[1] C Avon, L Bergès. Prioritization of habitat patches for landscape connectivity conservation differs between least-cost and resistance distances. Landscape Ecology, 31, 1551-1565(2016).
[2] S Azaele, A Maritan, J Cornell S et al. Towards a unified descriptive theory for spatial ecology: Predicting biodiversity patterns across spatial scales. Methods in Ecology and Evolution, 6, 324-332(2015).
[3] C Blatti, S Sinha. Characterizing gene sets using discriminative random walks with restart on heterogeneous biological networks. Bioinformatics, 32, 2167-2175(2016).
[4] S Blazquez-Cabrera, A Gastón, P Beier et al. Influence of separating home range and dispersal movements on characterizing corridors and effective distances. Landscape Ecology, 31, 2355-2366(2016).
[7] X Chen M, D Liu W, D Lu D et al. Progress of China’s new-type urbanization construction since 2014: A preliminary assessment. Cities, 78, 180-193(2018).
[8] A Correa Ayram C, E Mendoza M, A Etter et al. Habitat connectivity in biodiversity conservation: A review of recent studies and applications. Progress in Physical Geography, 40, 7-37(2016).
[9] K Costanza J, J Terando A. Landscape connectivity planning for adaptation to future climate and land-use change. Current Landscape Ecology Reports, 4, 1-13(2019).
[10] A Dobrynin A, A Kochetova A. Degree distance of a graph: A degree analogue of the Wiener index. Journal of Chemical Information and Computer Sciences, 34, 1082-1086(1994).
[11] J Fan. “Territorial system of human-environment interaction”: A theoretical cornerstone for comprehensive research on formation and evolution of the geographical pattern. Acta Geographica Sinica, 73, 597-607(2018).
[12] V Ferretti, S Pomarico. An integrated approach for studying the land suitability for ecological corridors through spatial multicriteria evaluations. Environment, Development and Sustainability, 15, 859-885(2013).
[13] Q Huang, Y Zeng, Q Jiang. Progress and prospect of the study on “making great efforts to promote ecological civilization construction”. China Population, Resources and Environment, 25, 111-120(2015).
[14] 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).
[15] 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, 101, 70-77(2017).
[16] 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).
[17] 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).
[18] J Klein D, M Randić. Resistance distance. Journal of Mathematical Chemistry, 12, 81-95(1993).
[19] A Kupfer J. Landscape ecology and biogeography: Rethinking landscape metrics in a post-FRAGSTATS landscape. Progress in Physical Geography, 36, 400-420(2012).
[20] B Leonard P, B Duffy E, F Baldwin R et al. Gflow: Software for modelling circuit theory-based connectivity at any scale. Methods in Ecology and Evolution, 8, 519-526(2017).
[21] 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).
[22] T Liu H, L Tian L, Y Tian et al. Exploring the spatial expression and governance policies of urban sprawl in Wuhan. Economic Geography, 35, 47-53(2015).
[23] H Luo F, X Liu Y, J Peng et al. Assessing urban landscape ecological risk through an adaptive cycle framework. Landscape and Urban Planning, 180, 125-134(2018).
[24] M Martin D, M Mazzotta, J Bousquin. Combining ecosystem services assessment with structured decision making to support ecological restoration planning. Environmental Management, 62, 608-618(2018).
[25] H McRae B, P Beier. Circuit theory predicts gene flow in plant and animal populations. Proceedings of the National Academy of Sciences, 104, 19885-19890(2007).
[26] H McRae B, G Dickson B, H Keitt T et al. Using circuit theory to model connectivity in ecology, evolution and conservation. Ecology, 89, 2712-2724(2008).
[27] M Nunes D, A Tomé, D Pinheiro M. Urban-centric resilience in search of theoretical stabilisation? A phased thematic and conceptual review. Journal of Environmental Management, 230, 282-292(2019).
[28] J Peng, L Li H, X Liu Y et al. Identification and optimization of ecological security pattern in Xiong’an New Area. Acta Geographica Sinica, 73, 701-710(2018).
[29] J Peng, X Liu Y, S Wu J et al. Linking ecosystem services and landscape patterns to assess urban ecosystem health: A case study in Shenzhen City, China. Landscape and Urban Planning, 143, 56-68(2015).
[31] D Roopnarine P, G Byars, P Fitzgerald. Anagenetic evolution, stratophenetic patterns, and random walk models. Paleobiology, 25, 41-57(1999).
[32] F Spear S, N Balkenhol, J Fortin M et al. Use of resistance surfaces for landscape genetic studies: Considerations for parameterization and analysis. Molecular Ecology, 19, 3576-3591(2010).
[33] K Thulasiraman, M Yadav, K Naik. Network science meets circuit theory: Resistance distance, Kirchhoff index, and Foster’s theorems with generalizations and unification. IEEE Transactions on Circuits and Systems I: Regular Papers, 66, 1090-1103(2019).
[39] D Zhou, C Xu J, L Wang et al. Assessing urbanization quality using structure and function analyses: A case study of the urban agglomeration around Hangzhou Bay (UAHB), China. Habitat International, 49, 165-176(2015).