Characteristics of the main inorganic nitrogen accumulation in surface water and groundwater of wetland succession zones     

ZHOU Nian-qing  LI Tian-shui  ZHAO Shan  XIA Xue-min 《地下水科学与工程》2019,7(2):173-181

Based on the observation of a complete hydrological year from June 2014 to May 2015, the temporal and spatial variations of the main inorganic nitrogen(MIN, referring to NO_3~--N, NO_2~--N, NH_4~+-N) in surface water and groundwater of the Li River and the Yuan River wetland succession zones are analyzed. The Li River and the Yuan River are located in agricultural and non-agricultural areas, and this study focus on the influence of surface water level and groundwater depth and precipitation on nitrogen pollution. The results show that NO_3~-N in surface water accounts for 70%-90% of MIN, but it does not exceed the limit of national drinking water surface water standard. Groundwater is seriously polluted by H_4~+-N. Based on the groundwater quality standard of H_4~+-N, the groundwater quality in the Li River exceeds Class III water standard throughout the year, and the exceeding months' proportion of Yuan River reaches 58.3%. Compared with the Yuan River, MIN in groundwater of the Li River shows significant temporal and spatial variations owing to the influence of agricultural fertilization. The correlation between the concentrations of MIN and surface water level is poor, while the fitting effect of quadratic correlation between H_4~+-N concentration and groundwater depth is the best(R~2=0.9384), NO_3~-N is the next(R~2=0.5128), NO_2~--N is the worst(R~2=0.2798). The equation of meteoric water line is δD =7.83δ~(18) O+12.21, indicating that both surface water and groundwater come from atmospheric precipitation. Surface infiltration is the main cause of groundwater H_4~+-N pollution. Rainfall infiltration in non-fertilization seasons reduces groundwater nitrogen pollution, while rainfall leaching farming and fertilization aggravate groundwater nitrogen pollution.  相似文献   

Quantifying suitable dynamic water levels in marsh wetlands based on hydrodynamic modelling     

Peng Hu  Zefan Yang  Qiande Zhu  Weize Wang  Qin Yang 《水文研究》2021,35(2):e14054

The water level of marsh wetlands is a dominant force controlling the wetland ecosystem function, especially for aquatic habitat. For different species, water level requirements vary in time and space, and therefore ensuring suitable water levels in different periods is crucial for the maintenance of biodiversity in marsh wetlands. Based on hydrodynamic modelling and habitat suitability assessment, we determined suitable dynamic water levels considering aquatic habitat service at different periods in marsh wetlands. The two-dimensional hydrodynamic model was used to simulate the temporal and spatial variation of water level. The habitat suitability for target species at various water levels was evaluated to obtain the fitting curves between Weighted Usable Area (WUA) and water levels. And then suitable water levels throughout the year were proposed according to the fitting curves. Using the Zhalong Wetland (located in northeastern China) as a case study, we confirmed that the proposed MIKE 21 model can successfully be used to simulate the water level process in the wetland. Suitable water levels were identified as being from 143.9–144.2 m for April to May, 144.1–144.3 m for June to September, and 144.3–144.4 m for October to November (before the freezing season). Furthermore, proposed water diversion schemes have been identified which can effectively sustain the proposed dynamic water levels. This study is expected to provide appropriate guidance for the determination of environmental flows and water management strategies in marsh wetlands.  相似文献   

Mapping wetland characteristics using temporally dense Sentinel-1 and Sentinel-2 data: A case study in the St. Lucia wetlands,South Africa     

《International Journal of Applied Earth Observation and Geoinformation》2020

Wetlands have been determined as one of the most valuable ecosystems on Earth and are currently being lost at alarming rates. Large-scale monitoring of wetlands is of high importance, but also challenging. The Sentinel-1 and -2 satellite missions for the first time provide radar and optical data at high spatial and temporal detail, and with this a unique opportunity for more accurate wetland mapping from space arises. Recent studies already used Sentinel-1 and -2 data to map specific wetland types or characteristics, but for comprehensive wetland characterisations the potential of the data has not been researched yet. The aim of our research was to study the use of the high-resolution and temporally dense Sentinel-1 and -2 data for wetland mapping in multiple levels of characterisation. The use of the data was assessed by applying Random Forests for multiple classification levels including general wetland delineation, wetland vegetation types and surface water dynamics. The results for the St. Lucia wetlands in South Africa showed that combining Sentinel-1 and -2 led to significantly higher classification accuracies than for using the systems separately. Accuracies were relatively poor for classifications in high-vegetated wetlands, as subcanopy flooding could not be detected with Sentinel-1’s C-band sensors operating in VV/VH mode. When excluding high-vegetated areas, overall accuracies were reached of 88.5% for general wetland delineation, 90.7% for mapping wetland vegetation types and 87.1% for mapping surface water dynamics. Sentinel-2 was particularly of value for general wetland delineation, while Sentinel-1 showed more value for mapping wetland vegetation types. Overlaid maps of all classification levels obtained overall accuracies of 69.1% and 76.4% for classifying ten and seven wetland classes respectively.  相似文献   

Retrieving aboveground biomass of wetland Phragmites australis (common reed) using a combination of airborne discrete-return LiDAR and hyperspectral data     

《International Journal of Applied Earth Observation and Geoinformation》2017

Wetland biomass is essential for monitoring the stability and productivity of wetland ecosystems. Conventional field methods to measure or estimate wetland biomass are accurate and reliable, but expensive, time consuming and labor intensive. This research explored the potential for estimating wetland reed biomass using a combination of airborne discrete-return Light Detection and Ranging (LiDAR) and hyperspectral data. To derive the optimal predictor variables of reed biomass, a range of LiDAR and hyperspectral metrics at different spatial scales were regressed against the field-observed biomasses. The results showed that the LiDAR-derived H_p99 (99th percentile of the LiDAR height) and hyperspectral-calculated modified soil-adjusted vegetation index (MSAVI) were the best metrics for estimating reed biomass using the single regression model. Although the LiDAR data yielded a higher estimation accuracy compared to the hyperspectral data, the combination of LiDAR and hyperspectral data produced a more accurate prediction model for reed biomass (R² = 0.648, RMSE = 167.546 g/m², RMSE_r = 20.71%) than LiDAR data alone. Thus, combining LiDAR data with hyperspectral data has a great potential for improving the accuracy of aboveground biomass estimation.  相似文献   

基于HJ-1A高光谱影像的湿地精细分类     

张雅春  那晓东  臧淑英 《地理科学进展》2018,37(12):1705-1712

混合像元的存在不仅影响了基于高光谱影像的地物识别和分类精度,而且已成为遥感科学向定量化发展的主要障碍。本文以扎龙湿地为试验区,以环境一号卫星采集的高光谱影像为数据源,分别采用传统的全约束最小二乘光谱解混算法(fully constrained least squares spectral unmixing algorithm, FCLS)与基于稀疏约束最小二乘光谱解混算法(sparse constrained least squares spectral unmixing algorithm, SUFCLS)实现了试验区湿地的精细分类,并对两种分类结果的表现及其分类精度进行了对比分析。研究结果表明：SUFCLS算法能够自适应的从光谱库中选择场景中所占比例最高的一组端元,并将此端元的组合应用于传统的全约束最小二乘光谱解混中实现不同湿地类型丰度的提取,该算法充分考虑了端元的空间异质性,弥补了FCLS算法在端元选取过程中的不足。精度验证结果表明与FCLS算法相比,SUFCLS算法分类结果的均方根误差更小,丰度的相关系数更高,因此该方法对于提高湿地解混精度以及实现湿地精细化分类具有重要意义。  相似文献   

热带湿地公园游憩者行为偏好研究:以广东九龙山红树林国家湿地公园为例   总被引：1，自引：0，他引：1  

刘洋  陈燕  曹文婷 《湿地科学与管理》2017,(1):46-50

随着人们对湿地公园价值认识的提升,更多游人参与到湿地公园的游憩活动中,以游人的行为活动以及设施需求为出发点建设湿地公园显得尤为重要。以九龙山红树林国家湿地公园为例,采用行为观测法和问卷调查法对游憩者的结构特点、行为特征、游憩偏好和设施要求等多个方面进行了调查与分析。结果表明:男性学生是公园的主要游憩者,多数利用节假日与朋友结伴而来;公园的吸引半径为100 km以内,主要的交通方式是摩托车及私家车;游人最喜欢的游憩活动是欣赏自然风光以及徒步健身;期望增设垂钓、野营、空中观鸟等游憩项目。建议开发有教育价值或有经济收入的游憩项目,根据游客的需求,丰富设施以及完善现有游憩设施,加大管理、保护与宣传力度。  相似文献   

城镇化对湿地的影响研究进展     

王娇月  韩耀鹏  刘丽丽  王丽  邴龙飞  尹岩  郗凤明 《湿地科学与管理》2017,(3):61-65

湿地是人类生存和发展的主要环境之一,城镇化进程严重影响了湿地生态系统。从城镇化对湿地的景观格局、水文、生物多样性影响方面综述了城镇化对湿地生态系统影响的研究进展。研究发现城镇化改变了湿地的景观格局,使湿地面积不断减少,景观破碎化,湿地异质性增大,连通性降低。城镇化改变了湿地的水文条件,使天然调蓄能力减弱,径流系数增强,洪峰流量增大,水土流失加重,河网和水系结构特征改变,水质受到严重影响。城镇化降低了湿地生物多样性,使物种丰富度和分布降低,珍稀物种因丧失生境而灭绝,生物入侵增强,进而导致种群组成和生态系统的功能发生变化。最后提出了在全球变化背景下城镇化对湿地影响研究的新方向及其保护措施建议。  相似文献   

基于环境DNA宏条形码技术的水体无脊椎动物多样性研究：以广州海珠湖为例     

唐诗琴  王庆  刘璐  杨宇峰 《湖泊科学》2023,35(4):1443-1456

于2021年1月,利用环境DNA宏条形码（eDNA）技术,对广州海珠国家湿地公园海珠湖的水体和沉积物进行无脊椎动物多样性和群落结构调查,并比较了eDNA和传统形态学鉴定对浮游动物的检出能力。结果表明：eDNA检出海珠湖无脊椎动物9门16纲34目71科93属137个可操作分类单元（OTUs）;其中,水采样品中共检出9门50属68个OTUs,网采样品中共检出6门27属35个OTUs,沉积物休眠卵样品中共检出9门70属103个OTUs。水采和网采样品中,主要的无脊椎动物均为轮虫动物门和节肢动物门;沉积物中主要的无脊椎动物为环节动物门和节肢动物门。沉积物休眠卵OTU丰富度最高,水采样品的OTU丰富度高于网采样品。比较浮游动物的形态鉴定和eDNA鉴定,发现后者在属水平上能鉴定出更多的种类;形态学鉴定的桡足类（100%）和多数轮虫（58.82%）可被eDNA注释出,而eDNA注释出的多数桡足类（71.43%）和轮虫（58.82%）在形态学鉴定中未发现;eDNA未注释出枝角类。结果表明,eDNA在无脊椎动物调查中具有较高的应用潜力,与传统形态学鉴定组合应用能更全面地了解无脊椎动物的种类和水生生物多样...  相似文献   

黑龙江省安兴湿地秋季浮游植物群落结构   总被引：9，自引：3，他引：6  

韩欢欢  范亚文 《湖泊科学》2012,24(4):577-585

于2010年10月(秋季)对黑龙江省安兴湿地浮游植物群落组成、丰度及优势种进行分析.共设置9个采样点,经鉴定共有浮游植物146个分类单位,包括128种17变种1变型,隶属于6门8纲12目25科45属,其中绿藻为优势门类,占浮游植物总数的39.7%,裸藻次之,占浮游植物总数的30.8%,硅藻居第三位,占浮游植物总数的21.9%,调查期间浮游植物的总丰度为181.4×106cells/L.优势度分析显示,安兴湿地秋季各采样点的浮游植物优势种都在3个以上,主要优势种有细粒囊裸藻(Trachelomonas granulosa Playf.)、梅尼小环藻(Cyclotella meneghiniana Kütz.)、细粒囊裸藻齿领变种(Trachelomonas granulosa var.crenulatocollis(Szab.)Hub.-Pest.)等.样点聚类和非度量多维标度分析表明,9个采样点浮游植物群落在相似度60%时可分为5组,各样点浮游植物种类在空间组成上相似性低,差异性较大,主要与其生境特点相关.典范对应分析显示优势种类变化与环境条件相一致,主要受温度、pH的影响.此外,在安兴湿地内还鉴定出大量的β-中污带指示种,结合多样性指数分析,本文初步推断安兴湿地水质可能受到了一定的污染.  相似文献   

Pattern of spatial variability in granulometric and mineralogical characteristics across an ecologically sensitive sub-tropical wetland (Bihar,India)     

Alvia Aslam  Rajesh Kumar Ranjan  Avinash Dass 《国际泥沙研究》2023,38(4):516-529

Floodplain wetlands are dynamic systems undergoing frequent hydro-sedimentological changes. Tropical/subtropical wetlands have even more pronounced climatic and biological influences on the sediment dynamics. In the current study, a protected subtropical wetland in Bihar(India) has been assessed for its sedimentary and mineralogical status. Sediment characteristics and associated granulometric parameters are discussed to highlight the wetland’s hydrogeomorphic character, energy dimension, and th...  相似文献