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中国大陆鸟类和兽类物种多样性的空间变异
引用本文:丁晶晶,刘定震,李春旺,蒋志刚.中国大陆鸟类和兽类物种多样性的空间变异[J].生态学报,2012,32(2):343-350.
作者姓名:丁晶晶  刘定震  李春旺  蒋志刚
作者单位:1. 北京师范大学生态研究所生物多样性与生态工程教育部重点实验室,北京100875;江苏省林业科学研究院,南京211153
2. 北京师范大学生态研究所生物多样性与生态工程教育部重点实验室,北京,100875
3. 中国科学院动物研究所动物生态与保护生物学院重点实验室,北京,100101
基金项目:科技支撑计划项目(2008BAC39B04)
摘    要:生物多样性科学的研究重心之一是大尺度生物多样性空间分布规律及其形成机制。中国是世界上物种特丰富国家之一,了解我国物种多样性在空间上的变异情况,对于进一步认识大尺度上的生物多样性有重要意义。我们收集了全国205个自然保护区的鸟类和兽类物种分布信息,以G-F指数作为物种多样性的测度指标,利用地统计学方法分析了大陆鸟类和兽类物种多样性的空间变异特征。G-F指数是一种基于香农-威纳指数的信息测度,测度了研究地区环境分化程度和实际利用这种生态环境分化的生物类群多样性, 是一种对共同起源,相似生境需求的物种类群多样性的标准化多样性测度。结果发现,在东部季风区、西北干旱区和青藏高寒区内我国大陆鸟类多样性变异大部分都是由随机因素所引起的。兽类多样性的分布,在东部季风区和西北干旱区内是由随机因素所产生的,而在青藏高寒区,兽类多样性的总变异中99.9%是由空间依赖性所引起的,主要表现在71,492~1,020,000m空间尺度上,其分布表现出了强空间相关性。据此,大尺度上的物种多样性空间分布具有特定的规律,在生物多样性的保护行动中应加以考虑。

关 键 词:物种多样性  G-F指数  地统计学  空间变异  鸟类  兽类
收稿时间:2010/12/20 0:00:00
修稿时间:12/2/2011 3:12:57 PM

Spatial variation in species richness of birds and mammals in mainland China
DING Jingjing,LIU Dingzhen,LI Chunwang and JIANG Zhigang.Spatial variation in species richness of birds and mammals in mainland China[J].Acta Ecologica Sinica,2012,32(2):343-350.
Authors:DING Jingjing  LIU Dingzhen  LI Chunwang and JIANG Zhigang
Institution:Jiangsu Academy of forestry
Abstract:Macroecology is concerned with changes in biodiversity as well as the causes of these changes on large scales. Biodiversity can show changes over time and over space. Species diversity, as the determinant of biodiversity, shows spatial heterogeneity. China has high biodiversity. An increasing number of scientists are interested in the large-scale spatial variation in biodiversity within China. The natural environments in China have clear boundaries, which have influence the distributions of animals and ecosystems. According to climate type, China can be divided into three natural regions: the eastern monsoon region, the northwest arid region and the Qinghai-Tibetan Plateau region. Study of the spatial pattern of the biodiversity found in China may contribute to the understanding of large-scale patterns in biodiversity. The fauna information database (FID), founded by the Wildlife and Behavioral Ecology Research Group, Institute of Zoology, Chinese Academy of Sciences, contains information on the distribution of amphibians, reptiles, birds and mammals in China. The FID was compiled with data on species checklists of amphibians, reptiles, birds and mammals from 205 nature reserves across mainland China. They covered most parts of the country except Jiangsu Province, Taiwan, Hong Kong and Macau. In this study, we explored the spatial variation in the G-F indices of birds and mammals with geostatistical techniques. As a measure of species diversity, we computed the G-F index using data on birds and mammals in the FID. The G-F index, based on the Shannon-Wiener index, provides a standardized measure of the diversity of species of common origin and similar environmental requirements. We treated the G-F index as a regional variable and obtained semivariance models and parameters of birds and mammals individually for each of the three natural regions. Semivariograms were produced using semivariance analysis methods of GS-plus software. Using the semivariograms and model parameters, we analyzed the characteristics of the spatial variation in bird and mammal diversity in each natural region. The semivariance of the G-F index of birds was fitted with a linear model in the eastern monsoon region and the northwest arid region of China. The parameters demonstrated that species diversity of birds had a weak spatial dependence in the eastern monsoon region and the northwest arid region of China. There was no spatial correlation with pure nugget effects on the Qinghai-Tibetan Plateau, indicating that the spatial variation in bird species diversity was caused by random factors. This may be due to the high dispersal abilities of birds. The semivariance of the G-F index of mammals showed no relationship in the eastern monsoon region and had pure nugget effects in the northwest arid region. However, data of the Qinghai-Tibetan Plateau was best explained by a spherical model. The parameters revealed that spatial pattern of mammalian species diversity was random in the eastern monsoon region and in the northwest arid region but had a strong spatial dependence with a correlation spatial range of 71492-1020000 m on the Qinghai-Tibetan Plateau. This spatial pattern of avian and mammalian species diversity is likely attributable to the interaction between the particular physical environment and life history of birds and mammals. The macroscale spatial pattern of species diversity should be taken into account in the formation of conservation action plans.
Keywords:species richness  G-F index  geostatistics  spatial variation  birds  mammals
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