Factors affecting the floristic diversity and nestedness in the islets of Lake Bardawil, North Sinai, Egypt: implications for conservation

Island biogeography theory and nestedness are two relevant and important concepts in biogeography and conservation. However, their integration and application has not been examined for maintaining or maximizing species diversity, especially in arid regions. The aim of this study is to investigate the ecological mechanisms related to the observed pattern of floristic diversity and nestedness in the Lake Bardawil islets on the Mediterranean coast of Sinai Peninsula before the execution of the North Sinai Agricultural Development Project (NSADP) that will threaten the ecosystem of the lake. Plant species on 15 islets were identified and categorized into ecological groups related to their life-form, salt tolerance and succulence. Richness of total plant species and their ecological groups were positively correlated with islet area, number of habitats and elevation, and negatively with disturbance index. The temperature calculator detected highly significant nestedness for the entire flora and all ecological groups. Distance from the mainland had no effect on either species richness or nested pattern of total plant species and their ecological groups. Both the analyses of species richness and nested distribution yielded evidence for a positive species-area relationship. Although nestedness was detected for the entire plant species and their ecological groups, many species and islets exhibited idiosyncratic distribution. Idiosyncrasies could be mainly attributed to demographic stochasticity which is an important character for species interaction and diversity maintenance in arid regions. Therefore, in developing conservation strategies for the Lake Bardawil islets, it is important to incorporate spatial and temporal stability of populations.     

上海崇明县植被覆盖度动态变化遥感监测研究

植被覆盖度是用于描述和评价生态系统的重要参数。基于1989、2001、2006年的TM/ETM+遥感数据,以上海市崇明县为研究区域,利用改进的像元二分模型,估算出不同时期内崇明县的植被覆盖度,并对其变化进行了定量分析。结果表明:1989-2001年,植被覆盖度负向变化地表约10.17%,正向变化约20.58%,乡镇和湿地区域正向变化的面积大于负向变化,农场区域则相反;2001-2006年,负向变化约29.1%,正向变化约12%,农场和湿地区域正向变化的面积大于负向变化,乡镇区域则相反,并且随着城市化进程的深入,各土地用地类型的植被覆盖度变化在一定程度上都呈现出生态退化的趋势。     

Retrospective Estimation of Radiation Load and Its Effect on Some Biological Parameters of Reindeer (Rangifer tarandus) from Wrangel Island

The results of the electron paramagnetic resonance (EPR) analysis of pure tooth enamel and the data on the radionuclide content in bones were used for estimating the radiation load on reindeer that lived on Wrangel Island in the 1970s and early 1980s. Based on the measurements of the lower jaws, some biological parameters of the Wrangel reindeer population were estimated and compared with those in the Novaya Zemlya and Taimyr populations. Changes in only two of these parameters—the degree of root cementum resorption and animal life span–might be attributed to the effect of the radiation load.     

涠洲岛珊瑚礁分布特征与环境保护的初步研究

根据历年来对涠洲岛珊瑚礁所观测的资料,初步研究了该岛珊瑚的种群结构及其分布特征,以及珊瑚礁的形成及发育过程,并提出了涠洲岛珊瑚的保护措施.      

季节变化对海洋鱼体内EROD活性的影响

利用2001～2003年对大连大长山岛海域不同季节EROD活性的监测结果,分析了季节变化对海洋鱼体内EROD活性的影响.结果表明,春季海洋鱼体内EROD活性明显高于夏季和秋季.利用EROD活性进行海洋环境污染的监测,不宜选在背景值较高的春季进行.     

Island biogeographical theory: Can it be used to predict lotic recovery rates?

Classic island biogeographic theory predicts that equilibrium will be reached when immigration and extinction rates are equal. These rates are modified by number of species in source area, number of intermediate islands, distance to recipient island, and size of intermediate islands. This general model has been variously modified and proposed to be a stochastic process with minimal competitive interaction or heavily deterministic. Predictive models of recovery (regardless of the end point chosen) have been based on the appropriateness of the MacArthur-Wilson models. Because disturbance frequency, severity, and intensity vary in their effect on community dynamics, we propose that disturbance levels should first be defined before evaluating the applicability of island biogeographical theory. Thus, we suggest a classification system of four disturbance levels based on recovery patterns by primary and secondary succession and faunal organization by primary (invasion of vacant areas) and secondary (remnant of previous community remains) processes. Level 1A disturbances completely destroy communities with no upstream or downstream sources of colonizers, while some component of near surface interstitial or hyporheic flora and fauna survive level 1B disturbances. Recovery has been reported to take from five years to longer than 25 years, when most invading colonists do not have an aerial form. Level 2 disturbances destroy the communities but leave upstream and downstream colonization sources (level 2A) and, sometimes, a hyporheic pool of colonizers (level 2B). Recovery studies have indicated primary succession and faunal structuring patterns (2A) with recovery times of 90–400 days or secondary succession and faunal structuring patterns (2B) with recovery times of 40–250 days. Level 3 disturbances result in reduction in species abundance and diversity along a stream reach; level 4 disturbances result in reduction of abundance and diversity in discrete patches. Both disturbance types lead to secondary succession and secondary faunal organization. Recovery rates can be quite rapid, varying from less than 10 days to 100 or more days. We suggest that island biogeographical models seem appropriate to recovery by secondary processes after level 3 and 4 disturbances, where competition may be an important organizing factor, while models of numerical abundance and resource tracking are probably of better use where community development is by primary succession (levels 1 and 2). Development of predictive recovery models requires research that addresses a number of fundamental questions. These include the role of hydrologic patterns on colonization dynamics, the role of nonaerial colonizers in recovery from level 1 disturbances, and assessment of the impact of changes in the order of invasion by colonizers of varying energetic efficiencies. Finally, we must be able to assemble these data and determine whether information that guides community organization at one level of disturbance can provide insights into colonization dynamics at other levels.     

海岛土地与土地系统生态设计刍议

本文依据生态学理论对海岛土地及土地系统生态功能进行了重新的认识,并探讨了海岛土地系统生态设计的依据、原则和模式.设计中强调以土地系统生态保护性功能为主体,以海岛土地系统高层次调合发展作为海岛建设的最终目标.     

崇明东滩候鸟自然保护区的动态变化

在８０年代末期的鸟类及其生境调查研究基础上，正式提出拟建的上海市崇明东滩候鸟自然保护区，５年来随着滩涂的游涨及９０年代初期人工围垦的影响，滩涂自然植被和鸟类的种类，数量，分布也随之有了相应的相应的动态变化。该文在新的调查资料基础上，对崇明东滩鸟类赖以生存地自然植被恢复，候鸟食料的容量分析等作了研究；同时，还论述了崇明候鸟自然保护区的界线范围及其动态变化，以及保护区内部３个功能小区的动态等。     

环厦门海域水色变化的多光谱多时相遥感分析

采用基于影像光谱信息建立的水质遥感模型对环厦门海域1989～2003年间的水色变化进行了分析.通过对水体及其所含物质的物理光学性质分析,水质遥感模型的建立可以不依赖于和卫星同步的水质采样数据建立水质遥感.这使得遥感对水色分析的应用更容易,而且还可以利用大量卫星存档数据来进行水质的历史变化分析.使用基于可见光和近红外波段反射率创建的模型研究了离水信号和水中物质(悬浮物和浮游植物)的关系.提出了一套可用于Landsat TM/ETM 和SPOT 5影像的水专题处理流程,并用于揭示所研究海域中悬浮物和叶绿素浓度的时空变化规律.研究表明,利用基于影像光谱的水质遥感模型,可以快速有效地揭示长时间范围内水色的时空变化.总的看来,环厦门海域的悬浮物浓度在所研究的时期内,有显著的增加,叶绿素的浓度在局部也有明显的升高.最明显的是,高悬浮物浓度的海域面积所占的比例从1989年的0.2%上升到2003年的10.2%.综合分析表明,九龙江河口所带来的巨量悬浮物是该海域最主要的陆源排海物和污染源,过度的水产养殖是另一个主要的污染因子.     

基于RS的崇明东滩空间动态变化研究

崇明岛东滩因其特殊的自然条件及频繁的人类活动影响，土地利用空间格局变化速度较快。通过对1988—2002年6幅不同时相TM遥感影像解译，对崇明东滩土地利用进行分类，得到东滩15年间的土地利用空间变化图；再利用GIS技术，从数量和空间分布上对其土地利用动态变化过程进行定量计算，结果显示东滩土地总面积不断增加，土地利用方式逐年变化。东部岸线明显向东扩展。同时结合考虑自然因素和人为因素影响，探讨了崇明东滩空间动态变化的原因。为更加合理的开发利用东滩提供了有力的参考，也表明了RS与GIS技术相结合对于研究东滩空间格局演变有一定的应用价值。