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1.
湿地水文是形成湿地的发生学因素,“淹埋深-历时-频率”(S, D, F)是表征湿地水文的特征指标。为了推进(S, D, F)阈值研究理论和方法的发展,总结了(S, D, F)阈值研究的一致结论:S阈值确定的原则是水饱和至地表;D阈值确定的原则是从水饱和开始到厌氧环境形成的时滞;F阈值应取≥50%。通过对这些一致结论的分析后认为:D阈值确定的原则存在着科学性问题;目前(S, D, F)阈值研究理论针对正常情况下湿地类型,不适合非正常情况下的湿地类型。为了科学地解决(S, D, F)阈值问题,必须构建新的(S, D, F)阈值确定的理论和方法,包括正常情况下和非正常情况(S, D, F)阈值确定的理论和方法以及(S, D, F)阈值科学性检验的理论和方法。 相似文献
2.
阶梯-深潭系统是山区河流广泛分布的控制性河床结构,泥沙输移过程中大颗粒碰撞阶梯关键石块,使其发生位移,强烈影响阶梯-深潭的稳定性。以单个阶梯-深潭的关键石块为研究对象,重点考虑碰撞对阶梯-深潭的影响,量化来沙中大颗粒碰撞作用并改进稳定性理论模型,利用新模型分析阶梯-深潭的临界条件和破坏机制。来沙颗粒对关键石块的碰撞作用受自身粒径、运动速度和阶梯下游冲刷程度影响且皆为正相关关系。颗粒撞击减小阶梯失稳临界流量,且参与碰撞的石块粒径越大,减小作用越明显。当η> 0.55时(η=D1/D,D1为碰撞石块粒径,D为关键石块粒径),临界流量下降幅度达到50%以上,表明来沙中卵石漂石对阶梯-深潭稳定性发挥主要影响。山区河流发生低频率洪水或滑坡泥石流,向下游河道输运大粒径石块并与阶梯碰撞,显著增大转动合力矩并降低失稳临界流量,使得单个阶梯-深潭更易达到临界条件发生破坏。 相似文献
3.
为有效进行DRAINMOD-S模型参数的优选,更好地理解参数变化对模拟结果的影响,开展了模型参数灵敏度分析。以南通市九龙垦区暗管排水脱盐试验为例,采用Morris全局定性分析方法检测了DRAINMOD-S模型模拟土壤剖面含盐量时侧向饱和导水率Ksat、水动力弥散系数D、地表最大蓄水深度Sm、相对不透水层深度Im、排水系数Dr及地下水初始埋深W 6个参数的灵敏度。结果表明:Ksat对模拟结果影响最为显著,D、Sm和Dr次之,而W与Im影响最小;各个参数间的非线性作用存在差异,以Ksat最为显著。为保证模型模拟质量,对敏感性参数应提高现场测试精度,在模型运行时,对灵敏度大的参数应进行重点调整,同时也不可忽视非线性作用较强的参数,从而有效地指导模型的参数率定,提高模型的适用性。 相似文献
4.
为研究城市小型河流中污染物的物理迁移过程规律,分析基流条件下流动水体与暂态存储区之间的滞留交互作用,采用溴化锂(LiBr)作为保守性示踪剂进行野外现场示踪试验,结合一维溶质运移存储模型(One-dimensional Transport with Inflow and Storage model, OTIS)定量解析潜流交换特性,估算纵向弥散系数(D)、潜流交换面积(As)、主河道断面面积(A)和潜流交换系数(α).模型度量指标DaI值和均方根误差值结果表征参数模拟结果可靠性高,拟合效果理想.由泵入点O至下游1 300 m设置的A、B、C、D 4处监测点的模拟结果表明,水文参数D、As、A和α均随水文条件而变,OB河段(0~600 m)潜流交换能力较弱,主要以对流弥散过程为主;BD河段(600~1 300 m)具有较强的暂态存储能力,对溶质的滞留时间长;BC(600~1 000 m)和CD(1 000~1 300 m)河段交换系数分别为(3.42×10-6±0.65×10-6)s-1和(2.87×10-6±0.81×10-6 )s-1;河段BC存在2.2×10-5m3/(s·m)的侧向补给流量.4个河段对比发现,城市河流渠道化、河床沉积物贫瘠等特征导致潜流交换能力弱化. 相似文献
5.
西北旱区湿地周边农田易盐渍化,合理实时控制和降低地下水水位是实现湿地保护及其周边农田盐渍化防控“双赢”的有效途径。选取西北石羊河流域邓马营湖湿地与农田之间过渡带为示范研究区,通过分析地下水埋深变化特征及其与表层土壤盐分的协同关系,确定生态水位阈值,并基于该阈值研发了由虹吸辐射井群为支撑的地下水“水位-水量”智能双控技术,其关键点是:采用一井虹吸联通多个辐射井,用于增大弱透水层区单井涌水量,实现水位面状控制;利用电系统、信号系统和控制器集成智能控制子系统,实现地下水水位和水量的实时控制。该技术示范应用结果表明:随地下水埋深增大,农田盐渍化风险和湿地植被芦苇覆盖率均降低,农田盐渍化防控和湿地保护的地下水埋深阈值为1.9~3.0 m;每年7—8月的潜水蒸发阶段是表层土壤主要积盐时段,期间智能双控系统可将地下水埋深调控在水位阈限范围;该双控作用不仅能够控降灌溉引起的表层土壤电导率的增大幅度,而且还能有效降低表层土壤的积盐速率;相对微咸水,淡水灌溉条件下智能双控技术的淋盐和控盐效果更明显。因此,这项技术能够实现地下水水位精准调控,对旱区湿地保护及其周边农田盐渍化防控具有重要的现实意义。 相似文献
6.
叶面积指数(LAI)是生态环境研究中一个关键的生物物理变量,是陆地植被能量交换的重要途径。基于多角度高光谱植被辐射传输理论,根据DART模型,将天顶角和方位角离散成61个方向组合,建立适于多角度高光谱遥感数据的叶面积指数反演查找表;选取长白山地区高光谱多角度PROBA/CHRIS遥感数据,在进行HRIS数据预处理的基础上,利用最小二乘原理进行CHRIS数据与LAI查找表匹配,反演研究区的LAI;并对490 nm和700 nm波长在不同LAI和61个离散方向的BRDF敏感性因子进行评价分析:随着LAI值的增大,490 nm波长的BRDF值先增大后减小, 700 nm波长的BRDF值减小;BRDF值沿天顶角增大的方向下降,在天顶附近时值为最小。 相似文献
7.
应用基于蓄量动力学方程推导出的水文相似因子——山坡Péclet数(简称Pe),研究了Pe在不同地貌条件山坡间的变化特征、影响因素及其表达的水文响应特性。结果显示,在和睦桥流域,山坡Pe值一般为200~2 000。分析发现,Pe与坡长厚度比(L/D)呈显著的线性相关关系(R2=0.94),关系线斜率为0.95,表明Pe在数值上决定于L/D,即山坡水文特征受山坡尺寸的影响较大。为了说明山坡形状的影响,选取了山坡水平、剖面曲率,分析了其与Pe值的相互关系。研究发现,发散型凸坡Pe值一般较大,有利于土壤水流的消退,对流运动是其主要的运动形式,而收敛型凹坡Pe值一般较小,不利于土壤水流的消退,水分运动中的扩散作用更强。这与理论分析结果一致,表明Pe数在分析山坡结构特征的水文效应方面有一定意义。 相似文献
8.
为简化沟灌二维累积入渗量的数值计算,采用理论分析和数值模拟相结合的方法,研究分析了土壤初始含水率、入渗水深、沟底宽、边坡系数、土壤质地和容重等因素对沟灌边界效应和拟合系数γ的影响,并建立了系数γ与主要影响因素间的函数关系式,提出了沟灌累积入渗量简化计算方法.结果表明,土壤初始含水率、沟底宽和边坡系数对沟灌边界效应的影响较小,而入渗水深、土壤质地和容重对沟灌边界效应的影响显著;拟合系数γ主要与入渗水深的变化有关,随入渗水深的增大呈现减小趋势,但对初始含水率、沟底宽、边坡系数、土壤质地和容重等因素变化的敏感性较低,可忽略其影响;建立了估算拟合系数γ的计算式,结合已有文献资料对其可靠性进行了验证,结果表明黏壤土和砂壤土不同入渗时间内,其沟灌累积入渗量计算值与实测值和HYDRUS软件模拟值具有高的一致性,说明文中所建公式估算拟合系数γ值可靠.研究结果可为简化沟灌累积入渗量的数值计算提供理论依据和技术支撑. 相似文献
9.
生态植被的地下水阈值是指植被依赖地下水生长的最大水位埋深和溶解性总固体含量(TDS)。控制地下水开采生态风险的基础是弄清生态植被与地下水的依存关系并给出地下水阈值。文章利用遥感数据集MOD13Q1和水文地质调查获得的实测数据,统计分析了柴达木盆地主要平原区生态植被与潜水的水位埋深、TDS的关系。结果表明:天然植被依赖地下水的阈值是水位埋深为5.3 m、TDS为7.5 g/L;埋深>5.3 m地带的天然植被基本与地下水无关;埋深<1.1 m是水生植被、湿生植被与湿生耐盐碱植被适宜生长的水位埋深区间;埋深1.4~3.5 m是耐盐植被及中生植被与旱生植被适合生长的水位埋深区间;TDS≤1.5 g/L适宜植被生长,1.5 g/L<TDS≤5 g/L较适宜植被生长,5 g/L<TDS≤7.5 g/L基本不适宜植被生长,TDS>7.5 g/L不适宜植被生长。 相似文献
10.
为研究采矿对土壤-植被REE生物地球化学特征的影响,采集大宝山多金属矿区及背景区土壤及优势植物芒萁、马尾松叶片,测量REE含量.对比分析样品中REE分布模式、∑REE、δEu、δCe及四重效应等地球化学特征.结果表明:受采矿活动影响,矿区土壤REE含量均值达284.99 mg/kg,显著高于背景区,且表土层REE含量明显高于心土层;相对于背景区,矿区土壤和植被轻重稀土分馏更弱;研究区土壤和植被都为Eu亏损,大都为Ce富集,马尾松与土壤REE含量呈正相关,REE富集植物芒萁在背景区富集系数反而更高;矿区环境抑制植物对REE正常的迁移和分异,对植被生长不利,植被REE分布分异特征是其对生长环境的反映和适应. 相似文献
11.
湿地是流域水循环和水量平衡的重要调节器,在维护流域水量平衡、减轻洪旱灾害和应对气候变化等方面发挥极其重要的作用。流域湿地水文调蓄功能是湿地生态水文学研究的重要内容,科学认识和理解流域湿地水文调蓄功能对流域湿地恢复保护、水资源综合管控与应对气候变化具有极其重要的意义。本文阐述了流域湿地水文调蓄功能的概念与内涵,剖析了流域湿地水文调蓄功能时空变异性、阈值性和多维性三大特征及其影响因素(包括湿地土壤特性、植被特征和初始水文条件等内在因素和流域特征、降雨特征、气候变化和人类活动等外在因素),探讨了流域湿地不变情景下和变化情景下水文调蓄功能评估方法,并介绍了流域湿地水文调蓄功能定量评估模型与应用情况。最后,从学科发展和实践需求的视角提出了流域湿地水文调蓄功能未来亟需加强研究的重点方向。 相似文献
12.
Eric L. G. Hazelton Rebekah Downard Karin M. Kettenring Melissa K. McCormick Dennis F. Whigham 《Estuaries and Coasts》2018,41(1):68-84
Chesapeake Bay tidal wetlands are experiencing a broad-scale, aggressive invasion by the non-native, clonal grass Phragmites australis. The grass is often managed with herbicides in efforts to restore native plant communities and wildlife habitat. Management efforts, however, can act as a disturbance, resulting in increased light availability, potentially fostering reinvasion from soil seedbanks. If native vegetation establishes quickly from seedbanks, the site should have greater resiliency against invasion, while disturbed sites where native plants do not rapidly establish may be rapidly colonized by P. australis. We surveyed the soil seedbank of three vegetation cover types in five Chesapeake Bay subestuaries: areas where P. australis had been removed, where P. australis was left intact, and with native, reference vegetation. We determined the total germination, the proportion of the seedbank that was attributable to invasive species, the richness, the functional diversity, and the overall composition of the seedbanks in each of the cover types (i.e., plots). After 2 years of herbicide treatment in the P. australis removal plots, vegetation cover type impacted the total germination or the proportion of invasive species in the seedbank. In contrast, we also found that seedbank functional composition in tidal brackish wetlands was not influenced by vegetation cover type in most cases. Instead, plots within a subestuary had similar seedbank functional composition across the years and were composed of diverse functional groups. Based on these findings, we conclude that plant community recovery following P. australis removal is not seed-limited, and any lack of native vegetation recruitment is likely the result of yet-to-be-determined abiotic factors. These diverse seedbanks could lead to resilient wetland communities that could resist invasions. However, due to the prevalence of undesirable species in the seedbank, passive revegetation following invasive plant removal may speed up their re-establishment. The need for active revegetation will need to be assessed on a case-by-case basis to ensure restoration goals are achieved. 相似文献
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John D. Skalbeck Donald M. Reed Randall J. Hunt Jamie D. Lambert 《Hydrogeology Journal》2009,17(1):215-228
Historically, drier types of wetlands have been difficult to characterize and are not well researched. Nonetheless, they are considered to reflect the precipitation history with little, if any, regard for possible relation to groundwater. Two seasonal coastal wetland types (wet prairie, sedge meadow) were investigated during three growing seasons at three sites in the Lake Michigan Basin, Wisconsin, USA. The six seasonal wetlands were characterized using standard soil and vegetation techniques and groundwater measurements from the shallow and deep systems. They all met wetland hydrology criteria (e.g., water within 30 cm of land surface for 5% of the growing season) during the early portion of the growing season despite the lack of appreciable regional groundwater discharge into the wetland root zones. Although root-zone duration analyses did not fit a lognormal distribution previously noted in groundwater-dominated wetlands, they were able to discriminate between the plant communities and showed that wet prairie communities had shorter durations of continuous soil saturation than sedge meadow communities. These results demonstrate that the relative rates of groundwater outflows can be important for wetland hydrology and resulting wetland type. Thus, regional stresses to the shallow groundwater system such as pumping or low Great Lake levels can be expected to affect even drier wetland types. 相似文献
14.
Lance Wollwage Scott Fedick Sergey Sedov Elizabeth Solleiro‐Rebolledo 《Geoarchaeology》2012,27(5):441-456
Cenotes (natural wells or sinkholes) comprise the most common landscape features in the northern Maya Lowlands of the Yucatán Peninsula, México. Detailed study of dated soil‐sedimentary sequences, recovered from a cenote at the archaeological site T’isil and nearby wetlands, allows a partial reconstruction of environmental variability at the site for the last 2000 years. Biogenic calcite sedimentation and Calcisol development occur during three intervals of increased inundation in cenote and wetland environments, ca. A.D. 300, A.D. 1000, and A.D. 1300. Periods of increased inundation in the cenote and wetlands correlate with wetter climatic intervals, and periods of Maya occupation at sites in the Yalahau region. Evidence for Maya modification of the cenote environment may relate to regional wetland agricultural practices. 相似文献
15.
互花米草入侵下福建漳江口红树林湿地土壤生态化学变化 总被引:1,自引:0,他引:1
采集了福建云霄漳江口米草入侵下红树林自然湿地保护区内红树林群落、米草群落、红树林—米草交互群落以及光滩的剖面土壤样品,分析了土壤的总养分库、有效养分库及微生物活性等指标。结果表明,不同植被群落下土壤理化性质均存在明显差异。土壤有机质、全氮、全磷、阳离子交换量和微生物生物量碳、氮在同一深度的含量变化为:红树林>红树林—米草混作>米草>光滩;土壤蔗糖酶、脲酶、磷酸酶、过氧化氢酶和多酚氧化酶等酶活性指标也表现出相似的变化趋势。从深度变化而言,上述各项土壤质量指标均随剖面深度而降低。米草入侵后土壤的各项养分指标均有明显下降,湿地土壤生态化学性质发生了明显的退化。土壤有机碳、土壤微生物生物量碳、氮含量以及土壤蔗糖酶与磷酸酶活性对滨海湿地土壤退化的反映最为强烈, 可以作为指示性指标。 相似文献
16.
Simultaneous changes in the representation of wetland and dry land taxa are a common feature of mid and late Holocene pollen diagrams from the coastal wetlands of North‐West Europe. Distinguishing both the areas affected and between natural and anthropogenic causes can be problematic. High temporal resolution, improved taxonomic procedures and multivariate statistics have been applied to two Thames estuary sites, along with simulation models, to resolve these issues. Large Poaceae pollen grains appear to be derived from wild grasses rather than cereals, while modelling indicates that even extensive clearance in dry land areas produces relatively minor changes in pollen assemblages where fen carr is the in situ vegetation. It is concluded that rapid/abrupt simultaneous pollen stratigraphic events in coastal wetlands are likely to have been caused by wetland vegetation changes alone. Simultaneous events, dating from c. 2150–1300 cal a BC, can be distinguished at 12 Thames estuary pollen sites. During this interval inter‐tidal environments expanded creating areas attractive to human populations for pasturage. This exploitation is likely to have led to further changes in wetland vegetation and increased clearance activity on adjacent dry land areas. In such circumstances disentangling the processes causing vegetation change is challenging, although considerably aided by the techniques adopted in this paper. Copyright © 2012 John Wiley & Sons, Ltd. 相似文献
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Didier Pont John W. Day Philippe Hensel Evelyne Franquet Frank Torre Patrick Rioual Carles Ibànez Eric Coulet 《Estuaries and Coasts》2002,25(3):337-358
One of the most critical problems facing many deltaic wetlands is a high rate of relative sea-level rise due to a combination of eustatic sea-level rise and local subsidence. Within the Rhône delta, the main source of mineral input to soil formation is from the river, due to the low tidal range and the presence of a continuous sea wall. We carried out field and modeling studies to assess the present environmental status and future conditions of the more stressed sites, i.e.,Salicornia-type marshes with a shallow, hypersaline groundwater. The impacts of management practices are considered by comparing impounded areas with riverine areas connected to the Rhône River. Analysis of vegetation transects showed differences between mean soil elevation ofArthrocnemum fruticosum (+31.2 cm),Arthrocnemum glaucum (+26.5 cm), bare soil (+16.2 cm), and permanently flooded soil (?12.4 cm). Aboveground and belowground production showed that root:shoot ratio forA. fruticosum andA. glaucum was 2.9 and 1.1, respectively, indicating more stressful environmental conditions forA. glaucum with a higher soil salinity and lack of soil drainage. The annual leaf litter production rate of the two species is 30 times higher than annual stem litter production, but with a higher long-term decomposition rate associated with leaves. We developed a wetland elevation model designed to predict the effect of increasing rates of sea-level rise on wetland elevation andSalicornia production. The model takes into account feedback mechanisms between soil elevation and river mineral input, and primary production. In marshes still connected to the river, mineral input decreased quickly when elevation was over 21 cm. Under current sea-level rise conditions, the annual amount of riverine mineral input needed to maintain the elevation of the study marshes is between 3,000 and 5,000 g m?2 yr?1. Simulations showed that under the Intergovernmental Panel on Climate Change best estimate sea-level rise scenario, a mineral input of 6,040 g m?2 yr?1 is needed to maintain marsh elevation. The medium term response capacity of the Rhône deltaic plain with rising sea level depends mainly on the possibility of supplying sediment from the river to the delta, even though the Rhône Delta front is wave dominated. Within coastal impounded marshes, isolated from the river, the sediment supply is very low (10 to 50 g m?2 yr?1), and an increase of sea-level rise would increase the flooding duration and dramatically reduce vegetation biomass. New wetland management options involving river input are discussed for a long-term sustainability of low coastal Mediterranean wetlands. 相似文献
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利用多期Landsat-5 TM影像,结合植被分带信息、地物波谱特征和实地调查数据,提取上海地区滩涂湿地分布及其覆盖信息;在ArcGIS软件支持下,综合多期遥感影像解译结果和相应时段的水下地形信息,对上海市滩涂湿地空间分布及其变化进行分析。结果表明,近15年来上海市滩涂围垦量在不断增加;尽管滩涂湿地仍在继续淤涨,但淤涨速度明显减缓,且慢于围垦速度,这导致中高潮滩涂面积不断减少。 相似文献