生态补偿的机理与准则

分析国内外生态补偿实践和理论研究的基础上,从可持续发展角度探讨生态补偿的基本内涵;通过对生态系统自组织与反馈、恢复机制的剖析,提出了生态补偿应遵循的基本准则;结合国情,探讨了生态补偿亟待解决的实践困惑和应对策略。     

In Vitro Recapitulation of Functional Microvessels for the Study of Endothelial Shear Response,Nitric Oxide and [Ca2+]i

Microfluidic technologies enable in vitro studies to closely simulate in vivo microvessel environment with complexity. Such method overcomes certain constrains of the statically cultured endothelial monolayers and enables the cells grow under physiological range of shear flow with geometry similar to microvessels in vivo. However, there are still existing knowledge gaps and lack of convincing evidence to demonstrate and quantify key biological features of the microfluidic microvessels. In this paper, using advanced micromanufacturing and microfluidic technologies, we presented an engineered microvessel model that mimicked the dimensions and network structures of in vivo microvessels with a long-term and continuous perfusion capability, as well as high-resolution and real-time imaging capability. Through direct comparisons with studies conducted in intact microvessels, our results demonstrated that the cultured microvessels formed under perfused conditions recapitulated certain key features of the microvessels in vivo. In particular, primary human umbilical vein endothelial cells were successfully cultured the entire inner surfaces of the microchannel network with well-developed junctions indicated by VE-cadherin staining. The morphological and proliferative responses of endothelial cells to shear stresses were quantified under different flow conditions which was simulated with three-dimensional shear dependent numerical flow model. Furthermore, we successfully measured agonist-induced changes in intracellular Ca²⁺ concentration and nitric oxide production at individual endothelial cell levels using fluorescence imaging. The results were comparable to those derived from individually perfused intact venules. With in vivo validation of its functionalities, our microfluidic model demonstrates a great potential for biological applications and bridges the gaps between in vitro and in vivo microvascular research.     

有氧运动训练对中华倒刺鲃幼鱼肠道排空及其数学模型选择的影响

为了考察有氧运动训练对中华倒刺鲃幼鱼肠道排空及其数学模型选择产生的影响, 在(250.5)℃条件下, 将108 尾大小相当的实验鱼(24.470.03) g, (10.900.02) cm随机分为对照组(CG), 1 BL/s 训练组(1TG)和2 BL/s 训练组(2TG), 在相应流速下运动训练8w 后, 轻度麻醉灌喂体重1.45%的饵料, 随后在不同时间点分别测定肠道内容物重量及其百分比, 用3 个常见数学模型对实验数据进行拟合并比较。结果发现, 1TG 和2TG 训练组的体重特定生长率(WSGR)显著高于CG 对照组 (P0.05);各实验组肠道内容物干重及其百分比随着摄食后时间的延长而显著降低;所有实验组肠道排空的最优数学模型均为平方根模型;训练组(1TG 和2TG)的肠道排空率(皆为0.49%/h)明显大于CG 对照组(0.41%/h)(P0.05), 1TG 和2TG 训练组的肠道排空时间(分别为 20.39h 和 20.33h)短于 CG 对照组(24.51h)。研究表明, 有氧运动训练没有对中华倒刺鲃幼鱼的肠道排空特征及其最优数学模型选择产生显著影响, 但明显提高了该种鱼的肠道排空率并缩短其肠道排空时间。       

基于GIS的湖北省森林生态系统定位观测研究网络规划

森林生态系统定位观测研究站可为森林经营和生态效益评估提供基础数据。以湖北省为例,设计森林生态系统定位观测研究网络的指标体系,基于球状模型进行普通克里格插值,与GIS的空间叠置分析相耦合,生成湖北省生态地理区划和生态功能区划;建立森林生态站网络规划的有效分区,进行森林生态站站点布设,构建了湖北省森林生态系统定位观测研究网络;总结讨论了该网络的合理性和保障措施、与其它生态站网络的比较和网络规划的局限性。结果表明:该网络将湖北省划分成12个分区,共布设16个森林生态站,其中计划建设12个生态站,已经建设4个生态站;不仅可以监测湖北省81.8%的森林面积,88.9%的生态功能区面积,98.2%的重点生态功能区面积和87.5%的生物多样性保护优先区面积,而且9个森林生态站分布与湖北省4个重点生态功能区和3个生物多样性保护优先区相匹配。该网络可以实现森林生态系统生态要素的连续观测与清查,为森林生态服务功能和生态效益评估,以及重大生态工程提供数据支撑和辅助决策分析依据。