coast Res 23(4):961–973
Huang G (2011) Time lag between reduction of sediment supply and coastal erosion. Int J Sediment Res 26(1):27–35
Huang L, Guo ZR (2008) Mechanism of sea water intrusion in China’s coastal areas and its prevention countermeasures. Chin J Geol Hazard Control 19(2):118–123
Huang Y, Cheng HL (2013) The impact of climate change on coastal geological disasters in southeastern China. Nat Hazards 65(1):377–390
Huang Y, Zhu CQ (2014) Numerical analysis of tsunami–structure interaction using a modified MPS method. Nat Hazards 75(3):2847–2862
Huang Y, Zhu CQ, Xiong M (2014) Dynamic response of an embankment foundation to a simulated tsunami wave. In: Engineering geology for society and territory, vol. 4. Springer International Publishing, pp 161–164
Huang Y, Bao YJ, Wang YH (2015a) Analysis of geoenvironmental hazards in urban underground space development in Shanghai. Nat Hazards 75(3):2067–2079
Huang Y, Bao YJ, Zhang M et al (2015b) Analysis of the mechanism of seabed liquefaction induced by waves and related seabed protection. Nat Hazards 79(2):1399–1408
Jia YG, Zhu CQ, Liu LP et al (2016) Marine Geohazards: review and future perspective. Acta Geologica Sinica (English Edition) 90(4):1455–1470
Johnson T (2007) Battling seawater intrusion in the central & west coast basins. Water Replenishment District of Southern California Technical Bulletin 13
Kildow JT, Colgan CS, Scorse JD et al (2014) State of the U.S. ocean and coastal economies
Kim IH, Lee HS, Kim JH et al (2014) Shoreline change due to construction of the artificial headland with submerged breakwaters. J Coast Res 72(sp1):145–150
Kondolf GM, Gao Y, Annandale GW et al (2014) Sustainable sediment management in reservoirs and regulated rivers: experiences from five continents. Earth’s Future 2(5):256–280
Kwon TH, Cho GC, Santamarina JC (2008) Gas hydrate dissociation in sediments: pressure–temperature evolution. Geochem Geophys Geosyst 9(3)
Makogon YF, Holditch SA, Makogon TY (2007) Natural gas-hydrates—a potential energy source for the 21st century. J Pet Sci Eng 56(1):14–31
Mazda Y, Magi M, Nanao H et al (2002) Coastal erosion due to long-term human impact on mangrove forests. Wetl Ecol Manag 10(1):1–9
Mikhailova MV (2003) Transformation of the Ebro River Delta under the impact of intense human-induced reduction of sediment runoff. Water Resour 30(4):370–378
Miles JR, Russell PE, Huntley DA (2001) Field measurements of sediment dynamics in front of a seawall. J Coast Res 17(1):195–206
Nandi S, Ghosh M, Kundu A et al (2016) Shoreline shifting and its prediction using remote sensing and GIS techniques: a case study of Sagar Island, West Bengal (India). J Coast Conserv 20(1):61–80
Roos PC, Hulscher SJMH (2003) Large-scale seabed dynamics in offshore morphology: modeling human intervention. Rev Geophys 41(2)
Selvan SC, Kankara RS, Markose VJ et al (2016) Shoreline change and impacts of coastal protection structures on Puducherry, SE coast of India. Nat Hazards 83:293–308
Shi XQ, Wu JC, Ye SJ et al (2008) Regional land subsidence simulation in Su-Xi-Chang area and Shanghai City, China. Eng Geol 100(1):27–42
Shtienberg G, Zviely D, Sivan D et al (2014) Two centuries of coastal change at Caesarea, Israel: natural processes vs. human intervention. Geo-Mar Lett 34:365–379
Stanica A, Dan S, Ungureanu VG (2007) Coastal changes at the Sulina mouth of the Danube River as a result of human activities. Mar Pollut Bull 55(10):555–563
State Oceanic Administration of the People’s Republic of China (2016) Bulletin of China Marine Disasters in 2015 (in Chinese). http://www.soa.gov.cn/zwgk/hygb/zghyzhgb/2015nzghyzhgb/. Accessed 13 April 2017
State Oceanic Administration of the People’s Republic of China (2017) Bulletin of China Marine Disasters in 2016 (in Chinese). http://www.soa.gov.cn/zwgk/hygb/zghyzhgb/2016nzghyzhgb/. Accessed 13 April 2017
Sumer BM, Whitehouse RJS, Tørum A (2001) Scour around coastal structures: a summary of recent research. Coast Eng 44(2):153–190
Syvitski JP, Vörösmarty CJ, Kettner AJ et al (2005) Impact of humans on the flux of terrestrial sediment to the global coastal ocean. Science 308(5720):376–380
Terzaghi K (1925) Principles of soil mechanics, IV—settlement and consolidation of clay. Eng News-Rec 95(3):874–878
van der Veen HH, Hulscher SJMH (2008) Effects of large-scale human activities on the North Sea seabed. In: Proceedings of marine and river dune dynamics, Leeds, United Kingdom, April 2008
Van Rijn LC (2011) Coastal erosion and control. Ocean Coast Manage 54:867–887
Wang J, Gao W, Xu S et al (2012) Evaluation of the combined risk of sea level rise, land subsidence, and storm surges on the coastal areas of Shanghai, China. Clim Chang 115(3–4):537–558
Wang G, Yu J, Kearns TJ et al (2014) Assessing the accuracy of long-term subsidence derived from borehole extensometer data using GPS observations: case study in Houston, Texas. J Surv Eng 140(3):05014001
Werner AD (2010) A review of seawater intrusion and its management in Australia. Hydrogeol J 18:281–285
Werner AD, Bakker M, Post VE et al (2013) Seawater intrusion processes, investigation and management: recent advances and future challenges. Adv Water Resour 51:3–26
Xue YQ, Zhang Y, Ye SJ et al (2005) Land subsidence in China. Environ Geol 48:713–720
Yang SL, Zhang J, Zhu J et al (2005) Impact of dams on Yangtze River sediment supply to the sea and delta intertidal wetland response. J Geophys Res Earth Surf 110(F3)
Ye YC et al (2012) Marine hazard geology in China (in Chinese). The Ocean Publishing Company
Yin J, Yu D, Wilby R (2016) Modelling the impact of land subsidence on urban pluvial flooding: a case study of downtown Shanghai, China. Sci Total Environ 544:744–753
Yokoo Y, Udo K (2016) Connectivity between sediment storage in dam reservoir and coastal erosion: implications through zonal mappings of monitoring data. J Coast Res 75(sp1):725–729
Zhang M, Huang Y, Bao YJ (2016) The mechanism of shallow submarine landslides triggered by storm surge. Nat Hazards 81(2):1373–1383
Acknowledgments
This work was supported by the National Science Fund for Distinguished Young Scholars of China (grant no. 41625011).
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Huang, Y., Jin, P. Impact of human interventions on coastal and marine geological hazards: a review. Bull Eng Geol Environ 77, 1081–1090 (2018). https://doi.org/10.1007/s10064-017-1089-1
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10064-017-1089-1