[1] L Chen K, X Wang, D Li et al. Driving force of the morphological change of the urban lake ecosystem: A case study of Wuhan, 1990-2013. Ecological Modelling, 318, 204-209(2015).

[2] Y Chi, W Zheng, H Shi H et al. Spatial heterogeneity of estuarine wetland ecosystem health influenced by complex natural and anthropogenic factors. Science of the Total Environment, 634, 1445-1462(2018).

[3] F Cuffney T, A Brightbill R, T May J et al. Responses of benthic macroinvertebrates to environmental changes associated with urbanization in nine metropolitan areas. Ecological Applications, 20, 1384-1401(2010).

[4] J Cui L, J Gao C, S Zhao X et al. Dynamics of the lakes in the middle and lower reaches of the Yangtze River Basin, China, since late nineteenth century. Environmental Monitoring and Assessment, 185, 4005-4018(2013).

[5] X Dai, S Yang G, R Wan R et al. The effect of the Changjiang River on water regimes of its tributary Lake East Dongting. Journal of Geographical Sciences, 28, 1072-1084(2018).

[6] X Dai, R Wan R, GS Yang. Non-stationary water-level fluctuation in China’s Poyang Lake and its interactions with Yangtze River. Journal of Geographical Sciences, 25, 274-288(2015).

[7] Y Deng, G Jiang W, H Tang Z et al. Spatio-temporal change of lake water extent in Wuhan urban agglomeration based on Landsat images from 1987 to 2015. Remote Sensing, 9, 270(2017).

[8] L Ding, L Chen K, G Cheng S et al. Water ecological carrying capacity of urban lakes in the context of rapid urbanization: A case study of East Lake in Wuhan. Physics and Chemistry of the Earth, Parts A/B/C, 89, 104-113(2015).

[9] R Du N, H Ottens, R Sliuzas. Spatial impact of urban expansion on surface water bodies: A case study of Wuhan, China. Landscape and Urban Planning, 94, 175-185(2010).

[10] F Han L, P Xu Y, L Yang et al. Temporal and spatial change of stream structure in Yangtze River Delta and its driving forces during 1960s-2010s. Acta Geographica Sinica, 70, 819-827(2015).

[11] D Huang W, J Liao J, Z Shen G. Lake change in past 40 years in the southern Nagqu District of Tibet and analysis of its driving forces. Remote Sensing for Land and Resources, 24, 122-128(2012).

[12] P Ji, D Guo H, L Zhang. Remote sensing study of glacier dynamic change in West Kunlun Mountains in the past 20 years. Remote Sensing for Land and Resources, 25, 93-98(2013).

[13] C Jiang, Q Pan S, L Chen S. Recent morphological changes of the Yellow River (Huanghe) submerged delta: Causes and environmental implications. Geomorphology, 293, 93-107(2017).

[14] H Jiang Q, F Liu Y, J Huang P. The source-sink effect between urban diffuse pollution and Lake watershed: A case study in East Lake of Wuhan. Ecology and Environmental Sciences, 22, 469-474(2013).

[15] G Jiang W, Z Pan Y, P Hou et al. Assessment and analysis of wetland ecosystem health in Dongting Lake. Geographical Research, 28, 1665-1671(2009).

[16] G Jin, K Chen, P Wang et al. Trade-offs in land-use competition and sustainable land development in the North China Plain. Technological Forecasting and Social Change, 141, 36-46(2019).

[17] G Jin, Z Deng X, X Chu et al. Optimization of land-use management for ecosystem service improvement: A review. Physics and Chemistry of the Earth, Parts A/B/C, 101, 70-77(2017).

[18] G Jin, Z Deng X, D Zhao X et al. Spatiotemporal patterns in urbanization efficiency within the Yangtze River Economic Belt between 2005 and 2014. Journal of Geographical Sciences, 28, 1113-1126(2018).

[19] G Jin, H Li Z, Z Deng X et al. An analysis of spatiotemporal patterns in Chinese agricultural productivity between 2004 and 2014. Ecological Indicators, 105, 591-600(2019).

[20] R Kearns F, M Kelly N, L Carter J et al. A method for the use of landscape metrics in freshwater research and management. Landscape Ecology, 20, 113-125(2005).

[21] H Kong F, N Nakagoshi. Spatial-temporal gradient analysis of urban green spaces in Jinan, China. Landscape and Urban Planning, 78, 147-164(2006).

[22] D Li G, A Sun S, L Fang C. The varying driving forces of urban expansion in China: Insights from a spatial-temporal analysis. Landscape and Urban Planning, 174, 63-77(2018).

[23] B Li H, S Yu, L Li G et al. Spatial distribution and historical records of mercury sedimentation in urban lakes under urbanization impacts. Science of the Total Environment, 445, 117-125(2013).

[24] N Li, L Yang, W Deng X et al. Aquatic plant diversity in relation to lake morphology in the middle and lower reaches of the Yangtze River. Plant Science Journal, 36, 65-72(2018).

[25] C Li S, L Bing Z, G Jin. Spatially explicit mapping of soil conservation service in monetary units due to land use/cover change for the Three Gorges Reservoir Area, China. Remote Sensing, 11, 468(2019).

[26] M Malavasi, M Carboni, M Cutini et al. Landscape fragmentation, land-use legacy and propagule pressure promote plant invasion on coastal dunes: A patch-based approach. Landscape Ecology, 29, 1541-1550(2014).

[27] K McFeeters S. The use of the Normalized Difference Water Index (NDWI) in the delineation of open water features. International Journal of Remote Sensing, 17, 1425-1432(1996).

[28] Y Niu, W Jiao, H Yu et al. Spatial evaluation of heavy metals concentrations in the surface sediment of Taihu Lake. International Journal of Environmental Research and Public Health, 12, 15028-15039(2015).

[29] O Ouma Y, R Tateishi. A water index for rapid mapping of shoreline changes of five East African Rift Valley lakes: An empirical analysis using Landsat TM and ETM+ data. International Journal of Remote Sensing, 27, 3153-3181(2006).

[30] Z Pei L, P Yan D, X Zhang H et al. Research on evolution characteristics and causes of urban lakes in Wuhan from 1960s. Geology and Mineral Resources of South China, 34, 78-86(2018).

[31] A Peters J, J Cooper M, M Creque S et al. Historical changes and current status of crayfish diversity and distribution in the Laurentian Great Lakes. Journal of Great Lakes Research, 40, 35-46(2014).

[32] W Qian D, J Gong, J Gao Y. Spatial-temporal difference and landscape pattern evolution of desertification in the middle reaches of the Heihe River: A case study of Linze County in Gansu. Journal of Arid Land Resources and Environment, 29, 85-90(2015).

[33] M Sahana, Y Hong H, H Sajjad. Analyzing urban spatial patterns and trend of urban growth using urban sprawl matrix: A study on Kolkata urban agglomeration, India. Science of the Total Environment, 628/629, 1557-1566(2018).

[34] H Shaikh Y, M Phathan J, F Maqdoom et al. Application of fractal geometry to lakes. Archives of Physics Research, 1, 147-170(2010).

[35] W Tang Z, L Cheng J, Y Yue. Accumulations and risks of heavy metals in the sediments from 8 typical lakes in Wuhan, China. Journal of Lake Sciences, 21, 61-68(2009).

[36] L Tsai W, R McHale M, V Jennings et al. Relationships between characteristics of urban green land cover and mental health in U.S. metropolitan areas. International Journal of Environmental Research and Public Health, 15, 340(2018).

[37] L Wang, H Liu. Comprehensive evaluation of regional resources and environmental carrying capacity using a PS-DR-DP theoretical model. Journal of Geographical Sciences, 29, 363-376(2019).

[38] G Wang W. Thoughts on the urbanization transformation of Wuhan. Yangtze Tribune, 33-35(2009).

[39] L Wang X, M Ning L, J Yu. Changes of urban wetland landscape pattern and impacts of urbanization on wetland in Wuhan city. Chinese Geographical Science, 18, 47-53(2008).

[40] J Wu. An empirical study of Wuhan lakefront landscape change [D]. Wuhan: Huazhong University of Science and Technology(2010).

[41] J Wu, H Xie. Research on characteristics of changes of lakes in Wuhan’s main urban area. Procedia Engineering, 21, 395-404(2011).

[42] H Wu Y, X Zhang, X Zheng H et al. Investigating changes in lake systems in the south-central Tibetan Plateau with multi-source remote sensing. Journal of Geographical Sciences, 27, 337-347(2017).

[43] K Xu, F Kong C, G Liu et al. Changes of urban wetlands in Wuhan, China, from 1987 to 2005. Progress in Physical Geography: Earth and Environment, 34, 207-220(2010).

[44] H Yang B, L Ke X. Analysis on urban lake change during rapid urbanization using a synergistic approach: A case study of Wuhan, China. Physics and Chemistry of the Earth, Parts A/B/C, 89, 127-135(2015).

[45] F Yang Z, W Tang Z, Y Shen Z et al. One-hundred-year sedimentary record of polycyclic aromatic hydrocarbons in urban lake sediments from Wuhan, Central China. Water, Air, and Soil Pollution, 217, 577-587(2011).

[46] B Ye G, Z Su W, X Sun X. Simulation of the built-up land expansion based on the Dyna-CLUE Model in Taihu Basin. Resources and Environment in the Yangtze Basin, 27, 725-734(2018).

[47] G Zeng, J Gao H, G Zhu. Analysis of wetlands evolution process between Tarim Basin and Junggar Basin in the past 32 years. Remote Sensing for Land and Resources, 25, 118-123(2013).

[48] A Zeng H, L Wu J. Heavy metal pollution of lakes along the mid-lower reaches of the Yangtze River in China: Intensity, sources and spatial patterns. International Journal of Environmental Research and Public Health, 10, 793-807(2013).

[49] Q Zhang L, Z Wang H. Planning an ecological network of Xiamen Island (China) using landscape metrics and network analysis. Landscape and Urban Planning, 78, 449-456(2006).

[50] P Zhang X, Z Gong Z. Spatiotemporal characteristics of urban air quality in China and geographic detection of their determinants. Journal of Geographical Sciences, 28, 563-578(2018).

[51] L Zhong. The study on waterfront landscape of urban lake sceneries: Taking Wuhan East Lake as an example. Beijing: Central Academy of Fine Arts(2008).

[52] M Zhou, F Zhang, J Wang et al. Effect of landscape pattern scale in the Ebinur Lake watershed, Xinjiang. Arid Zone Research, 34, 1184-1195(2017).

[53] H Zou Z, W Dong J, A Menarguez M et al. Continued decrease of open surface water body area in Oklahoma during 1984-2015. Science of the Total Environment, 595, 451-460(2017).