Abstract
The impact of the Three Gorges Reservoir (TGR) construction on land use change has attracted worldwide concern. However, quantitative evidence is lacking for the drivers of land use change resulting from the TGR during and after construction. We used the Pengxi River basin, located upstream of the Three Gorges dam, to evaluate the effects of large-scale hydrological engineering on land use. Landsat remote sensing images from 1995, 2000, 2005 and 2010 covering the main construction period of the TGR were obtained. The largest changes were the conversion of land to water bodies and built-up areas, corresponding to reservoir impoundment and population resettlement during TGR construction. These changes were more intensive downstream of the TGR and closer to the river. Compared with 2000–2005, the expansion in water bodies during 2005–2010 moved from lower to higher elevations. The distribution of built-up land during the two periods was similar, mainly because the planned resettlement zones were fixed and spatially concentrated. Geographical and environmental factors, such as elevation, slope, location, soil type and precipitation, still controlled land use patterns. Land use pattern in 2020 under two scenarios was simulated using a multi-criteria evaluation cellular automata–Markov model. Scenario 2 was more realistic and helpful for management decisions. The scenarios highlighted the indirect influences of TGR construction on land use change after 2010. Indirect driving forces were mainly reflected through related policies or plans, especially from the perspective of water conservation in the newly built reservoir.
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References
Ahearn DS, Sheibley RW, Dahlgren RA, Aderson M, Johnson J, Tate KW (2005) Land use and land cover influence on water quality in the last free-flowing river draining the western Sierra Nevada, California. J Hydrol 313:234–247
Al-Ahmadi K, See L, Heppenstall A, Hogg J (2009) Calibration of a fuzzy cellular automata model of urban dynamics in Saudi Arabia. Ecol Complex 6:80–101. doi:10.1016/j.ecocom.2008.09.004
Austin NJ, Muller JP, Gong L, Zhang J (2013) A regional investigation of urban land-use change for potential landslide hazard assessment in the Three Gorges Reservoir Area, People’s Republic of China: Zigui to Wanzhou. Int J Remote Sens 34(8):2983–3011. doi:10.1080/01431161.2012.744528
Barredo JI, Kasanko M, McCormick N, Lavalle C (2003) Modelling dynamic spatial processes: simulation of urban future scenarios through cellular automata. Landsc Urban Plan 64(3):145–160. www.elsevier.com/locate/landurbplan
Bell EJ (1974) Markov analysis of land use change: an application of stochastic processes to remotely sensed data. Socio Econ Plan Sci 8:311–316. doi:10.1016/0038-0121(74)90034-2
Bergmann A, Bi Y, Chen L et al (2012) The Yangtze-Hydro project: a Chinese–German environmental program. Environ Sci Pollut Res 19:1341–1344. doi:10.1007/s11356-011-0645-7
Cao Y, Zhou W, Wang J, Yuan C (2011) Spatial-temporal pattern and differences of land use changes in the Three Gorges Reservoir Area of China during 1975–2005. J Mt Sci 8(4):551–563. doi:10.1007/s11629-011-2008-8
CDRI (2009) Implementation plan of comprehensive improvement of water environment in Pengxi River basin of Chongqing City. Chongqing Design and Research Institute of China Coal International Engineering Group, Chongqing (in Chinese)
Chongqing Bureau of Statistics (2012) Chongqing statistical yearbook 2012. China Statistics Press, Beijing
Comarazamy DE, González JE, Luvall JC, Rickman DL, Bornstein RD (2013) Climate impacts of land-cover and land-use changes in tropical islands under conditions of global climate change. J Clim 26(5):1535–1550. doi:10.1175/JCLI-D-12-00087.1
Cui XW, Zhang L, Zhu L, Song G, Wu BF (2012) Changes of landscape pattern and its characteristics in Kaixian county before and after impoundment of Three Gorges Dam Project. Trans CSAE 28(4):227–234. doi:10.3969/j.issn.1002-6819.2012.04.038 (in Chinese)
EOTGPCC (2011) Overall plan for the follow-up work of the Three Gorges during 2011–2020. Executive Office of Three Gorges Project Construction Commission State Council of China, Beijing (in Chinese)
Fearnside PM (2015) Environmental and social impacts of hydroelectric dams in Brazilian Amazonia: implications for the aluminum industry. World Dev 77:48–65. doi:10.1016/j.worlddev.2015.08.015
Fu XT, Wang SL, Zhang HZ, Peng YB, Zhou SL, Yin ZW, Meng ZH (2013) Emigration of hydropower projects in Hubei Province. Yangtze river press, Wuhan (in Chinese)
Gómez-Delgado M, Tarantola S (2007) GLOBAL sensitivity analysis, GIS and multi-criteria evaluation for a sustainable planning of ahazardous waste disposal site in Spain. Int J Geogr Inf Sci 20:449–466. doi:10.1080/13658810600607709
Guan DJ, Li HF, Inohae T, Su WC, Nagaie T, Hokao K (2011) Modeling urban land use change by the integration of cellular automaton and Markov model. Ecol Model 222:3761–3772. doi:10.1016/j.ecolmodel.2011.09.009
He L, King L, Jiang T (2003) On the land use in Three Gorges Reservoir area. J Geogr Sci 13(4):416–422
Holbach A, Wang L, Chen H, Hu W, Schleicher N, Zheng B, Norra S (2013) Water mass interaction in the confluence zone of the Daning River and the Yangtze River—a driving force for algal growth in the Three Gorges Reservoir. Environ Sci Pollut Res 20:7027–7037. doi:10.1007/s11356-012-1373-3
Huang Z, Zhou W, Zhou J, Zhu M (2006) Land Use of the Three Gorges Reservoir area and the effect on its landscape pattern in the recent 50 Years. Wuhan Univ J Nat Sci 11:910–914
Jackson S, Sleigh A (2000) Resettlement for China’s Three Gorges Dam: socio-economic impact and institutional tensions. Communist Post-communist Stud 33:223–241. www.elsevier.com/locate/postcomstud
Jiang H, Qiang M, Peng L (2016) Finding academic concerns of the Three Gorges Project based on a topic modeling approach. Ecol Indic 60:693–701. doi:10.1016/j.ecolind.2015.08.007
Kamusoko C, Aniya M, Adi B, Manjoro M (2009) Rural sustainability under threat in Zimbabwe: simulation of future land use/cover changes in the Bindura district based on the Markov-cellular automata model. Appl Geogr 29:435–447. doi:10.1016/j.apgeog.2008.10.002
Li H, Waley P, Rees P (2001) Reservoir resettlement in China: past experience and the Three Gorges Dam. Geogr J 167:195–212. http://www.jstor.org/stable/3060588
Li YB, Shao J-A, Li YC (2010) The status and prospect of land use/land cover changes in Three Gorges Reservoir Area. J Chongqing Normal University (Nat Sci) 27(2):31–35. doi:10.3969/J.ISSN.1672-6693.2010.02.009 (in Chinese)
Li H, Ma ZZ, Xiang YF (2015) Study on spatiotemporal characteristics of land use change of wanzhou district in the Three Gorges Reservoir Area. Res Soil Water Conserv 22(2):84–89. doi:10.13869/j.cnki.rswc.2015.02.018 (in Chinese)
Liu J, Liu M, Tian H, Zhuang D, Zhang Z, Zhang W, Tang X, Deng X (2005) Spatial and temporal patterns of China’s cropland during 1990–2000: an analysis based on Landsat TM data. Remote Sens Environ 98:442–456. doi:10.1016/j.rse.2005.08.012
Mahmoud SH, Alazba AA (2015) Hydrological response to land cover changes and human activities in arid regions using a geographic information system and remote sensing. PLoS ONE 10(4):e0125805. doi:10.1371/journal.pone.0125805
MEP (2012) National key watershed water pollution prevention plan for 2011—2015. Ministry of Environmental Protection of China, Beijing (in Chinese)
Mondal P, Southworth J (2010) Evaluation of conservation interventions using a cellular automata-Markov model. Forest Ecol Manag 260:1716–1725. doi:10.1016/j.foreco.2010.08.017
Morgan TKKB, Sardelic DN, Waretini AF (2012) The Three Gorges Project : how sustainable. J Hydro 460–461:1–12. doi:10.1016/j.jhydrol.2012.05.008
Nguyen TT, Verdoodt A, Tran VY, Delbecque N, Tran TC, Ranst EV (2015) Design of a GIS and multi-criteria based land evaluation procedure for sustainable land-use planning at the regional level. Agr Ecosyst Environ 200:1–11. doi:10.1016/j.agee.2014.10.015
Nilsson C, Reidy CA, Dynesius M, Revenga C (2005) Fragmentation and flow regulation of the world’s large river systems. Science 308:405–408. doi:10.1126/science.1107887
Orr S, Pittock J, Chapagain A (2012) Dams on the Mrkong River: lost fish protein and the implication for land and water resources. Global Environ Change 22:925–932. doi:10.1016/j.gloenvcha.2012.06.002
Osborne LL, Wiley MJ (1988) Empirical relationships between land use/cover and stream water quality in an agricultural watershed. J Environ Manage 26:9–27
Peng C, Zhang L, Qin H, Li D (2014) Revegetation in the water level fluctuation zone of a reservoir: an ideal measure to reduce the input of nutrients and sediment. Ecol Eng 71:574–577. doi:10.1016/j.ecoleng.2014.07.078
Pontius Jr RG (2000) Quantification error versus location error in comparison of categorical maps. Photogramm Eng Rem Sens 66:1011–1016. http://eserv.asprs.org/PERS/2000journal/aug/2000_aug_1011-1016.pdf
Pontius Jr RG (2002) Statistical methods to partition effects of quantity and location during comparison of categorical maps at multiple resolutions. Photogramm Eng Rem Sens 68:1041–1049. http://eserv.asprs.org/PERS/2002journal/oct/2002_oct_1041-1049.pdf
Sang LL, Zhang C, Yang JY, Zhu DH, Yun WJ (2011) Simulation of land use spatial pattern of towns and villages based on CA–Markov model. Math Comput Model 54:938–943. doi:10.1016/j.mcm.2010.11.019
Sarwar J (1986) The determination of stability and similarity of Markovian land use change processes: a theoretical and empirical analysis. Socio Econ Plan Sci 20:243–251. doi:10.1016/0038-0121(86)90016-9
Schönbrodt-Stitt S, Behrens T, Schmidt K, Shi X, Scholten T (2013a) Degradation of cultivated bench terraces in the Three Gorges Area: field mapping and data mining. Ecol Indic 34:478–493. doi:10.1016/j.ecolind.2013.06.010
Schönbrodt-Stitt S, Bosch A, Behrens T, Hartmann H, Shi X, Scholten T (2013b) Approximation and spatial regionalization of rainfall erosivity based on sparse data in a mountainous catchment of the Yangtze River in Central China. Environ Sci Pollut Res 20(10):6917–6933. doi:10.1007/s11356-012-1441-8
Seeber C, Hartmann H, Xiang W, King L (2010) Land use change and causes in the Xiangxi catchment, Three Gorges area derived from multispectral data. J Earth Sci 21(6):846–855. doi:10.1007/s12583-010-0136-7
Shao HY, Xian W, Yang WN, Zhou WC (2008) Land use/cover change during lately 50 years in Three Gorges Reservoir Area. Chin J Appl Ecol 19(2):453–458 (in Chinese)
Shao J-A, Zhang SC, Wei CF (2013) Remote sensing analysis of land use change in the Three Gorges Reservoir area, based on the construction phase of large-scale water conservancy project. Geogr Res 32(12):2089–2203. doi:10.11821/dlyj201312002 (in Chinese)
Shen G, Xie Z (2004) Three Gorges project: chance and challenge. Science 304:681
Shen Z, Chen L, Hong Q, Qiu J, Xie H, Liu R (2013) Assessment of nitrogen and phosphorus loads and causal factors from different land use and soil types in the Three Gorges Reservoir Area. Sci Total Environ 454–455:383–392. doi:10.1016/j.scitotenv.2013.03.036
Stone R (2008) Three Gorges Dam: into the unknown. Science 321:628–632
Stone R (2011) The legacy of Three gorges dam. Science 333:817
Strehmel A, Schönbrodt-Stitt S, Buzzo G, Dumperth C, Stumpf F, Zimmermann K, Bieger K, Behrens T, Schmidt K, Bi R, Rohn J, Hill J, Udelhoven T, Xiang W, Shi X, Cai Q, Jiang T, Fohrer N, Scholten T (2015) Assessment of Geo-Hazards in a Rapidly Changing Landscape: the Three Gorges Reservoir Region in China. Environ Earth Sci 74:1–22. doi:10.1007/s12665-015-4503-7
Sun DF, Li H, Lin P (2003) Monitoring land use and landscape changes caused by migrant resettlement with remote sensing in Region of Three Gorges of Yangtze River. Trans CSAE 19(5):218–224
Tullos D (2009) Assessing the influence of environmental impact assessments on science and policy: an analysis of the Three Gorges Project. J Environ Manage 90:S208–S223. doi:10.1016/j.jenvman.2008.07.031
Wang G, Song J, Xue BL, Xu X, Otsuki K (2012) Land Use and Land Cover Change of Hulun Lake Nature Reserve in Inner Mongolia, China: a modeling analysis. J Fac Agr Kyushu Univ 57(1):219–225
Wang G, Yang H, Wang L et al (2014a) Using the SWAT model to assess impacts of land use changes on runoff generation in headwaters. Hydrol Process 28:1032–1042. doi:10.1002/hyp.9645
Wang L, Chen C, Zou R, Du J (2014b) Surface gravity and deformation effects of water storage changes in China’s Three Gorges Reservoir constrained by modeled results and in situ measurements. J Appl Geophys 108:25–34. doi:10.1016/j.jappgeo.2014.06.007
Xiao JY, Shen YJ, Ge JF, Tateishi R, Tang CY, Liang YQ, Huang ZY (2006) Evaluating urban expansion and land use change in Shijiazhuang, China, by using GIS and remote sensing. Landsc Urban Plan 75:69–80. doi:10.1016/j.landurbplan.2004.12.005
Xu QG, Liu HL, Xi BD, Shen ZY, Wei ZM (2007) Land use and landscape pattern change in Three Georges Reservoir area. Environ Sci Technol 30(12):83–86 (in Chinese)
Zhang Q, Lou Z (2011) The environmental changes and mitigation actions in the Three Gorges Reservoir region, China. Environ Sci Policy 14(8):1132–1138. doi:10.1016/j.envsci.2011.07.008
Zhang L, Dong LX, Wu BF, Zhou WC (2007) Land cover change before and after the construction of Three Gorges Reservoir within 10 years. Resour Environ Yangtze Basin 16(1):107–112 (in Chinese)
Zhang J, Liu Z, Sun X (2009) Changing landscape in the Three Gorges Reservoir Area of Yangtze River from 1977 to 2005: land use/land cover, vegetation cover changes estimated using multi-source satellite data. Int J Appl Earth Obs 11:403–412. doi:10.1016/j.jag.2009.07.004
Zhang Q, Ban YF, Liu JY, Hu YF (2011) Simulation and analysis of urban growth scenarios for the Greater Shanghai Area, China. Comput Environ Urban Syst 35:126–139. doi:10.1016/j.compenvurbsys.2010.12.002
Zhao Q, Liu S, Deng L et al (2013) Determining the influencing distance of dam construction and reservoir impoundment on land use: a case study of Manwan Dam, Lancang River. Ecol Eng 53:235–242. doi:10.1016/j.ecoleng.2012.12.050
Zhao Y, Zheng B, Wang L, Qin Y, Li H, Cao W (2015) Characterization of mixing processes in the confluence zone between the Three Gorges Reservoir mainstream and the Daning River using stable isotope analysis. Environ Sci Technol. doi:10.1021/acs.est.5b01132
Zhu HY, Li XB (2003) Discussion on the index method of regional land use change. Acta Geogr Sin 58:643–650 (in Chinese)
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The research was financially supported by National Science and Technology Major Project (No. 2012ZX07503-002) and International Science and Technology Cooperation Program (No. 2007DFA90510) of China.
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This article is part of a Topical Collection in Environmental Earth Sciences on "Environmental Research of the Three Gorges Reservoir", guest edited by Binghui Zheng, Shengrui Wang, Yanwen Qin, Stefan Norra, and Xiafu Liu.
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Wang, LJ., Wu, L., Hou, XY. et al. Role of reservoir construction in regional land use change in Pengxi River basin upstream of the Three Gorges Reservoir in China. Environ Earth Sci 75, 1048 (2016). https://doi.org/10.1007/s12665-016-5758-3
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DOI: https://doi.org/10.1007/s12665-016-5758-3