海滩养护影响下的海岸风沙堆积——以福建平潭岛龙凤头海滩养护工程为例

海滩养护工程实施后,在保护海岸抵御侵蚀的同时往往还产生其他的环境问题。尤其在强风区海岸,海滩养护造成了滩面环境的改变,使滩面风沙搬运和沉积特征都发生了显著变化。对福建平潭岛龙凤头海滩养护工程实施前后的风沙沉积对比研究表明,养护后海滩的干滩宽度、滩面沉积物粒径、表层湿度、海滩高程等环境要素变化对滩面风沙搬运与沉积过程都产生了重要的影响。主要结论为:(1)养护海滩干滩滩肩高程的提高增加了滩面风速,增大了滩面风沙输沙率;(2)养护海滩干滩宽度的增加既扩大了风区长度也为风沙搬运提供了充足的物源,且不受潮汐过程影响,提供了持续的风沙物源供给,增加了风沙作用时间;(3)养护海滩剖面形态的变化使得海滩滩面沉积物含水率减小,降低风沙起动风速,增强了滩面风沙搬运。     

海岸湿沙表面风沙传输特征的风洞实验研究

通过湿沙表面风沙传输的风洞实验,研究了湿润海岸风沙流的垂直结构、输沙率随风速与表层湿度的变化规律。输沙测量使用60 cm高直立式积沙仪,湿度（M）为沙面表层1 mm厚的重量湿度值。结果表明,湿沙表面的输沙量和高度呈指数关系。一般,湿度增大,整体输沙率降低,高湿度床面的沙粒有相对更大的比例被传输到更高的位置。比起低湿度（M＜0.587%）沙粒,高湿度（0.587%＜M＜1.448%）沙粒的垂直运动对湿度变化的影响更加敏感,尤其是在跃移层的底部,当M＞1.448%时,输沙率已经很低,小于0.99 g·cm-1·s-1。伴随湿度0.587%和1.448%的过渡,风沙流垂向分布被分为3个不同坡度的区域,曲线坡度反映了沙粒间不同水分存在形式的影响差异。对于跃移沙粒,高湿度表面（M＞1.448%）仅起到了一个传输平台的作用;当表面变干到某种程度（M=0.587%）之前,表面湿度是跃移运动的主要控制因子,然后风速才重新开始影响输沙。     

生物土壤结皮对风沙土和黄绵土膨胀特性的影响

作为重要的土壤物理性质，膨胀性在影响土壤导水性、持水性、抗蚀性以及土壤结构的形成和发育等方面发挥着重要作用。为了探讨生物土壤结皮（BSCs）土壤的膨胀特性及其主要影响因素，针对黄土高原风沙土和黄绵土两种典型土壤，利用膨胀仪测定并比较了有、无藓结皮及其在不同因素（初始含水量、干湿循环、冻融循环、温度）下膨胀率的差异，分析了BSCs对土壤膨胀性的影响及其与环境因素和BSCs性质的关系。结果显示：风沙土上藓结皮的膨胀率为1.93%，较无结皮增加了8.65倍；而黄绵土上藓结皮的膨胀率为2.05%，与无结皮相比降低了76.68%。藓结皮的生物量和厚度与其膨胀率在风沙土上均呈线性正相关关系（P < 0.05），在黄绵土上分别呈二次函数（P=0.02）和线性正相关关系（P=0.02）。初始含水量同时影响了土壤最大膨胀率和稳定膨胀时间，影响程度风沙土远大于黄绵土（包括藓结皮和无结皮）；干湿循环次数对无结皮土壤膨胀率的影响程度大于藓结皮土壤，其中风沙土和黄绵土上无结皮的膨胀率分别是50.00%~620.00%和-2.28%~10.81%，而两种土壤上藓结皮的膨胀率分别是-5.70%~10.88%和-10.24%~-21.46%；冻融循环下4种土壤的膨胀率均有不同程度的降低，降幅为0~18.54%。黄绵土无结皮的膨胀率受温度影响程度较大，50℃下黄绵土无结皮的膨胀率分别是25℃和35℃下的1.17倍和1.21倍。BSCs显著地改变了风沙土和黄绵土表层的膨胀性，其影响的程度和方向取决于土壤类型。同时，BSCs的膨胀性受含水量、温度、干湿以及冻融循环等关键因素影响。     

福建长乐海岸-海滩沙丘系统砂物质的粒度特征反映的海岸动力环境分异

通过对福建长乐东部海岸典型的海滩-沙丘系统表层砂样的粒度分析,探索海滩砂与沙丘砂物质物源及其在海滩与滨海沙丘之间输移变化的关系模式。结果表明:1)长乐海岸横向沙丘表面粒度组成以中砂和细砂为主,平均粒径介于1.53~2.31Ф,平均值为1.98Ф;海滩砂的粒度组成以粗砂、中砂和细砂为主,平均粒径介于1.26~2.08Ф,平均值为1.76Ф;海滩砂分选性不如沙丘砂。2)海滩-沙丘系统的砂质沉积以滚动和悬浮组分(OP)、悬浮和滚动(PQ)为主,同时含有极少量的递变悬浮组分(OR),反映了典型的海陆过渡相(潮间带和潮上带)的沉积环境,经常遭受风力和波浪的混合作用。3)从粒度特征看,研究区海滩-沙丘系统的动力关系属于完全耗散性,海岸系统的动力环境,即波浪、潮汐、风力的共同作用,以及海滩宽度与坡度、海滩与沙丘之间的相互作用关系决定了海滩-沙丘系统的粒度组成和粒度参数特点。     

海滩湿润沙面起动摩阻风速的风洞实验

风蚀是一种重要的地貌过程和地质灾害,它影响海岸沙丘的增长,加速土地沙漠化并危害沿岸建筑。沙面湿度强烈影响沙粒的临界起动风速和沙面稳定性,因此,也是影响风蚀过程的一个重要因子。本项风洞实验使用华南热带湿润海岸的海滩沙,研究了表面湿度（1 mm 深）对海滩沙风蚀起动的影响,建立了一个新的预测热带湿润海滩湿沙起动摩阻风速的模型,该模型指明给定粒径下,湿沙的起动摩阻风速随ln100 M（M,重量湿度）线性增加。初步评价了7个预测湿沙起动摩阻风速的模型。实验结果表明,各模型的预测结果间存在着很大差异。在0.0124(M1.5)的湿度下,不同模型预测的湿沙起动摩阻风速比观测的干沙起动摩阻风速大了34%~195%。在湿度小于0.0062(0.5 M1.5)时,Chepil 和Saleh的理论模型和实验数据很吻合;在湿度大于0.0062(0.5 M1.5)时,Belly的实验模型和实验数据更趋一致。     

中国干湿格局对未来高排放情景下气候变化响应的敏感性

气候变化影响下干湿状况的区域分异格局如何变化是一个重要科学问题。基于参与耦合模式比较计划第五阶段（CMIP5）的5个全球气候模式（GCM）,预估了RCP 8.5情景下未来百年中国干湿区面积的变化趋势,分析了干湿格局变化的敏感地区以及对气候变化响应的敏感性。结果表明：未来干湿格局变化以湿润区显著减少、干湿过渡区显著扩张为主要特征,特别是半湿润区面积在远期（2070-2099年）相对基准期（1981-2010年）增加了28.69%。升温2 ℃~4 ℃条件下,全国发生干湿类型转变的面积从10.17%增加至13.72%,尤其在淮河流域南部,这里主要受未来潜在蒸散增加的影响,湿润区向南明显退缩从而转变为半湿润区。总体上,随着未来升温加剧,中国干湿格局对气候变化响应的敏感性将可能增强。     

中国东部沙区表层沉积物粒度特征

通过分析中国东部沙区表层沉积物粒度特征及其与风力、植被覆盖的相关性,探讨了东部沙区现代风沙沉积环境及其区域差异性。结果显示:东部沙区各沙漠/沙地粒径级配相对一致,均以细沙、中沙为主,粒度分布整体呈单峰形态,中等分选,粒度分布和分选性均与西部沙区有较大不同。风力和植被覆盖状况的差异决定了各沙地所处的风沙环境性质和风沙活动强度不同,导致东部沙区表层沉积物粒度特征存在明显的区域差异性。其中,库布齐沙漠粒度特征与该区风蚀、搬运、堆积过程频繁交替的风沙活动方式密切关联;呼伦贝尔沙地粒度特征反映了风蚀主导的风沙环境;科尔沁沙地、浑善达克沙地,毛乌素沙地粒度特征和风沙活动方式相对复杂,与这3个沙地内部风蚀主导区和沙尘沉降主导区镶嵌分布的格局有关。东部沙区表层沉积物平均粒径和分选系数均与沙地年均风速和植被总盖度双因素之间具有显著的非线性相关性。     

腾格里沙漠东南部野外风沙流观测

风沙流是一种沙粒的群体运动,是风沙物理研究的重要内容之一。开展风沙流研究,能够为风沙运动理论与工程实践提供理论支持。由于自然界风的阵性、地表湿度、下垫面属性和风程长度等影响因子的时空变化对风沙流运动的影响,以及长期野外观测的限制,对风沙流的研究目前还不是很完善。本文依据中国科学院风沙科学观测场2005-2009年的长期观测资料,采用赤池信息量准则（Akaike information criterion）,对5种风沙流通量研究常用的拟合模型进行对比分析。结果表明,指数函数模型(q(z)=ae-z/b)是平坦沙地上风沙流的最佳表示方式,该模型拟合系数a值在0～600之间,但主要分布在0～100之间,占64.40%,其次为100～150之间,占18.24%;系数b值在0～0.06之间,主要分布在0.015～0.040之间,占91.21%,其中0.025～0.030占26.37%,其次为0.030～0.035,占24.40%。风沙流中的沙粒平均跃移高度与拟合系数b相同。风沙流在运动过程中,主要在高度20 cm以下传输。风沙流对地表的风蚀和堆积机率几乎是相等的。     

古尔班通古特沙漠及周边区域全新世环境演变研究进展

古尔班通古特沙漠作为中国最大的固定、半固定沙漠,是中国境内受西风环流影响最为明显的沙漠之一,其全新世环境演变过程及其对全球气候变化的响应和反馈,对理解该区现代地表过程与未来环境演变趋势具有重要的科学意义。古尔班通古特沙漠及周边区域全新世环境演变研究的结果明显不同,存在中晚全新世和中全新世降水/湿度变化最优期的分歧,成因机制存在季风深入内陆和西风总体控制的争议。以目前区域已发表的多载体记录为基础,通过降维和集成分析重建了该区全新世气候/湿度变化背景,梳理区域风沙沉积地层年代学时空分布,集成了该区全新世风沙活动历史,进而探讨区域风沙活动与湿度变化的耦合关系。结果表明该区早中全新世（12～6 ka）气候干旱,风沙活动强烈;中晚全新世以来湿度逐渐增加、风沙活动逐渐减弱。通过区域及半球尺度的对比分析,发现该区环境演变过程主要受西风环流的控制。     

气象因子对黑河中游荒漠-绿洲过渡带斑块植被区风沙活动的影响

气候变化对荒漠-绿洲过渡带斑块植被区的风沙活动影响巨大,对该区植被的演化趋势有着重要作用。利用2012-2013年的气象资料,结合植被区255个样点的风蚀积沙量野外观测资料,分析了甘肃临泽县荒漠-绿洲过渡带气候变化特征及其对地表风沙活动的影响。结果表明:(1)2012年和2013年平均气温、积温(≥10 ℃)变化均呈单峰型,平均温度影响近地面空气对流运动,积温(≥10 ℃)影响植被的生长,两者间接地影响风沙运动;(2)2012年和2013年降水差异显著,空气相对湿度呈双谷型变化,降水和空气湿度对地表下垫面的影响十分复杂,对风沙活动的影响较为复杂;(3)2012年和2013年起沙风频率变化呈三峰型,全年输沙势分别为412.21VU、375.41VU,分别属于高风能环境、中风能环境,方向变率指数0.31~0.78,以中变率为主;(4)2012年和2013年输沙率同输沙势或合成输沙势均呈非线性相关且强弱不同,2012年在小变率条件下输沙率受输沙势的影响较大,受合成输沙势的影响较小;2013年在中变率条件下输沙率受合成输沙势的影响较小,受输沙势的影响较大。     

A general framework for modeling sediment supply to coastal dunes including wind angle,beach geometry,and fetch effects

A series of spatially explicit equations are derived that form the foundation of a modeling framework that provides insight into how the interaction of the fetch effect and angle of wind approach leads to tradeoffs that govern the magnitude of aeolian sediment transport across beaches of different geometry. The spatial distribution of sediment transport rate per unit width at any point on the beach is shown to vary predictably as a function of wind angle, critical fetch, and beach geometry; and this has evident implications for the total volume and distribution of sediment transport into the dunes behind the beach as well as the proportion of sediment lost from the beach-dune system at the downwind margin. As the wind field shifts from onshore (shore perpendicular) to oblique (shore parallel) approach angle, total sediment transport rate across a dune line segment will reflect a tradeoff between transport reduction because of the cosine effect and transport enhancement because of potentially longer fetch distances traversed by the wind prior to encountering the dune line. This tradeoff is most evident on long, narrow beaches when beach width is less than the critical fetch. For such beaches and with onshore winds, the total sediment transport rate across the dune line will be less than that predicted for a wide beach because of the constraint imposed by the fetch effect. However, as the angle of wind approach becomes oblique, the available fetch becomes progressively longer, transport limitations imposed by the fetch effect are negated, and transport enhancement across the dune line is to be expected. With very large angles of wind approach, the cosine effect dominates the interaction and transport reductions across the dune line occur until the wind is shore parallel and sediment supply to the dunes ceases altogether. This sequence of adjustments and tradeoffs were only partially understood prior to this study, and yet they form the foundation of coastal dune modeling. The framework proposed in this paper serves to place future studies of process-form interaction in beach-dune systems on a robust theoretical foundation. It also facilitates the testing of various alternative hypotheses regarding the uneven spatial and temporal distribution of dune height and growth rate in coastal environments.     

The dynamic effects of moisture on the entrainment and transport of sand by wind

There is an increasing awareness of the influence of surface moisture on aeolian entrainment and transport of sediment. Existing wind tunnel studies have shown the impact of a limited range of moisture contents on entrainment thresholds but similar investigations are lacking in the field. The research reported here investigated the influence of changes in surface moisture content on sand entrainment and transport on a meso-tidal beach in Anglesey, North Wales.High frequency (1 Hz) wind velocities measured with hot-wire anemometers were combined with grain impact data from a Sensit monitor and mass flux measurements from a standard sand trap. Surface and near-surface moisture contents were assessed gravimetrically from surface sand scrapes and also directly by using a ThetaProbe. Critical threshold values for entrainment were specified using a modified form of the time fraction equivalence method (Stout, J.E., Zobeck, T.M., 1996a. Establishing the threshold condition for soil movement in wind-eroding fields. Proceedings of the International Conference on Air Pollution from Agricultural Operations. MWPS C-3, Kansas City, 7–9 February 1996, pp. 65–71).Results indicate a time-dependent change in dominant control of the sand transport system from moisture to wind speed, dependent upon the moisture content of the surface sediment. This interchange between controlling parameters on both entrainment and transport was very sensitive to prevailing moisture conditions and took place over a period of minutes to hours. Under conditions experienced in the experiments presented here, the critical moisture threshold for sediment entrainment was determined to be between 4% and 6%, higher than the 1–4% specified in previous wind tunnel experiments. Furthermore, a moisture content of nearly 2% (where moisture was adhered to transported sediment) appeared to have little or no impact on the rate of sand flux.     

农田近地表风沙流风程效应变化特征研究

风沙流的风程效应研究是定量获取风沙流沿程变化的核心和难点,风程效应是指输沙率随沙床表面或地块长度的增加而不断增大,而后趋于稳定的变化特征,饱和输沙率（f_max）和饱和路径长度（L_sat）是风程效应的重要参数。采用自动连续称重式集沙仪,以河北坝上地区康保县境内典型旱作农田为研究对象,观测了2017、2018年和2021年内4次典型风蚀事件,分析近地表5 cm高度风沙流的风程效应在5 min时间尺度下的变化特征。结果表明：（1） 近地表输沙通量随风程距离的增大而增大。（2） 4次风蚀事件中L_sat的变化范围在11~280 m之间,并存在明显差异,其变化与风速无关。（3） 近地表风沙流的f_max与风速（U）呈幂函数关系。（4） 风程效应的变化特征与地表可蚀性因子、地表微地貌变化有着紧密联系,未来应对不同的土壤类型和质地农田的风程效应进行深入研究。     

Effects of fetch and surface texture on aeolian sand transport on two nourished beaches

Aeolian sand transport on two nourished beaches was related to the fetch of the wind over the beach sand and to surface characteristics. Meteorological and hydrological conditions were recorded for 2 months. The fetch of wind over beach sand was estimated from wind direction, water level, wave height and beach topography. Aeolian sand transport was determined with sand traps. Sediment flux was found to increase with fetch, although this relation was especially affected by the variability in surface characteristics. On one of the beaches sediment supply was limited as a result of shells, forming a lag deposit.     

海岸沙丘沙运动特征若干问题的研究——以闽江口南岸为例

在海岸带,沙粒粒径和水分含量是决定沙粒起动风速的最主要因素。闽江口南岸海滩沙的平均粒径为2.0Φ,水分含量多在0.3%~1.0%之间。运用Johnson的经验公式,可计算出海滩沙的起动风速为6~7m/s。这一结果与实际观测值十分吻合。由于海岸环境因素的影响,使得同等条件下海岸带沙粒的起动风速明显大于内陆沙漠沙,而风沙流的输沙率明显小于内陆沙漠沙。海岸带是风速剧变带,在引用陆地气象台站的风速记录分析海岸风况和研究风沙运动规律时,必须对风速进行订正。     

库布齐沙漠南缘抛物线形沙丘表面风沙流结构变异

对库布齐沙漠南缘抛物线形沙丘表面气流和输沙率的野外观测和分析结果表明,沙丘表面约90%的风沙输移集中在距沙面0.10 m高度范围内,输沙率随高度递减的形式在沙丘各部位因风速、下垫面状况和坡面形态不同而发生变异。沙丘迎风坡坡脚因出露坚硬、含砾石地表,颗粒跃移高度大,风沙流上层相对输沙率大;迎风坡沙粒沿坡向上运动,颗粒跃移高度减小,风沙流中近地表相对输沙率大;沙丘背风坡沙粒沿坡向下运动,加之来自丘顶变型跃移物质的影响,风沙流上层相对输沙率较大;脊线受迎风坡各个断面地形差异的影响,各观测点间风沙流结构差异显著。风沙流结构在迎风坡和丘顶均遵循指数递减规律(Q=aexp(-z/b)),其中,指数函数拟合中系数a与输沙率具有良好的幂函数关系,随风速增加而增加,但二者关系较弱;b与二者无相关性。背风坡风沙流结构具有明显的分段现象,以0.10 m高度为界,下层符合指数函数,上层符合幂函数。     

Beach face and berm morphodynamics fronting a coastal lagoon

This study documents two different modes of berm development: (1) vertical growth at spring tides or following significant beach cut due to substantial swash overtopping, and (2) horizontal progradation at neap tides through the formation of a proto-berm located lower and further seaward of the principal berm. Concurrent high-frequency measurements of bed elevation and the associated wave runup distribution reveal the details of each of these berm growth modes. In mode 1 sediment is eroded from the inner surf and lower swash zone where swash interactions are prevalent. The net transport of this sediment is landward only, resulting in accretion onto the upper beach face and over the berm crest. The final outcome is a steepening of the beach face gradient, a change in the profile shape towards concave and rapid vertical and horizontal growth of the berm. In mode 2 sediment is eroded from the lower two-thirds of the active swash zone during the rising tide and is transported both landward and seaward. On the falling tide sediment is eroded from the inner surf and transported landward to backfill the zone eroded on the rising tide. The net result is relatively slow steepening of the beach face, a change of the profile shape towards convex, and horizontal progradation through the formation of a neap berm. The primary factor determining which mode of berm growth occurs is the presence or absence of swash overtopping at the time of sediment accumulation on the beach face. This depends on the current phase of the spring-neap tide cycle, the wave runup height (and indirectly offshore wave conditions) and the height of the pre-existing berm. A conceptual model for berm morphodynamics is presented, based on sediment transport shape functions measured during the two modes of berm growth.     

Estuarine shore platforms in Whanganui Inlet, South Island, New Zealand

Whanganui Inlet is a low mesotidal environment where wave energy at the shoreline is limited due to a small fetch, a narrow entrance and tidal flat accretion to intertidal elevations. Wave energy is therefore only an erosive force at high tide and under storm conditions. Despite this low-energy environment extensive shore platforms occur within the inlet. They are sub-horizontal and range in width from 4.1 to 185.2 m with an average of 44.9 m. All the platforms are formed in sandstone of low resistance (mean N-type Schmidt Hammer rebound value of 17 ± 8) and have their seaward edges buried by intertidal sediment flats. The majority of platforms occur at around MHWN level, corresponding to the elevation of those flats. Where wave energy is highest, opposite the inlet's entrance and at those sites with the largest fetch, platforms develop to 0.5–1.0 m below MSL. A higher platform level is also found at MHWS elevations, however it appears to be relict with active erosion of its seaward edge occurring and therefore is most likely related to a higher mid-Holocene sea level. Apart from the location of the lowest platforms little correspondence is found between platform morphology and wave energy. Platform evolution appears to be intrinsically linked to the intertidal sediment flats which determine the degree of surface saturation of the bedrock and, hence, the number of wetting and drying cycles the platforms may undergo. As the seaward edge is buried platform development is primarily through retreat of the landward cliff. This process can, however, be complicated by the migration of intertidal water channels onto the seaward edge of the platforms or relative sea level fall which may rejuvenate landward retreat of the low-tide cliff.     

基于地貌动力学的雷州半岛海滩状态分类研究

海滩地貌动力学为理解海滩形态和海岸动力环境提供了理论框架,在海滩的保护与开发中有重要的指导意义。基于地质背景、海滩地貌形态、海滩沉积物和海洋动力要素选取7个可以量化的海滩特征指标,采用聚类分析对雷州半岛23个海滩进行分类和地貌动力特征识别,针对海滩状态分类模型Ω-RTR在雷州半岛复杂多变海岸线环境下的适用性进行了分析,结果表明：① 雷州半岛海滩可以分为六类：反射组、低潮阶地/反射组（有裂流）、沙坝-槽谷/中间状态组、沙坝消散组、超消散组和低潮阶地/反射组（无裂流）;② 波浪、潮汐、沉积物特征以及海岸地质构造背景等对雷州半岛海滩状态均有不同程度的影响,在不同岸段各要素的影响各异。地质背景是海滩状态分类不可忽视的因素。③ 由于Ω-RTR模型在判别海滩状态时更侧重于动力和沉积因素,分类结果与聚类分析结果稍有差异,但总体上可以有效区分海滩状态类型,是理解海滩动力地貌系统有效手段。