抽水蓄能电站水库岩质边坡消落带复绿实践及效果评估

doi:10.11988/ckyyb.20240545

raybet体育在线院报 ›› 2025, Vol. 42 ›› Issue (7): 86-93.DOI: 10.11988/ckyyb.20240545

抽水蓄能电站水库岩质边坡消落带复绿实践及效果评估

杨志超¹(), 马萧萧², 常世举¹, 唐玉霜³^,⁴, 赵瑞一⁴(), 万丹³, 张乾柱³

¹ 河南天池抽水蓄能有限公司, 河南南阳 473000
² 国网新源集团有限公司,北京 100052
³ raybet体育在线重庆分院, 重庆 400026
⁴ 重庆交通大学建筑与城市规划学院,重庆 400074

收稿日期:2024-05-21 修回日期:2024-08-06 出版日期:2025-07-01 发布日期:2025-07-01
通信作者:
赵瑞一(1987-),男,河北唐山人,副教授,博士,主要从事岩溶环境与地质生态研究。E-mai1:zhaoruiyi1987@163.com
作者简介:
杨志超(1982-),男,河南信阳人,工程师,主要从事抽水蓄能电站建设与运行管理。E-mail:scyzc0508@163.com
基金资助:
国网新源集团(控股)有限公司科技项目资助项目(SGXYKJ-2022-073)

Regreening Practices and Effectiveness Evaluation for Rocky Slope Drawdown Zones in Pumped Storage Power Station Reservoirs

YANG Zhi-chao¹(), MA Xiao-xiao², CHANG Shi-ju¹, TANG Yu-shuang³^,⁴, ZHAO Rui-yi⁴(), WAN Dan³, ZHANG Qian-zhu³

¹ Henan Tianchi Pumped Storage Co., Ltd., Nanyang 473000, China
² State Grid Xinyuan Holdings Co., Ltd., Beijing 100052, China
³ Chongqing Branch, Changjiang River Scientific Research Institute, Chongqing 400026, China
⁴ School of Architecture and Urban Planning, Chongqing Jiaotong University, Chongqing 400074, China

Received:2024-05-21 Revised:2024-08-06 Published:2025-07-01 Online:2025-07-01

摘要/Abstract

摘要：

水库的修建严重破坏了库岸生态环境,水位的高频大幅涨落导致消落带生态环境恢复困难。选择河南天池抽水蓄能电站水库为研究对象,对其岩质边坡消落带进行生态修复,保障水资源安全。根据消落带生境特征,围绕抽水蓄能电站水库岩质边坡消落带生态修复重大需求,探讨面向植被生长基质构建、植物群落恢复和植被管护的复绿模式。经历一年多的修复后,该水库消落带植被长势较好,各段均未出现断裂及水土流失的现象,植物出水后的恢复、扩展和拓殖能力较强。在抽水蓄能电站水库岩质边坡消落带生态修复时,可将工程措施和生物措施相结合。常露区和水淹交替区采用土工格栅+生态袋+挂网复合技术,常淹区采用长丝生态袋+挂网复合技术,并在各段合理配置中山杉等13种适生植物。研究成果对于科学指导抽水蓄能电站水库岩质边坡消落带植被复绿具有重要意义。

关键词: 岩质边坡消落带, 生态修复, 植被, 复绿实践, 抽水蓄能电站, 河南天池

Abstract:

[Objective] Reservoir construction has severely degraded the ecological environment of reservoir banks. The high-frequency, large-amplitude water level fluctuations make ecological restoration in the drawdown zone particularly challenging. After the operation of Henan Tianchi Pumped Storage Power Station, the water level exhibits significant weekly regulation fluctuations, resulting in large areas of exposed concrete on reservoir banks, severe fragmentation of the drawdown zone, and extreme habitat stress that greatly impedes vegetation restoration. This study focuses on the ecological restoration of the rocky slope drawdown zone in the Henan Tianchi Pumped Storage Power Station reservoir to ensure water resource security. [Methods] To address the severely impaired ecological function of the drawdown zone, this study conducted systematic analysis of habitat characteristics, including hydrological patterns, bank characteristics, non-point source pollution, and plant communities. Focusing on the critical need for ecological restoration in rocky slope drawdown zones of pumped storage reservoirs, this study investigated regreening approaches targeting growth substrate construction, plant community rehabilitation, and vegetation management. [Results] After more than one year of implementation, vegetation in the drawdown zone showed robust growth. No slope failure or soil erosion was observed. Plants exhibited strong resilience in terms of post-submersion recovery, expansion, and colonization, achieving an overall survival rate of 83.2%. Bamboo Willow (Salix sp), Bamboo Willow cuttings (Salix sp), Zhongshan Fir (Taxodium hybrid), Wallich Willow (Salix wallichiana), Chaste Tree (Vitex negundo), Lax-flowered Myricaria (Myricaria laxiflora), Variegated Willow cuttings (Salix variegata), Small Dogwood (Swida paucinervis), and Chinese Distylium (Distylium chinense) all achieved survival rates exceeding 85% and exhibited long-term tolerance to complete submersion. Planting Variegated Willow (Salix variegata) using cuttings was recommended to enhance its survival rate. Through practical restoration efforts within the test area, 13 plant species tolerant to submersion, drought, and barren conditions were selected: Zhongshan Fir (Taxodium hybrid), Bamboo Willow (Salix sp), Wallich Willow (Salix wallichiana), Lax-flowered Myricaria (Myricaria laxiflora), Variegated Willow (Salix variegata), Small Dogwood (Swida paucinervis), Chinese Distylium (Distylium chinense), Chaste Tree (Vitex negundo), Bermuda Grass (Cynodon dactylon), Indian Shot (Canna indica), Lamb’s Quarters (Chenopodium album), Violet Orychophragmus (Orychophragmus violaceus), and Cosmos (Cosmos bipinnatus). [Conclusion] Ecological restoration of rocky slope drawdown zones in pumped storage reservoirs requires an integrated approach combining engineering and biological measures. Engineering measures provide the essential soil substrate for plant growth and ensure vegetation survival. Based on a comprehensive consideration of topography, geology, and water level fluctuation patterns, the geogrid + ecological bag + hanging net composite technique is applied in permanently exposed and alternately submerged zones, while the long-fiber ecological bag + mesh reinforcement composite technique is used in permanently submerged zones. Vegetation measures should adopt a tree-shrub-herb configuration model tailored to the degree of submersion stress and the desired landscape effect. ①Permanently exposed zone. Trees: Bamboo Willow (Salix sp), Zhongshan Fir (Taxodium hybrid), Wallich Willow (Salix wallichiana)+Shrubs: Chaste Tree (Vitex negundo) +Herbs: Cosmos (Cosmos bipinnatus), Violet Orychophragmus (Orychophragmus violaceus), Lamb’s Quarters (Chenopodium album), Indian Shot (Canna indica), and Bermuda Grass (Cynodon dactylon). ②Alternately submerged zone. Trees: Bamboo Willow (Salix sp), Zhongshan Fir (Taxodium hybrid) +Shrubs: Variegated Willow (Salix variegata), Small Dogwood (Swida paucinervis), and Lax-flowered Myricaria (Myricaria laxiflora) +Herbs: Bermuda Grass (Cynodon dactylon). ③Permanently submerged zone. Shrubs: Variegated Willow (Salix variegata), Small Dogwood (Swida paucinervis), and Chinese Distylium (Distylium chinense) +Herbs: Bermuda Grass (Cynodon dactylon). The findings hold significant implications for scientifically guiding regreening efforts in rocky slope drawdown zones of pumped storage power station reservoirs.

Key words: rocky slope drawdown zone, ecological restoration, vegetation, regreening practice, pumped storage power station, Henan Tianchi

中图分类号:

杨志超, 马萧萧, 常世举, 唐玉霜, 赵瑞一, 万丹, 张乾柱. 抽水蓄能电站水库岩质边坡消落带复绿实践及效果评估[J]. raybet体育在线院报, 2025, 42(7): 86-93.

YANG Zhi-chao, MA Xiao-xiao, CHANG Shi-ju, TANG Yu-shuang, ZHAO Rui-yi, WAN Dan, ZHANG Qian-zhu. Regreening Practices and Effectiveness Evaluation for Rocky Slope Drawdown Zones in Pumped Storage Power Station Reservoirs[J]. Journal of Changjiang River Scientific Research Institute, 2025, 42(7): 86-93.

植物类型	生活型	物种数	占比/%
草本	一年生草本	19	22.62
草本	二年生和多年生草本	25	29.76
木本	灌木	18	21.43
木本	乔木	20	23.81
藤本	—	2	2.38

植物类型	生活型	物种数	占比/%
草本	一年生草本	19	22.62
草本	二年生和多年生草本	25	29.76
木本	灌木	18	21.43
木本	乔木	20	23.81
藤本	—	2	2.38

栽植高程	名称	生活型	淹没状态	栽种数/株	存活数/株
常露区 (1 060~ 1 080 m)	皂柳(Salix wallichiana)	乔木	不淹	6	6
	竹柳(Salix sp)枝条扦插	乔木	不淹	10	10
	黄荆(Vitex negundo)	灌木	不淹	60	60
马道 (1 060 m)	竹柳(Salix sp)	乔木	不淹	4	4
马道 (1 060 m)	中山杉(Taxodium hybrid)	乔木	不淹	4	4
水淹交替区 (1 040~ 1 060 m)	秋华柳(Salix variegata)	灌木	半淹	65	10
	小梾木(Swidapaucinervis)	灌木	半淹	65	51
	疏花水柏枝 (Myricarialaxiflora)	灌木	半淹	160	160
	竹柳(Salix sp)枝条扦插	乔木	半淹	10	10
	秋华柳(Salix variegata) 枝条扦插	灌木	半淹	25	25
马道 (1 040 m)	竹柳(Salix sp)	乔木	半淹	4	4
马道 (1 040 m)	中山杉(Taxodium hybrid)	乔木	半淹	4	4
常淹区 (1 020~ 1 040 m)	秋华柳(Salix variegata)	灌木	全淹	65	31
	小梾木(Swidapaucinervis)	灌木	全淹	65	62
	中华蚊母(Distyliumchinense)	灌木	全淹	65	64
	秋华柳(Salix variegata) 枝条扦插	灌木	全淹	25	25

栽植高程	名称	生活型	淹没状态	栽种数/株	存活数/株
常露区 (1 060~ 1 080 m)	皂柳(Salix wallichiana)	乔木	不淹	6	6
	竹柳(Salix sp)枝条扦插	乔木	不淹	10	10
	黄荆(Vitex negundo)	灌木	不淹	60	60
马道 (1 060 m)	竹柳(Salix sp)	乔木	不淹	4	4
马道 (1 060 m)	中山杉(Taxodium hybrid)	乔木	不淹	4	4
水淹交替区 (1 040~ 1 060 m)	秋华柳(Salix variegata)	灌木	半淹	65	10
	小梾木(Swidapaucinervis)	灌木	半淹	65	51
	疏花水柏枝 (Myricarialaxiflora)	灌木	半淹	160	160
	竹柳(Salix sp)枝条扦插	乔木	半淹	10	10
	秋华柳(Salix variegata) 枝条扦插	灌木	半淹	25	25
马道 (1 040 m)	竹柳(Salix sp)	乔木	半淹	4	4
马道 (1 040 m)	中山杉(Taxodium hybrid)	乔木	半淹	4	4
常淹区 (1 020~ 1 040 m)	秋华柳(Salix variegata)	灌木	全淹	65	31
	小梾木(Swidapaucinervis)	灌木	全淹	65	62
	中华蚊母(Distyliumchinense)	灌木	全淹	65	64
	秋华柳(Salix variegata) 枝条扦插	灌木	全淹	25	25

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抽水蓄能电站水库岩质边坡消落带复绿实践及效果评估

Regreening Practices and Effectiveness Evaluation for Rocky Slope Drawdown Zones in Pumped Storage Power Station Reservoirs

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