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排序方式: 共有794条查询结果,搜索用时 218 毫秒
81.
以双氯芬酸为目标有机药物污染物,探究其在以锰矿石为填料并接种了异化金属还原菌(Geobactermetallireducens,简称GS-15细菌)的垂直流人工湿地中的去除过程.结果表明,双氯芬酸在锰矿石人工湿地中的平均去除率最高为23.56%.采用XRD和XRF对反应前后的锰矿石进行物相和元素相对含量分析,得出锰(Mn)是参与降解双氯芬酸的关键响应元素.GS-15细菌利用锰矿石发生异化还原对双氯芬酸的氧化降解是锰矿石人工湿地对双氯芬酸的主要去除途径.此外,利用液质联用技术(LC-MS/MS)对降解产物进行鉴定,发现双氯芬酸被降解生成了5-羟基双氯芬酸、双氯芬酸-2,5-亚氨基琨和1,3-二氯苯三种降解产物,该研究成果对有机药物废水的深度处理提供新的方法和理论指导. 相似文献
82.
以闽江河口塔礁洲感潮淡水野慈姑(Sagittaria trifolia Linn.)湿地为研究对象,于2016年2、4、7和9月每月均在连续2个小潮日内向研究样地施加人造海水和Fe(OH)_3溶液,研究短期的盐水入侵及Fe(III)浓度增强对河口感潮淡水湿地土壤反硝化速率及理化特征的影响.结果表明,短期的盐水入侵、Fe(III)浓度增强对河口感潮淡水沼泽湿地土壤反硝化速率的影响不显著,然而,盐水和Fe(III)共同施加会显著提高湿地土壤反硝化速率,与对照(CK)相比,盐水和Fe(III)共同施加可使土壤反硝化速率提高270.9%.盐水入侵、盐水和Fe(III)共同施加均可显著提高湿地土壤、间隙水的电导率及Cl~-、SO_4~(2-)的含量;Fe(III)浓度增强可显著降低土壤和间隙水pH值,同时显著提高土壤三价铁含量. 相似文献
83.
84.
为了明确北方大规模人工湿地在冬季对TCS(三氯生)的去除效果,在山东省境内4个典型的大规模人工湿地(即武河人工湿地、大沙河人工湿地、新薛河人工湿地和洸府河人工湿地)内于冬季(2013年12月—2014年1月)进行取样,以超高效液相色谱串联质谱法测定人工湿地进出水中ρ(TCS),并分析不同湿地对TCS的去除效果. 结果表明:TCS在4个人工湿地系统进出水中均有检出,由于各人工湿地系统均承接当地污水处理厂尾水,冬季进水中ρ(TCS)偏高,为(800.81±83.37)~(1 151.00±47.13) ng/L,并以武河人工湿地为最高. 虽然人工湿地对TCS的去除率达22.44%~78.82%,但经由人工湿地处理后出水中仍含有较高浓度的TCS残留,经由人工湿地出水进入下游水体的TCS日释放量仍较高,其中洸府河人工湿地出水中高达92.60 g. 因此,冬季各人工湿地对TCS的去除效果在低温影响下有所降低,并且对下游水体和人类健康的威胁不容忽视. 相似文献
85.
86.
David I.S. Green Samuel M. McDeid William G. Crumpton 《Journal of the American Water Resources Association》2019,55(3):543-558
We present estimates of the volumetric storage capacities of currently drained upland depressions and catchment depressional specific storage and runoff storage indices for the Des Moines Lobe of Iowa (DML‐IA) subregion of the Prairie Pothole Region of North America. Storage capacities were determined using hydrologically enforced Light Detection and Ranging‐derived digital elevation models, and a unique geoprocessing algorithm. Depressional specific storage was estimated for each 12‐digit Hydrologic Unit Code (HUC12) watershed in the region from total catchment‐specific depressional storage volume and catchment area. Runoff storage indices were calculated using catchment depressional specific storage values and estimates of the amount of rainfall likely to fall within each watershed during sub‐annual and 1‐, 2‐, 5‐, and 10‐year 24‐h events. The 173,171 identified drained depressions in the DML‐IA can store up to 903.5 Mm3 of runoff. Most of this capacity is in depressions located in the north of the region. Specific storage varies from nearly 109 mm in the younger landscapes to <10 mm in older more eroded areas. For 95% of the HUC12 watersheds comprising the region, depressional storage will likely be exhausted by rainfall‐derived runoff in excess of a 1‐year 24‐h event. Rainfall amounts greater than a 5‐year 24‐h event will exceed all available depressional storage. Therefore, the capacity of drained depressions in the DML‐IA to mitigate flooding resulting from infrequent, but large, storm events is limited. 相似文献
87.
Anna M. Jalowska Yongping Yuan 《Journal of the American Water Resources Association》2019,55(1):209-227
Worldwide studies show 80%–90% of all sediments eroded from watersheds is trapped within river networks such as reservoirs, ponds, and wetlands. To represent the impact of impoundments on sediment routing in watershed modeling, Soil and Water Assessment Tool (SWAT) developers recommend to model reservoirs, ponds, and wetlands using impoundment tools (ITs). This study evaluates performance of SWAT ITs in the modeling of a small, agricultural watershed dominated by lakes and wetlands. The study demonstrates how to incorporate impoundments into the SWAT model, and discusses and evaluates involved parameters. The study then recommends an appropriate calibration sequence, i.e., landscape parameters calibration, followed by pond/wetlands calibration, then channel parameter calibrations, and lastly, reservoir parameter calibration. Results of this study demonstrate not following SWAT recommendation regarding modeling water land use as an impoundment depreciates SWAT performance, and may lead to misplaced calibration efforts and model over‐calibration. Further, the chosen method to model impoundments’ outflow significantly impacts sediment loads in the watershed, while streamflow simulation is not very sensitive. This study also allowed calculation of mass accumulation rates in modeled impoundments where the annual mass accumulation rate in wetlands (2.3 T/ha/yr) was 39% higher than mass accumulation rate in reservoirs (1.4 T/ha/yr). 相似文献
88.
Spatial Relationships of Levees and Wetland Systems within Floodplains of the Wabash Basin,USA 下载免费PDF全文
Ryan R. Morrison Erin Bray Fernando Nardi Antonio Annis Quan Dong 《Journal of the American Water Resources Association》2018,54(4):934-948
Given the unique biogeochemical, physical, and hydrologic services provided by floodplain wetlands, proper management of river systems should include an understanding of how floodplain modifications influence wetland ecosystems. The construction of levees can reduce river–floodplain connectivity, yet it is unclear how levees affect wetlands within floodplains, let alone the cumulative impacts within an entire watershed. This paper explores spatial relationships between levee and floodplain wetland systems in the Wabash Basin, United States. We used a hydrogeomorphic floodplain delineation technique to map floodplain extents and identify wetlands that may be hydrologically connected to river networks. We then spatially examined the relationship between levee presence, wetland area, and other river network attributes within discrete subbasins. Our results show that cumulative wetland area is relatively constant in subbasins that contain levees, regardless of maximum stream order within the subbasin. In subbasins that do not contain levees, cumulative wetland area increases with maximum stream order. However, we found that wetland distributions around levees can be complex, and further studies on the influence of levees on wetland habitat may need to consider finer resolution spatial scales. 相似文献
89.
Physical and Chemical Connectivity of Streams and Riparian Wetlands to Downstream Waters: A Synthesis 下载免费PDF全文
Ken M. Fritz Kate A. Schofield Laurie C. Alexander Michael G. McManus Heather E. Golden Charles R. Lane William G. Kepner Stephen D. LeDuc Julie E. DeMeester Amina I. Pollard 《Journal of the American Water Resources Association》2018,54(2):323-345
Streams, riparian areas, floodplains, alluvial aquifers, and downstream waters (e.g., large rivers, lakes, and oceans) are interconnected by longitudinal, lateral, and vertical fluxes of water, other materials, and energy. Collectively, these interconnected waters are called fluvial hydrosystems. Physical and chemical connectivity within fluvial hydrosystems is created by the transport of nonliving materials (e.g., water, sediment, nutrients, and contaminants) which either do or do not chemically change (chemical and physical connections, respectively). A substantial body of evidence unequivocally demonstrates physical and chemical connectivity between streams and riparian wetlands and downstream waters. Streams and riparian wetlands are structurally connected to downstream waters through the network of continuous channels and floodplain form that make these systems physically contiguous, and the very existence of these structures provides strong geomorphologic evidence for connectivity. Functional connections between streams and riparian wetlands and their downstream waters vary geographically and over time, based on proximity, relative size, environmental setting, material disparity, and intervening units. Because of the complexity and dynamic nature of connections among fluvial hydrosystem units, a complete accounting of the physical and chemical connections and their consequences to downstream waters should aggregate over multiple years to decades. 相似文献
90.
湖北省湿地的保护与利用 总被引:10,自引:1,他引:9
湿地是地球上具有多功能的、独特的生态系统,是人类最重要的生存环境之一。湖北省地处长江中游,湿地类型多,面积较大,河、湖湿地系统是主要的湿地类型。湖北湿地具有较大的资源潜力和环境调节功能,是自然界生物多样性丰富的生态景观。近年来,湖北省湿地保护面临人口增长的压力,围垦、污染和过度开发等对湿地保护构成了严重威胁,湿地环境遭到干扰和破坏。加强湿地科学的研究,保护管理好湖北湿地及其生态环境,实现湿地资源的持续利用,是湖北省2l世纪环保工作所面临的一项重要而紧迫的任务。 相似文献