共查询到20条相似文献,搜索用时 155 毫秒
1.
2.
南海及邻域现代构造应力场与近代地壳运动及地壳稳定性研究 总被引:1,自引:0,他引:1
本文根据有限元法反演了南海及邻域现代构造应力场的基本特征,着重讨论了应力场与地震活动、火山活动、活动断裂和地壳升降运动等的相关性,并根据最大剪应力的数值将本区划分为极不稳定区(≥1.8×10~7Pa)、不稳定区(1.2×10~7Pa-1.8×10~7Pa)、次稳定区(6×10~6Pa-1.2×10~7Pa)和稳定区(<6×10~6Pa)等4个大区域的地壳稳定性分区。 相似文献
3.
4.
5.
6.
生态环境需水量评估方法与例证 总被引:13,自引:0,他引:13
首先评价了生态环境需水量概念内涵, 包括概念的界定、生态环境水的组成结构和需水特点. 在此基础上, 提出了生态环境需水量分级和计算方法. 以黄淮海地区为研究实例, 估算了研究区生态环境现状用水量、最小需水量、适宜需水量, 并计算了相应的缺水量. 然后根据相关的规划, 对未来的水平年2010年, 2030年和2050年生态环境需水量进行了预测. 结果显示, 随着功能设定的不同, 水资源参照平台的差异, 最小和适宜生态环境需水量不同, 相应的缺水量也会产生差异. 研究表明, 黄淮海地区最小生态环境需水范围在2.84×1010~1.02×1011 m3, 适宜需水量范围在6.45×1010~1.78×1011 m3, 最小需水时的缺水量范围为9.1×109~2.16×1010 m3之间, 适宜需水时的缺水量范围为3.07×1010~7.53×1010 m3之间. 通过不同的缺水量数值, 可以安排配水的优先性. 三个预测年的生态环境需水量范围分别为4.49×1010~1.73×1011 m3, 5.99×1010~2.09×1011 m3和7.44×1010~2.52×1011 m3. 相似文献
7.
1988年11月6日澜沧——耿马地震后,使用2台Worden重力仪在7.6级地震震中附近的大塘乡下扎二进行了定点场地重力测量,本文对这次重力测量的结果进行了初步分析,认为观测期间在竹塘附近发生的二次强余震(11月27日,M=5.9,11月30日,M=6.7),震前引起了约30×10~(-8)ms~(-2)的重力变化,并且认为这二次强余震的孕育过程可以用DD模式来进行解释,据此初步估算这二次强余震之前的最大应力值约4×10~7达因/厘米~2,应变值约4×10~(-5),震源体的隆起约12厘米。 相似文献
8.
对安丘地震台16年室内基线的研究结果表明:室内基线观测精度可达到2×10~(-7).室内基线的变化大部分是室温引起的地表热形变,其量值达7×10~(-5).地壳活动的信息仅为5×10~(-6).因而降低和消除地表热形变是提高室内基线应用价值的关键. 相似文献
9.
10.
11.
对太湖55种常见鱼类的生态学特点和种群动态等作了较全面的综合分析, 认为:鱼类的生态学特点和环境因子(包括人为因子)的综合作用是造成目前太湖在鱼类组成、种群数量上均以小型鱼类占绝对优势, 大、中型经济鱼类种群数量下降、结构低龄化的主要原因。因此, 太湖增值措施应包括:限制刀鲚发展、扶持翘嘴红鲌、鳜等名贵凶猛鱼类、加强人工放流、重点保护草上和水底部产卵鱼类、提高起捕规格等。 相似文献
12.
13.
我国大、中草型浅水型湖泊渔业综合开发技术进展 总被引:1,自引:1,他引:0
长江中下游湖大多属浅水草型湖泊,长期以来渔业利用处于薄后状态,1986-1990年国家在江苏鬲湖,湖北保定湖和安徽花园湖等地组织了大,中型浅水草型的湖泊的综合开发技术,包括水大面鱼病害控制,围养区层鱼捕捞技术,水体农业模式在内的科技攻关,本文以这五年取得的成果为主,概述了我国大,中型浅水草型湖泊渔业综合开发技术方面的进展。 相似文献
14.
The presence of roads, farm house foundations, wells and Liangzhu period cultural relics in the bottom of Lake Taihu attest to the fact that this shallow depression was probably dry between 4 and 5 thousand years ago. This interpretation is corroborated by the sudden disappearance of algal pigments at sediment depths carbon-14 dated at 4-5 thousand years before present.In winter, the stronger winds are predominantly from the northeast. These winds result in a powerful counterclockwise current that transports lake sediments and has altered the very shape of the lake over the last 300 years. Winds produce a complex mixing pattern in Lake Taihu with storm induced sediment deposition occurring near the lake''s center.During approximately 240 days of the year, the wind blows across Lake Taihu with sufficient force to mix it to its bottom. As a result, this polymictic lake rarely becomes anoxic and dissolved oxygen at the mud water interface is maintained at or above 4 mg·l-1. The consequences of this high dissolved oxygen are quite impressive as high organic loading to the lake would otherwise render its bottom waters anaerobic killing many of its natural inhabitants.Because suspended solids reduce (attenuate) light penetration, the major primary production takes place in the top metre of the lake (mean Secchi Transparency-0.25 m). Suspended clays are slow to settle and wind mixing keeps fine-grained suspended solids in suspension in all but the most quiet backwaters of the lake.In the recent past about 23 000 metric tonnes of phytoplankton were produced in Lake Taihu. This large production represents only about 5% of the total influx of organic material entering the lake. In summer and fall, cyanobacteria such as Microcystis spp. and Anabaena spp. dominate most of the lake. Recently, however, mixotrophic flagellates displaced cyanobacteria as the dominant algae in parts of Lake Taihu with high bacteria and high suspended solids (e.g. Wuli and Meiliang Bay). In the future, facultative heterotrophs may come to dominate an ever larger portion of the lake waterc column. 相似文献
15.
三峡水库以及上游江段形成的河—库生态系统与长江中下游洞庭湖和鄱阳湖的江湖生态系统都是四大家鱼的重要栖息地,有相似性也有差异.2017年7—8月在三峡水库、洞庭湖和鄱阳湖利用地笼、虾笼、高网和迷魂阵采集草鱼和鲢幼鱼样本,观测耳石日轮,分析三峡水库和通江湖泊草鱼和鲢幼鱼的繁殖时间和早期生长特征及差异,探讨相应的保护措施.结果显示,三峡水库、洞庭湖和鄱阳湖采集草鱼幼鱼的孵化日期分别为4月24日—5月25日、5月21日—6月26日和5月4日—5月28日;鲢幼鱼的孵化日期分别为4月10日—6月12日、5月25日—6月19日和5月9日—6月12日.三峡水库、洞庭湖和鄱阳湖草鱼样本的体长增长率分别为1.04、1.84和1.64 mm/d,微耳石的沉积率分别为3.41、5.41和4.77μm/d;鲢幼鱼的体长增长率分别为1.10、2.87和1.96 mm/d,微耳石沉积率分别为2.96、7.17和4.57μm/d.洞庭湖草鱼和鲢的体长增长率和耳石沉积率均显著大于三峡水库;鄱阳湖鲢的体长增长率和耳石沉积率均显著大于三峡水库,而草鱼的体长增长率和耳石沉积率则与三峡水库没有显著差异.结果表明,三峡水库蓄水后长江中游干流草鱼和鲢的繁殖时间明显滞后;洞庭湖和鄱阳湖的草鱼和鲢幼鱼生长更快.目前,长江全面禁渔正在逐步实施,预期将对恢复鱼类资源起到重要的作用.除了全面禁渔之外,还建议保护和修复鱼类栖息地;减少江湖阻隔,灌江纳苗;增殖放流亲鱼;开展生态调度,促进鱼类繁殖. 相似文献
16.
17.
太湖鱼类区系变化和渔获物分析 总被引:10,自引:4,他引:6
20世纪80年代之前,太湖有鱼类107种、25科,属4个生态类型:洄游型、江湖洄游型、河流型和湖沼型.自2002年9月至2006年1月进行了太湖鱼类采集,共采得鱼类60种、18科.其中,除放流的鱼类外,都能在封闭的湖泊环境中完成生命周期(湖沼生态型);团头鲂、鲮、银鲫和尼罗罗非鱼属移植种类.团头鲂、鳙、鲢、草鱼和青鱼是从20世纪60年代起每年向湖中放流的鱼类;鳗鲡则是自1976年起放流从长江采捕的鳗苗.20世纪50年末至1985年,长江和太湖之间人为隔断,不能在静水中繁殖的鱼类在湖中消失,自然鱼类资源下降;加上过度捕捞和对繁殖群体缺少保护,导致鱼类群体小型化.最后,对太湖渔业资源的优化进行了讨论,并进一步提出对策. 相似文献
18.
The chloride concentration in Lake Constance, by volume the second largest lake in Europe, has increased by a factor of 2.4
during the past 40 years. Based on a chloride budget for the year 2006, we estimated total chloride imports to the catchment
at 101 kt year−1. Road deicing salts contributed 52%, waste water 23%, farming 11%, soil weathering 9%, precipitation and solid waste incineration
3% to this import. River monitoring programs in Switzerland, Germany, and Austria in 2006 traced an average total chloride
export from the catchment into Lake Constance of almost 70 kt and an export from the lake of 56 kt. About one-third of this
load to the lake originated from the Alpine Rhine catchment (Switzerland), and about 60% from various smaller tributaries
in Austria and Germany. The average annual import of chloride to Lake Constance for the years 1995–2007 was 60 kt, the export
almost 57 kt. This budget is in good agreement with the observed increase in the chloride content of the lake and thus confirms
the appropriateness and quality of the long-term monitoring program conducted by Swiss, German and Austrian laboratories.
For the year 2006, we estimated that about 65% of the chloride spread onto roads for deicing and manure on cultivated land
reached the lake within the year of their application. The missing 35% remained transiently in the soil and groundwater of
the catchment. 相似文献
19.
Dr. Jürgen J. Hartmann 《Aquatic Sciences - Research Across Boundaries》1984,46(1):163-170
Over 90 years the beginning of spawning time of the whitefishCoregonus lavaretus of Lake Constance fluctuated in a wide range. A cycle of about 11 years is observed. Correlations of spawning time with sunspot
activity (R), temperature, and age of spawners are found. Growth of the fishes in the first year of life correlates positively
with R and year-class strength; growth in the second year correlates negatively with year-class strength and standing stock.
It is assumed that the later the growing season ends the later the spawning season sets in. 相似文献