1960—2014年松花江流域降雨侵蚀力时空变化研究

基于松花江流域及其邻近61个气象站1960—2014年逐日降雨数据,采用Mann-Kendall非参数趋势检验、小波周期分析和地统计插值方法,分析流域内不同地形区和子流域年降雨侵蚀力时空分异特征及其影响因素。结果表明：1）松花江流域多年平均降雨侵蚀力为1 717.6 MJ·mm·hm^-2·h^-1·a^-1,呈波动变化趋势,存在以15.2 a为主周期和4.7 a为小周期的周期性变化特征,且在1982和1998年发生显著突变;2）松花江流域降雨侵蚀力空间分布特征与降雨量分布特征基本一致,自东南向西北递减,与东南季风的影响区域相吻合;流域年降雨侵蚀力变化趋势呈现明显的区域分异,在流域西北地区年降雨侵蚀力呈增加趋势,而在中部平原区的东北部和西南部呈现下降趋势;3）年降雨侵蚀力随地形的变化表现为东部丘陵山地区>中部平原区>西部山地区。在东部丘陵山地区年降雨侵蚀力与经度、纬度显著相关（P<0.01）,而在中部平原区和西部山地区降雨侵蚀力与海拔、经度和纬度关系不甚明显;4）流域内各子流域年降雨侵蚀力存在明显分异,年降雨侵蚀力在各子流域的变化趋势表现为从第二松花江流域到流域中游再到嫩江流域呈依次降低趋势,其分布特征与降雨量的分布一致,各子流域年降雨侵蚀力均呈不显著的降低趋势。     

汉江流域开发史上的环境问题

汉江流域全面开发的契机是明清时流域外移民的大规模移入以及由此而引起的人口的大幅度增殖。流域经济的全面开发导致了对流域生态环境的破坏，主要表现在两方面：（）上中游山区因滥垦殖，导致森林破坏，水土流失逐渐加重，生态环境最终全面恶化；（２）下游江汉平原垸田围垦恶性膨胀，湮塞河湖，导致水系紊乱，洪涝灾害频繁。     

多级机站通风系统集中控制技术的实验研究

金属矿山井下多级机站通风系统多采用传统的人工巡检、监控方式,给设备管理和设备监控维护带来了不便,同时也使得多级机站通风系统的优越性得不到充分发挥。介绍了利用远程I／O模块及通讯网络技术在井下现有控制设备基础上实现对井下多级机站通风系统进行集中监控的一种技术。该装置经过一年多的现场运行,性能稳定,检修维护量小,节能效果显著。     

典型草原抗风蚀能力的实验研究

为了了解人为干扰对典型草原抗风蚀能力的影响,采用风洞实验的方法对不同干扰条件下典型草原原状土的抗风蚀能力进行了研究.不同时间禁牧草原的风洞实验结果表明,禁牧典型草原的风蚀量和风蚀率都明显低于自由放牧草原,而且,在相同风速下,禁牧时间越长,侵蚀率及侵蚀量越小;草原开垦后,土壤的侵蚀率和侵蚀量远远高于典型草原,而且风速越大,相差越大;草原土壤侵蚀率随风速的增加而增加,但受草原土壤可侵蚀量的限制.另外,人工模拟干扰实验表明,典型草原土壤的侵蚀率与干扰程度呈直线相关关系.结果说明:放牧及耕作会使典型草原的抗风蚀能力明显降低,而禁牧可以有效提高其抗风蚀能力.在典型草原区,实行禁牧是遏制草原退化的有效措施.     

Land Degradation: A Challenge to Ethiopia

Land degradation is a great threat for the future and it requires great effort and resources to ameliorate. The major causes of land degradation in Ethiopia are the rapid population increase, severe soil loss, deforestation, low vegetative cover and unbalanced crop and livestock production. Inappropriate land-use systems and land-tenure policies enhance desertification and loss of agrobiodiversity. Utilization of dung and crop residues for fuel and other uses disturbs the sustainability of land resources. The supply of inputs such as fertilizer, farm machinery and credits are very low. The balance between crop, livestock, and forest production is disturbed, and the farmer is forced to put more land into crop production. For environmentally and socially sustainable development, there is an urgent need to promote awareness and understanding of the interdependence of natural, socioeconomic, and political systems at local and national levels. Understanding the current status and causes of land degradation is very important. This paper reveals the important elements of land degradation in Ethiopia and suggests possible solutions that may help to ameliorate the situation.     

Deflector Designs for Fish Habitat Restoration

Paired current deflectors are structures that are installed on each bank of a river to locally reduce the width of the channel, thereby creating flow acceleration and promoting scouring. These instream habitat structures have been used extensively in restoration projects to create pool habitat for fish, but there are many discrepancies in deflector design recommendations in terms of orientation, height, and length. Our objectives were to (1) examine how the angle, height, and length of paired deflectors affect scour hole dimensions and potential for bank erosion; and (2) test the applicability to paired deflectors of existing equations for scour hole depth and volume. Three deflector angles (45°, 90°, and 135°), two deflector heights (with flow under and over the deflector height), and two lengths (reducing the width by 25% and 50%) were investigated using uniform sand in a laboratory flume. Results showed a 26–30% smaller scour depth resulting from 45° deflectors than from 90° deflectors and a 5–10% smaller scour depth for 135° deflectors compared to 90° deflectors. The volume of scour and the potential for bank erosion were greater when flow was under the height of the deflectors rather than overtopping and when the length of deflector was increased. When flow was under the deflector height, 135° deflectors had the highest amount of bank erosion; whereas during overtopping flow conditions, 90° deflectors had the greatest bank erosion potential. Values predicted by the model of Kuhnle and others were closest to observed scour depth and volume measurements. The assumption that upstream-oriented deflectors always generate the largest scour should be revised.     

Adverse Effects on Alfeios River Basin and an Integrated Management Framework Based on Sustainability

The Alfeios River, the longest and highest flow-rate river in Peloponnisos, constitutes an important water resource and ecosystem in Greece. In the present study, human activities in the Alfeios River Basin are described, and their impacts on water quality and the ecosystem are analyzed; effects resulting from interventions on river geomorphology between Flokas Dam and the river delta are determined. These actions have caused significant adverse impacts on the infrastructure (the dam, railroad, and road bridges), the level of aquifer water table and area water uses, and the aquatic and riparian ecosystem. A general integrated management strategy is formulated and a master management plan is proposed for resolving management problems in river basins. The plan considers local conditions and national requirements and complies with the European Communities legislation; it would help prevent further basin deterioration, improve water quality, and protect water resources and ecosystems in the area in accordance to sustainable development. The Alfeios River Basin serves as a case study in the development of the plan.Published online Note: This version was published online in June 2005 with the cover date of August 2004.     

西蒙得木对金沙江干热河谷生态保护的作用

金沙江干热河谷生态条件恶劣，水土流失严重，对长江流域中下游特别是三峡大坝存在着极大的负面影响。治理长江流域，保护三峡大坝的重要源头是金沙江干热河谷的生态环境建设。西蒙得木生长的生态环境与金沙江干热河谷的生态环境非常相似，并且西蒙得木具有极高的经济价值，因此在金沙江干热河谷种植西蒙得木，既能改良生态环境，又能发展当地经济。     

INFLUENCE OF TWO WOODY RIPARIAN SPECIES ON CRITICAL CONDITIONS FOR STREAMBANK STABILITY: UPPER TRUCKEE RIVER,CALIFORNIA1

Over the past 35 years, a trend of decreasing water clarity has been documented in Lake Tahoe, attributable in part to the delivery of fine grained sediment emanating from upland and channel erosion. A recent study showed that the Upper Truckee River is the single largest contributor of sediment to Lake Tahoe, with a large proportion of the sediment load emanating from streambanks. This study combines field data with numerical modeling to identify the critical conditions for bank stability along an unstable reach of the Upper Truckee River, California. Bank failures occur during winter and spring months, brought on by repeated basal melting of snow packs and rain‐on‐snow events. Field studies of young lodgepole pines and Lemmon's willow were used to quantify the mechanical, hydrologic, and net effects of riparian vegetation on streambank stability. Lemmon's willow provided an order of magnitude more root reinforcement (5.5 kPa) than the lodgepole pines (0.5 kPa); the hydrologic effects of the species varied spatially and temporally and generally were of a smaller magnitude than the mechanical effects. Overall, Lemmon's willow provided a significant increase in bank strength, reducing the frequency of bank failures and delivery of fine grained sediment to the study reach of the Upper Truckee River.     

MODELING THE EFFECTS OF VARIABLE ANNUAL FLOW ON RIVER CHANNEL MEANDER MIGRATION PATTERNS,SACRAMENTO RIVER,CALIFORNIA, USA1

ABSTRACT: Flow regulation impacts the ecology of major rivers in various ways, including altering river channel migration patterns. Many current meander migration models employ a constant annual flow or dominant discharge value. To assess how flow regulation alters river function, variable annual flows ‐ based on an empirical relationship between bank erosion rates and cumulative effective stream power ‐ were added into an existing migration model. This enhanced model was used to evaluate the potential geomorphic and ecological consequences of four regulated flow scenarios (i.e., different hydrographs) currently being proposed on the Sacramento River in California. The observed rate of land reworked correlated significantly with observed cumulative effective stream power during seven time increments from 1956 to 1975 (r²= 0.74, p = 0.02). The river was observed to rework 3.0 ha/yr of land (a mean channel migration rate of 7.7 m/yr) with rates ranging from 0.8 ha/yr to 5.1 ha/yr (2.0 to 13.3 m/yr), during the analyzed time periods. Modeled rates of land reworked correlated significantly with observed rates of land reworked for the variable flow model (r²= 0.78, p = 0.009). The meander migration scenario modeling predicted a difference of 1 to 8 percent between the four flow management scenarios and the base scenario.