银鱼科鱼类及其物种多样性保护

银鱼科鱼类为东亚所特有的一年生小型鱼类,在我国有着丰富的物种资源,其中的一些种类具有很高的经济价值.结合银鱼最新研究成果,介绍了银鱼的分类与系统、分布范围和栖息地特点,并对资源变化及保护措施进行了论述,强调有必要针对不同银鱼物种的生物学、生态学和遗传学背景,制定更为合理的保护措施.     

保护生物学、保护生态学与生物多样性科学

正在查阅生物多样性方面的文献时,经常会遇到3个学科,即保护生物学、保护生态学和生物多样性科学。三者的关系如何?各自具有怎样的特点和发展过程?为了更好地理解3个学科的产生背景和特点,需要回顾一下始于19世纪中叶的保护运动     

Books on Insect Biodiversity and Conservation

Reviews are provided for four books relevant to the studies on the biodiversity conservation of insects: Insect diversity conservation (Samways 2005), Insect conservation biology (Stewart et al. 2007), Ecology of insects: concepts and applications (Speight et al. 2008, 2nd edn), and Insect conservation: a handbook of approaches and methods (Samways et al. 2009).     

China Subregional Avian Endemism and Biodiversity Conservation

Richness of endemic species is considered important for biodiversity conservation and avifaunal regionalization, but no detailed studies concerning the subregional endemism have yet been done in China. Here we investigate the assemblage of China avian endemics of each avifaunal subregion, and analyze the faunal subregional species diversity, subspecific differentiation, and their relationships. The endemic species richness is found to be the highest in the Southwest Mountainous subregion where 60 species account for 57.1% of China’s 105 endemics. Seventy seven species accounting for 73.3% are monotypic. Twenty eight species (26.7%) occurred in only one subregion; the mean was 3.14±1.929 subregions, while 3 species were found widespread over 8 subregions. The number of species distributed only at one specific subregion (EOSR) is the highest in Taiwan subregion. The Southwest Mountainous subregion has the second highest EOSR and the highest richness of monotypic species, but the ratio of numbers of monotypic species or EOSR to the numbers of its subregional overall endemic species is not high in this subregion (68.3%; 10.0%). On the contrary, Taiwan subregion does not have higher richness of overall endemic species and monotypic species, but the EOSR is the highest, while the ratio of numbers of monotypic species or EOSR to the numbers of its subregional overall endemic species is also the highest among all subregions (76.2%; 71.4%). From the evidence of comparing subregional distribution of overall endemic species, EOSR, monotypic species and subspecific diversification, we may conclude that geographical isolation might be the main effect factor contributing to both subspecific diversification and avian subregional endemism in China. The higher endemic and monotypic richness in the Southwest Mountainous subregion may also indicate that the subregion’s avifaunal evolutionary and ecological isolation results from the highly diversified habitats and geographical environments as well as the historical effects from the primitive avifauna.     

城市生态园林与生物多样性保护

城市生态园林与生物多样性保护袁兴中,刘红（曲阜师范大学,２７３１６５）ＵｒｂａｎＥｃｏｌｏｇｉｃａｌｇａｒｄｅｎｉｎｇａｎｄＢｉｏｄｉｖｅｒｓｉｔｙＣｏｎｓｅｒｖａｔｉｏｎ．￥ＹｕａｎＸｉｎｇｚｈｏｎｇ;ＬｉｕＨｏｎｇ（Ｄｅ－ｐａｒｔｍｅｎｔｏｆＢｉ...     

Historical Museology Meets Tropical Biodiversity Conservation

The great scientific importance of historical collections is a well-established fact. On the contrary, their value as vehicles to promote public awareness and effective conservation projects in some of the most valuable biodiversity hotspots in the tropics appear to have been greatly overlooked by Natural History Museums and similar institutions. Utilising the vertebrate collections of Italian institutions as a case study, the great potential of these medium-sized museums to popularising and promoting biodiversity in some of the most valuable regions of the world, utilising the history of their collections and of the men which collected and studied them, is emphasised.     

A Household Perspective for Biodiversity Conservation

Abstract: Many researchers have implicated human population density in species endangerment, but these correlative studies do not demonstrate causality. We propose that hypotheses implicating human population density in wildlife endangerment at global and national scales owe their public and academic currency as thoroughly to inductive reasoning and repetition as to scientific experimentation. It follows that alternative research hypotheses generated from the same facts should provide equally tenable results. Household density provides such an alternative hypothesis and is growing faster than human population density. We used linear multiple regression models to demonstrate that household density provides a viable alternative statistical hypothesis to human population density for explaining species endangerment (household model, r² = 0.85; population model, r² = 0.84). We then suggest adopting a household perspective for biodiversity conservation because 1) social norms and practices render a household approach to conservation more pragmatic than a human population perspective and 2) shifting the focus toward households could facilitate movement from a human-versus-nature ethic to a humans-situated-within-nature ethic (e.g., a land ethic). Wildlife managers and researchers concerned about the negative influence humans have on biodiversity should consider grounding research, theory, and policy decisions in the dynamics of human households as an alternative to human population.     

E. O. 威尔逊与生物多样性保护

1980年,《哈佛杂志》(Harvard Magazine)的编辑邀请了7位哈佛大学教授,请他们提出未来10年全球即将面对的最大难题。其中4人提出贫穷问题,理由分别是人口过度膨胀、乡村人潮大举涌入城市,以及资本主义盛行带来的贫富差距加剧。第5位教授把焦点放在美国自身,提出福利国家和政府管控过度的议题。