干旱区生态环境知识资源中心(Arid): 荒漠区垂直河岸带植物多样性格局及其成因

Arid

	荒漠区垂直河岸带植物多样性格局及其成因
其他题名	Patterns and mechanisms influencing plant diversity in an arid desert region riparian zone of the Aqikesu River, Xinjiang, China
	张雪妮; 吕光辉; 王庭权; 马玉; 阿布里孜·阿不都热合曼; 赵晓英; 郭振洁; 朱修逸
来源期刊	生态学报
ISSN	1000-0933
出版年	2015
卷号	35 期号:18 页码:5966-5974
中文摘要	荒漠区河岸植物多样性格局特征和影响机制研究可为河岸带生物多样性保护和管理提供依据。艾比湖荒漠区垂直河岸样带的植物多样性格局及其土壤影响机制的研究表明:(1)距河2.0-3.0km(T_(3.0))和0.9-1.5km(T_(1.5)的样带植物本质多样性、a多样性整体高于距河0.1-0.2km(T_(0.2))和0.2-0.4km(Т_(0.4))的样带(P<0.05);(2)T_(0.4)样带多样性最低,物种相似性最高,且植物生活型和土壤属性均较T_(0.2)有较大的变化,反映了距河0.2-0.4km区域群落性质的转变,0.2-0.4km可作为确定河岸带宽度的参考样带;(3)影响植物多样性的土壤因素和途径沿T_(0.2)-T_(3.0)样带趋于简单化,即由近河带(T_(0.2))贫营养(碳磷比(C/P)、土壤有机质(SOM))和高土壤水分(SWC)、盐分(TS)的限制作用,到远离河流旱胁迫加剧时对植物多样性影响逐渐突出的土壤全磷(P)和SWC;(4)根据T_(1.5)、T_(3.0)植物多样性特征,研究区土壤水分在7.0-7.5%间,C/P在26.1-30.2之间以及盐分低于1.0%时能维持较高的多样性。最后对保护区河岸带和缓冲带宽度的确定、河岸带管理、植被资源保护以及生态系统恢复等提出针对性建议,以期为制定有效的河岸带生物多样性维护和资源管理对策提供理论参考和科学依据。
英文摘要	Plant diversity in riparian areas is an important topic in restoration ecology and biodiversity conservation science. The Aqikesu River in Xinjiang Uygur Autonomous Region, China,a typical inland river in this arid desert region, is the only river located in the Ebinur Lake Wetland National Nature Reserve and thus plays a crucial role in maintaining balanced and sustainable development of the local ecosystem. Exploration of plant diversity patterns and influencing mechanisms in the riparian zone in this desert area provides scientific baseline data related to the conservation of riparian biodiversity and scientific management of this reserve. However, the patterns of biodiversity and influencing mechanisms in the riparian zone along this river remain unclear. This study used four transects established perpendicular to the Aqikesu River in north and south of Dongdaqiao Station. The four transects were located 0.1-0.2 km, 0.2-0.4 km, 0.9-1.5 km, and 2-3 km from the river and named T_(0.2), T_(0.4), T_(1.5) and T_(3.0) respectively. Plots were established in each transect based on the appearance and characteristics of the plant communities, that is 10 m * 10 m for trees, 5 m * 5 m for shrubs, and 1 m * 1 m for herbs. Specifically, T_(0.2) included nine plots (three,four and two for trees,shrubs and herbs, respectively) and T_(0.4) had six plots (two plots each for trees, shrubs and herbs). T_(1.5) had eight plots (two plots each for trees and herbs, and four for shrubs). T_(3.0) had eight plots (two plots for trees and three plots each for shrubs and herbs). Geographic data were recorded in each plot; abundance, height, and diameter at breast height of trees were surveyed and recorded along with the abundance of shrubs and herbs. Soil samples were collected in each plot and soil water content (SWC), total salt (TS), pH, soil organic matter (SOM),and soil phosphorus (P) were measured in the lab. First, based on field and experimental data, the intrinsic and a diversity indices of T_(l.5) and T_(3.0) transects were all higher than those of T_(0.2) and T_(0.4) transects. Secondly, T_(0.4) transects exhibited the lowest diversity; the Cody and Wilson index of T_(0.4) was significantly lower than in other transects (P<0.05), and the Jaccard and Sorenson indices of T_(0.4) were significantly higher than that of other transects (P < 0.05). Compared with T_(0.2), the T_(0.4) transects had greatly reduced herbaceous flora,SWC, TS, and soil organic matter, which indicated the transitional nature of the community. Therefore, the T_(0.4) transect could function as a reference for determining the width of the riparian zone. Third, as distance from the river increases as one proceeds from T_(0.2) to T_(3.0), the effects and influence of soil conditions on plant diversity gradually become simpler. In the nearest distance away from the river (T_(0.2)), plant diversity is constrained by poor nutrition (low carbon/ phosphorus ratio (C/P) and low SOM), high soil moisture, and high salt content. Farther from the river in the T_(0.4) and T_(3.0) area, only soil P and SWC were observed to gradually and prominently affect plant diversity more and more as drought stress increases with distance from the river. Fourth, based on plant diversity traits of T_(1.5) and T_(3.0), the highest plant diversity occurs when soil conditions in the study area have a an SWC between 7.0% and 7.5%, soil C/P between 26.1 and 30.2, and soil salt content of less than 1.0%. Finally, specific suggestions for determining the appropriate width of riparian and buffer zones and suggestions for riparian zone management, vegetation resource protection, and ecosystem restoration were proposed to provide a theoretical and scientific basis for effective biodiversity maintenance, resource management, and habitat damage mitigation in riparian zones.
中文关键词	荒漠区 ; 河岸带 ; 本质多样性 ; alpha多样性 ; beta多样性 ; 通径分析
英文关键词	desert riparian zone intrinsic diversity a diversity beta diversity path analysis
语种	中文
国家	中国
收录类别	CSCD
WOS类目	BIOLOGY
WOS研究方向	Life Sciences & Biomedicine - Other Topics
CSCD记录号	CSCD:5522089
来源机构	新疆大学
资源类型	期刊论文
条目标识符	http://119.78.100.177/qdio/handle/2XILL650/233199
作者单位	新疆大学资源与环境科学学院, 绿洲生态教育部重点实验室, 乌鲁木齐, 新疆 830046, 中国
推荐引用方式 GB/T 7714	张雪妮,吕光辉,王庭权,等. 荒漠区垂直河岸带植物多样性格局及其成因[J]. 新疆大学,2015,35(18):5966-5974.
APA	张雪妮.,吕光辉.,王庭权.,马玉.,阿布里孜·阿不都热合曼.,...&朱修逸.(2015).荒漠区垂直河岸带植物多样性格局及其成因.生态学报,35(18),5966-5974.
MLA	张雪妮,et al."荒漠区垂直河岸带植物多样性格局及其成因".生态学报 35.18(2015):5966-5974.