饱水和排水过程中岩石电阻率各向异性特征的电阻率成像法研究

从电阻率的角度研究岩石裂隙介质的各向异性特征是一种方便而有效的方法,但多限于空间单个点上的测量数据分析.通过在砂岩岩样上的饱水与排水实验以及同步进行的高密度电阻率成像监测,探讨了应用高密度电阻率成像法获得图像研究岩石各向异性特征的可能性,分析了饱水与排水过程中岩石电阻率在不同方向上的响应特性.结果表明,电阻率成像法在分析岩石裂隙介质的各向异性方面具有多方向成像和动态监测的优点,可以通过对不同方向上获得的电阻率图像的分析,提取出岩石沉积结构的空间分布模式,清晰地反映出岩石在饱水和排水过程中电阻率变化空间分布模式的各向异性特征.     

用电阻率测量法检测在加载条件下介质的动力过程

本文给出了实验样品在单向轴向自动加载条件下,电阻率变化测量的结果.所用的方法是四电极法.微电极全部固定在样品中.一种预先给定的预切口准裂纹决定了未来的断裂带.为了保证既能监测到断裂带内电阻率的变化,又能监测到断裂带外电阻率的变化,将微电极安装在样品中各个部位.虽然这种前兆现象在断裂带内非常明显,但将断裂带内和带外的测量结果进行比较,可以看出:电阻率方法在带内及带外可以用来进行断裂预报.在断裂带内所得的这种典型变化过程和在煤矿中所得的电阻率变化很相似.缩短测量的重复时间可提高结果的质量.在电阻率变化期间可发现新的前兆现象.      

芦山M_S7.0地震余震期间大地电磁视电阻率变化

以2013年4月20日芦山MS7.0地震震后5月3—24日距主震震中约7km处所观测到的大地电磁数据为基础,分析地下电阻率变化与较大余震(MS3.0)活动的关系.为确保用于地震异常分析的观测数据的可靠性,基于大地电磁方法的特点,使用稳定估算(robust)技术和相干度因子约束等方法得到各频点一定数量的自功率谱和互功率谱,再根据视电阻率和相位曲线的分布形态,剔除引起视电阻率和相位曲线突变的谱值之后得到高质量的视电阻率和相位曲线.此外,根据曲线形态和误差分布来判断数据质量,剔除可能受到干扰影响的数据,以获得能够真实地反映地下电阻率变化的视电阻率分析结果.结果显示:观测期内的yx极化模式的视电阻率值总体呈非单调的增大趋势,最大增幅达27%;yx极化模式的视电阻率值几乎在每个相对集中的较大余震丛集后均会出现高值,而较大余震丛集期间对应的则是视电阻率低值.从物理机制上分析地震的电阻率效应源于微裂隙内孔隙流体的变化,故推测芦山地震余震期间电阻率的增加趋势是由于震后应变释放区应力恢复和孔隙度恢复所致.     

地电阻率趋势变化的形态特征与地震

总结26年来全国近百个台站的地电阻率观测资料, 发现可将以月均值为基本数据的地电阻率趋势变化形态分为5种类型, 其中的3种类型属异常变化, 它们有互不相同的定性、定量特征, 并且与地震的关系也不相同:漏斗型地电阻率趋势变化与强震相对应, 勺型变化则与中强震活动有较好的对应关系, 而斜型趋势变化一般不对应地震。本文由受压岩石的实验结果对不同类型的形态特征以及与地震的关系进行了初步的讨论, 认为不同地电阻率趋势变化形态实际上反映了地下岩土层所处的应力状态不同:漏斗型反映了地下岩土层处于高应力状态: 勺型反映地下介质处于中高应力状态: 而斜型则反映地下介质的应力在松弛。所有这些认识对于中期地震预报是有用的。      

地电阻率长趋势变化及其预测意义

为了深入研究地电阻率1年尺度以上趋势变化的区域性和同步性,本文从地电阻率与水位、水准的关系以及地电阻率固体潮现象的角度,通过理论、实验、实例分析了地电阻率趋势变化产生的原因.分析结果显示,地电阻率趋势变化与观测系统或水位(非构造水位)无关,而与周围构造变化有关,且趋势上升和下降分别反映了周围应力场的压性和张性变化.在此基础上,以高邮台和成都台为例,从地电阻率与周围地震的关系分析了地电阻率趋势变化的场兆特征,结果表明地电阻率在上升趋势转折时更具有短期的预测意义.本文结果可以为研究地电阻率的长期趋势变化现象提供参考; 未来地震的预测需在综合各台站观测结果的基础上才能有效地判定区域应力场的方向和相对幅度,从而给出有意义的地震前兆预测结果.      

利用大样本岩石破裂实验模拟扩容-扩散孕震模式的某些结果(一)s

用采自现场的500 mm500 mm1 000 mm的天然灰岩,在注水条件下模拟扩容-扩散(D-D)孕震模式,并以多种监测手段追踪受载岩石样品从变形、微裂到大破裂全过程有关的物理场的时空演化特征．分析视电阻率结果表明:① 受载岩石从微裂到大破裂全过程与电阻率前兆的时空演化进程基本吻合;② 电阻率前兆的时间进程具有阶段性,空间分布具有差异性;③ 岩石大破裂前观测到明显的趋势异常和短期前兆,并发现部分似可被确认为临震异常的电阻率前兆．电阻率的变化和分布特征似乎显示了与岩石样品受载过程的膨胀现象有某种内在联系．但未找到岩石膨胀的直接证据．最后,从理论上探讨了受载岩石样品电阻率变化的机理．      

垃圾填埋场渗漏污染三维分布式电学监测系统研制及应用

垃圾填埋场建设期将电极传感器网状布设于防渗层下方,垃圾场启用后通过预设电极实现观测区自然电位和地下介质电阻率测试.对比不同时期实测自然电位和视电阻率剖面特征变化,确定垃圾场渗漏与否、渗漏点的位置、数量及渗滤液形成羽状体的空间分布和扩散过程.三维分布式电学监测系统就是基于上述理念设计研制的,包括采集站、供电控制器及传感器系统,可同时完成多个位置点电位测量.粉砂层中渗滤液扩散过程的原位三维电学监测结果显示渗滤液污染区呈现自然电位负异常和低阻特征,低阻异常区分布范围和实际污染区具有良好的对应关系,污染区扩散特征可通过分析低阻异常区变化来确定.     

轻非水相液体污染过程的高密度电阻率成像法室内监测

为探讨高密度电阻率成像法监测多孔介质中轻非水相液体迁移过程的有效性,本文通过三维砂槽进行了非饱和带中轻非水相液体的污染试验,并利用高密度电阻率成像法进行了同步的动态监测.试验之后,将砂槽层层挖开,通过数码成像,获取了污染区域的实际范围与形状.结果表明,由高密度电阻率成像法圈定的污染区域在范围与形状上都与实际的结果比较接近,并可通过三维电阻率相对值的时间变化明显的看出轻非水相液体的污染过程.这说明利用高密度电阻率成像法对非饱和多孔介质中轻非水相液体的空间分布范围进行圈定并监测其迁移过程是完全可行的.     

芦山MS7.0地震余震期间大地电磁视电阻率变

以2013年4月20日芦山M_S7.0地震震后5月3—24日距主震震中约7 km处所观测到的大地电磁数据为基础, 分析地下电阻率变化与较大余震(M_S>3.0)活动的关系． 为确保用于地震异常分析的观测数据的可靠性, 基于大地电磁方法的特点, 使用稳定估算(robust)技术和相干度因子约束等方法得到各频点一定数量的自功率谱和互功率谱, 再根据视电阻率和相位曲线的分布形态, 剔除引起视电阻率和相位曲线突变的谱值之后得到高质量的视电阻率和相位曲线． 此外, 根据曲线形态和误差分布来判断数据质量, 剔除可能受到干扰影响的数据, 以获得能够真实地反映地下电阻率变化的视电阻率分析结果． 结果显示: 观测期内的yx极化模式的视电阻率值总体呈非单调的增大趋势, 最大增幅达27%; yx极化模式的视电阻率值几乎在每个相对集中的较大余震丛集后均会出现高值, 而较大余震丛集期间对应的则是视电阻率低值． 从物理机制上分析地震的电阻率效应源于微裂隙内孔隙流体的变化, 故推测芦山地震余震期间电阻率的增加趋势是由于震后应变释放区应力恢复和孔隙度恢复所致．      

海安台地电阻各向异性变化与地震

应用电阻率的各生方法研究了海安台地电阻率变化,发现海安台电阻率各向异性变化与其２５０ｍ范围内的Ｍ６．０以上地震有很好的对应,另外,对今后海安台附近的地震趋势作了预测。     

昌黎井水位、水氡趋势动态特征分析

分析了昌黎井2004年洗井前后水位、水氡的趋势动态特征,认为洗井是造成水位和水氡两者趋势变化不同步的主要原因之一.经过观测环境调查,判定2009年以来水位趋势下降并打破年变规律与附近温泉井抽水有关.     

Mineral Content of Bottled and Desalinated Household Drinking Water in Kuwait

Three hundred and twenty‐two samples of desalinated household water were collected from 99 sampling locations that covered 95% of Kuwaiti's residential areas. Seventy‐one brands of bottled water were collected from Kuwaiti markets. The water quality parameters that were studied included pH, electrical conductivity (EC), total dissolved solids (TDS), F^?, Cl^?, Br^?, , , , , , , , and the major macronutrients Na⁺, K⁺, Ca²⁺, and Mg²⁺. The analysis yielded a large range of results for most of these parameters, with differences in some cases exceeding 10‐fold. With a few exceptions, the results were found to comply with US‐EPA and WHO standards. Only the water in two brands of bottled water was acidic (pH < 6.5). The TDS was found to be higher than the US‐EPA regulated value in 4 and 3% of the household samples and bottled water brands, respectively. The fluoride levels were generally higher in bottled water than in household water. However, the household water that was produced by the Doha desalination plant and some of the European brands of bottled water were the best samples studied in terms of their quantity of Ca²⁺, Mg²⁺, and Na⁺ compared with the DRI values for those substances. EC and TDS were positively correlated with , , Na⁺, K⁺, Ca²⁺, and Mg²⁺ for household water but only with Ca²⁺ and Mg²⁺ for bottled water.     

数字地震深井水温水位观测系统的研发与应用

菏泽市地震局研制开发的数字地震深井水温水位观测系统,观测数据连续可靠,趋势变化平稳,微动态显示清晰,基本无干扰现象,设备安装方便简捷。     

Forecast and optimal allocation of production,living and ecology water consumption in Zhangye,China

The water crisis is one of three crises that are persecuting the world. China is among the countries that face severe water shortages. Water scarcity and water pollution have seriously affected China's sustainable development in terms of the economy and society. Water resources per capita of China is only one quarter of the world's average. In addition, about 70 percent of China's rivers, lakes, and reservoirs are affected by pollution. Due to limited water resources, a crucial issue for the sustainable development of the watershed is how to resolve the human/nature competition for water and how to achieve the coordinated development of the economy, society and ecology. On the basis of defining water consumption for production, living and ecology (WPLE), this paper proposes a framework for forecasting and optimally allocating WPLE. Using Zhangye, in the middle reaches of the Heihe River Basin as the case study area, we forecasted and optimally allocated WPLE under three development scenarios, i.e. the conventional development scenario (CDS), the economy-priority development scenario (EPDS) and the environmentally sustainable development scenario (ESDS). In 2010, the proportions of WPLE in Zhangye were 87.73%, 2.74% and 9.53%, respectively. In 2020, the proportions of WPLE will be 74.80%, 4.50% and 20.70% under the CDS, 76.16%, 5.27% and 18.57% under the EPDS, and 74.99%, 4.51% and 20.50% under the ESDS. In the future, the proportion of production water consumption of Zhangye will drastically decrease, while the proportion of ecological water consumption will significantly increase. The main contradiction of the co-evolution of WPLE of Zhangye is the competitiveness of production and living water consumption with ecological water consumption.     

Surfactant and irrigation effects on wettable soils: runoff,erosion, and water retention responses

Surfactants are chemical compounds that can change the contact angle of a water drop on solid surfaces and are commonly used to increase infiltration into water repellent soil. Since production fields with water repellent soil often contain areas of wettable soil, surfactants applied to such fields worldwide will likely be applied to wettable soil, with unknown consequences for irrigation‐induced erosion, runoff, or soil water relations. We evaluated surfactant and simulated sprinkler irrigation effects on these responses for three wettable, Pacific Northwest soils, Latahco and Rad silt loams, and Quincy sand. Along with an untreated control, we studied three surfactants: an alkyl polyglycoside (APG) in solution at a concentration of 18 g active ingredient (AI) kg^?1, a block copolymer at 26 g kg^?1, and a blend of the two at 43 g kg^?1. From 2005 to 2009 in the laboratory, each surfactant was sprayed at a rate of 46·8 l ha^?1 onto each soil packed by tamping into 1·2‐ by 1·5‐m steel boxes. Thereafter, each treated soil was irrigated twice at 88 mm h^?1 with surfactant‐free well water. After each irrigation, runoff and sediment loss were measured and soil samples were collected. While measured properties differed among soils and irrigations, surfactants had no effect on runoff, sediment loss, splash loss, or tension infiltration, compared to the control. Across all soils, however, the APG increased volumetric water contents by about 3% (significant at p≤0·08) at matric potentials from 0 to ? 20 kPa compared to the control. With a decrease in the liquid–solid contact angle on treated soil surfaces, surfactant‐free water appeared able to enter, and be retained in pores with diameters ≥ 15 µm. All told, surfactants applied at economic rates to these wettable Pacific Northwest soils posed little risk of increasing either runoff or erosion or harming soil water relations. Moreover, by increasing water retention at high potentials, surfactants applied to wettable soils may allow water containing pesticides or other agricultural chemicals to better penetrate soil pores, thereby increasing the efficacy of the co‐applied materials. Copyright © 2010 John Wiley & Sons, Ltd.     

1987—2022年新安江水库（千岛湖）水面面积时空变化及其与水位、蓄水量的响应关系

水面面积、水位、蓄水量是水库水资源管理的重要基础数据,遥感是湖库水体提取、水位和蓄水量估算的重要技术手段。由于不同水体提取方法的适用性差异、测高卫星数据的有限时间覆盖度和开源数据集的时空分辨率不足等原因,湖库水面面积、水位、蓄水量的长时序、高频率时空变化监测仍存在一定挑战。本研究以新安江水库为研究区,结合多源遥感、气象、水文和土地利用等数据,基于Google Earth Engine云平台,运用水体指数法,分析1987—2022年新安江水库水面面积时空变化特征,构建水位—水面面积、水位—蓄水量和水面面积—蓄水量响应关系,探究水面面积时空变化成因。结果表明:(1)Landsat 5、Landsat 8和哨兵2号数据的最佳水体提取指数分别为AWEI_sh和GNDWI,F1-score分别为91.93%、91.03%和93.14%。相比于开放数据集GSWED(32.61%)、JRC GSW(76.17%)和ReaLSAT(69.76%),基于最优水体指数的水体提取结果具有最高的F1-score(91.26%);(2)时间上,1987—2022年新安江水库水面面积呈显著上升...     

Water quality and Cryptosporidium distribution in an upland water supply catchment,Cumbria, UK

Four micro‐catchment (MC) areas were identified to represent the main terrain types of a remote, sparsely populated upland valley catchment of 18 km² in Cumbria, UK. These were improved land with good grazing (IB), steeply sloping land with rough grazing (SG), wet moorland with sparse grazing (WM) and enclosed woodland that excluded livestock and deer (EW). Each MC contained the origin of a small stream that flowed into Swindale Beck, the river draining the valley. The water quality during the 14‐month study, as judged by chemical and physical parameters, was excellent, but it could not be regarded as pristine because of the frequent presence of Cryptosporidium oocysts arising from livestock and wild mammal faeces. Oocysts (0·2–5·6 l^?1) detected by genus‐specific immunofluorescent antibody were found in 32% of 188 water samples tested: ranking order EW 44%, IB 34%, Beck 30%, SG and WM 26%. Similarly, oocysts were identified in 9·5% of 1730 faecal samples. Small wild mammals (28%), calves (15·7%) and lambs (8·1%) were the dominant sources, whereas adult livestock (1·8%) and large wild mammals (4·8%) were less important. Autumn showed the highest occurrence of oocysts for both water and faecal samples. No hydrological controls were found to have a significant impact on the occurrence or concentration of oocysts in the main river or in the MCs, suggesting that their presence is controlled by seasonal changes in pathogen prevalence in the animal reservoir. Copyright © 2006 John Wiley & Sons, Ltd.     

Water quality and hydrogeochemical characteristics of the River Buyukmelen,Duzce, Turkey

The River Buyukmelen is located in the province of Duzce in northwest Turkey and its water basin is approximately 470 km². The Aksu, Kucukmelen and Ugursuyu streams flow into the River Buyukmelen. It flows into the Black Sea with an output of 44 m³ s⁻¹. The geological succession in the basin comprises limestone and dolomitic limestone of the Yılanlı formation, sandstone, clayey limestone and marls of the Akveren formation, clastics and volcano‐clastics of the Caycuma formation, and cover units comprised of river alluvium, lacutrine sediments and beach sands. The River Buyukmelen is expected to be a water source that can supply the drinking water needs of Istanbul until 2040; therefore, it is imperative that its water quality be preserved. The samples of rock, soil, stream water, suspended, bed and stream sediments and beach sand were collected from the Buyukmelen river basin. They were examined using mineralogical and geochemical methods. The chemical constituents most commonly found in the stream waters are Na⁺, Mg²⁺, SO²⁻₄, Cl⁻ and HCO₃⁻ in the Guz stream water, Ca²⁺ in the Abaza stream water, and K⁺ in the Kuplu stream water. The concentrations of Na⁺, K⁺, Ca²⁺, Mg²⁺, SO²⁻₄, HCO⁻₃, Cl⁻, As, Pb, Ni, Mn, Cr, Zn, Fe and U in the Kuplu and Guz stream waters were much higher than the world average values. The Dilaver, Gubi, Tepekoy, Maden, Celik and Abaza streams interact with sedimentary rocks, and the Kuplu and Guz streams interact with volcanic rocks. The amount of suspended sediment in the River Buyukmelen in December 2002 was 120 mg l⁻¹. The suspended and bed sediments in the muddy stream waters are formed of quartz, calcite, plagioclase, clay (kaolinite, illite and smectite), muscovite and amphibole minerals. As, Co, Cd, Cr, Pb, Ni, Zn and U have all accumulated in the Buyukmelen river‐bed sediments. The muddy feature of the waters is related to the petrographic features of the rocks in the basin and their mineralogical compositions, as most of the sandstones and volcanic rocks (basalt, tuffite and agglomerate) are decomposed to a clay‐rich composition at the surface. Thus, the suspended sediment in stream waters increases by physical weathering of the rocks and water–rock interaction. Owing to the growing population and industrialization, water demand is increasing. The plan is to bring water from the River Buyukmelen to Istanbul's drinking‐water reservoirs. According to the Water Pollution Regulations, the River Buyukmelen belongs to quality class 1 based on Hg, Cd, Pb, As, Cu, Cr, Zn, Mn, Se, Ba, Na⁺, Cl⁻, and SO²⁻₄; and to quality class 3 based on Fe concentration. The concentration of Fe in the River Buyukmelen exceeds the limit values permitted by the World Health Organization and the Turkish Standard. Because water from the River Buyukmelen will be used as drinking water, it will have an adverse effect on water quality and humans if not treated in advance. In addition, the inclusion of Mn and Zn in the Elmali drinking‐water reservoir of Istanbul and Fe in the River Buyukmelen water indicates natural inorganic contamination. Mn, Zn and Fe contents in the waters are related to geological origin. Moreover, the River Buyukmelen flow is very muddy in the rainy seasons and it is inevitable that this will pose problems during the purification process. Copyright © 2005 John Wiley & Sons, Ltd.     

Trends in eutrophication research and control

Eutrophication is the natural ageing process of lakes. It is characterized by a geologically slow shift from in-lake biological production driven by allochthonous (external to the water body) loading of nutrients, to production driven by autochthonous (in-lake) processes. This shift typically is accompanied by changes in species and biotic community composition, as an aquatic ecosystem is ultimately transformed into a terrestrial biome. However, this typically slow process can be greatly accelerated by human intervention in the natural biogeochemical cycling of nutrients within a watershed; the resulting cultural eutrophication can create conditions inimical to the continued use of the water body for human-driven economic purposes. Excessive algal and rooted plant growth, degraded water quality, extensive deoxygenation of the bottom water layers and increased fish biomass accompanied by decreased harvest quality, are some features of this process. Following the Second World War, concern with cultural eutrophication achieved an intensity that spurred a significant research effort, culminating in the identification of phosphorus as the single most significant, and controllable, element involved in driving the eutrophication process. During the late 1960s and throughout the 1970s, much effort was devoted to reducing phosphorus in wastewater effluents, primarily in the developed countries of the temperate zone. These efforts generally resulted in the control of eutrophication in these countries, albeit with varying degrees of success. The present effort in the temperature zone, comprising mostly developed nations, has now shifted to the control of diffuse sources of a broader spectrum of contaminants that impact human water use. In the developing countries of the inter-tropical zone, however, rapidly expanding populations, a growing industrial economy and extensive urbanization have only recently reached an intensity at which cultural eutrophication can no longer be ignored. Further, initial attempts at applying temperate zone control measures in this region have been largely unsuccessful. Modification of the temperate zone eutrophication paradigm will be needed, especially to address the differing climatic and hydrological conditions, if cultural eutrophication is to be contained in this region, where eutrophication-related diseases continue to be a primary cause of human distress.     

福建省数字化水位水温资料的远场效应研究

以2003年以来全球12次M≥7.8级大震为例,从"一震多井"和"一井多震"两个不同的侧面,结合井孔的水文地质条件,依据水位同震异常变化的记录图形,分析福建省地下流体数字化观测网对不同方位的地震的远场效应。福建省数字化水位、水温资料对M≥7.8级大震产生远场效应所记录到的同震异常与震级、震中距、地震类型、地震所处的构造位置以及水点的水文地质条件等相关。