Aiming to the technical needs in ecological restoration of the abandoned terrestrial fields, a practical evaluation and optimization system was suggested from the perspective of ecological security. The system mainly included site investigation, classification of contamination, establishment of resistance factor and model analysis, ecological security evaluation, as well as comparison and optimization of remediation strategies. Besides, a specific case was presented to apply this ecological security evaluation and optimization system at a typical contaminated site. This study provided a scientific and quantitative method for the strategy determination of microscale ecological remediation in abandoned terrestrial field.
谭豪波, 赵岩, 孙峥, 陈家军, 马俊伟. 废弃场地修复的微尺度生态安全评估优化体系[J]. 中国环境科学, 2016, 36(7): 2169-2177.
TAN Hao-bo, ZHAO Yan, SUN Zheng, CHEN Jia-jun, MA Jun-wei. Ecological security evaluation and optimization system for microscale remediation of abandoned terrestrial field. CHINA ENVIRONMENTAL SCIENCECE, 2016, 36(7): 2169-2177.
Sun Z, Chen J, Wang X, et al. Heavy metal accumulation in native plants at a metallurgy waste site in rural areas of Northern China [J]. Ecological Engineering, 2016,86:60-68.
[2]
Ali H, Khan E, Sajad M. Phytoremediation of heavy metals- concepts and applications [J]. Chemosphere, 2013,91:869-881.
[3]
王起明.巴东黄土坡搬迁遗址生态修复规划研究 [D]. 武汉:华中农业大学, 2013.
[4]
Bireescu L, Bireescu G, Geanina C, et al. Ecopedological research for ecological rehabilitation of degraded lands from Eastern Romania [J]. Soil and Water Research, 2010,5(3):96-101.
[5]
Forman RTT. Some general-principles of landscape and regional ecology [J]. Landscape Ecology, 1995,10(3):133-142.
Ye Y, Su Y, Zhang H,et al. Construction of an ecological resistance surface model and its application in urban expansion simulations [J]. Journal of Geographical Sciences, 2015,25(2): 211-224.
