贵阳市土壤重金属污染及其潜在生态风险评价

以贵阳市区土壤为对象,研究不同功能区土壤中重金属(Cu、Pb、Zn、Cr和Cd)污染的特征,采用Hakanson潜在生态危害指数法评价了土壤中重金属的潜在生态危害。结果表明,贵阳市城区土壤重金属含量差异较大,变化幅度均高于35%。产生潜在生态危害的重金属主要是Cd,已达到中度生态危害水平,Cu、Pb、Zn、Cr显示轻度生态危害水平。贵阳市潜在生态危害综合指数(RI=90.86),表明土壤重金属污染达轻度生态危害。不同功能区潜在生态危害程度的顺序依次是工业区>公园>交通区>郊区耕地>居民区。     

天津市城区不同功能区绿地土壤重金属分布特征及来源研究

对天津市中心城区内居住文教区、交通绿化带、工业区、公园、河岸5类功能区的绿地土壤中As、Cd、Cr、Cu、Hg、Ni、Pb、Zn进行了调查研究。结果表明:天津市绿地土壤中重金属累积程度HgCdPbZnCu; As、Cr、Ni平均含量接近背景值。Pb、Zn、Cu、As在工业区绿地土壤中含量最高,Cd、Hg、Ni、Cr在河岸绿地土壤中含量最高。大气沉降是重金属进入绿地土壤的主要途径;大气沉降物质重金属平均含量和土壤背景值的比值与绿地土壤重金属累积系数显著相关。大气重金属沉降量的差异是造成不同功能区绿地土壤重金属差异的主要原因;河岸绿地还受到河道污水灌溉和河道底泥的影响;生产和生活垃圾也可能造成重金属的局部累积。     

西南背景区冬、夏季黑碳稳定碳同位素组成及来源

为确定中国西南背景区不同季节细颗粒物中黑碳的浓度水平和来源特征,分别于2018年冬季(1月)和夏季(7月)在贵州普定喀斯特生态系统观测研究站采集细颗粒物样品,测定其水溶性离子成分、黑碳浓度及稳定碳同位素组成(δ¹³CBC),结合贝叶斯模型探讨黑碳来源贡献。结果表明,采样期间黑碳冬季平均浓度为(1.2±0.6)μg/m3,夏季为(1.9±0.6)μg/m³,接近于其他区域背景点浓度水平。δ¹³CBC平均值冬季为(?23.4±0.9)‰,夏季为(?24.3±0.8)‰,处于煤燃烧及机动车排放来源的δ13C值范围。贝叶斯模型结果表明,机动车尾气在冬、夏季节对黑碳贡献较高,分别为(45.1±14.2)%和(69.5±8.6)%,煤燃烧贡献分别为(41.7±9.8)%和(24.1±7.2)%。结合后向轨迹分析结果可知,西南背景区冬季黑碳来源受燃煤、机动车尾气排放及生物质燃烧共同影响;夏季黑碳污染源主要为机动车尾气和煤燃烧,生物质燃烧较少。     

北京市道路尘中重金属时空分布特征及污染程度评价

北京市作为我国的经济和文化中心,高速的城市化进程带来了一系列的环境问题。城市道路尘可以通过不同途径进入人体,对人体健康造成伤害。本研究采集了春、冬两季北京市6类功能区中道路尘样品46件,研究了其中Cr、Pb、Cd、As和Hg元素的含量和空间分布特征,并采用单因子指数法和内梅罗污染指数法,评价了道路尘中重金属污染程度。结果表明:除冬季As元素外,其余元素平均含量均高于北京市土壤背景值; 5种重金属元素平均含量一般为市区最高,郊区最低。单因子污染评价表明,冬、春两季各个功能区道路尘中除As元素无污染外,其余元素均具有一定程度的污染,其中Cd元素污染程度最高;冬季各功能区道路尘中重金属元素综合污染指数评价均为轻度污染;春季郊区为尚清洁,工厂区、居民区和商业区为轻度污染,休闲区和教育区为中度污染。     

北京市表层土壤中PAHs含量特征及来源分析

土壤,作为城市中最重要的环境介质,承担了较高多环芳烃(PAHs)的环境负荷,开展土壤PAHs分布特征及来源分析研究,可以为污染风险防控、环保政策制定提供支撑.为研究北京市不同功能区土壤环境中PAHs的含量、组成及来源,本文在北京市主城区进行了大范围采样,同时针对工业区、农业种植区、水源保护区及居民区等不同功能区进行了分...     

不同自然环境和城市功能区的土壤黑碳特征及来源研究

黑碳是由生物质和化石燃料等燃烧产生的一系列含碳物质,长期广泛分布于土壤、大气等多种载体中,且表现出不同的环境效应。土壤作为一种不可再生的自然资源,是人类生存与发展不可缺少的物质基础,也是支撑城市发展的空间和生态基础。土壤中的黑碳构成土壤有机碳库的重要组分,且影响着土壤肥力、结构、有机污染物等多方面。目前,对黑碳的研究集中在其对环境的影响,我国在这方面的研究开始较晚,特别是对土壤中黑碳的研究还处于起步阶段。本文详细分析了土壤黑碳的可能来源(自然火灾、人类农业活动、化石燃料燃烧以及汽车尾气排放等),概括了常见的土壤黑碳来源辨析方法(黑碳形态特征分析、黑碳/有机碳比值分析、黑碳碳同位素分析),总结了国内外对不同自然环境、不同城市功能区的土壤黑碳研究现状。最后,提出了全球黑碳研究亟待关注和解决的关键问题,以期为将来合理制定控制黑碳排放的相关政策,减缓黑碳对环境质量和人体健康的影响,提供重要的理论依据。     

不同自然环境和城市功能区的土壤黑碳特征及来源研究综述

黑碳是由生物质和化石燃料等燃烧产生的一系列含碳物质,长期广泛分布于土壤、大气等多种载体中,且表现出不同的环境效应。土壤作为一种不可再生的自然资源,是人类生存与发展不可缺少的物质基础,也是支撑城市发展的空间和生态基础。土壤中的黑碳构成土壤有机碳库的重要组分,且影响着土壤肥力、结构、有机污染物等多方面。目前,对黑碳的研究集中在其对环境的影响,我国在这方面的研究开始较晚,特别是对土壤中黑碳的研究还处于起步阶段。本文详细分析了土壤黑碳的可能来源（自然火灾、人类农业活动、化石燃料燃烧以及汽车尾气排放等）,概括了常见的土壤黑碳来源辨析方法（黑碳形态特征分析、黑碳/有机碳比值分析、黑碳碳同位素分析）,总结了国内外对不同自然环境、不同城市功能区的土壤黑碳研究现状。最后,提出了全球黑碳研究亟待关注和解决的关键问题,以期为将来合理制定控制黑碳排放的相关政策,减缓黑碳对环境质量和人体健康的影响,提供重要的理论依据。     

漳州市城市土壤重金属含量特征及控制因素

讨论了 108个取自漳州市城区公园、生活区及环城菜地等不同功能区的表层 (0～ 20 cm)土壤样品中重金属含量及分布特点,根据土壤中重金属元素与主元素间的相关分析、聚类分析,探讨了影响土壤中重金属分布和来源的因素.结果表明,漳州市城市土壤 Hg、 Cd、 Pb、 Cu、 Zn、 As、 Cr和 Ni的平均含量分别为 0.471 mg/kg、 0.353 mg/kg、 75.9 mg/kg、 32.6 mg/kg、 106.7 mg/kg、 6.86 mg/kg、 29.7 mg/kg和 12.8 mg/kg,其中相对于区域土壤背景值与国家土壤环境质量标准,污染较突出的元素是 Hg和 Cd.深受人为污染活动影响的城区土壤和菜地土壤重金属平均含量也尤为突出,城区土壤 Hg平均含量最高,菜地土壤 Cd平均含量最高.元素的相关性分析和聚类分析结果表明 Hg相对于其他元素表现较独立, S对 Hg有一定的捕获能力;As、 Cr和 Ni是受控于成土母质的元素组合;Cd和 Pb是受人为污染影响较强的元素, Cu来源于地质成因的比例较大;Zn受控于土壤中锰氧化物粘粒.     

南京城市土壤某些元素的富集特征及其对浅层地下水的影响

本研究以南京市的公园、校园绿地、道路绿地和郊区菜地等不同功能区的土壤为对象,对土壤的磷素和重金属以及一些土壤剖面点位的地下水组成进行了分析.研究发现城市土壤构成了区别于自然背景的某些元素(如磷和重金属)的地球化学垒,形成了明显的元素富集区域,其中磷素含量是背景土壤的数倍甚至十数倍,Pb含量也远高出背景土壤,60%以上样品达到中等污染程度以上.从磷素在剖面中的积累模式可以看出,城市土壤中磷含量最高的层次出现在表层以下的不同深度,说明土壤经历了不同的扰动过程,这意味着在城市发展过程中,土壤的性质遭受强烈的人为活动影响,元素在土壤中的分布形态可以指示不同的利用历史.质量改变后的土壤对地下水等环境产生影响,使地下水的组成发生改变,其中磷素含量直接受到土壤的影响,效区菜地地下水中硝态氮含量极高,而本研究尚未发现地下水中的重金属含量与土壤有显著相关.     

新疆石河子城区道路尘土的铅污染和铅同位素示踪研究

城市道路尘土中重金属污染已成为当前重大的环境问题之一.本文对我国西部石河子市城区道路尘土的重金属污染进行评价,利用电感耦合等离子体质谱法测定铅的含量及铅同位素组成,采用地积累指数法评价铅的污染程度.结果显示,石河子市城区道路尘土中重金属铅的含量范围为19.36 ～ 84.63 mg/kg,平均含量为37.85 mg/kg,高于当地土壤背景值,但明显低于我国其他大中型城市,表明当前石河子市的环境质量已经受到人为活动的干扰;尘土中铅的地积累指数在-0.59～1.54之间,平均值为0.30,属于轻度污染水平.利用铅同位素示踪法识别铅污染的来源,206pb/207Pb比值的范围是1.159 ～ 1.182,208 pb/207 Pb比值的范围是2.391 ～2.457,均接近于煤炭和建筑材料的铅同位素比值,初步判断石河子道路尘土的铅污染主要受到煤炭燃烧和城市建设的影响.     

Particle associated polycyclic aromatic hydrocarbons in the atmospheric environment of urban and suburban residential area

Ten polycyclic aromatic hydrocarbons associated with suspended particulate matter in the ambient air were collected at two sampling sites: urban and suburban residential areas of Yokohama, Japan from 1999 to 2005. The concentrations of target compounds were determined using gas chromatography-mass spectrometry. The total concentrations were higher in urban residential area than suburban residential area. They ranged from 0.31 to 6.16 ng/m3 withameanof2.07ng/m3 and 0.33 to2.87ng/m3 with a mean of 1.02 ng/m3 in the urban and suburban residential areas, respectively. The predominant compounds determined both in the urban and suburban residential areas were benzo[b]fluoranthene, benzo[ghi]perylene, indeno[1,2,3-cd]pyrene and benzo[e]pyrene. The concentrations of 5- and 6-ring polycyclic aromatic hydrocarbons were higher in the urban than the suburban residential area, accounting for 77.3 % and 72.1 % of total polycyclic aromatic hydrocarbons, respectively. Source identification was performed by principal component analysis. Two principal components were identified for each study area and these accounted for 95.9 % and 83.3 % of total variance, respectively. The results revealed that stationary source and vehicle emissions were the major pollution sources in the studied areas. The impact of emission regulations for automobiles in large Japanese cities, which were enacted during 2002 and 2003, was also studied. Based on the average total concentration, emission reduction was 47.8 % and 18.6 % in urban residential and suburban residential areas, respectively.     

Heavy metal contamination of urban soils and street dusts in Hong Kong

Due to rapid urbanisation and scarcity of land, most of the urban parks and recreational areas in Hong Kong are built close to major roads or industrial areas, where they are subject to many potential pollution sources, including vehicle exhaust and industrial emissions. An extensive soil survey was conducted in urban parks of Hong Kong to study the current conditions of heavy metals contamination in soils. Soil samples and associated street dusts were collected from more than 60 parks and public amenity areas in old urban districts, industrial areas and New Towns of the territory. Soils were also sampled in the remote country parks to establish the baseline conditions. The total concentrations of heavy metals and major elements in the samples were determined. The results indicate that urban soils in Hong Kong have elevated concentrations of Cd, Cu, Pb and Zn. The parks with high metal concentrations are located in old urban commercial districts and industrial areas, indicating that the major contamination sources in these soils are traffic emissions and industrial activities. In addition, the application of Cd containing phosphate fertilizers may be an important source of Cd in urban park soils. The street dusts have highly elevated Zn concentration, particularly along the main trunk roads. The high Zn content in the street dusts may come from traffic sources, especially vehicle tyres. Selective soil and road dust samples were also analysed for potential chemical speciation by a sequential chemical extraction method. The chemical partitioning results show that Pb and Zn are mainly in the carbonate/adsorbed and Fe–Mn oxide phases, while Cu is largely associated with the organic and sulphide fractions. The high exchangeable Cd in urban soils and high concentration of Zn in street dusts need further investigation for their ecological and health implications.     

利用樟树叶片氮含量和同位素组成初探武汉市大气氮沉降和氮源

为了解武汉市不同城市功能区大气氮沉降的具体特征,对城市交通区、工业区、文教区和市郊交通区、文教区5个功能区的樟树叶片及根际土壤的氮含量和氮同位素组成进行测定,发现城市公路、工厂附近和大学校园的樟树叶片的氮含量明显高于市郊大学校园和公路.城市公路、工厂附近的樟树叶片的氮同位素分别受控于汽车尾气排放的氮氧化物(NOx)、工...     

基于最小邻近成本的喀斯特山地城市公园可达性分析

以典型喀斯特城市贵阳市为例,分析地貌特征对于公园绿地供给能力的影响,采用最小邻近成本分析法和空间自相关分析,对贵阳市公园绿地的供给特征以及不同类别公园可达性空间差异进行评价,探讨喀斯特城市公园可达性的提升策略。结果表明:研究区城市公园供给总量较高,但公园斑块面积二元结构明显,且坡度15°以上面积占比53%;公园可达性整体较好,91.89%的居民小区到公园的最小邻近成本低于500 m,但不同类别城市公园可达性存在一定差异。因此,喀斯特山地城市要提升公园服务水平,首先应补足公园服务的盲区,尤其是建成区残存孤峰、小峰丛公园服务能力不足造成的隐性盲区;其次,在老旧城区公园建设需避免盲目求大,应着重提高服务质量与效率,并且发挥自然山体优势建设独具特色的公园服务体系;应结合人口分布特征和不同类别的公园配置状况,合理进行喀斯特山体公园化利用,避免生态环境破坏与公园空置。      

Soil contamination by polycyclic aromatic hydrocarbons at natural recreational areas in Delaware,USA

As a US east coast state with a major income from outdoor recreation and tourism, Delaware highly values its environmental quality and natural resources. However, no results on polycyclic aromatic hydrocarbons (PAHs) contamination in soil at natural recreational areas (NRAs) in the state have been reported. In this study soil samples from seven state parks, two city parks, two state forests, and two national wildlife refuges in Delaware were analyzed for the concentrations of 12 selected PAHs. Results indicated that the median concentration of total PAHs in urban, suburban, and rural NRAs was 1,159, 138, and 130 μg/kg, respectively. Based on the classification proposed by Maliszewska-Kordybach, soil PAH contamination level at almost all sampling sites in urban NRAs was classified as contaminated or heavily contaminated, while that at sampling sites in suburban and rural NRAs was classified as not or weakly contaminated. Principal component analysis showed that all these areas share the same independent variable, which may be composed of one or more contribution sources. Pyrogenic processes were inferred to be the major source of soil PAH contamination in Delaware NRAs. Individual PAH concentration at all sampling sites were observed below the limit of Canadian Quality Guidelines except for site F3, where the concentration of benzo[b]flouranthene, benzo[k]flouranthene, and benzo[a]pyrene was found to exceed the limit by 88.3, 125, and 281 %, respectively. Further investigation on PAH contamination and possible remediation in area F are recommended.     

Urban expanding pattern and soil organic, inorganic carbon distribution in Shanghai, China

Soil carbon stock changes induced by land-use change play an essential role in the global greenhouse effect and carbon circulation. This paper studies the urban expanding patterns and spatial characteristics of soil organic carbon (SOC) and soil inorganic carbon (SIC) distribution and evolution during the urbanization process of Shanghai, China, based on the data of the regional geochemical survey. Urbanization process in Shanghai, China, has been quickening greatly since the 1980s. The urban area expanded from 193.08 km² in 1980 to 1,570.52 km² in 2005, or up from 3.05 to 24.77% in the past 25 years, and the urban expansion circled the central city region according to the RS images acquired in the periods of 1980, 2000 and 2005. The urban topsoil is slightly enriched with SOC and SIC, which shows obvious spatial variability. By comparison of SOC and SIC distribution in the central urban area, urbanized area during 1980–2000, 2000–2005 and the suburban area, the SOC obviously accumulates in the central urban area, while SOC density in the urbanized area decreases; similarly, the SIC obviously accumulates in central urban area; furthermore, the SIC density increases with urban land use duration extending and urban ecosystem evolving. This paper provides the characteristics of SOC and SIC distribution and evolution during the course of urbanization, which may be useful for assessing the impact of land use and urban development on SOC and SIC pools in urban ecosystem.     

Soot black carbon concentration and isotopic composition in soils from an arid urban ecosystem

Black carbon (BC) is a poorly understood type of organic carbon but it is present in almost all environmental systems (i.e., atmosphere, soil and water). This work focuses on soot BC in desert soils and, in particular, urban soils from the Phoenix, Arizona metropolitan area. Soot BC is that fraction of black carbon formed from the condensation of gas phase molecules produced during burning. Soot BC in Phoenix area soils exhibits a range in both concentration and isotopic composition. Soot BC concentration in 52 soils (desert, agricultural and urban) ranges from 0.02–0.54 wt% and comprises from < 1 to as much as 89% of the soil organic carbon (OC). Soot BC concentrations are higher in urban soils than in desert or agricultural soils. The average isotopic composition of soot BC is −18‰ ± 3‰; this is an enrichment of 5.5‰ relative to bulk soil organic carbon. The distribution in concentration and variation in isotopic composition across the study area suggests soot BC in this arid-land city has multiple sources, including a significant fossil fuel component.     

Coastal Reclamation and Saltmarsh Carbon Budget: Advances and Prospects

As an important carbon pool and fragile eco-system of earth system, more and more coastal saltmarshes have been reclaimed for releasing population pressure and promoting food safety and economic development, especially in developing countries. During reclamation, original soil carbon cycling pattern and pathway in saltmarshs would be changed, which furthermore could change global carbon budget. In this study, a great amounts of literature and data were summerized to generalize the changes of soil organic carbon, carbon sequestration rate and carbon flux in three main kinds of saltmarshes (Mangrove saltmarsh, Estuary saltmarsh and coastal saltmarsh) during reclamation. The results are as shown: ①The conclusions collected from Europe and America are not suitable to eastern Asia’s coast and more attention should be paid to eastern Asia’s coastal reclamation; ②Mangrove saltmarshes have higher Soil Organic Carbon (SOC) and carbon sequestration rate, followed by estuary saltmarshes and coastal saltmarshes. Soil clay, aggregate, burial rate usually have positive effect on SOC sequestration in coastal areas. Flood frequency, salinity and underground water level generally have negative effect on it. After reclamation, coastal SOC first shows a decrease followed by an increase. Nearly 30 years of reclamation is the turning point where paddy fields can significantly promote SOC; ③CH₄ and CO₂ are the main ways of carbon emission in coastal areas of which CO₂ flux usually is the largest. Mangrove saltmarshes’ carbon emissions are the highest. In natural sites, the carbon emissions in Spartina alterniflora Loisel. and Phragmites australis are higher than those in bare flat areas. Carbon fluxes in flood tide usually are lower than those in other periods. Otherwise, carbon fluxes in natural saltmarshes are far lower than those in reclamation zones, especially upland tillage zones. The results acquired from field monitoring, saltmarshes are the carbon sinks and become the carbon sources when reclamation activities happen. Finally, three main aspects of coastal study were given as follows: much more attention should be paid to carbon budget inventory in saltmarshes; the effect of reclamation activity (i.e., anthropogenic activity, tillage practice, land use, etc.) on carbon cycling in ocean-inland system; the study of land use and reclamation process simulation and its impact on carbon cycling in coastal zone should be strengthened.