[1]王瀚文,杨智勇,万 娟,等. 基于层次分析法的风电场边坡生态修复植物优选[J].湖北工业大学学报,2020,(4):69-74.
 WANG Hanwen,YANG Zhiyong,WAN Juan,et al. Optimization of Plants for Ecological Restoration of Wind Farm Slope Based on Analytic Hierarchy Process[J].,2020,(4):69-74.
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 基于层次分析法的风电场边坡生态修复植物优选()
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《湖北工业大学学报》[ISSN:1003-4684/CN:42-1752/Z]

卷:
期数:
2020年第4期
页码:
69-74
栏目:
湖北工业大学学报
出版日期:
2020-08-31

文章信息/Info

Title:
 Optimization of Plants for Ecological Restoration of Wind Farm Slope Based on Analytic Hierarchy Process
文章编号:
1003-4684(2020)04-0069-06
作者:
 王瀚文1 杨智勇12 万 娟12 李 准1
 1 湖北工业大学土木建筑与环境学院, 湖北 武汉 430000;
 2 湖北省生态道路工程研究中心, 湖北 武汉 430000
Author(s):
 WANG Hanwen1YANG Zhiyong12WAN Juan12LI Zhun1
 1 School of Civil Engin.,Architecture and Environment,Hubei Univ.of Tech.,Wuhan 430068,China:
 2 Hubei Eco-Road Engineering Research Center,Wuhan 430000,China
关键词:
 风电场 生态修复 层次分析法 筛选 优质植物
Keywords:
 ecological restorationwind farmanalytic hierarchy processscreeninghigh quality plant
分类号:
S19, X37
文献标志码:
A
摘要:
 为修复随州风电场建设导致的裸露边坡,保障风电场的绿色发展,依据生态修复的原则,结合植物的各种特性,进行生态修复植物的优选。首先根据现场调研的成果确定22种初筛植物,再利用层次分析法构造出植物优选层次图,然后从适应性、抗逆性、经济性、再生性以及景观性五个因素进行权重排序,再根据因素层权重得到目标权值,最终在此基础上筛选出适合本地区生态修复的优质植物。研究结果为适合修复该区域的九种优质植物:草本类植物为狗牙根、高羊茅、三叶草;灌木类植物为胡枝子、盐肤木、多花木兰;乔木类植物为构树、侧柏、松树,研究成果可为风电场区边坡的生态修复提供参考。在后续研究中可根据具体的地理环境条件,将理论与实践相结合,对植物进行更合理的权重赋值,对植被恢复效果做长期观测与研究。
Abstract:
 To repair bare slope in wind farm area and guarantee the green development of wind farm, according to the principle of ecological restoration, and combined with various characteristics of plants, the optimization of ecological restoration plants is carried out. 22 species of primary screening plants are first determined according to the results of field investigation, and then the hierarchical chart of plant optimization is constructed by using the analytic hierarchy process. Then, the weights of adaptability, resistance, economy, regeneration and landscape are sorted, and the target weights are obtained according to the weights of factor layers. Finally, the high-quality plants suitable for the ecological restoration of the region are selected on this basis. The results show that there are nine high quality plants suitable for restoration in this area:Cynodon dactylon,festuca arundinacea and Oxalis which belong to herbaceous plants;Lespedeza bicolor,Rhus chinensis and Magnolia multiflora which belong to shrub;Broussonetia papyrifera,platycladus orientalis and pines which belong to tree. The research results can provide reference for ecological restoration of slope in wind farm area. In the follow-up study, we can combine theory with practice according to the specific geographical environment conditions, and assign more reasonable weights to plants. Long-term observation and research are needed for the effect of vegetation restoration.

参考文献/References:

[1] 汪鑫.风电场的建设对环境影响分析[J].湖北农机化,2019(10):12-13.
[2] 黄金岩.风电场建设项目生态环境影响及保护对策[J].低碳技术,2017(12):113-114.
[3] 张文静.风电场选址探究[J].湖北农机化,2019(13):82-83.
[4] 柴亚凡,马金珠,周波,等.戈壁荒漠区风电场建设对水土流失的影响[J].水土保持通报,2014,34(2):124-127.
[5] 王淼,杨月梅,曹艳芳,等.风电场建设对区域环境影响及生态修复对策探究[J].科技创新与应用,2017(6):178-179.
[6] 毕娜,浅谈铁岭地区风电场生态修复技术要求[J]. 环境保护与循环经济,2014,34(11):54-55,66.
[7] Xu Kang,He Lingchao,Hu Hanjian,et al. Positive ecological effects of wind farms on vegetation in China’s Gobi desert[J]. Scientific reports,2019,9(1):1-11.
[8] 刘浩军,杨卫斌,胡蒋霞.绿色发展当典范——江西永丰风电场修复[J].国土绿化,2018(9):66-69.
[9] 刘胜,顾小华.云南风电建设区生态修复区划及对策研究[J].环境与可持续发展,2017(1):122-125.
[10] 黄元贞,刘海平,马良,等.基于层次分析法评价12种虾脊兰属植物的观赏性和生长适应性[J].福建农业大学学报,2018,47(6):667-672.
[11] 王月,李东亮.基于层次分析法的采石场生态恢复植物选择[J].河北工程大学学报,2013,30(3):96-99.
[12] 段军,梁智广.基于模糊层次分析法的采矿方法优选[J].化工矿物与加工,2017(12):53-56. 
[13] 汪绿培,陈新新.基于模糊层次--主成分分析法的河道生态护坡综合评价[J].水利科技与经济,2018,24(8):38-42.
[14] Amine Belhadi,Fatima Ezahra Touriki,Said Elfezazi.Evaluation of critical success factors (CSFs) to lean implementation in SMEs using AHP[J].International Journal of Lean Six Sigma,2019:803-829.
[15] 常建娥,蒋太立.层次分析法确定权重的研究[J].武汉理工大学学报.2017,29(1):153-156.
[16] 张吉军.模糊层次分析法(FAHP)[J].模糊系统与数学,2000,14(2):80-88.
[17] Amanda Lange Salvia,Luciana Londero Brandli,Walter Leal Filho,et al. An analysis of the applications of Analytic Hierarchy Process (AHP) for selection of energy efficiency practices in public lighting in a sample of Brazilian cities[J]. Energy Policy,2019,132:854-864.
[18] Bilal Kilic,Caglar Ucler. Stress among ab-initio pilots: A model of contributing factors by AHP[J]. Journal of Air Transport Management,2019,80:425-436.
[19] 米勇,米秋菊,王洁,等.坝上地区风电场水土保持植物措施筛选研究[J].海河水利,2019(3):24-26.

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备注/Memo

备注/Memo:
[收稿日期] 2019-12-02
[基金项目] 国家科技重大专项(2016YFC05022208);国家自然科学基金(51608182, 51678223)
[第一作者] 王瀚文(1995-), 男, 江苏连云港人,湖北工业大学硕士研究生,研究方向为生态护坡
[通信作者] 杨智勇(1982-), 男, 湖北武汉人,工学博士,湖北工业大学讲师,研究方向为生态岩土工程
更新日期/Last Update: 2020-08-16