基于“源-汇”景观的典型半城市化小流域非点源污染风险评价

小流域的水质恶化主要由点源污染和非点源污染引起，随着点源污染控制水平达到一定程度后，非点源污染已成为首要污染源。当前对非点源污染的管控仍存在难监测和难治理的问题，明晰非点源污染发生风险以及背后的原因是亟需解决的问题，因此开展非点源污染风险分析和评价具有重要意义。采用高分辨率影像解译了2010年、2015年和2020年三期厦门市后溪流域土地利用数据；基于"源-汇"景观格局方法计算研究区网格单元的网格污染指数（GPI）；结合土地利用变化数据分析非点源污染风险的时空变异，对风险区成因进行了分析。研究结果表明：当前，"汇"景观占流域面积的67.86%，非点源污染发生风险分布呈现北低南高；十年中，非点源污染风险呈现上升趋势，目前非点源污染发生风险处于低风险水平（GPI=0.27）。通过分析风险区的土地利用构成发现耕地面积的缩减（减少67.08%）和建设用地面积扩张（增加43.02%）是污染风险发生变动的主要原因。计算了风险区转移矩阵，发现非点源污染发生风险区呈现出中高风险区向低风险区和"汇"景观区域转移的趋势。基于"源-汇"景观格局理论计算的网格污染指数（GPI）可以有效地对流域非点源污染风险值进行表征，是评价和分析流域非点源污染发生风险的可用方法。     

高原湖泊流域国土空间生态修复优先区诊断及修复研究

高原湖泊流域是高原地区人类活动的重要载体,兼具高生态价值和高脆弱性的特点。随着高原湖泊流域城市化和工业化发展加速,湖泊面积萎缩,污染加剧,流域生态环境受损严重,引发了一系列生态环境问题,如水土流失、水污染、湿地退化、生境质量下降等。亟需开展生态修复以平衡经济发展与生态环境保护之间关系,而基于整体保护与系统治理思维诊断并修复生态修复优先区,是科学有序推进国土空间生态保护与修复的重要抓手。基于此,研究以高原湖泊流域典型代表滇池流域为例,利用人类足迹和景观生态风险模型定量评估生态系统所受负向干扰,以最小累积阻力模型和电路理论构建流域生态网络;提取生态网络受负向干扰较高的关键区域为生态修复优先区并提出针对性修复措施。研究表明：(1)滇池流域人类干扰和生态风险整体较高,人类干扰整体呈核心—边缘递减的圈层式分布,中高生态风险占据了绝大部分区域。人类交通网络大幅扩展了人类干扰和生态风险的强度和深度;(2)区域生态网络呈典型湖泊生态网络特点,38条生态廊道呈放射状或环状分布,连通湖区、山区两大生态空间内共23块生态源地,保障区域生态安全;(3)研究共提取生态源地修复优先区73.83km²     

地下水生态补偿标准核算模型

地下水是水资源的重要组成部分,在维持生产生活、推动社会经济发展方面具有重要作用。地下水生态补偿有助于促进地下水资源合理开发利用,但是国内外关于此方面尤其是补偿标准的研究非常缺乏。本研究提出由基础、奖惩、科技和风险补偿构成的地下水生态补偿标准核算模型,综合考虑气候条件和经济水平,明确补偿优先等级,并将模型应用于山西省11个市,核算其地下水生态补偿标准。结果表明: 基础补偿在总补偿中占比最大,且非市场价值占比在60%以上,说明地下水具有较高的调节服务价值;2008—2017年,各市发展系数有明显提高,说明区域经济水平提升,补偿能力有所增强;补偿优先等级受地下水非市场价值及区域经济水平的影响,各地补偿优先等级差异明显,需要尽快落实各地的地下水生态补偿工作。同时,建议尽快完善地下水风险补偿制度,设立地下水生态科技补偿专项资金,建立长期有效的地下水生态补偿机制。     

再生水回灌对地下水水质影响研究进展

再生水回灌地下水是一种缓解水资源危机的有效方式.由于再生水中含有硝酸盐、重金属、新型污染物等污染物质,因此在再生水地下水回灌利用时存在一定的环境风险.为推动我国再生水人工回灌地下水的发展,促进我国再生水的安全利用,本文分析了国内外相关文献及实践经验,总结了不同回灌方式下再生水回灌对地下水水质的影响.地表回灌方式下,地下水中盐分、硝态氮都有增加趋势,重金属污染风险较小,新型污染物是目前的研究热点,且其风险存在很多的不确定性,病原微生物对地下水的污染风险较小但不能排除一些活性较强的病毒等污染地下水;井灌方式下,对沉积含水层中As的释放应给予重点关注.最后,提出了相关建议以减小我国再生水回灌风险.     

海河流域面源污染风险格局识别与模拟优化

面源污染是海河流域面临的主要水生态环境问题,如何通过流域景观格局优化实现对面源污染的控制一直是研究的热点问题。通过最小累积阻力模型,以海河流域为研究对象,将流域景观要素及影响流域景观过程的外部因子相结合,对海河流域面源污染风险格局进行了识别,并将阻力格局与海河流域实测水环境指标进行相关性分析及验证,在此基础上对流域污染风险进行识别与优化模拟。结果表明海河流域有40%以上(130380 km2)区域面临高污染风险,集中分布在中南部平原地区以及山区河谷地带;对此设置河流植被缓冲带进行格局优化模拟分析,通过比较不同措施格局优化阻力值变化趋势表明,对于二级河流水系,加强河流两岸600—1600 m范围的人类活动管控,可以有效降低污染物输出,显著降低流域面源污染发生的风险。在面源污染风险等级较高的平原地区,设置300—400 m植被缓冲带,可将风险等级降低50%,设置700—800 m岸边植被缓冲带即可达到最佳效果;而在山区地区因风险较低,设置400—500 m的植被缓冲带即可达到最佳效果,能够将污染风险在现有基础上降低30%—40%。这一研究结果对海河流域景观格局优化和面源污染风险控制提供科学参考。     

慢速渗滤土地处理系统中优先有机物的迁移、归宿与生态风险

研究了沈阳西部城市污水慢速渗滤土地处理系统中优先有机污染物的迁移和残留情况,结果表明,土地处理系统和当地传统污灌区耕作层土壤、地下水中的优先有机污染物的总含量分别高于对照区（清水灌区）１倍和４倍以上;系统出水、地下水和传统污灌区地下水中的优先有机污染物的浓度有相似的分布、说明污灌水中的有机污染物对土壤和地下水产生一定程度的影响,但土地处理系统和当地传统污灌区生产的大米中,优先有机污染物含量与对照区相比未见显著差异．     

近40年来洞庭湖流域土地利用及生态风险时空演变分析

以洞庭湖流域为研究对象,利用1980年、1990年、2000年、2010年和2018年5个时期的土地利用数据,在定量分析近40年流域土地利用动态特征的基础上,从景观生态学视角构建生态风险评价模型,对1980-2018年洞庭湖流域生态风险进行评价,并进一步揭示其时空格局演变特征。结果表明：（1）1980年以来,洞庭湖流域土地利用类型以林地和耕地为主。洞庭湖流域土地利用格局发生较大变化,其显著特征为建设用地不断扩张、林地基本稳定、耕地日益萎缩和水域呈扩大趋势。（2）近40年来,洞庭湖流域生态环境较为良好,以较低和中等生态风险区为主导类型。在1980-1990年、1990-2010年和2010-2018年3个时段内,生态风险呈现增长、缓和、加剧的变化过程,高风险区以洞庭湖湖盆向环洞庭湖平原扩张,洞庭湖区、湘江流域和资水流域生态风险等级明显高于其他地区,而沅水流域、澧水流域和湘江流域的东南部生态风险相对较小。     

异质景观中非点源污染动态变化比较研究

通过在河北省遵化地区于水库的上游选取景观特征差异明显的4个典型流域,对地表水体采样分析,研究了非点源污染N（水溶性N）含量的季节动态变化特征以及与流域形状、景观空间分布格局的相互关系。结果表明：（1）平水（偏干,下同）年份不同季节地表水中非点源污染N含量高于干旱年份,反映出平水年份地表和地下径流对非点源污染的形成起到了较大作用。（2）干旱年份地表水中非点源污染N含量季节变化比较平稳,且空间变异较小,而平水年份地表水体中非点源污染N含量季节变化较大,表现出两种不同变化形式。（3）流域形状和景观类型的相对重要性与非点源污染N之间没有明显的相关关系,而“源”“汇”景观类型的空间分布格局在非点源污染的形成中起着重要作用。     

基于赤水河流域生态补偿的政府和社会资本合作项目风险识别与分担

赤水河流域为生态脆弱区域,现行的流域生态补偿机制存在补偿资金来源单一、总量不足且持续性较差、补偿方式较为单一等问题。将政府和社会资本合作（Public-Private Partnership,PPP）模式应用于建立赤水河流域生态补偿机制,有助于拓宽补偿资金来源、增加资金总量、丰富补偿方式,推动各利益相关方收益共享、风险共担。与传统PPP项目相比,基于流域生态补偿的PPP项目具有更为复杂的风险结构,风险因素的正确识别和合理分担是成功运用PPP模式完善赤水河流域生态补偿机制的关键。识别基于赤水河流域生态补偿的PPP项目运作关键环节,甄别各环节面临的主要风险因素;基于云理论建立风险分担模型;将有关风险在政府和社会资本间进行分担。研究结果表明：（1）基于赤水河流域生态补偿的PPP项目运作过程共包括项目准备、项目实施和项目合同终结等三个阶段、共11个关键环节,各环节共面临26个主要风险因素。（2）分析了有关风险因素可能对赤水河流域生态补偿机制或PPP项目产生的不利影响,并指出了风险引致方。（3）在项目准备阶段,政府拥有绝对的资源优势,以政府为主承担主要风险;在项目实施阶段,项目风险总体上由政府承担为主向社会资本承担为主转移,80%的风险主要由社会资本承担;特许经营期满后,社会资本将项目的经营权（或所有权与经营权同时）向政府移交,在项目合同终结阶段,有关风险再次以政府承担为主。     

高寒内陆河流域植被覆盖增加对地下水补给的影响

地下水是干旱区内陆河流域的主要基础性资源,对流域生态安全、可持续发展等具有重要意义。干旱/半干旱区的地下水补给比湿润地区更易受到地表覆盖条件的影响。为揭示干旱区内陆河流域植被覆盖增加对地下水补给的影响,以巴音河中下游为例,针对土壤和水评价工具(SWAT)模型未有效考虑降水、地形等因素对植被覆盖影响的缺陷,改进SWAT模型,采用全球地表卫星叶面积指数(GLASS LAI)数据代替其LAI计算模块,再结合SWAT土地利用更新模块,准确刻画区域植被覆盖变化。将改进后的SWAT模型与模块化有限拆分地下水流耦合(MODFLOW)模型耦合,准确模拟并分析植被覆盖增加对流域地下水补给的影响。结果表明：基于植被动态变化的土壤和水评价工具与模块化有限拆分地下水流耦合模型(DVSWAT-MODFLOW)模型的月蒸散发及月地下水位模拟效果较好;巴音河中下游2019年林地及草地面积以及LAI较2001年明显增加;2019年植被覆盖情况对应的年际及月际尺度地下水补给量较2001年分别减少了6.1—26.52 mm以及0—15.03 mm;植被覆盖增加对年际尺度地下水补给量的影响强弱在一定程度上取决于年降水量,对...     

太湖上游不同类型过境水氮素污染状况

利用GPS定位,在春、夏、秋、冬4个季节,对地处太湖上游宜兴地区受农田径流、农村生活污水、水产养殖和畜禽养殖污水污染的过境水体氮素污染状况进行了调查,对不同类型水体中不同形态氮浓度的季节性变化特征进行了分析,比较了不同类型水体的15N自然丰度.结果表明:不同类型过境水氮素污染严重,人为影响强烈,不同的农业生产和人类活动具有不同的污染特征;受农田径流影响的河流,水体受铵态氮污染的风险较小,受硝态氮的污染较重;农村居民区河流主要受农村生活污水影响,水体铵态氮负荷较高;畜禽养殖场附近的河流受养殖污水的影响,水体的氮素污染最为严重,尤其是铵态氮负荷最高;相比之下,养殖鱼塘水体总氮最低,主要以有机氮为主;水体氮素污染受河流季节性环境演变的影响,表现为夏季浓度最低,冬季浓度最高;农田施肥是太湖氮污染的主要来源,但在丰水期生活污水和畜禽养殖废水也会成为太湖重要的污染源.     

20世纪下半叶上海城市景观镶嵌结构演变的数量特征与分形结构模型研究

以上海中心城区为空间范围,以RS和GIS为技术手段,运用多样指数、优势度、破碎度、分离度等指标,研究20世纪下半叶以来上海城市景观镶嵌结构及其演变的数量特征;运用分形理论建立各种景观形态的分形结构模型,以分维数为依据分析各种景观形态的复杂性;基于GIS的空间分析功能,探讨影响景观格局及其演变的主要因素。研究结果表明:(1)上海城市景观的空间扩展,在空间上和时间都是不均匀;(2)随着时间的推移,景观多样性和破碎度变大。优势度变小;(3)住宅、工矿和其它城市景观的分离度明显地呈减小趋势,农田和村镇的分离度呈增大趋势,道路和河流水域的分离度变化幅度不大;(4)各种景观斑块形态的复杂性程度(分维数的平均值)排序为:道路>河流水域>农田>住宅>村镇>工矿>在建景观>其它城市景观;(5)从各种景观形态的演变过程来看,住宅斑块形态逐渐趋于复杂化,斑其块形态的分维数呈缓慢地增大趋势;工矿、道路、其它城市景观、农田、村镇等五种景观斑块形态的变化,经历了由简单到复杂,再到简单的变化过程,其分维数在1947-1988年期间呈增大趋势,1988年时增至最大,随后开始逐渐减小;(6)影响上海城市景观格局及其演变的因素主要包括河流廊道、原有基础、交通廊道、经济发展、规划控制等几个方面。     

广州市花都区景观动态变化研究

应用遥感和GIS技术,采用多样性指数、破碎度指数和分维数等指数,分析了广州市花都区1979年到2000年的景观动态变化,结果表明:(1)各景观类型的斑块数量增加,面积变化较大,且斑块形状复杂性增加;(2)景观破碎度增大,景观类型稳定性增加,优势度减少,受人类干扰程度加深;(3)景观斑块间的转移中,林地、耕地不断转移为城市用地、农村居民点以及工矿等用地,农村居民点以及工矿等用地也成为景观格局中的主要组成要素;(4)整体上景观变化后10年比前10年的幅度稍大。     

Combined Multivariate Statistical Techniques,Water Pollution Index (WPI) and Daniel Trend Test Methods to Evaluate Temporal and Spatial Variations and Trends of Water Quality at Shanchong River in the Northwest Basin of Lake Fuxian,China

Understanding spatial and temporal variations in river water quality and quantitatively evaluating the trend of changes are important in order to study and efficiently manage water resources. In this study, an analysis of Water Pollution Index (WPI), Daniel Trend Test, Cluster Analysis and Discriminant Analysis are applied as an integrated approach to quantitatively explore the spatial and temporal variations and the latent sources of water pollution in the Shanchong River basin, Northwest Basin of Lake Fuxian, China. We group all field surveys into 2 clusters (dry season and rainy season). Moreover, 14 sampling sites have been grouped into 3 clusters for the rainy season (highly polluted, moderately polluted and less polluted sites) and 2 clusters for the dry season (highly polluted and less polluted sites) based on their similarities and the level of pollution during the two seasons. The results show that the main trend of pollution was aggravated during the transition from the dry to the rainy season. The Water Pollution Index of Total Nitrogen is the highest of all pollution parameters, whereas the Chemical Oxygen Demand (Chromium) is the lowest. Our results also show that the main sources of pollution are farming activities alongside the Shanchong River, soil erosion and fish culture at Shanchong River reservoir area and domestic sewage from scattered rural residential area. Our results suggest that strategies to prevent water pollutionat the Shanchong River basin need to focus on non-point pollution control by employing appropriate fertilizer formulas in farming, and take the measures of soil and water conservation at Shanchong reservoir area, and purifying sewage from scattered villages.     

Chemical speciation and risks of heavy metals in sediment of urban wetlands in southeastern China

Dredging, remediation, and other management of sediment in polluted urban wetlands require the information of environmental risks associated with heavy metals (HMs). In this study, sediment samples collected from three typical wetlands in the urban area of Wenzhou City, China, were analyzed to evaluate their risks posed by five HMs. Sediments from an industrial area stored higher Cr and Cu but lower Cd and Pb than those from the residential and agricultural areas. The assessment by the pollution load index method indicated that all of the three study wetlands were polluted. An ecological risk index approach identified low risk for wetlands in forested and residential areas but high risk for wetlands in an industrial area as well as in mixed residential and agricultural area, which was also confirmed by the geo-accumulation index (I_geo) method. Furthermore, the ratio of the secondary phase and primary phase and risk assessment code methods recognized that Cd poses a high pollution risk. The results indicated that sediment pollution by HMs in urban wetlands is possibly a widespread problem in China and needs great attention.     

北京市居住区林木健康评价

为了揭示北京市居住区林木健康变化特征及影响因素,提供北京市居住区林木健康经营对策。对北京市85个居住区林木进行健康特征调查,在建立林木健康评价模型评价林木健康状况的基础上,采用方差分析法和多重比较法分析不同类型居住区林木健康差异。结果表明:不同类型居住区林木健康指标差异显著(P0.05),各指标变化规律不完全一致;不同类型居住区地表覆盖情况、光污染程度、树干倾斜度、栽植截干、树势、冠形、干形等方面普遍较差。北京市居住区林木健康指数在0.60—0.80之间,健康等级呈现右偏正态分布特点,健康林木比例为3. 65%,亚健康林木(56. 07%)最多,其次是中等健康林木(36.68%),不健康林木有3.50%,濒死林木仅占0.10%。居住区林木健康指数在不同区域和不同来源间差异不显著(P0.05),在不同时期间差异显著(P0.05),健康指数大小分别为:三—四环=四—五环五—六环二环内=二—三环;福利房商品房保障房;2009—2013年2003—2008年=1998—2002年=1991—1997年1956—1990年。北京市居住区林木生长处于亚健康状态,潜在影响因子如地表覆盖情况、光污染程度、树干倾斜度等指标是限制北京市居住区林木生长的重要因子。适当减小夜间照明影响、增加有机地表覆盖、避免过度的修枝截干和加强林木养护管理是当前北京市居住区林木健康生长的保障。     

Cadmium contamination in various environmental materials in an industrial area,Hangzhou, China

Abstract

Due to the location of manufacturing in north Hangzhou, many residential areas are close to trunk roads and factory areas. This potentially exposes citizens to pollution sources such as industrial emissions and vehicle exhaust. Because pollution by cadmium (Cd) is of great concern, an extensive survey was conducted in north Hangzhou city to study the current condition of Cd contamination and any resulting hazard. Environmental materials including water, bottom mud, urban green-land soil, street dust and moss were collected. Cd concentration and chemical partitioning in the samples were determined. The results indicate that all the media in north Hangzhou have elevated Cd concentrations, the Cd conten trend being: factory area >traffic area > residential area. The chemical partitioning results show that Cc in topsoil and street dust presents are mobile (9–61% Cd are bound in acetic acid extractable phase) which suggests a high ecological hazard potential. Environmental bioindicator moss samples were found to be loaded with Cd revealing high bioavailability of Cd in various media in north Hangzhou This confirms the possibility of Cd being a potential biohazard in this location.     

Nitrate relationships between stream baseflow,well water,and land use in the Tomorrow-Waupaca Watershed

We examined the use of stream baseflow water quality as a representative measure of mean ground water quality in the Tomorrow-Waupaca Watershed in central Wisconsin and the relationship between agricultural land use and watershed water quality. From 1997 to 1999, 38 stream sites were sampled for nitrate during winter and summer baseflow conditions. Some sites have been sampled during winter baseflow conditions since 1994. The land area contributing ground water to each stream sampling site was delineated, resulting in 38 sub-basins. In addition, over 3500 test results from private wells in the watershed were compiled and mapped using a Geographic Information System (GIS). Nitrate concentrations in stream baseflow and well waters were found to have strong positive correlation in the sub-basins of second order or higher. This indicates that stream baseflow may be valid for monitoring mean ground water quality in watersheds predominantly fed by ground water, where much of the stream nitrate is believed to originate from ground water. Analysis of seasonal variation in the stream data showed that winter nitrate concentrations were higher than summer concentrations, implying that winter stream monitoring may be more critical for the assessment of overall ground water quality in the watershed. We also found that, as the amount of agricultural land increased in each sub-basin, average nitrate concentrations in the well and stream waters also increased, suggesting a connection between agricultural land use and nitrate contamination of water resources in the watershed.     

Development of pollution indices for the middle section of the Lower Seyhan Basin (Turkey)

Pollution indices aggregate concentrations of several water or air quality parameters into a single quantity to indicate the general status of pollution in a region. Several pollution index models are present in literature. However, their application for different cases may require modifications based on implementation goals and available data. In this study, modified pollution indices were used to evaluate the pollution status in the middle section of the Lower Seyhan River Basin by employing a geographical information system (GIS) software (ArcGIS 9.3) for data processing, estimations and evaluations. Air quality index (AQI) and water quality index (WQI) were utilized to evaluate air and water pollution levels, respectively. Moreover, a composite air–water quality index (AWQI) was developed to perform a general assessment about the overall pollution status. The WQI and AQI were calculated for 2004–2010 and 2007–2010, respectively. The AWQI was developed for the period of 2007–2010. Results indicated that for the available data and time frame considered in the study, air and water qualities were in good conditions (low pollution), in general. Yet, precautions could still be taken for improvement. Results also indicated the need for improvement of monitoring network for better assessment of the environmental quality in the whole basin. In general, GIS tools were very helpful in the development of the indices.     

Assignment and evaluation of ground beetle (Coleoptera: Carabidae) assemblages to sites on different scales in a grassland landscape

Carabid beetles and environmental parameters were investigated in 52 grassland sites with three replicate pitfall traps in each site and in the valley of the River Eider in Schleswig–Holstein (northern Germany) with 61 pitfall traps. Environmental parameters included water content of soil, sand content, organic matter content and pH. Ground beetle assemblages were derived by detrended correspondence analyses (DCA) and characterised by the specific environmental conditions as means for each assemblage. On the regional scale including all investigated sites of Schleswig–Holstein, five assemblages were differentiated. On the local scale including the investigated sites in the valley of the River Eider, three assemblages were found corresponding well with those found on the regional scale. Environmental conditions at the sites of the five assemblages were correlated with land use data, soil types, and water level stages provided by three maps of a geographic information system (GIS). The GIS maps were combined to develop smaller areas with land use, soil type and water level stage information. The characteristic environmental conditions were assigned to each area to derive the spatial distribution of the five ground beetle assemblages. Spatial prediction was correct for 65% of investigated sites. The potential area of each assemblage was estimated for the valley. The different grassland areas were evaluated as potential habitats for ground beetle species comparing total species richness with the regional species richness of each assemblage. The comparison shows that species richness in the evaluated assemblages is relatively low compared to the regional potential.