对1812年3月8日新疆尼勒克8级地震发震构造的初步探讨

本文根据现场考察,航片解译和历史记载资料,对1812年3月8日尼勒克地震的震级及地震地质背景进行了讨论。根据地震主断裂带的展布和运动特征与喀什河断裂带相一致等特点,指出1812年尼勒克8级大震是喀什河断裂作右旋逆冲的结果。 喀什河断裂是一条控制伊犁盆地北界和喀什河河谷的活断裂,它错断了喀什河阶地和古尼勒克沟,有着明显的新活动性。在震区还发现了一些古地震遗迹。对比1812年地震陡坎和古地震陡坎角度变化情况,对断层运动速率进行了估计,并估算出喀什河断裂带发生M≥8地震的重复周期为800—1600年。     

对1812年3月8日新疆尼勒克8级地震发震构造的初步探讨a

本文根据现场考察,航片解译和历史记载资料,对1812年3月8日尼勒克地震的震级及地震地质背景进行了讨论。根据地震主断裂带的展布和运动特征与喀什河断裂带相一致等特点,指出1812年尼勒克8级大震是喀什河断裂作右旋逆冲的结果。 喀什河断裂是一条控制伊犁盆地北界和喀什河河谷的活断裂,它错断了喀什河阶地和古尼勒克沟,有着明显的新活动性。在震区还发现了一些古地震遗迹。对比1812年地震陡坎和古地震陡坎角度变化情况,对断层运动速率进行了估计,并估算出喀什河断裂带发生M8地震的重复周期为800——1600年。      

新疆吉林台水电站区域稳定性分析

本文根据区域地质构造资料和区域地震活动特征,分析了新疆吉林台水电站区域稳定性。研究结果表明,该站不利之处是位于天山近代总隆起中喀什河断陷谷地内,喀什河活断裂又从库坝区附近通过。但坝址座落在石炭系组成的小断块上,喀什河断裂8级大震的重复发生间隔为2600—4000年,预测今后百年内库坝区发生直下型大震的可能性极小,其地震基本烈度为Ⅷ度是适宜的。     

新疆伊犁喀什河断裂带分段性研究

据两种关系,即1812年尼勒克8级地震产生的地表破裂与断裂破裂的对应关系和地震最高烈度与破裂延伸烈度区间的关系,同时考虑古地震研究成果和现代地震活动特征,对喀什河断裂带进行了破裂分段性研究,将喀什河断裂带以博尔博松为界分为东、西两段,东段长220 km以上,西段长290 km。研究表明,东段目前处于1812年尼勒克8级地震以后的地震活动相对平静期,在未来的时间里喀什河断裂带西段可能是大震活动的主要区段。     

喀什河断裂中更新世以来的活动速率研究

利用地貌和新近系位错测量的方法,结合遥感、地貌、变形测量与新近纪测年等手段,重点研究了伊犁盆地喀什河断裂中更新世以来的垂直活动速率。喀什河断裂在中更新世以来的新活动主要表现在河流阶地和地层的位错,综合研究了这些位错数据,分析了断裂各段在中更新世以来的活动速率,讨论了1812年尼勒克地震的平均位错反映的断裂现今最新的活动速率,提供了喀什河断裂中更新世以来不同时期活动的定量数据,填补了天山内部新近纪晚期研究的部分空白,对现今地壳运动与地球动力学研究及减轻地质灾害有重要意义。     

喀什河断裂中更新世以来的活动速率

地貌和新近系位错测量的方法是获得活动断裂在新近纪晚期以来可靠和准确的运动学数据的正确方法,本文结合遥感、地貌、变形测量与新近纪测年等手段,重点研究了伊犁盆地喀什河断裂中更新世以来的垂直活动速率.喀什河断裂在中更新世以来的新活动主要表现在河流阶地和地层的位错,综合研究了这些位错数据,分析了断裂各段在中更新世以来的活动速率,讨论了1812年尼勒克地震的平均位错反映断裂现今最新的活动速率,提供了喀什河断裂中更新世以来不同时期活动的定量数据,填补了天山内部新近纪晚期研究的部分空白,对现今地壳运动与地球动力学研究及减轻地质灾害有重要意义.     

格尔木河流域水资源开发利用规划预测分析

格尔木河流域属干旱区,干旱的自然环境决定了水资源在促进社会经济发展和生态环境保护方面起着十分重要的作用,水资源既是社会经济发展必需的宝贵资源,也是维持绿洲生态环境的重要因素。因此,合理开发利用水资源,制定中、远期流域用水规划,调整农业种植结构,发展节水农业,加强水资源统一管理,提高工业水资源重复利用率,是格尔木河流域今后发展的主要方向。探索适合于流域水资源可持续开发利用模式,确保水资源长期可持续开发利用,对格尔木河流域的社会效益、经济效益和环境效益可持续发展具有重要意义。     

新疆伊宁盆地活动断裂新活动特征研究

新疆伊宁盆地主要分布有巩留南、喀什河、雅马特等6条活动断裂，断裂走向近东西向与北酉一北北西向。其中巩留南断裂、喀什河断裂、雅马特断裂等在晚更新世一全新世时期有过多次显著的新活动，切错了晚更新世一全新世堆积物。在喀什河断裂上1812年发生了8级大展，形成长约100km的地震形变带。在巩留南断裂、雅马特断裂、伊宁断裂上也有受控于断裂近代新活动的中等地震发生。     

新疆伊犁喀什河断裂带及其活动性研究

通过对1812年新疆伊犁尼勒克地震的考察研究，认为该地震以地震断层为主体的地表地震形变带展布方向与发震断裂喀什河断裂带的走向一致。喀什河断裂带可分为3段，全长315km，它是由多条断层组成的活动断裂带，总体以逆冲活动为主，东段具有右旋扭错性质。喀什河断裂带具有长期发育的历史，它控制了中生代地层的分布，在新生代仍有多次活动并以垂直运动为主，晚第四纪以来的垂直活动速率为O．9—6mm／a。     

新疆尼勒克1812年地震地质灾害遥感解译研究

为研究新疆尼勒克1812年地震地质灾害特征,基于多源、多时域、多尺度遥感影像对喀什河沿线主要地质灾害进行解译,对地温异常进行目视解译和遥感定量提取,对地震断层进行多源高分辨率详细解译。结合地震地质灾害解译结果、断层特征、地温异常、航磁异常等进行综合讨论,结果对喀什河流域基础地质研究提供一定参考。     

石嘴山市煤炭型工业城市发展中的环境问题及对策

石嘴山市是我国重要的煤炭城市,40多年来,因煤炭资源开采、利用和外输,形成了该市畸重的工业结构,在煤炭资源日趋枯竭的同时,生态环境也遭到严重的污染和破坏。本文概述了石嘴山市煤炭资源储量及开发利用状况,分析了生态环境存在的主要问题及原因,提出了优化产业结构,减少污染企业比例,实施煤炭开采沉陷区生态修复工程,推进工业废弃物的综合利用,限制高耗水、高污染项目的发展和建立补偿机制等对策及建议。     

通过望虞河引长江水济太湖的生态意义

Taihu Lake is the third largest fresh water lake in China, locating in Yangtze Delta as the richest area of China. At present, eutrophication problem is severe in Taihu Lake. This paper, in view of ecological system, presents analysis of the composition structural characteristics of Taihu Lake environment regarded as a whole ecological system, energy and substances circulation between ecological factors. The Taihu Lake ecological environment is proceeding a lake evolution period, i.e. middle-eutrophic to eutrophic. Therefore the diversion water''from Yangtze River to Taihu Lake through the Wangyu River acts to change external agent function for Taihu ecological system, i.e. increasing water quantity of Taihu Lake may rise water level and speed up flow exchanging. Moreover, with harnessing measures for pollution sources to reduce input of nutrients, natural evolution procedure of Taihu ecological environment may slow down to subsequently improve Taihu ecological environment.     

顾及生态安全格局的流域生态保护红线划定及管控研究——以云南杞麓湖流域为例

生态保护红线划定是保障国土空间生态安全的重要举措,对保持生态系统的完整性,实现可持续发展具有重要意义.本文基于生态系统服务功能和生态敏感性对杞麓湖流域进行生态安全格局体系的构建,并开展精细化的生态保护红线划定研究,并进一步结合无人机航拍影像及实地调研成果,构建管控路径.得到结论:(1)水源涵养、水土保持、生物多样性、洪水调蓄重要性评价中的极重要区域叠加得到生态系统服务功能极重要区.者湾河、长沙河、大沙河及沟谷密度较大的山区敏感性最高,坝区整体生态敏感性较高.(2)一级生态保护红线范围包括生态极重要区域、生态极敏感区域及湖泊岸线、水库.二级生态保护红线范围包括环湖生态缓冲区、山区林地生态缓冲区及以河流为主的生态廊道.三级生态保护红线范围为生态协调区,土地覆盖以农田为主.(3)一级生态保护红线范围内的生态极敏感区应采取相关生态修复技术进行生态功能的保护.二级生态保护红线范围以生态保护为重点,保持该区域的生态环境质量.三级生态保护红线范围通过生态修复进行整体优化,提高生态环境承载能力.     

利用“3S”技术建立“三江源”地区生态环境动态监测系统

“三江源”地区生态环境呈现出不断退化和恶化的趋势,从该地区生态环境调查和监测的角度出发,探讨利用“3S”技术建立三江源地区生态环境动态监测系统及其对该地区生态环境保护与建设的必要性和可行性。     

Ecological and environmental instream flow requirements for the Wei River—the largest tributary of the Yellow River

Instream flows are essential determinants of channel morphology, riparian and aquatic flora and fauna, water quality estuarine inflow and stream load transport. The ecological and environmental instream flow requirements (EEIFR) should be estimated to make the exploitation and utilization of water resources in a highly efficient and sustainable way and maintain the river ecosystem good health. As the largest tributary of the Yellow River, the Wei River is the ‘Mother River’ of Guanzhong region in Shaanxi province. It plays a great role in the development of West China and the health of the ecosystem of the Yellow River. The objective of this study is to estimate the EEIFR for improving the Wei River's ecological and environmental condition and develop the river healthily. Concerning the main ecological and environmental functions of the Wei River in Shaanxi Province, the EEIFR for each section of the Wei River including minimum instream flow requirements (IFR) for aquicolous biotopes maintenance, IFR for channel seepage, channel evaporation, stream self‐purification and sediment transportation were estimated in this paper. The methods to estimate the instream flow requirements for stream self‐purification and instream flow requirements for sediment transportation were proposed. The temporal scale of typical years include the year with the probability 25% of occurrence (high‐flow year), the year with the probability 50% (normal‐flow year) and the year with the probability 75% (low‐flow year). The results show that the EEIFR for the Wei River mainly include instream flow requirements for self‐purification and sediment transportation in each typical year. From high‐flow year to low‐flow year, the annual EEIFR for each reach decrease, except those for the reach from Linjiacun to Weijiabao, and from Linjiacun at the upper reaches to Huaxian at the lower reaches, and the annual reach EEIFR decrease in a sequence. Copyright © 2007 John Wiley & Sons, Ltd.     

Coupled surface water–groundwater model and its application in the arid Shiyang River basin,China

The planning and management of water resources in the Shiyang River basin, China require a tool for assessing the impact of groundwater and stream use on water supply reliabilities and improving many environment‐related problems such as soil desertification induced by recent water‐related human activities. A coupled model, integrating rule‐based lumped surface water model and distributed three‐dimensional groundwater flow model, has been established to investigate surface water and groundwater management scenarios that may be designed to restore the deteriorated ecological environment of the downstream portion of the Shiyang River basin. More than 66% of the water level among 24 observation wells have simulation error less than 1·0 m. The overall trend of the temporal changes of simulated and observed surface runoff at the Caiqi gauging station remains almost the same. The calibration was considered satisfactory. Initial frameworks for water allocation, including agricultural water‐saving projects, water diversion within the basin and inter‐basin water transfer, reducing agricultural irrigation area and surface water use instead of groundwater exploitation at the downstream were figured out that would provide a rational use of water resources throughout the whole basin. Sixteen scenarios were modelled to find out the most appropriate management strategies. The results showed that in the two selected management options, the groundwater budget at the Minqin basin was about 1·4 × 10⁸ m³/a and the ecological environment would be improved significantly, but the deficit existed at the Wuwei basin and the number was about 0·8 × 10⁸ m³/a. Water demand for domestic, industry and urban green area would be met in the next 30 years, but the water shortage for meeting the demand of agricultural water use in the Shiyang River basin was about 2·2 × 10⁸ m³/a. It is suggested that more inter‐basin water transfer should be required to obtain sustainable water resource use in the Shiyang River basin. Copyright © 2009 John Wiley & Sons, Ltd.     

Water ecological function zoning in Heihe River Basin,Northwest China

Rapid urbanization coupled with increase in population growth rate in recent years has accelerated economic pressure on the ecological environment leading to a gradual deterioration of global and regional environment. This has particularly resulted into water contamination and shortage of water resources thus posing a great threat to human survival. How to guaranteeing sustainable use of basin water resources has attracted more and more attentions. The Heihe River Basin is the secondary longest river inland China and the significantly water source of Hexi Corridor, the problem of water pollution, ecological environment deterioration and the shortage of water has seriously threatened the ecological system of the Heihe River Basin. In this study, through depicting the characteristics of natural environment, human activities, water ecosystem services and other factors in Heihe River Basin we delineated the water ecological function in Heihe River using the principal components analysis and the K-means clustering method. In the study, Heihe River Basin is divided into 3 primary level areas and 8 secondary level sub-areas. Water ecological characteristics analysis showed that the spatial distribution of the water ecological function of Heihe River Basin was not uniform, which are mainly showed in three aspects, function of windproof and sand fixation, function of soil erosion prevention and function of water sources conservation. The results of this study can provide effective and scientific theoretical references for the integrated water sources management and the ecological function optimization of the Heihe River Basin.     

PRINCIPLES OF RIVER TRAINING AND MANAGEMENT

River regulation and river training have been performed for various purposes and negative effects have been shown in numerous cases. In some cases the negative effects are so serious that humans have to consider to "renaturalize" the regulated rivers. Only by using the strategy of integrated river management the diverse river uses and natural fluvial processes and ecological systems may be harmonized. Based on analysis of case studies and data collected from literatures this paper presents the concept of integrated river management and four principles of river training. The integrated river management comprises: 1) taking the watershed, upper stream basin including the tributaries, middle and lower reaches and the estuary as an integrated entity in the planning, design and management; and 2) mitigating or controlling the negative impacts on hydrology, erosion and sedimentation, fluvial processes, land use and river use, environment and ecology while in achieving economic benefit from water resources development, flood safety management and hydropower exploitation. River training and management should be in accordance with the four principles: 1) extending the duration of river water flowing on the continent, which may be achieved by extending the river course or reducing the flow velocity; 2) controlling various patterns of erosions and reducing the sediment transportation in the rivers; 3) increasing the diversity of habitat and enhancing the connectivity between the river and riparian waters; and 4) restoring natural landscapes.     

Total consumption controlled water allocation management for multiple sources and users with inexact fuzzy chance-constrained programming: a case study of Tianjin,China

Environmental and ecological issues caused by water resources crisis have brought enormous challenges to the sustainable development of water-deficient area. Water resources allocation management balancing the relationship between the social-economic development and the ecological environment has become a hot topic in recent years. In this paper, an inexact fuzzy chance-constrained programming (IFCCP) approach is proposed for regional water resource allocation optimization with the aim of promoting the harmonious development of the social economic and the ecological environment, improving water utilization efficiency, and realizing water resources consumption control under uncertainties. The method is incorporated with interval parameter programming, fuzzy programming, and chance-constrained programming, for handling system uncertainties and balancing the optimal objectives with the risk of violating system constraints. Under this framework, an IFCCP model for water resources allocation management was successfully formulated and applied to a typical water-deficit area, Tianjin, China, for obtaining a better water resources plan among multiple users under resources and environmental limitation. Different total water consumption control policies are designed for assessing regional water allocation schemes. The results indicated that the gap of supply and demand will only be solved by foreign water, the transferred water from Luan River and Changjiang River would still be the main supplier in planning horizon. Moreover, the strict total water consumption control policy would guarantee the water requirement of ecological environment, lead to changes in the structure of water supply, actively guide on water conservation, and promote the large-scale utilization of desalted water and recycle water.     

鄱阳湖流域大型湖库水生生态环境变化及驱动力分析——以柘林湖为例

鄱阳湖流域内湖库资源众多,柘林湖作为鄱阳湖最大的入湖湖库,是鄱阳湖流域内最大的调节湖库,对鄱阳湖入湖径流有一定的影响,在鄱阳湖的入湖流量中占重要地位.本文以鄱阳湖流域内纳入水质良好湖泊的柘林湖为例,通过对柘林湖的形成及湖泊水系生态环境演变进行探讨,分析近30年来该湖水生生态环境的变化及其关键驱动力因子.综合研究表明:柘林湖水生生物多样性有下降趋势,水质有先变差后改善的趋势,其变化的驱动力主要是流域内人口数量增加、城镇化工业化进程加快、入湖污染负荷逐年增长、滨湖区生态安全屏障受人为破坏以及资源开发不合理等.只有处理好"人湖"和谐、"三次飞跃"和"四大转变",并采取科学合理的措施进行集成研究和综合治理,才能行之有效地改善柘林湖水生生态环境,并发挥其应有的生态效应,从而保障鄱阳湖入湖"一湖清水".