Invisible face of COVID-19 pandemic on the freshwater environment: An impact assessment on the sediment quality of a cross boundary river basin in Turkey     

Cem Tokatlı 《国际泥沙研究》2022,37(2):139-150

In the current research,the impact of the COVID-19 lockdown period on sediment quality of the MericErgene River Basin was evaluated by determining the potentially toxic elements（PTEs） in sediment samples collected from 25 sampling points in the basin.Also some important ecological indicators including potential ecological risk index（PERI）,contamination factor（CF）,pollution load index（PLI）,biological risk index（BRI）,and geo-accumulation index(I_geo) and some important statistical indica...  相似文献   

Influence of the quality factor on simulated seismic waves: A case study of the 1994 Northridge earthquake          下载免费PDF全文

Qingpei Zeng  Xiangchao Wang  Jinting Wang 《地震科学（英文版）》2022,35(5):329-342

In numerical simulations of ground motion, the constant quality factor Q of a viscoelastic medium can be determined using the time-domain constitutive approximation method of the generalized standard linear solid (GSLS) model. This study introduces a numerical seismic wavefield simulation method which combines the spectral element method with the constant-Q model. The method is used to simulate the seismic wavefield of the 1994 Northridge earthquake. The optimal attenuation coefficient for the simulated seismic waves in this study area is determined empirically based on a quantitative analysis of the deviation curve. Further, the effect of the quality factor on the simulated wavefield are analyzed according to the site characteristics of each seismic station. The quality factor shows a variable effect on the different frequency components of the simulated wavefield. The effect of the quality factor also varies with the characteristic parameters of each seismic station site, such as site velocity structure, fault distance, and azimuth angle.  相似文献   

赣南北部黄陂河流域离子型稀土矿地区水质与健康风险评价   总被引：1，自引：0，他引：1  

刘斯文  黄园英  赵文博  魏吉鑫  徐春丽  马嘉宝  刘久臣  黄采文 《岩矿测试》2022,(3):488-498

水质安全和健康是保障中国赣南老区乡村振兴发展的重要因素。赣南离子型稀土矿长期开发利用,导致浸矿剂和矿体中重金属元素等危害人体健康的物质进入水循环系统,给周边乡村饮用水卫生安全带来了潜在风险。目前,针对当地复垦后稀土矿及周边地区水质和健康风险缺乏系统调查评价,本文以《生活饮用水卫生标准》(GB 5749—2006)为评价依据,选择赣南北部黄陂河流域典型离子型稀土矿及周边的水体开展调查研究,采用电感耦合等离子体发射光谱/质谱等技术测定锰、镉等元素含量,采用水质指数(WQI)、危害商(HQ)、致癌风险(CR)评价了锰和铅等9种指标及其健康风险。结果表明：地表水中的异常指标有氨氮(平均值750μg/L)、锰(平均值207μg/L),地下水中的异常指标有氨氮(平均值4533μg/L)、锰(平均值4009μg/L);世界卫生组织(WHO)公布的Ⅰ类致癌物砷在地表水及地下水均未见异常。WQI显示研究区内85.7%的地表水适宜饮用。地表水及地下水中氨氮的HQ平均值<1,对人类健康没有不良影响;地下水中锰的HQ平均值>1,可能会对人类健康产生不良影响。地表水及地下水中致癌元素砷的CR值分布区...  相似文献   

区域地下水污染综合评价研究现状与建议     

何宝南  何江涛  孙继朝  王俊杰  文冬光  荆继红  彭聪  张昌延 《地学前缘》2022,29(3):51-63

区域地下水污染综合评价研究是一项总结区域地下水水质特征、评估地下水水质和污染状况、分析其驱动机制、研判其演化趋势的重要基础性工作,也是地下水污染防控以及水质改善的重要依据。受水文地质领域一些传统概念、观念以及技术方法的限制,在水质综合评价、污染评价、天然劣质水与污染的区分、人类活动影响等方面存在诸多问题和挑战,认知的科学性和可靠性不断受到质疑,给政府管理部门的应用和决策带来困惑。本研究通过梳理分析近年来区域地下水污染综合评价的研究现状,回顾总结了在水质综合评价、背景值、污染评价、劣质水和劣变水评估以及人类活动识别等方面存在的问题,提出了几点认识和建议:(1)“指标分类评价-组合表达”的水质及污染综合评价思路,可为解决现阶段水质及污染综合评估容易造成歧义和误导的问题提供新的方向;(2)视背景值的建立不仅能够解决传统概念背景值无法获取的问题,还能有效进行污染判定、劣质水和劣变水评估以及人类活动识别,是一项亟待全面开展的基础性工作;(3)劣质水和劣变水概念及评价思路的提出,对区分天然劣质水和污染水具有借鉴意义,在科学回答这两类水对我国地下水水质的影响、帮助决策者理解水质不安全成因等方面有重要意义,但是方法学方面需要进一步探讨;(4)对人类活动影响的识别和量化,进一步推动了对输入型污染、诱导型水质恶化以及水化学场变化所引起的各种水质问题的认识,进而对判断水质演化趋势、污染防控、分类解决水质问题具有重要的意义。  相似文献   

黑龙江省讷河市土壤质量与绿色产地适宜性评价     

张哲寰  杨佳佳  宋运红  贺鹏飞 《地质与资源》2022,31(2):183-192

基于东北黑土地1∶250 000土地质量地球化学调查数据,按照《土地质量地球化学评价规范》和《土壤环境质量农用地土壤污染风险管控标准（试行）》,对讷河市土壤养分、土壤环境质量、土壤综合质量及绿色产地适宜性进行评价. 结果显示讷河市土地肥沃,环境清洁,适合于发展绿色农业：1）土壤养分单指标N、P、K、有机质、CaO、MgO、Fe₂O₃、S、B、Zn、Mn、Cu、Mo、Co、Ge、V共16项中,除Cu、Zn为较缺乏和Ge、B缺乏外,其他指标均为丰富和较丰富;土壤养分综合等级以较丰富和中等为主,分布面积分别为3 666.74 km²和2 574.11 km²,占全区面积的56.94%和39.97%. 2）土壤环境质量以一等（无风险）为主,一等区面积6 435.78 km²,占全区面积的99.94%;二等（风险可控）区面积仅4 km²,占0.06%. 3）全区土壤质量综合等级以优质为主,优质土壤面积3 806.06 km²,占全区面积的59.11%;良好级土壤面积2 574.11 km²,占39.97%;中等级土壤面积59.61 km²,占0.92%;没有四等（差等）和五等（劣等）土壤. 4）符合一级绿色食品产地的土壤面积为6 461.5 km²,占全区面积的97.5%;符合二级绿色食品产地的土壤面积为38.1 km²,占全区面积的0.58%;不符合绿色食品产地的土壤面积为65.6 km²,占全区面积的0.99%.  相似文献   

Evaluation and comparison of CMIP6 models and MERRA-2 reanalysis AOD against Satellite observations from 2000 to 2014 over China     

《地学前缘(英文版)》2022,13(2):101325

Rapid industrialization and urbanization along with a growing population are contributing significantly to air pollution in China. Evaluation of long-term aerosol optical depth (AOD) data from models and reanalysis, can greatly promote understanding of spatiotemporal variations in air pollution in China. To do this, AOD (550 nm) values from 2000 to 2014 were obtained from the Coupled Model Inter-comparison Project (CIMP6), the second version of Modern-Era Retrospective analysis for Research, and Applications (MERRA-2), and the Moderate Resolution Imaging Spectroradiometer (MODIS; flying on the Terra satellite) combined Dark Target and Deep Blue (DTB) aerosol product. We used the Terra-MODIS DTB AOD (hereafter MODIS DTB AOD) as a standard to evaluate CMIP6 Ensemble AOD (hereafter CMIP6 AOD) and MERRA-2 reanalysis AOD (hereafter MERRA-2 AOD). Results show better correlations and smaller errors between MERRA-2 and MODIS DTB AOD, than between CMIP6 and MODIS DTB AOD, in most regions of China, at both annual and seasonal scales. However, significant under- and over-estimations in the MERRA-2 and CMIP6 AOD were also observed relative to MODIS DTB AOD. The long-term (2000–2014) MODIS DTB AOD distributions show the highest AOD over the North China Plain (0.71) followed by Central China (0.69), Yangtse River Delta (0.67), Sichuan Basin (0.64), and Pearl River Delta (0.54) regions. The lowest AOD values were recorded over the Tibetan Plateau (0.13 ± 0.01) followed by Qinghai (0.19 ± 0.03) and the Gobi Desert (0.21 ± 0.03). Large amounts of sand and dust particles emitted from natural sources (the Taklamakan and Gobi Deserts) may result in higher AOD in spring compared to summer, autumn, and winter. Trends were also calculated for 2000–2005, for 2006–2010 (when China introduced strict air pollution control policies during the 11th Five Year Plan or FYP), and for 2011–2014 (during the 12th FYP). An increasing trend in MODIS DTB AOD was observed throughout the country during 2000–2014. The uncontrolled industrialization, urbanization, and rapid economic development that mostly occurred from 2000 to 2005 probably contributed to the overall increase in AOD. Finally, China's air pollution control policies helped to reduce AOD in most regions of the country; this was more evident during the 12th FYP period (2011–2014) than during the 11th FYP period (2006–2010). Therefore this study strongly advises the authority to retain or extend these policies in the future for improving air quality.  相似文献   

Comparative analysis of bacterial contamination in tap and groundwater: A case study on water quality of Quetta City,an arid zone in Pakistan          下载免费PDF全文

Tanzeel Khan  Muhammad Akhtar Malik  Gohram Malghani  Rabia Akhtar 《地下水科学与工程》2022,10(2):153-165

Water is an essential element on earth, which provides human a variety of services in domestic use, agriculture, or industries. However, some serious health risks of drinking water are associated with microbial contamination, particularly with fecal matter. Therefore, microbial quality assessment is considered to be a necessary component of water quality assessment. This study investigates microbial contamination of water distributary system around the city by comparing groundwater (GW) and tap water (TW) quality in Quetta city. 31 GW samples and 31 TW samples were collected in the study area during the months of September, October, and November. Fecal coliform test was carried out in laboratory and their average total coliform contamination was computed. Results showed that the TW sample were all contaminated by coliform except for Chiltan town, hence are not considered suitable for drinking without any treatment according to WHO drinking water quality standards. The average coliform concentrations were 12 in Quetta main city, 11.6 in Jinnah town, 5.3 in Satallite town, 10 in Shahbaz town and 5 in Brewery town (0/100 mL CFU) and the TW samples from the three towns were even more contaminated with E.coli. Whereas among the GW, average microbial concentrations were 1.8 in Quetta main city, 2 in Satallite town, 1.4 in Shahbaz town, and 0.4 in Chiltan town (0/100 mL CFU), respectively, which shows that the contamination is occurring within the water distributary pipeline system when the water flows through the pipelines. Moreover, this research will be valuable for researchers and administrative authorities to conduct elaborative studies, and develop new policies to prevent further deterioration of drinking water in the water distribution system by pathogenic microorganisms and ensure safe drinking water to the public of Quetta city.  相似文献   

云南省者竜—嘎洒地区Cr、Ni地球化学特征及土壤污染风险防控建议     

吴松  陈政  李元彬  黄钊  张林  许胜超  王开贵 《物探与化探》2021,(2):517-527

依据云南省者竜—嘎洒地区土地质量地球化学调查数据,研究了表层土壤中Cr、Ni地球化学特征及主要影响因素,分析了农产品Cr、Ni含量特征。结果表明,研究区表层土壤中Cr、Ni含量受控于地质背景,光山—和平丫口岩体(σ)发育的土壤中Cr、Ni含量明显高于其他地层发育的土壤;不同类型土壤中Cr、Ni含量差异较大,且土地利用方式也会对土壤中Cr、Ni含量产生一定影响;研究区玉米、柑橘、茶叶、甘蔗、香蕉、核桃等农产品Cr、Ni含量均未超标,仅11件水稻Cr含量超过国家标准,占水稻样品总数的11.3%,区内农产品安全性总体较好;区内农用地(水田、旱地、园地、草地)面积为554.73km²,其中无风险(含量低于筛选值)面积为408.61km²,占比为73.66%,风险可控(含量在筛选值与管制值之间)面积为112.96km²,占比为20.36%,风险较高(含量>管制值)面积为33.16km²,占比为5.98%,土壤环境质量总体较好。针对部分土壤存在Cr、Ni污染风险问题,从水土保持、施肥方式、水旱轮作等角度提出了污染防控措施建议。  相似文献   

2010—2020年黄河下游河南典型灌区浅层地下水中砷和氟的演化特征及变化机制     

任宇  曹文庚  潘登  王帅  李泽岩  李谨丞 《岩矿测试》2021,(6):846-859

黄河下游典型灌区河南段是豫北平原重要的农业种植区。该地区浅层水质整体较差,因常用于作物灌溉或家畜饮用,会对人体健康产生风险,因此对该地区地下水中砷与氟浓度变化特征和机制的研究将有助于提高对该地区地下水污染的认识水平。本文基于2010年和2020年在灌区范围内采集的327组浅层地下水样品,研究区内地下水砷和氟分布情况,并在此基础上对比研究十年间灌区浅层地下水中砷、氟的演化特征,探索分析砷与氟浓度及空间变化机制。研究结果表明：该地区浅层地下水中存在砷与氟超标问题,2020年浅层地下水中高砷（砷浓度大于10μg/L）和高氟（氟浓度大于1mg/L）的样品数量分别占总数的26.1%和26.06%。高砷水分布在太行山前洼地与黄河冲积平原等泥沙互层结构的沉积环境中,还原性较强,同时地下水径流不畅,较强的阳离子交换作用使得其所处环境中Ca²⁺浓度较高。近十年间砷浓度增加的水样占总数31.8%,砷浓度减少的水样占36.7%。砷浓度的增长（减少）是地下水还原性增强（减弱）使得锰氧化物溶解释放（吸附）导致。近十年间不同地区农业灌溉和水源置换等用水方式导致水位变化是引起砷浓度变化的潜在因素。高氟水主要分布在河南新乡与濮阳的黄河沿线,氟离子浓度受到沉积物中萤石等钙质矿物溶解影响,使得高氟地下水出现在低钙环境中。近十年间研究区中氟离子浓度减少的占总数60.2%,氟离子浓度增加的占32.1%,整体变化趋势向好,但是高氟区中氟离子浓度继续增加。氟浓度的变化同样受到Ca²⁺变化影响,在Ca²⁺浓度降低（升高）时氟浓度进一步升高（降低）。地下水中氟升高地区分布在黄河沿线,因此受到黄河水补给影响较大,地下水径流条件较好,阳离子交换作用减弱,使得Ca²⁺浓度降低,此时地下水中砷浓度受到环境影响而降低,因此研究区氟增加地区中砷与氟的分布和演化呈现反向关系。  相似文献   

长江流域地下水资源特征与开发利用现状          下载免费PDF全文

黄长生  周耘  张胜男  王节涛  刘凤梅  龚冲  易秤云  李龙  周宏  魏良帅  潘晓东  邵长生  黎义勇  韩文静  尹志彬  李晓哲 《中国地质》2021,48(4):979-1000

为提升对长江流域水文地质和地下水资源的认知程度,突破以往单独从地表水或地下水角度进行评价的局限性,长江流域水文地质调查工程以地球系统科学理论和水循环理论为指导,充分考虑地表水与地下水的转化关系,将水文地质单元和地表水流域有机结合,划分长江流域地下水评价单元,建立典型地下水资源评价模型,开展了新一轮长江流域地下水资源评价。评价结果表明:(1)长江流域水循环要素时空分布不均,降水以中游最多,并由东南向西北递减;地表径流主要集中在夏季,且长江北岸比南岸集中程度更高;蒸散发量总体上呈现东部高于西部的特征,最大值集中在长江中游一带;长江流域地下水位总体保持稳定,丰枯季水位变化总体不大,一般小于2 m;长三角超采区的地下水漏斗面积已明显减小,相关环境地质问题得到了有效控制。(2)2020年长江流域的地下水资源总量2421.70亿m~3/a,其中山丘区地下水资源量2092.79亿m~3/a,平原区地下水资源量331.35亿m~3/a;地下水储存量较2019年整体略有增加趋势,其中四川盆地最为明显,共增加23.72亿m~3。(3)长江流域的水质上游优于下游,优质地下水主要分布在赣南地区和大别山南麓一带,部分地区水质较差的主要原因是原生劣质水的广泛分布。长江流域地下水开发利用水平整体很低,局部地区由于过往不合理的开发所引发的环境地质问题已得到缓解,岩溶塌陷、地面沉降等问题得到了较好控制。建议适当开发利用赣南地区和大别山南麓一带优质的基岩裂隙水。  相似文献