1)algal lake藻型湖泊
1.Microcosmic experimental comparison of ecological and physicochemical characters between macrophytic and algal lakes草、藻型湖泊水体生态及理化特性的实验对比
英文短句/例句
1.Experimental Comparison of Nutrient Characters of Pore Water between Macrophytic and Algal Lakes草型和藻型湖泊间隙水营养盐特性的比较研究
2.Microcosmic experimental comparison of ecological and physicochemical characters between macrophytic and algal lakes草、藻型湖泊水体生态及理化特性的实验对比
3.Consideration of Monitoring Cyanobacteria Bloom-forming in Shallow Lakes浅水型湖泊蓝藻水华预警监测工作的思考
4.Study on Dgnamic of Algae Growth in Lake湖泊藻类生长动力学研究——以镜泊湖为例
5.Foudmental Research of Applying on Eutrophic Water Body of Dianchi Lake by Using the New Alagecidal Agent;新型湖泊除藻剂对滇池富营养化水体的应用基础研究
6.Study on differences of phytoplankton composition and CyanB-ratio of shallow lakes in the Middle and Lower Reaches of the Yangtze River长江中下游典型湖泊浮游植物组成及蓝藻比差异研究
7.Seasonal change of planktonic diatom of two small shallow eutrophic lakes in Nanjing南京市两个小型富营养湖泊浮游硅藻的季节性变化
8.The Distribution of Microcystin in Reservoirs and Lakes in Guangdong Province and the Characteristic of Microcystin Production of Microcystis Flos-aquae;广东省典型水库与湖泊微囊藻毒素分布及水华微囊藻产毒特性研究
9.Dynamic of Phytoplankton and Monitoring of Microcystis in a Shallow Eutrophication Lake, Lake Xuanwu;湖泊浮游植物动态及微囊藻监测技术研究
10.Study on the Correlation of Lake Water Environment and Algae in the Core Area of Jiuzhaigou;九寨沟核心景区湖泊水环境与藻类相关性研究
11.Study on Nutrients and Algae Growth Dynamics in Estuarine Brackish Lake;河口边滩湖泊营养盐及藻类生长动力学研究
12.Studies on the Application of Early Warning Monitoring Technologies to Cyanobacteria Bloom-forming in Lake湖泊蓝藻水华预警监测技术的应用研究
13.Bench-scale Study of Algae Removal Efficiency in Water Treatment Plant in the South Jiangsu Region苏南河网地区湖泊水源水厂除藻试验研究
14.Phytoplankton Evaluation and Cluster Analysis of 5 Landscape-lakes in Beijing北京市五景观湖泊浮游藻类评价及聚类分析
15.Seasonal Change of Phytoplankton Community and Biological Evaluation about Water Quality of An Artificial Lake in Northeast China东北地区人工湖泊浮游藻类变动与生物学评价
16.Study on Construction of Digital Early-warning System for Cyanobacteria Bloom in Lakes湖泊蓝藻水华数字化预警系统构建探讨
17.Stoneworts contain calcium carbonate deposits so extensive that they may form the major part of lake bottoms.轮藻形成碳酸钙沉淀,这些沉淀可形成湖泊钙质泥灰岩的主要成分。
18.The Interaction between Microalgae and Trace Metals in Plateau Lakes and the Simulating Experiment;高原湖泊微藻和微量金属元素的相互作用过程及实验模拟研究
相关短句/例句
alage in lake water湖泊含藻水
1.The techniques of treat alage in lake water are briefly introduced.分析了藻类对水处理的影响,简要介绍了湖泊含藻水的处理方法,研究了预氧化法处理藻类的效果。
3)Haematococcus lacustris湖泊红球藻
4)grass type lakes草型湖泊
1.Evaluation on utilizating function damage for grass type lakes in arid area;干旱区草型湖泊使用功能损害程度量化评估
2.Based on the grass type lakes wetland resources's character,the economics theory and method is applied in the paper on the base of the investigation and experiment to analyses the asset value type of the wetland resources and to evaluate the values in Wuliangsuhai lake wetland.本文以典型干旱区草型湖泊乌梁素海湿地为研究区,在实地调查和试验的基础上,依据资源经济学和生态经济学的理论和方法,针对乌梁素海湿地资源的特点,对乌梁素海湿地的价值进行了货币化评估。
5)plant-type lake草型湖泊
1.According to eutrophication management problem of the world,take Lake Wuliangsuhai—typical Plant-type Lake as a research object, and analyze ecological evolving process of Lake Wuliangsuhai using satellite image in 1975, 1987, 1996, 2000, 2001 and 2002.针对国内外普遍关注的湖泊富营养化治理问题,以内蒙古乌梁素海这一典型草型湖泊为研究对象,利用 1975 年、1987 年、1996 年、1999 年、2000 年、2001 年、2002 年卫星遥感影像对乌梁素海湖泊生态演变过程进行分析研究。
6)lake model湖泊模型
延伸阅读
湖泊增减水 因强风作用或气压骤变,表层湖水从湖泊背风岸移至迎风岸的现象。风把动量传给湖水形成漂流,表层湖水便从背风岸移到迎风岸,迎风岸水位上升,即增水现象;同时,背风岸水位下降,即减水现象。湖面气压场骤变,也能引起增减水现象。低压区湖水位升高,称为静压效应,气压下降1百帕,水位约升高1厘米。 1888年J.默里发现成层湖水的水面层向迎风岸抬升,下层向背风岸抬升,提出了湖泊中的增减水现象。20世纪初J.W.桑德斯特勒姆在水槽中试验予以证实。 风力引起增减水时,湖面倾斜,倾斜的湖面反过来阻滞漂流运动,并在下层湖水中形成与漂流流向相反的补偿流(图1)。在深水湖岸,补偿流波及的深度可超过漂流水层的厚度。当湖上风向风速随时间变化,漂流、补偿流的速度,水面倾斜度和增减水水位也随时间变化,称为不稳定增减水;当湖上风向和风速稳定,增减水水位、水面坡度,漂流和补偿流在时间上均是稳定的,称为稳定增减水。在有水流进出的吞吐湖泊中,漂流与补偿流流量可不相等。 影响湖泊增减水的因素主要有:①风,包括风速和风向,风速剧烈增大时,大量湖水向增水岸转移,而补偿流来不及将等量的湖水送到减水岸,水位剧烈增加(图2)。如果研究的增减水方向不与风向平行,则须考虑风向的影响。②湖盆形态,在迎风深水湖岸,由于补偿流很大,水位上升较小;而在迎风浅水湖岸,由于浅滩的摩擦作用,补偿流不足以抵消增水的水量,因此水位上升比较大;在狭窄的湖湾和沿盛行风方向伸展的狭长湖泊中,增减水现象特别显著。③湖泊的水位,在同一地点,低水位时增减水现象较高水位时明显。对于水库,影响因素还有流量即上游来水或泄洪。 增减水水位变化可实地测量,也可用公式计算。确定增水岸水位高度,对于设计湖岸堤防和港口码头高程等具有实际意义。 参考书目 冯士筰编著:《风暴潮导论》,科学出版社,北京,1982。 G.E.Hutchinson,A Treatise on Limnology,Vol.1,John Wiley & Sons,New York,1957.
