锦州市近岸海域水质特征分析及污染防治措施

应用综合污染指数法对锦州市近岸海域8个监测点位以及全海域2004年和2005年水质特征进行了分析,其结果表明全海域污染比较严重,且中度污染范围较广,近90%.除4#监测点属轻度污染,其余均属中度污染,且5#和7#监测点污染程度有加重趋势,应予以重视,最后就锦州市海水污染特征提出了相关防治措施.     

化探资料在东海-新沂地区农业环境中的应用

利用1:20万区域化探资料及1:2万化探普查资料,通过对母质(岩)常量元素、微量元素、土壤中重金属元素的分布分配特征的研究,结合区内地下水化学类型的分布特点,阐述了东海-新沂地区土壤农业地质背景及土壤环境质量,并对1:20万区域化探圈出的异常地段中元素的改良处理提出了相应的建议,为农业生产和产业结构调整指明了方向.充分说明了地球化学探矿资料作为基础性的资料,除了为找矿服务以外,更能象基础地质图一样,服务于农业、工业、环境等各个领域.     

大港滩海区埕北断阶带古近系层序界面的识别方法

通过对大港滩海区埕北断阶带层序地层的研究，将研究区古近系划分为3个三级层序，总结了5种识别层序界面的方法：①地震识别法；②钻井识别法；③测井识别法；④古生物组合识别法；⑤地球化学识别法。在研究区，方法①表现为区域性的上超和削截；方法②表现为岩性和泥岩颜色的突变；方法③表现为各种曲线和地层倾角的突变；方法④表现为古生物组合类型的变化；方法⑤表现为Fe^2＋／Mn^2＋值由下向上由逐渐增大，转为突然变小。其中方法①、③、④是层序界面的主要识别标志，方法②可作为参考标志，而方法⑤的应用效果较差。     

航空物探在酸性岩岩性划分中的效果

北山地区近几年来开展的大比例尺、高精度航空物探(磁、伽马能谱)测量,为岩性分类提供了可靠的高分辨率基础资料,也为这一地区的地质矿产勘查提供了新的信息.以北山东段岩性构造填图酸性侵入岩分类为例,介绍航空物探岩性分类的技术方法及工作要点.     

航空物探在珠海-深圳地区浅层水资源环境评价中的应用

珠海-深圳地区位于广东省南部,由于多种原因,浅层水资源遭受严重污染,淡水资源不足,致使当地人民生活用水和工农业用水比较紧张,制约着该区的经济发展.为了了解该区水资源状况,近年来应用航空综合物探(航磁、航空电磁和放射性伽马能谱)测量技术,快速有效地查明了该区海侵范围和浅层地下水的水质和淡水区的划分与分布,并对地下热水资源进行了预测,为全面了解该区水资源状况提供了可靠的基础资料,对科学地评价浅层水资源环境具有重要作用.     

桂西岩溶堆积型铝土矿地质异常分析及基于GIS的找矿有利地段圈定

桂西岩溶堆积型铝土矿床受地层岩性、构造、岩溶地貌、气候与水文等因素控制。通过对岩溶堆积型铝土矿床地质异常的分析和识别,利用G IS技术圈定铝土矿找矿的有利地段,并预测其资源潜力。     

Stable isotope characteristics and origin of ore-forming fluids in copper-gold-polymetallic deposits within strike-slip pull-apart basin of Weishan-Yongping continental collision orogenic belt, Yunnan Province, China

More than 140 middle-small sized deposits or minerals are present in the Weishan-Yongping ore concentration area which is located in the southern part of a typical Lanping strike-slip and pull-apart basin. It has plenty of mineral resources derived from the collision between the Indian and Asian plates. The ore-forming fluid system in the Weishan-Yongping ore concentration area can be divided into two subsystems, namely, the Zijinshan subsystem and Gonglang arc subsystem. The ore-forming fluids of Cu, Co deposits in the Gonglang arc fluid subsystem have δD values between −83.8‰ and −69‰, δ¹⁸O values between 4.17‰ and 10.45‰, and δ¹³C values between −13.6‰ and 3.7‰, suggesting that the ore-forming fluids of Cu, Co deposits were derived mainly from magmatic water and partly from formation water. The ore-forming fluids of Au, Pb, Zn, Fe deposits in the Zijinshan subsystem have δD values between −117.4‰ and −76‰, δ¹⁸O values between 5.32‰ and 9.56‰, and Δ¹³C values between −10.07‰ and −1.5‰. The ore-forming fluids of Sb deposits have δD values between −95‰ and −78‰, δ¹⁸O values between 4.5‰ and 32.3‰, and Δ¹³C values between −26.4‰ and −1.9‰. Hence, the ore-forming fluids of the Zijinshan subsystem must have been derived mainly from formation water and partly from magmatic water. Affected by the collision between the Indian and Asian plates, ore-forming fluids in Weishan-Yongping basin migrated considerably from southwest to northeast. At first, the Gonglang arc subsystem with high temperature and high salinity was formed. With the development of the ore-forming fluids, the Zijinshan subsystem with lower temperature and lower salinity was subsequently formed. Translated from Mineral Deposits, 2006, 25(1): 60–70 [译自: 矿床地质]     

Awkward geographies: Spatializing academic responsibility, encountering Sri Lanka

This paper responds to recent postcolonial geographical scholarship that sets forth transformative agendas in order to create more cosmopolitan theoretical projects within the discipline. For many geographers the challenges they face are located within not only their own disciplinary parameters, but also those of other specific research communities within which their work situates them. By bringing geography and area studies into productive conversation, this paper explores the tensions between negotiating one's academic voice, position and responsibility within geography as well as within a specific area studies community. More specifically, as a UK-based geographer I reflect on some of my own fairly unremarkable, yet extremely awkward, encounters during the course of scholarly praxis in Sri Lanka in order to raise questions over the spatialities of responsibility and political engagement in such academic praxis. I seek to theorize the chasms that open in such awkward encounters between notionally situated 'local' and 'foreign' scholars respectively and, in particular, develop ways of engaging and reorienting those chasms in ways that might enable the production of theoretically rich, yet richly contextualized postcolonial knowledges committed to the site of one's scholarly praxis – not just to the advancement of a more cosmopolitan theoretical project within geography.     

Influence of the Kunlun Mountain Ms8.1 Earthquake on Horizontal Crustal Deformation in the Sichuan and Yunnan Area

In order to track the space-time variation of regional strain field holistically(in a large scale) and to describe the regional movement field more objectively,the paper uses a nonlinear continuous strain model focused on extracting medium-low frequency strain information on the basis of a region with no rotation.According to the repeated measurements(1999～2001～2004) from GPS monitoring stations in the Sichuan and Yunnan area obtained by the Project of "China Crust Movement Measuring Network",and with the movement of 1999～2001(stage deformation background) as the basic reference,we separated the main influencing factors of the Kunlun Mountain M-S8.1 earthquake in 2001 from the data of 2001 and 2004,and the results indicate:(1) the Kunlun Mountain M-S8.1 earthquake has a discriminating effect on the Sichuan and Yunnan area,moreover,the deformation mode and background had not only certain similitude but also some diversity;(2) The movement field before the earthquake was very ordinal,while after the earthquake,order and disorder existed simultaneously in the displacement field;The displacement quantities of GPS monitoring stations were generally several millimeters;(3) The principal strain field before earthquake was basically tensile in an approximate EW direction and compressive in the SN direction,and tension was predominant.After the earthquake,the principal strain field in the Sichuan area was compressive in the EW direction and tensile in the SN direction,and the compression was predominant.In the Yunnan area,it was tensional in the NE direction and compressive in the NW direction,and tension was predominant;(4) The surficial strain before the earthquake was dominated by superficial expansion,the contractive area being located basically in the east boundary of Sichuan and Yunnan block and its neighborhood.After the earthquake,the Sichuan area was surface contractive(the further north,the greater it was),and south of it was an area of superficial expansion.Generally speaking,the Kunlun Mountain M-S8.1 earthquake played an active role in the accumulation of energy in the Sichuan and Yunnan area.Special attention shall be focused on the segment of Xichang-Dongchuan and its neighborhood.