Experimental study on the preparation of ecological restoration base material and planting performance on alpine rocky slope
ZHANG Yubo1, ZOU Guofu2, YANG Jiqing1, SUN Xining2, LI Xinyi2, WEI Qingxi2, LEI Ping1, LI Bolin1
1. Faculty of Architecture and Engineering, Yunnan Agricultural University, 650500, Kunming, China; 2. Kunming Prospecting Design Institute of China Nonferrous Metals Industry Co., Ltd., 650051, Kunming, China
Abstract:[Background] The excavation of mineral resources has formed a large number of rock slopes,the rock surface is exposed and severely weathered,with serious soil erosion and inducing a series of ecological and environmental disasters such as geological disasters in mines.Good ecological substrate can well suppress soil erosion and restore the ecological environment.[Methods] In order to prepare an ecological substrate with good plant growth performance, strong soil and water conservation ability and suitable for ecological restoration of rocky steep slopes in alpine regions, the ecological slope protection base materials with different proportions were used by field base experiment, trolley slope simulation test and multi factor orthogonal test. In order to better conform to the on-site construction process, the substrate layer was divided into structural layer and surface layer to carry out plant performance research respectively. Through comprehensive seed germination rate and plant growth, the plantation performance of the substrate was evaluated.[Results] The extremely poor analysis found that when the pottery grains and walnut shell particles in the substrate structure layer were 7.50 g each, the grain husks and straw nodes of 2.50 g and 1.25 g respectively, the EPS of 0.10 g, the soil conditioner PAM of 1.50 g, and the water retention agent took 0.50 g, the plantation performance of the substrate structural layer was the best. The primary and secondary relationship of the influenc on the growth of tall fescue in the structural layer substrate was:ceramsite, walnut shell>soil conditioner PAM>chaff, straw>EPS>water retaining agent. When the straw was 2.50 g, the chaff was 7.50 g, the EPS was 0.30 g, the soil conditioner PAM was 0.40 g, and the water retaing agent was 0.20 g, the planting performance of the substrate surface was the best. The primary and secondary relationship of the influence on the growth of tall fescue in the surface layer substrate was:straw >water retaining agent>chaff>soil conditioner PAM>EPS.[Conclusions] Through the experimental study of the planting performance of ecological slope protection substrates, it provides an ecological slope protection substrate with simple preparation process,excellent plant growth performance andstrong soil and water conservation ability for the ecological restoration and water and soil conservation of rock steep slopes in alpine and altitude mines, and provides technical support for the ecological environment restoration of rock slopes in Northwest Yunnan.
张玉波, 邹国富, 杨继清, 孙熙宁, 李欣怡, 魏庆喜, 雷平, 李博林. 高寒岩质边坡生态修复基材制备及植生性能试验[J]. 中国水土保持科学, 2023, 21(4): 132-143.
ZHANG Yubo, ZOU Guofu, YANG Jiqing, SUN Xining, LI Xinyi, WEI Qingxi, LEI Ping, LI Bolin. Experimental study on the preparation of ecological restoration base material and planting performance on alpine rocky slope. SSWC, 2023, 21(4): 132-143.
和建萍, 施汉昌. 滇西北高海拔生态脆弱地区矿产资源开采的潜在生态风险与控制对策研究[J]. 三峡环境与生态, 2013, 35(S1):1. HE Jianping, SHI Hanchang. Potential ecological risks and control strategies in mineral resources exploitation process infragile ecological area with high-altitude in northwestern Yunnan province[J]. Environmental Impact Assessment,2013, 35(S1):1.
[2]
卢敦华, 王星华. 岩质边坡生态护坡中基材选择试验分析[J]. 科技导报, 2009, 27(3):51. LU Dunhua, WANG Xinghua. Selection of substrate in ecological protection technique of rock slope[J].Science & Technology Review, 2009, 27(3):51.
[3]
肖衡林, 马强, 叶建军, 等.水泥泥炭与纤维基干喷生态护坡基材配方优化及现场试验[J]. 农业工程学报, 2015, 31(2):221. XIAO Henglin, MA Qiang, YE Jianjun,et al. Optimization on formulation of peat-fiber-cement-based dry-sprayed substrate for slope ecological protection by site experiment[J]. Transactions of the CSAE, 2015, 31(2):221.
[4]
XU Hua, LI Tianbin, CHEN Jiannan, et al. Characteristics and applications of ecological soil substrate for rocky slope vegetation in cold and high-altitude areas[J]. Science of the Total Environment, 2017, 609(31 December 2017):446.
[5]
蓝群力, 张新天, 卞立波, 等.高陡岩石边坡植被恢复组合结构与材料性能研究[J]. 材料导报, 2019, 33(S2):143. LAN Qunli, ZHANG Xintian, BIAN Libo, et al. Study on vegetationrestoration structure and material properties of high and steep rock slopes[J]. Materials Reports,2019, 33(S2):143.
[6]
唐淳雨. 砒砂岩边坡生态修复及其稳定性研究[D].湖南湘潭:湘潭大学, 2021:5. TANG Chunyu. Research on the ecological restoration and stability for Pisha sandstone slope[D].Xiangtan,Hunan:Xiangtan University,2021:5.
[7]
LUO Yangmin, ZHOU Depei, ZHANG Junyun. Experiments on a new material for the ecological protection of rock slopes[J]. Energy Procedia, 2012, 16:272.
[8]
余杨, 杨振杰, 张建生, 等.不同根部微灌水器对云南红壤和黄沙土水分分布的影响[J]. 农业工程学报, 2015, 31(19):84. YU Yang, YANG Zhenjie, ZHANG Jiansheng, et al. Impacts of different root miroirrigation emitters on water distribution of red loam and yellow sand soils in Yunnan[J].Transactions of the CSAE,2015, 31(19):84.
[9]
赵志国. Minitab在选煤试验设计与数据分析中的应用[J]. 选煤技术, 2015, 3:78. ZHAO Zhiguo. Application of Minitab in experiment design and data analysis of coal preparation[J]. Coal Preparation Technology, 2015, 3:78.
[10]
彭泉. 生态护坡基材性能及植物配置试验研究[D]. 武汉:湖北工业大学, 2011:20. PENG Quan.Experiment of performance of basis material andplant furnishing for ecology protection of slope[D].Wuhan:Hubei University of Technology,2011:20.
2023, Vol. 21 
