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柴达木盆地水生植物多样性格局及多假说验证
引用本文:欧文慧,刘亚恒,李娜,徐芷妍,彭秋桐,杨予静,李中强. 柴达木盆地水生植物多样性格局及多假说验证[J]. 植物生态学报, 2021, 45(11): 1213-1220. DOI: 10.17521/cjpe.2020.0364
作者姓名:欧文慧  刘亚恒  李娜  徐芷妍  彭秋桐  杨予静  李中强
作者单位:湖北大学资源环境学院, 区域开发与环境响应湖北省重点实验室, 武汉 430062
湖北省生态环境科学研究院(省生态环境工程评估中心), 武汉 430072
基金项目:国家自然科学基金(31570366);湖北省教育厅高等学校优秀中青年科技创新团队计划项目(T201701);湖北自然科学基金创新群体项目(2020CFA005)
摘    要:物种多样性格局同时受到多个因子和过程的综合作用。以往对水生植物多样性格局形成机制的研究主要集中在几何限制、水分能量状况或随机过程等少数因子方面。该研究通过野外调查, 研究柴达木盆地水生植物沿经度和纬度梯度的分布格局, 并验证了对物种多样性分布格局影响较大的水分-能量假说、栖息地异质性假说、空间自相关、物种-面积效应和中域效应这5种假说。主要结果表明柴达木盆地水生植物多样性沿经度和纬度梯度均呈现“∩”形单峰格局。回归分析显示中域效应和物种-面积效应显著影响柴达木盆地水生植物多样性格局, 而水分-能量、栖息地异质性假说及空间自相关对该区域水生植物多样性格局影响较小。方差分解显示中域效应对柴达木盆地水生植物多样性经度和纬度格局的单独解释率分别为68.41%和66.91%, 该结果表明柴达木盆地水生植物多样性格局主要受几何限制和扩散限制影响。结合以往研究结果, 该研究进一步证实几何限制和随机效应可能是影响中国干旱区水生植物多样性分布格局的重要自然因素。

关 键 词:多样性格局  中域效应  水分-能量假说  空间自相关  物种-面积效应  栖息地异质性假说  水生植物  柴达木盆地  
收稿时间:2020-11-09

Testing multiple hypotheses for the richness pattern of macrophyte in the Qaidam Basin of Northwest China
OU Wen-Hui,LIU Ya-Heng,LI Na,XU Zhi-Yan,PENG Qiu-Tong,YANG Yu-Jing,LI Zhong-Qiang. Testing multiple hypotheses for the richness pattern of macrophyte in the Qaidam Basin of Northwest China[J]. Acta Phytoecologica Sinica, 2021, 45(11): 1213-1220. DOI: 10.17521/cjpe.2020.0364
Authors:OU Wen-Hui  LIU Ya-Heng  LI Na  XU Zhi-Yan  PENG Qiu-Tong  YANG Yu-Jing  LI Zhong-Qiang
Affiliation:Faculty of Resource and Environment, Hubei University, Hubei Province Key Laboratory of Regional Development and Environmental Response, Wuhan 430062, China
Hubei Academy of Environmental Sciences (Hubei Provincial Eco-Environmental Engineering Assessment Center), Wuhan 430072, China
Abstract:Aims Patterns of species richness are influenced by both ecological factors and processes. The formation mechanisms of macrophyte richness pattern have been mainly concentrated in a few aspects, such as geometric constraints, water-energy status, or random processes. Methods In this study, using collected macrophyte species-level data in the Qaidam Basin, we examined macrophyte richness patterns along latitudinal and longitudinal gradients, and tested the mid-domain effect (MDE), area effect (AE), water-energy hypothesis, spatial autocorrelation, and habitat heterogeneity hypothesis for the geographical patterns. Important findings Our study showed that the macrophyte richness in the Qaidam Basin showed a hump- shaped pattern along latitudinal and longitudinal gradients. Regression analyses indicated that MDE and AE, rather than water-energy hypothesis, spatial autocorrelation, or habitat heterogeneity hypothesis significantly influenced macrophyte richness in the Qaidam Basin. Variation partitioning showed that the explanatory power of MDE for longitudinal and latitudinal richness patterns of macrophyte was 68.41% and 66.91%, respectively. This result implies that macrophyte richness in the Qaidam Basin is mainly affected by geometric and dispersal restrictions. This study further confirms that geometric constraints and random processes may be important natural factors affecting the pattern of macrophyte richness in the arid area of Northwest China.
Keywords:richness pattern  mid-domain effect  water-energy hypothesis  spatial autocorrelation  species-area effect  habitat heterogeneity hypothesis  macrophyte  Qaidam Basin  
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