人工植物群落多样性与土壤耦合度——以信阳—南阳高速公路为例

doi:10.16843/j.sswc.2018.04.019

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摘要高速公路人工植物群落与土壤一直以来都是研究的重点，但多集中于边坡恢复初期，对于恢复过程中二者之间的关系的研究方法较为单一。该研究以沪陕高速信（信阳）—南（南阳）段为研究路段，选取8种具有代表性的群落，使用灰色关联度模型分析植物群落多样性与土壤耦合关系。结果显示阴坡群落的总体耦合效果比阳坡略好，8种植物群落中，有2个群落的耦合效果为"优"，分别是阴坡紫穗槐+高羊茅群落和阳坡紫穗槐+蛇莓群落。含水量、全钾、土壤密度、全氮、pH值、全磷和有效钾对植物群落多样性的影响较大，可以根据以上指标有针对性的对土壤进行改良。同时，通过对耦合效果好的群落结构分析，建议推广不同生活型的豆科植物并搭配多年生草本的植物配置模式。

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	曹娓
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	田国行

关键词 ：边坡, 人工植物群落, 土壤因子, 耦合

Abstract：[Background] The important study of highway are plantation vegetation community and soil, but most of these researches were focused on the beginning period. The research method of the relationship between vegetation and soil during the restoration process are singleness.[Methods] In this study, 8 typical vegetation communities were chosen in Xinyang-Nanyang highway which belong to Hushan highway. They were Vitex negundo + Amorpha fruticosa vegetation community, Broussonetia papyrifera + A. fruticosa vegetation community, A. fruticosa + Imperata cylindrical vegetation community, A. fruticosa + Festuca elata vegetation community, Amorpha fruticosa+Duchesnea indica vegetation community, A. fruticosa + Heteropappus hispidus + Cynodon dactylon vegetation community, V.negundo + I. cylindrical + C. dactylon vegetation community and F. elata + Vicia sepium vegetation community. Quadrat method was used in the vegetation community investigation, density, coverage, height of every plant were recorded and Shannon-Wiener index, Pilou index and Richness index were calculated in this study. Eleven soil indexes were measured, such as soil bulk density, saturated water capacity, water moisture, total nitrogen, total phosphorus, total potassium, available nitrogen, available phosphorus, available potassium, organic matter and pH value. Grey relational degree modeling was used to analysis the degree of coupling and interaction between vegetation community diversity and soil properties. 14 factors were involved in the grey relational degree modeling, three of them were species diversity indexes and 12 of them were soil indexes.[Results] The result showed that F. elata + Vicia sepium vegetation community had the highest Shannon-Wiener index and Richness index, the V. negundo + I. cylindrical + C. dactylon vegetation community had the highest Pielou index. The nutrient of 0-10 cm layer were higher than 10-20 cm layer, but the water content were lower than 10-20 cm layer. The result of grey relational degree modeling indicated that the vegetation communities in shady slope have good coupling degree than sunny slope. There were two vegetation communities had superior coordination in the 8 different vegetation communities, they were A. fruticosa + F. elata community in shady slope and A. fruticosa + D. indica community in sunny slope. Two of these vegetation communities were favorable coordination, three of them were middle coordination and one of them was light coordination.[Conclusions] The water moisture, total potassium, soil bulk density, total nitrogen, pH, total phosphorus, available potassium factor had a great influence to the diversity index of vegetation community, people could carry on the improvement target-oriented to the slope. It is suggested that this plant furnishing could be promoted which contain different life style of Leguminosae and perennial herb that based on the analysis of the vegetation communities which had superior coordination.

Key words： slope plantation vegetation community vegetation restoration coupling coordination

收稿日期: 2017-11-03

PACS:

Q948.1

基金资助:河南省交通厅项目：高速公路景观的稳定性和可持续性研究（2014Z06）；河南省路域景观绿地资源整合提升和生态管控关键技术研究与示范（2015J02）

通讯作者: 田国行(1964-),男,教授,博士生导师。主要研究方向:城乡绿地资源建设与管控。E-mail:tgh0810@163.com E-mail: tgh0810@163.com

作者简介: 曹娓(1982-),女,博士研究生。主要研究方向:风景园林规划设计与高速公路路域景观生态。E-mail:caowei0913@163.com

引用本文:

曹娓^1,2, 王艺琳¹, 胡永歌¹, 徐恩凯¹, 杨航¹, 田国行¹. 人工植物群落多样性与土壤耦合度——以信阳—南阳高速公路为例[J]. 中国水土保持科学, 2018, 16(4): 144-150.
CAO Wei, WANG Yilin, HU Yongge, XU Enkai, YANG Hang, TIAN Guohang. Coupling degree between plantation vegetation community diversity and soil properties: Xinyang-Nanyang highway as an example. SSWC, 2018, 16(4): 144-150.

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http://journal12.magtechjournal.com/Jweb_stbc/CN/10.16843/j.sswc.2018.04.019 或 http://journal12.magtechjournal.com/Jweb_stbc/CN/Y2018/V16/I4/144

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