Ecological Remediation Technology of Urban Landscape Water Body

Urban landscape water body is not only an important part of urban landscape construction,but also an important way to maintain landscape diversity and biodiversity,carrying the beautiful yearning of urban residents for natural life.A good state of urban landscape water body is crucial to the ecological environment of the city.However,due to the poor kinetic energy of urban landscape water body and the influence of various human factors,the quality of urban landscape water body often declines,and urban population is threatened by water security problems.Through the study of several water body ecological remediation technologies,relevant suggestions are put forward,in order to provide a reference for water pollution restoration and treatment in urban human settlement environment.

Impact of Urban Land Transformation on Water Bodies in Srinagar City, India

Human actions rather than natural forces are the source of most contemporary changes in the state and flows of the biosphere. Understanding these actions and the social forces that drive them is crucial to understanding, modelling and predicting local, regional as well as global environmental change and also for managing and responding to such change. The present study investigates the patterns of urban land transformation in Srinagar City, which lies in fragile hill eco-system of Kashmir valley. The results points towards unplanned and haphazard urban expansion and transformation. These transformations have severely destroyed the water bodies both in terms of area as well as its quality.

Dying Traditional Water Bodies in India Struggling to Survive against Unplanned Development

India is endowed with diverse and distinctive traditional water bodies. They support large human population and biodiversity but are under continuous stress, caused primarily by demographic pressure and unplanned growth. There has been a decline in their water quality and quantity and several of them have vanished, thanks to improper monitoring of these water bodies. This research study was conducted in Meerut district to help government in identifying status of traditional water bodies and suggest steps necessary for protection of these water bodies. Similar research framework, with minor customization, could be applied to any other district in India. Meerut district, with a population of around 3.5 million people is in an abysmal state as the rivers and groundwater are highly polluted. The last resort—the traditional water bodies are also getting transformed into sewage ponds. A field based research was undertaken—which involved on-ground survey using GPS, GIS mapping & water quality testing of 120 ponds, distributed across 12 blocks of Meerut district to acquire a practical understanding of the status of these water bodies. The research team also did an informal discussion with around 500 residents, located nearby ponds, to understand the water situation of the locality. Results show that more than 50% of water bodies are severely polluted (with D.O below 5mg/l) and total dissolved solids (more than 100 NTU). Fecal contamination was observed in all the ponds that were analyzed. The major problems are excessive nutrient pollution, leading to eutrophication, and sewage contamination. The spatial analysis finds out that around half the ponds have reduced in area. With around 100 upcoming cities in India and most of the cities already experiencing water scarcity, it is essential to digitize, monitor, control & prevent pollution and most essentially make the people and grassroots institutions aware in order to protect these essential water bodies from getting extinct.

西南地区城市景观水体富营养化特征及环境因子分析

为了解西南地区城市景观水体富营养特征及关键环境因子,选取重庆(8个山城深水型封闭/半封闭水体)和成都(10个平原浅水型水体)共18个景观水体作为研究对象,在藻类易发季节对其进行水质监测。结果表明,西南地区城市景观水TLI(Σ)处于48.09~70.72之间,整体上呈现轻度和中度富营养化,分别占67%和22%。经分析发现,重庆山城深水型封闭/半封闭景观水体及成都平原浅水型景观水体富营养化主要影响因子为TN,Chl-a,SD,DO,色度、水温和电导率。

热环境内不同类型水体降温效应的时空变化及景观影响

探索不同类型水体降温效应的时空变化特征,可为缓解城市热环境问题提供理论支持。基于Landsat遥感数据,以福州市2002-2020年典型湖泊、河流为例,利用缓冲分析法定量描述不同类型水体降温效应的时空变化;对湖泊采用网格分析法、河流采用等距离分段分析法,探讨了水体周边景观特征对不同类型水体降温效应的影响。结果表明:(1)福州市中心城区热环境问题加剧,水体成为环境内部的主要“冷源”;(2)城市河流比城市湖泊更具备“冷岛”潜力;(3)湖泊的降温效应受周边植被占比、建设用地占比影响较大,在湖泊周边120 m内,当绿地面积占比>34%时,建设用地面积占比<48%,湖泊与绿地的综合降温效果最好;(4)河流的降温效应受周边植被占比、建设用地占比及裸地占比影响较大,在河流周边180 m内,当绿地面积占比>44%时,建议建设用地面积占比<31%,河流可产生最大的降温效应。在未来城市规划中,水体周边景观的合理布设将有助于水体发挥最佳降温效果。

城市水体斑块对热岛效应的缓解能力——以沈阳市为例

水体对环境具有调节作用,在城市生态系统中,水体通过冷却周围地表从而有效缓解热岛效应。采用Landsat影像分析了2000—2020年沈阳市辖区的城市热岛效应的演变情况,利用常规的水体斑块构建缓冲区并进行分析,通过冷却范围、冷却幅度和冷却梯度3个指标量化水体斑块对城市热岛效应的缓解能力,利用水体斑块的面积、形状指数和周围建成区占比定量分析了影响水体斑块缓解能力的因素。结果表明:(1)2000—2020年沈阳市城市热岛分布由中心城区向郊区扩展,热岛面积增加约40%;(2)水体斑块能有效降低周边建成区地表温度的平均距离为0.27 km,相邻建成区平均降温2.26℃,每距离水体边界1 km的建成区平均地表温度的降幅为8.28℃;(3)水体斑块的面积增加对冷却范围和冷却幅度有着极强的增强作用,水体斑块形状指数的增加也会增强冷却作用,而水体周边建成区占比的增加则会抑制水体斑块的冷却范围与冷却幅度,水体斑块的冷却梯度仅与周边建成区占比之间呈极显著的负相关,而与水体斑块的面积、形状指数无明显关联。

海绵城市建设背景下江苏宿迁市中心城区水面率与内涝关系研究

水域作为城市生态系统的重要组成部分,是系统化全域推进海绵城市建设的重要内容。为了探究城市水面率与内涝风险的关系,通过GPS-RTK和网络RTK遥感技术对江苏宿迁市中心城区2023年水域面积进行动态监测,分析影响水面率变化的因素,并通过建立网格分区及不同排水分区,将城市易涝点与水面率结合,研究城市内涝与水面率之间的关系。结果表明:2023年12月宿迁市中心城区水域面积为31.824 km^(2),较2022年增加0.047%。引起水面率变化的原因中,人为因素占主导地位,海绵城市建设中水系连通、生态修复等措施是提升水面率的重要手段。水面率与内涝点分析表明水面率是影响城市内涝的因素之一,在水面率较低的区域更容易发生内涝。研究成果对系统化全域推进海绵城市建设具有重要意义。

城市黑臭水体治理与生态修复措施探讨

为进一步提高城市黑臭水体治理水平,文章以实际案例为研究对象,深入研究了大区域城市黑臭水体治理和修复措施,重点探讨了治理工程技术路线、控源截污及雨污分流工程,以及河道清淤疏浚的重点内容和核心思路。对治理后水体水质的进一步检测表明,该工程治理效果十分明显。

历代城市水体与风景建筑空间分布关联研究——以桂林中心山水城环境控制区为例

桂林历代的城市水体和风景建筑及其关联性具备典型特点和丰富信息。基于现存城市基础资料,运用历史信息转译法、水体破碎度和密度分析法探究城市水体和风景建筑空间分布特征,并以空间自相关分阶段研究两者空间分布的关联程度。结果表明:两者的空间分布分别呈现出“一轴多环”和“多核集聚”的分布特征;风景建筑的分布受到城市水体的影响,在唐宋、元、明清、民国时期和现代四个阶段表现为“上升-下降-波动上升-上升”的波浪式发展特征;桂林风景建筑空间分布对城市水体历代演变的响应特征,展现出古人的山水人居环境营建智慧,以期为桂林建设世界级旅游城市提供参考。

CFD在我国城市风热环境中的研究与应用

城市风热环境研究对于城市可持续发展、居民健康和气候变化适应性都具有重要意义。随着高性能计算能力的不断提升和数值模拟方法的改进,计算流体力学(Computational Fluid Dynamics,CFD)已经广泛应用于城市风热环境预测。本文概括性地总结了城市风热环境实验研究和CFD研究的进展,包括典型的实验研究方法、CFD数值模型、模型验证等,并重点从建筑形态布局、植被、水体以及冷性材料4个方面对CFD应用研究成果进行归纳总结,最后从多季节、多尺度、精细化模拟以及多因素耦合等角度对未来城市风热环境CFD模拟研究进行了展望,并提出了参考建议。

城区黑臭水体污染特征研究

目的:分析城区黑臭水体在不同污染源下的污染特征。方法:研究选取城区内三条典型河流进行采样分析,通过测定溶解氧、氧化还原电位、铁、锰、氨氮及叶绿素含量等指标,深入探究黑臭水体的污染特征。结果:A河流显示溶解氧和氧化还原电位偏低,氨氮浓度较高,叶绿素含量较低;B河流则呈现更低的溶解氧和氧化还原电位,铁、锰、氨氮浓度显著升高,可能对水生生物造成毒性;D河流同样表现出溶解氧偏低,铁、锰、氨氮浓度较高的特点。结论:生活、工业及水产养殖污染均为城区黑臭水体的主要污染源。

某地城市公园景观水体水质特征分析及评价

为准确分析某地城市公园景观水体水质特征,对城市公园景观水体进行有效保护,本文选择某地5个典型城市公园(分别为A、B、C、D、E)进行景观水体水质分析和评价。根据分析结果可知,在4个月的监测期内,A公园的水体水质符合Ⅳ类标准;B、C、D、E公园的水体水质符合Ⅴ类标准,但是氨氮含量随季节波动较大,其中B公园氨氮含量在10月份超过Ⅴ类标准,C、D公园总氮含量在10月份均超过Ⅴ类标准。综上,某地城市公园景观水体水质中主要为总氮含量过高。

黑臭水体治理工艺研究

随着城市化进程的快速推进,虽然大幅改善了人们的居住环境,却也因为城市配套的基础设施建设无法及时匹配城市化进程,不可避免地对自然环境产生了一些负面影响。城市化进程的加快促使人口快速增长与工业迅猛发展,但对于污水、废水排放与处理相关的基础设施却相对较少,因此不断增加的污水、废水被排放至城市水体中,造成黑臭水体的出现,严重影响居民的生活体验和城市样貌,因此对城市黑臭水体综合整治迫在眉睫。本文利用某集团现有污水处理领域相关的设备与技术,结合相关案例,对黑臭水体的常规治理修复技术进行简要分析。结果表明:“外源阻断、内源清淤、水质净化、清水补给、生态恢复”的技术路线可以有效缓解黑臭水体的出现,改善水体水质。

城市黑臭水体污染控制与修复技术研究

城市黑臭水体污染控制与修复技术的研究旨在解决城市水体受到有机物、营养物质过度富集所导致的黑臭问题。其目的在于恢复水体生态平衡并提高水质,以确保水体在城市发展中能够兼顾环境健康与可持续性。为实现这一目标,研究采用了多种方法,其中包括物理修复技术、化学修复技术以及生物修复技术。结论表明,综合运用物理、化学和生物修复技术,可以有效控制和修复城市黑臭水体污染。这些方法在提高水体质量、减轻臭味、改善水体生态环境方面取得了显著成果,为城市水环境的可持续发展提供了科学依据和实际操作指导。

城市河道黑臭水体污染治理策略研究

城市河道在城市化进程中担负着排水、提供清洁水源和美化景观等多重功能,对城市生态环境以及居民的生活品质造成了深远影响。在城市环境治理中,城市河道黑臭水体的污染问题逐渐成为关键议题。当前,如何精确控制城市河道的黑臭水体已经成为亟待解决的问题。基于此,本文从城市河道黑臭水体的污染现状入手,重点针对城市中黑臭水体污染的有效控制与治理措施进行深入研究,旨在提升城市水环境质量及居民的生活品质。

基于国产高分辨率卫星影像的城市水体自动提取研究

基于卫星影像的水体提取已经成为遥感应用的重要方向,传统基于遥感的水体自动提取在特征简单的水体上已取得较好效果,但对于城市复杂环境下的水体却存在不同程度的误提及漏提的问题,尤其是建筑物阴影及细小水体造成的影响。针对此问题,本研究选用国产高分辨率卫星(吉林一号)影像,选用同时具备分类能力及像素定位能力的深度学习模型,制作城市水体样本并迭代训练,实现嘉定城区范围水体的自动快速精确提取,在一定程度上解决了城市水体的提取难题。

信息平台赋能城市黑臭水体监测监管

信息平台已成为城市黑臭水体监测监管的主要工具。平台通过集成水体信息采集、遥感影像处理、数据融合分析、AI识别预测、交互监测评价、空地协同调查和一张图展示等功能,遵循统一性、先进性和扩展性原则,实现了高效的动态监测监管一体化管理,通过形成空间数字化黑臭水体信息,显著提高了监测效率。信息平台的建设应用标志着城市黑臭水体治理进入智能、精细的数字化新阶段,已成为实现城市黑臭水体的长治久清、促进城市高质量发展有力技术保障。

Surface Thermal Environment and Water Temperature Regulation of Rapidly Developing Small and Medium-Sized Cities

[Objective] This study aimed to investigate the temperature regulation effect of surface thermal environment and waters on the temperature, as well as the influencing factors, in Binzhou City, Shandong Province, so as to provide scientific basis for layout planning of urban waters. [Method] Based on the Landsat image of 2009 and 2014, the surface temperature was retrieved using mono-window algorithm and the distribution characteristics of surface temperature of different land types were analyzed. By arranging temperature points on the temperature line and water characteristic statistics, the temperature regulation effect of waters, as well as the influencing factors was analyzed. [Result](1) The order of surface temperature of different land types in summer was building land > cultivated land > woodland > water body, while in winter, the order was cultivated land > woodland > building land > water body. In terms of summer-winter average thermal level, the order was building land > cultivated land > woodland > water body.(2) The temperature regulation effect of waters showed a strong nonlinear relationship with the distance.(3) Large-area water bodies had better cooling effect. Under the condition of same area, the temperature regulated area of multiple small-area water bodies was larger than that of single large-area water body.(4) The increase in the proportion of non-building land around the water body increased the range of water cooling.(5) When the area of water bodies was small, the smaller the ratio of perimeter to area was, the larger the influence range of water cooling was. [Conclusion] The temperature regulation effect of waters in Binzhou City showed a strong nonlinear relationship with the distance, and was affected by the size of the water body, the complexity of the boundary and the composition of the surrounding land.

城市河道及周临用地对地表热环境的影响研究

水体作为城市生态系统的重要组成部分,对改善城市热岛效应和人居热环境具有重要的生态学意义。文章以多时相Landsat和SPOT为实验数据,提出了一种针对混合像元的支持向量机最优端元子集构建原理的地表比辐射率确定方法,采用单窗算法,以灞河及周临用地为研究对象,剖析了河道水体、周临用地与地表温度间的耦合关系。结果表明:①支持向量机的混合像元最优端元子集构建方法提取地表比反射率结果与MODIS LSE产品误差小于0.005(R=0.832),表明该方法精度较高,可用于地表比辐射率的提取;②1992—2019年27 a间灞河两岸用地类型与局地地表温度格局变化显著,建设用地急剧增加,变热趋势明显;不同时期河道周临用地类型对地表温度影响的幅度不同,建设用地、草地、水体及林地为影响灞河两岸热环境的主要用地类型,水体、林地、草地和耕地均表现为不同程度的降温效应,降温幅度依次为:水体>林地>草地>耕地;③同一时期灞河两岸用地类型对局地温度的影响存在空间差异。灞河以东水体、林地、草地和耕地降温效果显著,而灞河以西则为水体、林地及草地。该研究有助于正确认知城市河道对局地热环境的影响特征,能够为城市河道及其周临局地热环境改善提供科学参考。

基于生态系统功能的城市公园水体营造方法分析

随着科学技术的进一步革新,城市化高速发展,居民生活水平提高,城市公园的生态要求也相应提升。同时,城市快速发展难免导致城市公园水体污染,极大地损害城市生态环境。本文以城市双修为指导理念,系统论述城市公园水体的生态功能,分析城市公园水体的主要问题及其产生原因,提出基于生态系统功能的城市公园水体营造方法,并进行案例分析,以营造健康水体,改善城市生态环境。