International Journal of New Developments in Engineering and Society, 2022, 6(3); doi: 10.25236/IJNDES.2022.060301.
Xingxing Chen, Wenjie Xia
School of Urban Construction Yangtze University, Jingzhou, China
At present, the core problem of urban landscape urgently to be solved is how to use water reasonably and efficiently. Of urban concept sponge core problems, and analysis on the importance of urban water-saving landscape landscape greening plant species reasonable configuration, application of water reuse technology, combined with ecological water use of engineering design, construction of urban landscape, water saving so as to improve the economic benefit, environmental benefit and social benefit.
Sponge city; Urban landscape; Water-saving landscape; Green plants; Water pollution; Water shortage
Xingxing Chen, Wenjie Xia. Construction strategy of water-saving landscape in urban gardens under sponge city background. International Journal of New Developments in Engineering and Society (2022) Vol.6, Issue 3: 1-6. https://doi.org/10.25236/IJNDES.2022.060301.
 Jiang, A. Z., & Mcbean, E. A. (2021). Sponge city: using the "one water" concept to improve understanding of flood management effectiveness. Water, 13(5), 583.
 Ding, K., & Zhang, Y. (2021). Practical research on the application of sponge city reconstruction in pocket parks based on the analytic hierarchy process. Complexity, 2021(2), 1-10.
 Guan, X., Wang, J., & Xiao, F. (2021). Sponge city strategy and application of pavement materials in sponge city. Journal of Cleaner Production, 303(1), 127022.
 Liang, C., Zhang, X., Xia, J., Xu, J., & She, D. (2020). The effect of sponge city construction for reducing directly connected impervious areas on hydrological responses at the urban catchment scale. Water, 12(4), 1163.
 Wang, K., Zhang, L., Zhang, L., & Cheng, S. (2020). Coupling coordination assessment on sponge city construction and its spatial pattern in henan province, china. Water, 12(12), 3482.
 Chen, Y., & Chen, H. (2020). The collective strategies of key stakeholders in sponge city construction: a tripartite game analysis of governments, developers, and consumers. Water, 12(4), 1087.
 Men, H., Lu, H., Jiang, W., & Xu, D. (2020). Mathematical optimization method of low-impact development layout in the sponge city. Mathematical Problems in Engineering, 2020(2), 1-17.
 Song, J., Wang, J., Xi, G., & Lin, H. (2020). Evaluation of stormwater runoff quantity integral management via sponge city construction: a pilot case study of jinan. Urban Water Journal, 18(3), 1-12.
 Li, R., & Zhang, C. (2020). Selection and application of garden plants in the construction of sponge city in northwest china. Journal of Coastal Research, 103(sp1), 1139.
 D Li, Deng, L., & Cai, Z. (2020). Evaluation method of sponge city potential based on neural network and fuzzy mathematical evaluation. Journal of Intelligent and Fuzzy Systems, 39(4), 5487-5498.
 Y Ma, Y Jiang, & Swallow, S. (2020). China's sponge city development for urban water resilience and sustainability: a policy discussion. Science of The Total Environment, 729(1), 139078.
 Nguyen, T. T., Ngo, H. H., Guo, W., & Wang, X. C. (2020). A new model framework for sponge city implementation: emerging challenges and future developments. Journal of Environmental Management, 253(Jan.1), 109689.1-109689.14.
 Li, S., R Liu, & Wang, P. (2020). Optimization of dust-containing rain water percolation system for traffic roads in coastal ecological sponge cities. Journal of Coastal Research, 95(sp1), 62.
 Qi, Y., Ka, F., Chan, S., Thorne, C., & Nz. (2020). Addressing challenges of urban water management in chinese sponge cities via nature-based solutions. Water, 12(2788), 1-24.
 LIANG L Q. (2021).Optimal Planning Simulation of Color Balance Layout of Urban Ecological Landscape. Computer Simulation, 38(07):397-400.