植物床-沟壕系统的藻类捕获功能

采用原位实验验证植物床．沟壕系统的藻类捕获功能。结果表明：该系统能够有效拦截和捕获源水藻类。在水力梯度驱动下,约35％源水进入高位小沟流经植物床内部根孔结构而汇至低位小沟。低位小沟内叶绿素a（Chl-a）浓度显著低于高位小沟（P=0．0239）,其降低比例为11．1％。以植物床．沟壕系统为结构形式的根孔净化区其出水Chl-a浓度较源水整体下降了27．0％。估算该片根孔净化区捕获藻类鲜生物量约122kg／d。石臼漾湿地共含根孔净化区11片,按供水25万t／d计,估算捕获藻类鲜生物量约1100kg／d。     

侧开缝对竖通道内旋转热流场影响的实验研究

为了掌握竖通道两侧开缝对于通道内热流场的影响,在一32cm(长)×32cm(宽)×200cm(高)的竖通道内进行了旋转热流场实验研究,对比了在不同热源条件下,竖通道侧开缝宽度为3.0cm和3.5cm时,侧开缝底部5cm高区域被遮挡前后通道内热流场的变化。实验结果表明,与遮挡前相比,遮挡通道侧开缝底部对火焰燃烧和热流场的运动状态都会产生影响。遮挡通道侧开缝底部区域,会在一定程度上限制外界冷空气进入通道内,从而减弱通道内的火焰旋转程度,致使燃料燃尽的耗时更长,平均火焰高度降低,其影响程度随着燃料池增大而减弱;遮挡侧开缝底部区域后,造成通道内下部区域中心轴线处的温度降低,最大影响区域在50cm高度附近,而在150cm高度以上基本没有影响;平均火焰高度与燃料池直径之比的无量纲量H/Φ与Peclet数之间的比例系数近似为1.732,并且是否遮挡侧开缝底部区域对于两者之间比例关系的影响不大。     

Incorporating Variable Source Area Hydrology into a Spatially Distributed Direct Runoff Model1

Buchanan, Brian, Zachary M. Easton, Rebecca Schneider, and M. Todd Walter, 2011. Incorporating Variable Source Area Hydrology Into a Spatially Distributed Direct Runoff Model. Journal of the American Water Resources Association (JAWRA) 48(1): 43‐60. DOI: 10.1111/j.1752‐1688.2011.00594.x Abstract: Few hydrologic models simulate both variable source area (VSA) hydrology, and runoff‐routing at high enough spatial resolutions to capture fine‐scale hydrologic pathways connecting VSA to the stream network. This paper describes a geographic information system‐based operational model that simulates the spatio‐temporal dynamics of VSA runoff generation and distributed runoff‐routing, including through complex artificial drainage networks. The model combines the Natural Resource Conservation Service’s Curve Number (CN) equation for estimating storm runoff with the topographic index concept for predicting the locations of VSA and a runoff‐routing algorithm into a new spatially distributed direct hydrograph (SDDH) model (SDDH‐VSA). Using a small agricultural watershed in central New York, SDDH‐VSA results were compared to those from a SDDH model using the traditional land use assumptions for the CN (SDDH‐CN). The SDDH‐VSA model generally agreed better with observed discharge than the SDDH‐CN model (average, Nash‐Sutcliffe efficiency of 0.69 vs. 0.58, respectively) and resulted in more realistic spatial patterns of runoff‐generating areas. The SDDH approach did not correctly capture the timing of runoff from small storms in dry periods. Despite this type of limitation, SDDH‐VSA extends the applicability of the SDDH technique to VSA conditions, providing a basis for new tools to help identify critical management areas and assess water quality risks due to landscape alterations.     

Modeling Streams and Hydrogeomorphic Attributes in Oregon From Digital and Field Data1

Abstract: Managers, regulators, and researchers of aquatic ecosystems are increasingly pressed to consider large areas. However, accurate stream maps with geo‐referenced attributes are uncommon over relevant spatial extents. Field inventories provide high‐quality data, particularly for habitat characteristics at fine spatial resolutions (e.g., large wood), but are costly and so cover relatively small areas. Recent availability of regional digital data and Geographic Information Systems software has advanced capabilities to delineate stream networks and estimate coarse‐resolution hydrogeomorphic attributes (e.g., gradient). A spatially comprehensive coverage results, but types of modeled outputs may be limited and their accuracy is typically unknown. Capitalizing on strengths in both field and regional digital data, we modeled a synthetic stream network and a variety of hydrogeomorphic attributes for the Oregon Coastal Province. The synthetic network, encompassing 96,000 km of stream, was derived from digital elevation data. We used high‐resolution but spatially restricted data from field inventories and streamflow gauges to evaluate, calibrate, and interpret hydrogeomorphic attributes modeled from digital elevation and precipitation data. The attributes we chose to model (drainage area, mean annual precipitation, mean annual flow, probability of perennial flow, channel gradient, active‐channel width and depth, valley‐floor width, valley‐width index, and valley constraint) have demonstrated value for stream research and management. For most of these attributes, field‐measured, and modeled values were highly correlated, yielding confidence in the modeled outputs. The modeled stream network and attributes have been used for a variety of purposes, including mapping riparian areas, identifying headwater streams likely to transport debris flows, and characterizing the potential of streams to provide high‐quality habitat for salmonids. Our framework and models can be adapted and applied to areas where the necessary field and digital data exist or can be obtained.     

应急供水的启示——日本神户市应急供水系统简介

以日本神户市的水道耐震化项目考察为基础,对该市应急供水系统的建设方法进行梳理,归纳了系统建设目标、系统方案、应急水源储备、应急水源输送和应急供水管道抗震等重要环节的建设思路和技术方法,对我国城市应急供水系统建设以及解决灾后供水有一定的借鉴作用。     

西部如何吸引环保资金

分析了西部开发中环保与技术进入西部较缓慢的原因,提出了相应的解决办法;如要拓宽西部环保的投资渠道,改变环保意识与观念的落后,改革西部经济体制等,以实现“开发西部环保先行”的发展战略。     

EFFECTS OF URBANIZATION ON CHANNEL INSTABILITY1

ABSTRACT: Channel instability and aquatic ecosystem degradation have been linked to watershed imperviousness in humid regions of the U.S. In an effort to provide a more process‐based linkage between observed thresholds of aquatic ecosystem degradation and urbanization, standard single event approaches (U.S. Geological Survey Flood Regression Equations and rational) and continuous hydrologic models (HSPF and CASC2D) were used to examine potential changes in flow regime associated with varying levels of watershed imperviousness. The predicted changes in flow parameters were then interpreted in concert with risk‐based models of channel form and instability. Although low levels of imperviousness (10 to 20 percent) clearly have the potential to destabilize streams, changes in discharge, and thus stream power, associated with increased impervious area are highly variable and dependent upon watershed‐specific conditions. In addition to the storage characteristics of the pre‐development watershed, the magnitude of change is sensitive to the connectivity and conveyance of impervious areas as well as the specific characteristics of the receiving channels. Different stream types are likely to exhibit varying degrees and types of instability, depending on entrenchment, relative erodibility of bed and banks, riparian condition, mode of sediment transport (bedload versus suspended load), and proximity to geomorphic thresholds. Nonetheless, simple risk‐based analyses of the potential impacts of land use change on aquatic ecosystems have the potential to redirect and improve the effectiveness of watershed management strategies by facilitating the identification of channels that may be most sensitive to changes in stream power.     

硫酸镁调节SO2衍生物对大鼠海马神经元钠通道的刺激作用

利用全细胞膜片钳技术研究了硫酸镁(MgSO4)对SO2衍生物刺激大鼠海马神经元电压门控性钠通道的调节作用.结果表明,MgSO4对SO2衍生物增大大鼠海马神经元钠电流的效应具有抑制作用,此作用随着SO2衍生物浓度的增加而减弱,随着MgSO4浓度的增加而增强.不同时间加入MgSO4均会显著抑制SO2衍生物增大钠电流的效应,说明MgSO4不仅对SO2衍生物增大钠电流的效应具有抑制作用,而且可即时和延效性地抑制此损伤效应的发生.研究结果提示,硫酸镁对SO2衍生物刺激大鼠海马神经元钠通道具有抑制作用,这可能是MgSO4对SO2引发的中枢神经系统损伤具有防护和治疗作用的机制之一.图4参14