This work is licensed under the Creative Commons Attribution 4.0 International License.
Kertész, Á. (2017). The effect of land degradation on ecosystem services. Ecosystem services of headwater catchments, 207-213.Search in Google Scholar
Liao, Q., Liu, X., & Xiao, M. (2022). Ecological restoration and carbon sequestration regulation of mining areas—a case study of Huangshi city. International Journal of Environmental Research and Public Health, 19(7), 4175.Search in Google Scholar
Zhukov, O., Kunah, O., Fedushko, M., Babchenko, A., & Umerova, A. (2021). Temporal aspect of the terrestrial invertebrate response to moisture dynamic in technosols formed after reclamation at a post-mining site in Ukrainian steppe drylands. Ekológia (Bratislava), 40(2), 178-188.Search in Google Scholar
Shen, Z., Zhang, Q., Chen, D., & Singh, V. P. (2021). Varying effects of mining development on ecological conditions and groundwater storage in dry region in Inner Mongolia of China. Journal of Hydrology, 597, 125759.Search in Google Scholar
Naik, R., & Sharma, L. (2021). Spatio-temporal modelling for the evaluation of an altered Indian saline Ramsar site and its drivers for ecosystem management and restoration. Plos one, 16(7), e0248543.Search in Google Scholar
LIU, Y., HU, X., YUE, H., BI, Y., & PENG, S. (2023). Ecological environmental assessment of Gobi desert open-pit mine based on time series model. COAL SCIENCE AND TECHNOLOGY, 51(12), 125-139.Search in Google Scholar
Lei, H., Peng, Z., Yigang, H., & Yang, Z. (2016). Vegetation and soil restoration in refuse dumps from open pit coal mines. Ecological Engineering, 94, 638-646.Search in Google Scholar
Bao, Q., Ding, J., Han, L., Li, J., & Ge, X. (2022). Predicting land change trends and water consumption in typical arid regions using multi-models and multiple perspectives. Ecological Indicators, 141, 109110.Search in Google Scholar
Li, X., Lei, S., Liu, F., & Wang, W. (2020). Analysis of plant and soil restoration process and degree of refuse dumps in open-pit coal mining areas. International Journal of Environmental Research and Public Health, 17(6), 1975.Search in Google Scholar
Costantini, E. A., Branquinho, C., Nunes, A., Schwilch, G., Stavi, I., Valdecantos, A., & Zucca, C. (2016). Soil indicators to assess the effectiveness of restoration strategies in dryland ecosystems. Solid Earth, 7(2), 397-414.Search in Google Scholar
Lv, X., Xiao, W., Zhao, Y., Zhang, W., Li, S., & Sun, H. (2019). Drivers of spatio-temporal ecological vulnerability in an arid, coal mining region in Western China. Ecological Indicators, 106, 105475.Search in Google Scholar
Ghahramani, A., Bennett, J. M., Ali, A., Reardon-Smith, K., Dale, G., Roberton, S. D., & Raine, S. (2021). A risk-based approach to mine-site rehabilitation: use of bayesian belief network modelling to manage dispersive soil and spoil. Sustainability, 13(20), 11267.Search in Google Scholar
Maihemuti, B., Simayi, Z., Alifujiang, Y., Aishan, T., Abliz, A., & Aierken, G. (2021). Development and evaluation of the soil water balance model in an inland arid delta oasis: Implications for sustainable groundwater resource management. Global Ecology and Conservation, 25, e01408.Search in Google Scholar
Shi, X., Wang, H., Song, J., Lv, X., Li, W., Li, B., & Shi, J. (2021). Impact of saline soil improvement measures on salt content in the abandonment-reclamation process. Soil and Tillage Research, 208, 104867.Search in Google Scholar
Nirola, R., Megharaj, M., Beecham, S., Aryal, R., Thavamani, P., Vankateswarlu, K., & Saint, C. (2016). Remediation of metalliferous mines, revegetation challenges and emerging prospects in semi-arid and arid conditions. Environmental Science and Pollution Research, 23, 20131-20150.Search in Google Scholar
Valliere, J. M., Ruscalleda Alvarez, J., Cross, A. T., Lewandrowski, W., Riviera, F., Stevens, J. C., ... & Veneklaas, E. J. (2022). Restoration ecophysiology: an ecophysiological approach to improve restoration strategies and outcomes in severely disturbed landscapes. Restoration Ecology, 30, e13571.Search in Google Scholar
Cross, A. T., & Lambers, H. (2017). Young calcareous soil chronosequences as a model for ecological restoration on alkaline mine tailings. Science of the Total Environment, 607, 168-175.Search in Google Scholar
Dong, S., Wang, G., Kang, Y., Ma, Q., & Wan, S. (2022). Soil water and salinity dynamics under the improved drip-irrigation scheduling for ecological restoration in the saline area of Yellow River basin. Agricultural Water Management, 264, 107255.Search in Google Scholar
Shaygan, M., Reading, L. P., Arnold, S., & Baumgartl, T. (2018). Modeling the effect of soil physical amendments on reclamation and revegetation success of a saline-sodic soil in a semi-arid environment. Arid Land Research and Management, 32(4), 379-406.Search in Google Scholar
Fathizad, H., Ardakani, M. A. H., Heung, B., Sodaiezadeh, H., Rahmani, A., Fathabadi, A., ... & Taghizadeh-Mehrjardi, R. (2020). Spatio-temporal dynamic of soil quality in the central Iranian desert modeled with machine learning and digital soil assessment techniques. Ecological Indicators, 118, 106736.Search in Google Scholar
Zhang, J., & Zhang, J. (2020). Soil environmental deterioration and ecological rehabilitation. Study of ecological engineering of human settlements, 41-82.Search in Google Scholar
Feng Tian,Qingfeng Miao,Haibin Shi,Ruiping Li,Xu Dou,Jie Duan & Weiying Feng.(2023).Simulating Water and Salt Migration through Soils with a Clay Layer and Subsurface Pipe Drainage System at Different Depths Using the DRAINMOD-S Model.Agronomy(1),Search in Google Scholar
Samantha E. Andres,Charlotte H. Mills,Rachael V. Gallagher & Vanessa M. Adams.(2024).A framework for ecological restoration cost accounting across context and scale.Biological Conservation110671-.Search in Google Scholar
Yuefei Ma,Meiyu Liu,Lu Yang,Zhaolin Sun,Yaohua Liang & Eleni Tsangouri.(2024).A BP neural network prediction model of compressive strength of green bricks in the Ming Dynasty based on CT scanning technique.Construction and Building Materials136873-.Search in Google Scholar
