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1.
Microplastics in marine environment are global environmental issue and challenge and have received an extensive international concern. At present, most of researches focus on the investigation of microplastic abundance in the ocean surface water, and there is insufficient understanding of the distribution and transport processes of microplastics in the deep-sea environment. This paper reviewed marine microplastic studies carried out in the last decade, and summarized the source, global distribution and transport processes of microplastics. Field investigations showed that both surface water and water column were important accumulation areas for microplastics, while deep-sea surface sediments were final sinks for microplastic deposition and accumulation. Transport of microplastics to the deep sea included two modes: vertical settlement and lateral transport. Laboratory simulation showed that the sinking rate of microplastic particles in the ocean changed between 300 and 1 000 meters per day, and the sinking process was not solely controlled by particle physical properties such as particle density, but also influenced by ocean dynamic process, biological action and marine snow aggregation. Microplastics deposited on the seafloor could migrate laterally towards the deep sea with resuspended sediments, which were related to internal waves, deep-sea turbidity current or climatic events. However, there remain the key knowledge gaps in uncertain speed and quantity of microplastics moving to the deep sea, which is not conducive to the comprehensive understanding of the microplastic transport process from source to sink. Therefore, it is recommended to observe the vertical sinking flux of microplastics with layered sediment traps in order to study the source-to-sink transport processes of microplastics in deep-sea environment. 相似文献
2.
【研究目的】近年来,由微塑料造成的生态环境污染问题引起了广泛关注。【研究方法】本文通过查阅大量土壤微塑料方向的文献,综述了国内外关于土壤中微塑料的来源、危害及检测治理技术最新研究进展。【研究结果】主要包括:(1)土壤中微塑料的主要来源是没有高效回收的农用地膜的裂解,此外还有农业生产活动中使用含有微塑料的污水污泥、空气中的微塑料沉降到地表等;(2)土壤中的微塑料能吸附重金属、抗生素等污染物,改变土壤pH、容重等理化性质,影响蚯蚓等土壤动物的发育,降低参与土壤养分循环过程中关键微生物的活性,对土壤环境造成危害;(3)目前还没有统一的微塑料分离检测技术标准,目检法、光谱法和热分析技术是微塑料主要的分析方法。【结论】土壤中的微塑料会给环境及动植物健康带来不同程度的风险,进一步通过食物链威胁人类健康。未来的研究重点包括阻隔土壤微塑料的来源、 土壤微塑料与重金属的复合污染机制和新兴的土壤微塑料检测技术。创新点:(1)目前关于土壤微塑料方面的研究刚刚起步,本文综述了土壤微塑料对农作物、土壤环境的影响及在食物链中传播的风险,对今后有关环境污染和人体健康方向的研究有一定的帮助; (2)本文较为全面地整理了以农业生产活动为主的土壤微塑料来源,由于已被微塑料污染的土壤治理难度较高,笔者提出关于土壤微塑料源的阻断建议,希望能有效降低未来土壤中微塑料的输入量。 相似文献
3.
《China Geology》2022,5(3):421-428
This paper aims to investigate the present situation and transfer mechanisms of microplastics in lacustrine sediments in the Qinghai-Tibet Plateau. The study surveyed the average abundance of microplastics in sediments. The abundance of microplastics in sediments of lakes from the Qinghai-Tibet Plateau is 17.22–2643.65 items/kg DW and 0–60.63 items/kg DW based on the data of the Qinghai Lake and the Siying Co Basin. The microplastic abundance in sediments from small and medium lakes is very high compared to that in other areas in the world. Like microplastics in other lakes of the world, those in the lakes in the Qinghai-Tibet Plateau mainly include organic polymers PA, PET, PE, and PP and are primarily in the shape of fibers and fragments. The microplastic pollution of lacustrine sediments in the Qinghai-Tibet Plateau is affected by natural changes and by human activities, and the concentration of microplastics in lacustrine ecosystems gradually increases through food chains. Furthermore, the paper suggests the relevant administrative departments of the Qinghai-Tibet Plateau strengthen waste management while developing tourism and pay much attention to the impacts of microplastics in water environments. This study provides a reference for preventing and controlling microplastic contamination in the Qinghai-Tibet Plateau.©2022 China Geology Editorial Office. 相似文献
4.
Wei Xiong Xi Mei Bei-bei Mi Hao Yang Zong-zhu Han Yong Zhang Wen-chao Lu 《China Geology》2022,5(1):160-170
As a new type of pollutants in the marine environment,microplastics have attracted increasing attention from scientific researchers and environmental protection workers in China and abroad.However,for the microplastic pollution in sea areas in China,there are a very limited number of studies on its current status and few reviews of research on the microplastics.This paper reviews the surveys and researches of microplastics in the Bohai Sea,the Yellow Sea,the East China Sea,the South China Sea,and main estuaries in China carried out in recent years and proposes an outlook for future work,aiming to provide research suggestions and solutions for ecological protection against microplastic pollution in sea areas in China.Previous studies have shown that microplastics are widely distributed in water bodies and sediments in sea areas and major estuaries in China.The Pearl River Estuary,in the South China Sea suffers the most serious microplastic pollution,followed by the Bohai Sea.In contrast,the microplastic pollution in the Yellow Sea and the East China Sea is comparatively slight.Microplastics in sea areas in China are mainly fibrous and are concentrated in offshore areas with developed industry and a dense population(especially around estuaries and bays).In addition,they are widely affected by human activities,such as shipping,aquaculture,industry,and sewage discharge.Here the authors suggest unifying measurement units and research methods and developing related standard systems to carry out researches related to microplastics.Furthermore,this paper also suggests further deepening researches on both the source-sink process of microplastics and nanoscale microplastics while enhancing the development and implementation of related policies,aiming to promote researches and control of microplastics in sea areas in China. 相似文献
5.
Fang-ting Wang Ke Bao Chang-sheng Huang Rui-ping Liu Wen-jing Han Cheng-yun Yi Long Li Yun Zhou 《China Geology》2022,5(1):171-184
Microplastic pollution has become an environmental issue of great concern owing to the persistence of microplastics and their potential adverse effects on biota.The Yangtze River is the longest river in China and the third-longest river in the world,and the microplastics in this river will affect the health of a large population living along with it.To ensure the survival safety of people,it is essential to plan ahead and investigate in advance in order to understand the microplastic pollution in the river and work out countermeasures.This paper reviews the literature concerning the microplastic pollution in the Yangtze River basin and analyzes the abundance,shapes,colors,and composition of microplastics in the water bodies and sediments in the trunk stream and main lakes of the Yangtze River.The results are as follows.Compared to other river basins in China and abroad,the microplastics in the Yangtze River basin have a moderate abundance and high spatial heterogeneity.Owing to the barrier effect of the Three Gorges Dam on microplastics,the abundance of microplastics in the Three Gorges Reservoir is generally an order of magnitude higher than that in other sections of the river.Most microplastics in the water bodies and sediments are less than 1 mm in size and are transparent and colorful.In terms of shapes,they are dominated by fibers,followed by fragments and films.In terms of composition,the microplastics in the source region of the Yangtze River are mainly composed of nylon and polyethylene,while the microplastics in the surface water from the lower reaches of the Jinsha River to the Yangtze River estuary are dominated by polypropylene and polyethylene.The microplastics are primarily derived from the secondary microplastics in the environment,and relatively intensive human activities increase the abundance of microplastics.These results serve as bases for understanding and preventing microplastic pollution in the Yangtze River. 相似文献
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《China Geology》2021,4(4):585-592
This study aims to comprehensively assess the environmental risks of microplastics in the Yellow River, achieving the following results through comprehensive research. The average microplastic abundances in the river waters and sediments are 5358–654000 n/m3 and 43.57–615 items/kg, respectively, and there are fewer microplastics in water samples than in sediments. Microplastics in the study area can be divided into five types according to their occurrence morphologies, namely fragments, foams, films, fibers, and particles. The most widely distributed pollution types in sediments include debris, fibers, and particles. In contrast, fibers are the dominant type in water samples, accounting for 68.18% –98.93%. The chemical components of the microplastics include polyethylene, polypropylene, polystyrene, polyethylene terephthalate, and polyvinyl chloride. The microplastics are in four colors, with white accounting for a higher proportion. The grain size of the microplastics in tributaries or lakes of the Yellow River is less than 2 mm, which makes them liable to enter organisms for enrichment. Furthermore, the sources of the microplastics are closely related to agricultural and industrial production and biological activities in habitats and exhibit seasonal and hydrological characteristics. The microplastics in the study area show the adsorption of metals and nonmetals to different degrees, which increases the pollution risks of heavy metals combined with microplastics. In addition, microplastics can accumulate in organisms in the Yellow River and cause physical, biochemical, and other damage to aquatic organisms, thus further posing carcinogenic risks to human beings. Therefore, it is necessary to study, monitor, and control the pollution and effects of microplastics in the Yellow River, in order to provide theoretical references for the control of pollution and ecological risk of microplastics in the river.©2021 China Geology Editorial Office. 相似文献
7.
Observation and assessment of wind resources is a prerequisite for wind farm construction. Due to the investment cost of offshore wind farm is very expensive, more accurate assessment of wind resources is needed to reduce their investment risks. From traditional field observation to multi-platform remote sensing and from ordinary mathematical statistics to coupled numerical model simulation, abundant offshore wind data and evolving assessment methods make the results of offshore wind resource assessment more and more reliable. Poor station observations and rich remote sensing data are distinct characteristics of offshore wind data. Technology integration of applying multi-scale coupled models to assimilate multi-source remote sensing and station data is a mainstream development direction of offshore wind resource assessment methods. The wind resource assessment for offshore wind farm should focus on data quality and method selections of data interpolation, wind speed calculation of return period and wind energy parameters adjusted for a long term condition because these factors can significantly affect the operating efficiency of future wind farm. 相似文献
8.
《China Geology》2021,4(1):178-184
To study the current status and causes of the microplastic pollution in surface water of the Qinghai-Tibet Plateau, this paper compared the average microplastic abundance in sediments and surface water of the Qinghai-Tibet Plateau and the results are as follows. First, the average microplastic abundance in surface water of the independent rivers and the whole area is 247–2686 items/m3 and 856 items/m3, respectively. The average microplastic abundance in sediments of independent rivers or lakes and the whole area is 0–933 items/m2 and 362 items/m2, respectively. Meanwhile, the degree of microplastic pollution in river sediments is higher than that in lake sediments, and the rivers suffering from microplastic pollution mainly include the Brahmaputra River, Tongtian River, and Nujiang River. Second, compared with the microplastic pollution in other areas of the world, the levelof microplastic pollution in the lakes and rivers of the Qinghai-Tibet plateau is not lower than that of well-developed areas with more intensive human activities. Finally, this study suggests that relevant government departments of the Qinghai-Tibet Plateau should strengthen waste management strategies while developing tourism and that much attention should be paid to the impacts of microplastics in the water environment.©2021 China Geology Editorial Office. 相似文献
9.
《China Geology》2022,5(3):429-438
Microplastic pollution is widely distributed from surface water to sediments to groundwater vertically and from land to the ocean horizontally. This study collected samples from surface water, groundwater, and sediments from upper to lower reaches and then to the estuary in 16 typical areas in the Jinjiang River Basin, Fujian Province, China. Afterward, it determined the components and abundance of the microplastics and analyzed the possible microplastic sources through principal component analysis (PCA). As a result, seven main components of microplastics were detected, i.e., polyethylene (PE), polypropylene (PP), polyvinyl chloride (PVC), polyethylene terephthalate (PET), polyformaldehyde (POM), nylon 6 (PA6), and polystyrene (PS). Among them, PE and PP were found to have the highest proportion in the surface water and sediments and in the groundwater, respectively. The surface water, groundwater, and sediments had average microplastic abundance of 1.6 n/L, 2.7 n/L and 33.8 n/kg, respectively. The microplastics in the sediments had the largest particle size, while those in the groundwater had the smallest particle size. Compared with water bodies and sediments in other areas, those in the study area generally have medium-low-level microplastic abundance. Three pollution sources were determined according to PCA, i.e., the dominant agriculture-forestry-fishery source, domestic wastewater, and industrial production. This study can provide a scientific basis for the control of microplastics in rivers.©2022 China Geology Editorial Office. 相似文献
10.
Progress and Prospect on the Study of the Ecological Risk of Microplastics in the Ocean 总被引:1,自引:0,他引:1
Sun Xiaoxia 《地球科学进展》2016,31(6):560-566
Microplastics in the ocean are the plastic fragments less than 5 mm in diameter, which enter into the ocean through a variety of ways. In the past 60 years, the global plastic production increased by 560 times, and the accumulation of microplastics in the marine environment is increasing. Microplastics suspend in seawater, or deposit to the bottom sediments. The potential risks of microplastics to marine ecosystems cause widespread concern. This paper summarized the research progress of the ecological risks of microplastics in the ocean, including the distribution and concentration of marine microplastics in coastal waters, sediment and open ocean, the ingestion of microplastics by different species of marine organisms, the ecotoxicology of microplastics, the plastics additives and the absorbed pollutants. The research directions were proposed for the future, including the optimization of microplastics sampling and measuring methods, microplastics observation in different marine habitats, the eco-toxicological effects of microplastics and food chain bioaccumulation effect, the methodology of microplastics ecological risk assessment. It is expected to provide evidence for the risk assessment of microplastics on Chinese coastal ecosystems. 相似文献
11.
Stuart E. G. Findlay 《Estuaries and Coasts》1982,5(4):322-324
The effect of sampling scale on apparent distribution of meiofauna was demonstrated by simulating the sampling of a “known” distribution with three different sampling schemes. Small-scale sampling gave better reproduction of the original pattern than larger scales, which tended to homogenize patchiness. My results suggest that for intracommunity meiofaunal research, roughly fifty 0.5–1.0 cm2 cores is a reasonable first guess “optimum” sampling scheme. The position of the cores should be random but their position relative to each other should be noted so the spatial information may be utilized in analysis. 相似文献
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选取国内外常用的水动力学模型(EFDC)和典型的浅水湖泊(太湖),采用拉丁超立方取样(LHS),研究湖泊水动力模块中常用的5个重要参数(风拖曳系数、床面粗糙高度、涡粘性系数、紊流扩散系数以及风遮挡系数)对湖体水位和流速的影响。结果表明:针对大型浅水湖泊,湖泊岸线形状和湖底地形、湖泊周围地形、湖泊水面风场对模拟结果产生决定性影响。尤其是在湖湾区和周边地形比较复杂的地区,风场参数对水动力模拟结果不确定性的贡献率最大。在垂向上,表层流速受到参数不确定性的影响最大,底层次之,中层最小。床面粗糙高度对水动力模拟结果不确定性贡献率较风场参数要小,水体涡粘滞系数和扩散系数影响则更小。故在选择大型浅水湖泊水动力模型参数时,要充分考虑湖泊岸线和周围地形,着重率定风场参数以及床面粗糙高度。 相似文献
14.
根据高盐度湖泊水动力特征,以西北咸水湖泊艾比湖为例,建立三维水动力数学模型。选取典型风场,分析风力作用下的高盐度湖泊风生流形成过程以及风生流水动力参数的三维空间分布特征。结果表明,艾比湖风生流形成在时间上可分为湖水流向和风向一致阶段、湖水运动方向逐渐偏离风向的过渡阶段及环流形成的稳定阶段等3个阶段。当流场达到稳定状态时,表层水体除中部存在若干小尺度环流外,大部分水域流向与风向基本一致;而湖泊中心区域底层水体流向与表层水体的流向大致相反,表现为很明显的补偿流。总体上,水平方向的流速自表层向下呈现递减的变化趋势,岸边流速大于中心流速,表现出与淡水湖泊基本相似的水动力空间分布特征。水体盐度增加对湖泊环流结构无影响。 相似文献
15.
基于颗粒流的堆石料三轴剪切试验研究 总被引:2,自引:0,他引:2
近年来频发的地质灾害使得深入研究大坝堆石体受力变形机制显得愈发迫切和重要。针对堆石颗粒具有形状极其不规则、咬合作用突出的特点,编写了一个简单易用的程序来随机生成形状不规则的数值颗粒。以正四面体为核,按照晶胞繁衍的方式,生成堆石的仿真颗粒集合体。模拟排水剪切条件下的大三轴试验,通过分析数值试验过程中细观参量的变化规律,探讨三轴剪切条件下堆石体变形的细观机制。分析表明,按照晶胞繁衍法生成的数值颗粒与圆颗粒相比能更好地模拟堆石,由颗粒簇形成的咬合力能形成更真实的力-变形关系;数值试验得到的应力-应变曲线和体变曲线与室内三轴试验结果基本一致;颗粒的破碎速率是联系堆石体宏、细观力学性质的重要纽带,通过分析堆石体颗粒破碎4个阶段细观参量的变化规律,深化了对堆石体变形机制的认识。 相似文献
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构建合理的水文地质概念模型对于地下水数值模拟至关重要,概念模型如果确定不合理,整个数值模拟将毫无意义。通常水文地质调查可以大致确定水文地质概念模型,然而对于一些不易被发现的补给源,通过水文地质调查也无法确定。水化学和同位素特征对地下水的补给源及水流路径有很好的指示作用,可以根据这些信息对水文地质概念模型进行细化。文章通过对研究区地下水取样,分析地下水水化学和同位素特征,确定出研究区内不易识别的地下水补给源及顶层黏土-粉质黏土的透水性,最终细化了水文地质概念模型边界条件。这对于后期得到正确的地下水流和溶质运移模拟结果具有重要意义。 相似文献
17.
由于受湖泊动力条件和物质来源的影响,湖泊表层沉积物的各粒度组分表现出不同的空间分布特征。选择滇西北程海作为研究对象,通过测试程海表层沉积物的粒度,分析了其不同粒度组分的空间分布特征,对影响程海表层沉积物粒度空间分布的因素进行探讨。研究结果表明:程海表层沉积物的优势粒级为粉砂,各样品沉积类型为黏土质粉砂。粒度组分及其参数的空间分布特征变化差异明显,黏土组分含量呈现出由南向北逐渐增加的趋势,而粉砂、中值粒级则呈现出相反的变化趋势,表明程海沉积物粒径受盛行南风的控制与影响,表现为湖泊水动力由南向北逐渐减弱。程海表层沉积物的粒度空间分布特征表明,其表层沉积物易受盛行风的影响向北扩散,因此,应加强该地区沿岸,特别是南岸人类活动的管理,有效控制人为物质的输入,减少污染物的扩散。 相似文献
18.
贵州省大方县小屯乡法启村一组崩塌地质灾害为一高位崩塌地质灾害隐患,崩塌方式以零星崩落为主,威胁下部83户510名居民及法启火车站安全。本文以贵州省大方县小屯乡法启村一组崩塌地质灾害隐患为例,根据勘查及调查测绘,模拟剖面的选取,坡面的参数确定,运用Rockfall软件数值模拟,模拟出崩塌落石运动过程中的特征参数,掌握了崩塌落石的运动特征,为该地质灾害防治提供了重要的参数依据。研究结果表明,Rockfall数值模拟在零星高位崩塌地质灾害勘查中可分析出崩塌落石的主要堆积停留区、最远崩落距离和各点位的落石动能、最大弹跳高度等详细数据,避免了公式计算的单一性,体现了模拟的随机性,与崩塌地质灾害的实际运动特征更接近,可更有效的指导崩地质灾害的防治,具有重要实践意义。 相似文献
19.
The soil hydrological process in land surface models and its influences on weather and climate simulation have got much attention by scholars both at home and abroad. First, this paper traced the definition and determination of soil moisture, and then reviewed its parameterization in different models, including soil-water characteristic curves for different soil types and numerical methods for solving soil moisture equations. Moreover, methods of soil hydrological parameter determination and uncertainties within land surface models were specified. Also, the importance of methods in parameter sensitivity analysis and optimization was emphasized, and the new datasets of soil hydraulic parameters would play a very important role in the improvement of the land surface model and soil moisture simulation. Finally, the research progress of feedback mechanism between soil moisture and precipitation was summarized. Spatial and temporal distribution of soil moisture and its abnormal would cause a positive feedback, and on the contrary, the meso-scale characteristics of soil moisture distribution had a negative feedback. By summarizing the progresses of the uncertainties and problems in soil moisture simulation, the influences of soil moisture on simulating weather and climate were pointed out. 相似文献
20.
By combining landslide dynamics research and tsunami research, we present an integrated series of numerical models quantitatively simulating the complete evolution of a landslide-induced tsunami. The integrated model simulating the landslide initiation and motion uses measured landslide dynamic parameters from a high-stress undrained dynamic-loading ring shear apparatus. It provides the numerical data of a landslide mass entering and moving under water to the tsunami simulation model as the trigger of tsunami. The series of landslide and tsunami simulation models were applied to the 1792 Unzen-Mayuyama megaslide and the ensuing tsunami disaster, which is the largest landslide disaster, the largest volcanic disaster, and the largest landslide-induced tsunami disaster to have occurred in Japan. Both the 1792 megaslide and the tsunami portions of the disaster are well documented, making this an excellent test of the reliability and precision of the new simulation model. The simulated tsunami heights at the coasts well match the historical tsunami heights recorded by “Tsunami-Dome-Ishi” (a stone showing the tsunami reaching point) and memorial stone pillars. 相似文献