基于文献计量分析的珊瑚礁生态修复技术研究现状及发展趋势

珊瑚礁是海洋生态系统的重要组成部分,具有食物资源、药用价值、海岸防护等生态功能.近年来受到自然气候及人类活动的影响,珊瑚礁生态系统发生了大规模的退化,因此,珊瑚礁生态修复技术逐渐成为研究热点.本文从Web of Science核心合集、CNKI、德温特数据库等获得相关文献,对全球及国内珊瑚礁生态修复技术研究热点进行全面...     

基于金相分析技术的煤矿火灾事故调查试验研究

通过对矿井火灾现场特性的分析,根据金属材料的特点,提出利用金相鉴定技术进行矿井火灾事故调查的新方法,试验测定得出高温作用下40号钢和铸铁的金相组织和硬度的动态变化规律。试验结果表明,不同加热温度条件下,40号钢冷却后具有不同的金相组织,其硬度随受热温度的升高迅速下降;在相同加热温度不同受热时间条件下,40号钢的金相组织与硬度变化不明显。铸铁的硬度随加热时间的增加呈下降趋势,其金相组织也有较明显的区别。根据矿井火灾后降温较为缓慢的特点,提出灰口铸铁与白口铸铁相互转变的方向性。因此,矿井火灾事故调查可以对受到火灾破坏的金属构件的金相组织的观察和硬度测定,来"反推"出该部位在火灾时曾受过的最高温度以及持续时间,从而可推断火灾的蔓延情况,为认定起火原因和起火位置提供技术支持。     

基于共词分析的我国资源环境领域研究热点分析

了解我国资源环境领域的研究热点及走向,可为该领域的论文选题、科研立项和学科规划提供参考信息和决策依据。本文采用共词分析法,Excel、SPSS等软件,对CNKI数据库中的相关文献进行统计。通过分析得出高频关键词并建立共词矩阵,进一步对高频词共词矩阵进行聚类分析和战略坐标图分析,得出资源环境领域的研究热点主要集中在人口资源环境与经济可持续发展、城市化与中国资源环境/水资源环境协调发展、资源环境约束或人地关系视角下的产业结构优化和城镇化发展、资源环境承载力评价指标体系与问题对策、经济增长与生态足迹关系、生态文明视角下的资源环境保护与管理等几大主题上。其中,前两个主题处于整个领域的核心地位,得到较深入的研究,后四个主题研究不够深入,仍有许多值得研究的地方。     

USB反应器进行生物反硝化的研究现状与应用前景

综述了USB反应器进行生物反硝化的历史沿革、研究现状 ,并对其在研究中存在的问题进行了描述。最后 ,对USB反应器进行生物反硝化的应用前景作了科学的分析     

石墨基复合材料负载零价纳米铁吸附重金属离子的研究进展

工业废水中重金属的存在威胁着环境和人类健康,有效去除环境中的重金属离子具有重要意义.论文简要介绍了近年来石墨基复合材料负载纳米零价铁(nZVI)去除废水中重金属离子的研究,探讨了多种石墨基负载nZVI复合材料对重金属离子的吸附特性和环境条件对吸附性能的影响因素,并对其未来的研究和应用进行了总结和展望.     

COD测定方法的发展与研究动态

本文较为全面地论述了COD测定方法的发展与研究现状。在论述了国标中COD标准方法不足之处的基础上,本文就标准方法的众多改进措施分类进行了比较与探讨,包括消解方法的改进、替代催化剂的研究以及氯离子干扰的消除,然后介绍了相关系数法、电化学法、分光光度法和流动注射法等COD测定替代技术。本文认为,研究试剂用量少、无污染的绿色COD测定方法具有重要而积极的意义,而研究适应性强、运行可靠、性价比高的COD在线监测仪则是COD监测的发展趋势。     

特大型城市城区─上海闵行区循环经济建设探讨

以上海市闵行区为例,通过对传统型经济发展模式所面临问题的分析,阐述了闵行区发展循环经济的重要意义。分析了闵行区发展循环经济的优劣势,提出闵行区发展循环经济的初步设想,为创建循环经济示范城区提供初始框架和现阶段工作重点。     

Towards a long-term integrated monitoring programme in Europe: network design in theory and practice

Long-term integrated monitoring is an important approach forinvestigating, detecting and predicing the effects ofenvironmental changes. Currently, European freshwaters,glaciers, forests and other narural and semi-natural ecosystemsand habitats are monitored by a number of networks establishedby different organisations. However, many monitoring programmeshave a narrow focus (e.g. targeting individual ecosystems) andmost have different measurement protocols and sampling design.This has resulted in poor integration of ecosystem monitoring ata European level, leading to some overlapping of efforts and alack of harmonised data to inform policy decisions. The need fora consistent pan-European long-term integrated monitoring ofterrestrial systems programme is recognised in the scientificcommunity. However, the design of such a system can be problematic, not least because of the constraints imposed bythe need to make maximum use of existing sites and networks.Based on the outcomes of the NoLIMITS project (Networking ofLong-term Integrated Monitoring in Terrestrial Systems), thisarticle reviews issues that should be addressed in designing aprogramme based on existing monitoring sites and networks. Fourmajor design issues are considered: (i) users' requirements,(ii) the need to address multiple objectives, (iii) role ofexisting sites and (iv) operational aspects.     

Developing shared qualitative models for complex systems

Understanding complex systems is essential to ensure their conservation and effective management. Models commonly support understanding of complex ecological systems and, by extension, their conservation. Modeling, however, is largely a social process constrained by individuals’ mental models (i.e., a small-scale internal model of how a part of the world works based on knowledge, experience, values, beliefs, and assumptions) and system complexity. To account for both system complexity and the diversity of knowledge of complex systems, we devised a novel way to develop a shared qualitative complex system model. We disaggregated a system (carbonate coral reefs) into smaller subsystem modules that each represented a functioning unit, about which an individual is likely to have more comprehensive knowledge. This modular approach allowed us to elicit an individual mental model of a defined subsystem for which the individuals had a higher level of confidence in their knowledge of the relationships between variables. The challenge then was to bring these subsystem models together to form a complete, shared model of the entire system, which we attempted through 4 phases: develop the system framework and subsystem modules; develop the individual mental model elicitation methods; elicit the mental models; and identify and isolate differences for exploration and identify similarities to cocreate a shared qualitative model. The shared qualitative model provides opportunities to develop a quantitative model to understand and predict complex system change.     

城市污泥堆肥用作草坪基质研究进展

针对城市污泥堆肥特点,阐述了国内外城市污泥堆肥用作草坪基质的研究现状。总结了污泥堆肥用于草坪生产存在的问题,并认为研究重点应放在污泥堆肥混合基质的组成、水肥管理技术、草种的筛选、规范堆肥生产和草坪质量综合评价标准及可能存在的环境问题等方面。另外,需要加大高新技术的投入促进产业化,以便为污泥堆肥用作草坪基质提供确实的理论指导和技术支持。