辽河三角洲湿地生态服务功能价值评估研究

采用国际通用的市场价值法、成本法、影子工程法和替代法,对辽河三角洲湿地服务功能价值进行评估研究,诠释了保护湿地资源的重大意义。     

闽江河口湿地自然保护区生态系统服务价值评价

研究运用生态经济学和资源环境经济学等有关理论和研究方法,利用前人已有调查资料,对闽江河口湿地自然保护区生态系统服务价值做了较全面的评价,拟为保护湿地和公共决策提供科学依据。闽江河口湿地自然保护区生态系统服务价值为4966.1万元/a。按照价值量大小排序为:调节气候价值>文化载体价值>保护生物多样性价值>提供产品价值。     

翠湖湿地公园水生植物资源及其保护与管理

翠湖湿地公园是北京市唯一一家国家级城市湿地公园。2009-2012年水生植物资源调查结果显示:翠湖湿地公园有水生植物52种,隶属于24科37属;其中挺水植物物种最多,其次是沉水植物和浮叶植物,漂浮植物种类最少。在这些水生植物中,不仅包括北方湿地的典型植物物种,而且还具有重点保护的珍贵稀有物种,如莲、芡实、茭白、花蔺、黑三棱等,以及急需得到保护的狸藻和水鳖。根据湿地植物类型应采取相应的管理和保护措施,保持翠湖湿地公园生态系统的健康。     

北京翠湖湿地维管束植物多样性及保护对策

结合北京地区湿地植物相关研究和翠湖湿地维管束植物调查结果,对翠湖湿地的维管束植物进行分类、整理和分析。结果显示:翠湖湿地有维管束植物306种,隶属76科228属,占北京市维管束植物总数的17.1%。翠湖湿地分布有多种国家级和北京市级重点保护野生植物,如野大豆Glycine soja、芡实Euryale ferox、茭白Zizania latifolia、花蔺Butomus umbellatus等。翠湖湿地还统计到外来和入侵植物共计13种,如豚草Ambrosia artemisiifolia、凤眼莲Eichhornia crassipes等。翠湖湿地维管束植物多样性丰富,需加强植物多样性保护和管理以及科普教育。     

The ecological-geological system,its types and position in the structure of an ecosystem

An ecologic-geological system presents a certain volume of the lithosphere with biota, including humans and the social media functioning in it and on its surface. This system is considered as the study subject of ecological geology. In all, four types of ecological-geological systems have been distinguished and characterized: a natural real system, natural ideal system, natural-technical ideal system, and natural-technical real system. The position of an ecological-geological system in the structure of an ecosystem is shown.     

Brazilian vs. Paraguayan streams: Differences in water quality in a cross-border subtropical region

Monitoring programs are among the first steps to develop robust management strategies, especially in international transboundary waters. Understanding how water quality parameters are impacted by different types of land use promotes a baseline for stakeholders to define the best governance for the management of water resources. Seeking to provide this type of information, we sampled 24 streams – 12 in Brazil and 12 in Paraguay – in February, April, July, September, and November 2019. We determined water quality parameters, grouped into three categories: morphometric, physical and chemical, and nutrients. We explored differences in water quality parameters between countries, and over a one-year sampling. We also tested whether Brazilian and Paraguayan streams are impacted by agriculture, urbanization, and forest cover. Finally, we performed a partial RDA to test the influence of land use on water quality parameters and controlled spatial autocorrelation by including spatial variables (dbMEM) as a condition. Most of the water quality parameters showed significant differences between countries; only turbidity, and pH, presented significant differences between countries and sampling periods, and only water temperature varied significantly along the year. We did not find evidence that different types of land use are causing physical and chemical variance in Brazilian and Paraguayan streams (R² = 0.06, p = 0.68). In conclusion, the results evidenced that the main differences in the water quality parameters occur between countries. Based on the results, transboundary governance can use these data to implement integrated water resources management cooperation.     

Ecohydrological change mechanism of a rainfed revegetation ecosystem at southeastern edge of Tengger desert,Northwest China

Study is made on a 45 km-long artificial ecosystem without irrigation in Tengger desert on the basis of long-term ecological monitoring and ecohydrological fundamentals.Changes in water allocation, utilization, cycle and balance patterns in more than 40-year evolution of the soil-plant system are analyzed. The formation of a drought horizon in shrub rhizosphere and its effect, ecohydrological function of the crust and its effect on the soil-plant system change are discussed. Driven by water self-regulation and water stress, the soil-plant system is going to develop towards the steppe desert to ensure more effective use and optimum collocation of water resource.     

中国环境考古学的兴起、发展和展望

环境考古学是一门介于考古学与第四纪环境学(或古地理学)之间的边缘学科。它出现于20世纪之初,经过近1个世纪的摸索和实践,在理论和方法上日趋成熟。中国环境考古学出现较晚,但发展迅速,已经形成以人类生态系统理论为依据,以聚落和遗址古环境分析为主要手段,以探讨古代人类行为及其文化的形成、发展和演变的环境背景为目标的新型交叉学科。目前,它已经逐渐得到了中国考古学家的广泛认同,并成为考古学研究的重要组成部分,在涉及人类起源、MIS3阶段旧石器晚期文化革命、旧—新石器文化过渡以及农业起源、文明起源等一系列关键问题的研究中发挥着重要作用。     

A meta-analysis of the impacts of forest logging on soil CO_2 efflux

Soil CO_2 efflux, the second largest flux in a forest carbon budget, plays an important role in global carbon cycling. Forest logging is expected to have large effects on soil CO_2 efflux and carbon sequestration in forest ecosystems. However, a comprehensive understanding of soil CO_2 efflux dynamics in response to forest logging remains elusive due to large variability in results obtained across individual studies. Here, we used a meta-analysis approach to synthesize the results of 77 individual field studies to determine the impacts of forest logging on soil CO_2 efflux. Our results reveal that forest logging significantly stimulated soil CO_2 efflux of the growing season by 5.02%. However, averaged across all studies, nonsignificant effect was detected following forest logging. The large variation among forest logging impacts was best explained by forest type, logging type, and time since logging. Soil CO_2 efflux in coniferous forests exhibited a significant increase(4.38%) due to forest logging, while mixed and hardwood forests showed no significant change. Logging type also had a significant effect on soil CO_2 efflux, with thinning increasing soil CO_2 efflux by 12.05%, while clear-cutting decreasing soil CO_2 efflux by 8.63%. The time since logging also had variable effects, with higher soil CO_2 efflux for 2 years after logging, and lower for 3-6 years after logging; when exceeded 6 years, soil CO_2 efflux increased. As significantly negative impacts of forest logging were detected on fine root biomass, the general positive effects on soil CO_2 efflux can be explained by the accelerated decomposition of organic matter as a result of elevated soil temperature and organic substrate quality. Our results demonstrate that forest logging had potentially negative effects on carbon sequestration in forest ecosystems.     

Towards Regional Synergy: Reconciling Rangeland Ecological Functioning with Forage Production of Cultivated Pasture

Animal husbandry and crop farming are specialized for development in separate areas on the Tibetan Plateau. Such a pattern of isolation has led to current concerns of rangeland and farming system degradation due to intensive land use. The crop-livestock integration, however, has been proven to increase food and feed productivity thorough niche complementarity, and is thereby especially effective for promoting ecosystem resilience. Regional synergy has emerged as an integrated approach to reconcile rangeland livestock with forage crop production. It moves beyond the specialized sectors of animal husbandry and intensive agriculture to coordinate them through regional coupling. Therefore, crop-livestock integration (CLI) has been suggested as one of the effective solutions to forage deficit and livestock production in grazing systems. But it is imperative that CLI moves forward from the farm level to the regional scale, in order to secure regional synergism during agro-pastoral development. The national key R & D program, Technology and Demonstration of Recovery and Restoration of Degraded Alpine Ecosystems on the Tibetan Plateau, aims to solve the problems of alpine grassland degradation by building up a grass-based animal husbandry technology system that includes synergizing forage production and ecological functioning, reconciling the relationship between ecology, forage production and animal husbandry, and achieving the win-win goals of curbing grassland degradation and changing the development mode of animal husbandry. It is imperative to call for regional synergy through integrating ecological functioning with ecosystem services, given the alarming threat of rangeland degradation on the Tibetan Plateau. The series of papers in this issue, together with those published previously, provide a collection of rangeland ecology and management studies in an effort to ensure the sustainable use and management of the alpine ecosystems.