塔克拉玛干沙漠腹地一次风蚀起沙观测试验

风蚀起沙对生态环境、人类健康及社会经济等具有很大的负面效应。利用美国Sensit公司生产的H11-LIN型风蚀传感器及贴地层风速梯度探测仪,对塔克拉玛干沙漠腹地塔中地区一次风蚀起沙过程进行了监测。结果表明：（1）风蚀起沙与微气象是一个互相影响互相制约的变化过程;（2）在此次观测试验过程中,我们观测到的最小起沙风速为6.0 m/s左右,同时发现起沙风速是一个变化的值,随着时间的延续呈现逐步增大的趋势,最小的起沙风速出现在风蚀开始发生的时候;（3）近地表风速廓线受沙粒运动影响明显,随着起沙量的增加,风速随高度变化的幅度增大,此时的风速廓线已不再遵循对数分布规律;（4）利用风蚀传感器测得塔中地区沙粒的临界起动摩擦速度为0.25 m/s,该值与经验公式估算的0.24 m/s非常接近,表明风蚀传感器在塔中地区具有较好的适用性;夏季塔中地区地表土壤湿度对风蚀起沙的阻碍作用可以忽略不计。 ?     

CWHF型全自动集沙仪结构设计及应用性能野外验证

集沙仪作为一种风蚀研究装置,可直接和准确的测定风沙流中的输沙量和风沙流结构。为此,我们自行设计了一种全自动、高频风沙流采样器—CWHF全自动集沙仪,并通过与2 m高度风速和Sensit跃移撞击传感器的野外配合观测,对比分析其野外实地的应用性能。CWHF全自动集沙仪整体外形呈“L”状,其最大特点是集沙容器底部安装有高精度单点称重传感器,使其能够实现集沙累积值的实时高频测量及长时间的采样任务。在野外环境中对沙尘暴天气背景下的相关数据进行分析,发现CWHF全自动集沙仪的累积量和输沙通量均与风速和撞击颗粒数间有较高的一致性,其能够很好地捕捉沙物质的输移信息,野外应用效果良好。此外,通过其估算塔中流动沙面2015年5月18日和25日两次沙尘暴天气近地表100 cm高度内,宽度为100 cm的截面上的水平输沙通量分别为101.37 kg和110.83 kg。     

西北风沙起蚀观测试验及其研究进展

简要阐述了国家自然科学基金“西北沙漠地表沙粒运移特性及动力热力参数研究”支持的“我国西北三大沙漠地表风蚀起沙观测试验”的科学意义、试验方案和科学目标,总结了该试验在前期取得的部分研究进展和研究成果,概括叙述了该项目在地表沙粒跃移特征、起沙风速、沙尘通量等方面的重要发现和一些新的认识。最后,提出并讨论了在沙漠风蚀起沙观测试验方面需要进一步研究和思考的一些重要问题。     

中性层结下局地平缓地形起沙的次网格参数化研究

局地地形起沙对沙尘模式的预报精度具有重要影响。基于狭管与下滑效应以及气流过山的已有研究成果,研究了中性层结与局地平缓地形条件下风速在这两种效应下次网格参数化问题,然后基于平坦地形的起沙公式、引入局地地形的摩擦速度,得到了相应的次网格起沙公式,最后对狭管效应、下滑效应以及两效应的叠加进行了理想试验。试验表明:(1)对于狭管效应的次网格参数化问题,风从狭管的阔口进(出)、窄口出(进)时,风速、跃移通量与起沙量均增大(减小);(2)下滑效应致使风速、跃移通量与起沙量均增大,且山脚增幅大于山坡;(3)对于两种效应的叠加,当气流从狭管的阔口进、窄口出时,风速、跃移通量和起沙量同时增大,山脚风速大于山坡,大粒径沙粒跃移通量增幅大于小粒径沙粒。反之,窄口进、阔口出时,出入口宽度之比存在一临界值,大于此临界值,风速减小;反之增大。而且,除了在山脚的小粒径沙粒在一定风速条件下跃移通量会增大外,其余情况均减少。最后,提出了本参数化方法与数值模式耦合的分算法与整算法。     

Crop residue effects on aerodynamic processes and wind erosion

Summary This study focuses on both the mechanisms and degree of wind erosion control that various residue levels provide. First, scale parameters of Weibull wind-speed distributions at meteorological stations were modified to predict friction velocity distributions at eroding field sites. Simplified erosion prediction equations then were used to evaluate wind erosion on highly erodible, loose, sandy soils. Parameters for the erosion prediction equations were developed from wind tunnel data on soil loss and threshold friction velocities at various residue levels. Erosion-control mechanisms of flat residue include restricting soil emission from the surface and increasing threshold wind speeds. A minimum of 30 to 60 percent flat cover is needed to provide adequate control on highly erodible sands. The control level by flat residue can be increased by using short fields. Erosion-control mechanisms of standing residue include reducing the soil-surface friction velocity and intercepting saltating soil. Standing residue is more effective than flat residue, and 5 percent vertical silhouette area of standing residue per unit horizontal area provides adequate erosion-control in low and moderate wind regimes.Contribution from USDA, ARS in cooperation with Kansas Agricultural Experiment Station, Contribution Number 95-41-J.With 6 Figures     

Review of the Field Measurements and Parameterization for Dust Emission During Sand-Dust Events

Dust emission generated by wind erosion is a basic process before the transport and deposition of dust particles. Parameterization of dust emission flux is important for accurate simulation and prediction of dust events. Field observation and numerical simulation are two approaches to understand the complex process of dust emission. Great progress has been made on the characteristics and mechanism of dust emission during dust storm events. This review introduces the major factors influencing dust emission and summarizes the calculation methods of several key parameters of dust emission, including the threshold friction velocity u.t, threshold wind speed Ut, streamwise saltation flux Q, and （vertical） dust emission flux F, from perspectives of both observation and parameterization. The paper also discusses the improvement, application, and validation of different dust emission schemes in dust models. Existing problems and future research directions are elaborated as well.     

The Effect of Air Density on Sand Transport Structures and the Adobe Abrasion Profile: A Field Wind-Tunnel Experiment Over a Wide Range of Altitude

Aeolian sand transport results from interactions between the surface and the airflow above. Air density strongly constrains airflow characteristics and the resulting flow of sand, and therefore should not be neglected in sand transport models. In the present study, we quantify the influence of air density on the sand flow structure, sand transport rate, adobe abrasion profiles, and abrasion rate using a portable wind-tunnel in the field. For a given wind speed, the flow’s ability to transport sand decreases at low air density, so total sand transport decreases, but the saltation height increases. Thus, the damage to human structures increases compared with what occurs at lower altitudes. The adobe abrasion rate by the cloud of blowing sand decreases exponentially with increasing height above the surface, while the wind erosion and dust emission intensity both increase with increasing air density. Long-term feedback processes between air density and wind erosion suggest that the development of low-altitude areas due to long-term deflation plays a key role in dust emission, and will have a profound significance for surface Aeolian processes and geomorphology.     

风沙流中风速廓线的数值模拟与实验验证

如何描述风沙流中被风沙运动改变了的风速廓线是风沙相互作用研究中的关键问题之一.该文中将跃移风沙流视为一种颗粒拟流体,将跃移颗粒对气流产生的阻力用颗粒流的阻力系数来表达,建立了描写两场相互作用的数学模型.颗粒流的阻力系数采用了前人在液态流化床研究中得出的阻力系数表达形式,通过引入一个修正系数,使其适用于风沙流(气-固两相流).将风沙边界层划分为跃移颗粒所产生的阻力不可忽略的内边界层和跃移颗粒阻力可以忽略但受内边界层影响的外边界层,分别建立了内边界层和外边界层的风速廓线表达式.应用所建立的数学模型,根据由风洞实验测定的跃移风沙流的浓度分布和速度分布资料,计算了跃移风沙流中的风速廓线,并与风洞实测结果进行了对比.结果表明,计算风速廓线与实测风速廓线吻合得比较好,在半对数图上均为上凸的曲线,有别于无风沙运动时的直线.跃移边界层外风速分布可较好地用对数函数来描述.对风沙流中风速廓线的进一步分析证实了风沙物理学奠基人Bagnold在其早期观测风沙流中的风速廓线时提出的"结点现象"(Bagnold结),该结点的高度随风速的增大而升高,随颗粒粒径的增大而降低.根据数值模拟和模拟实验,可以认为有风沙运动的动床剪切风速是综合反映风场与跃移层以及地表之间相互作用的物理量.     

塔克拉玛干沙漠腹地起沙阈值计算解析

临界起沙风速是判别风沙活动能否发生的关键指标,其变化受到地表状况及大气环境的综合影响。为了进一步认识临界起沙风速在野外条件下的变化规律,选取塔克拉玛干沙漠腹地塔中作为研究区,在综合考虑地表土壤粒径、土壤湿度、空气密度等因素的基础上,利用经验公式计算了该地区每月的临界起沙风速。得出：（1）塔中地区2 m高度的临界摩擦速度值介于0.24～0.36 m/s,均值为0.31 m/s;（2）塔中地区2 m高度的临界起沙风速值介于3.9～5.9 m/s,均值为5.1 m/s;（3）塔中地区起沙阈值,最高值出现在夏季,次高值出现在冬季,春季最小。     

沙尘天气过程起沙特征的观测试验和参数化研究进展

沙尘天气过程研究中,起沙过程是沙尘传输和沉降的基础,沙尘模式中的起沙参数化方案决定了能否准确模拟和预报沙尘天气。试验观测和数值模拟是研究起沙过程的重要途径。基于风蚀起沙的物理机制,总结了起沙机制和起沙特征的研究成果,介绍了风蚀起沙的主要影响因子,回顾了起沙关键参数（临界起沙摩擦速度（u*t ）或临界起沙风速（Ut ）、水平跃移沙尘通量（Q）和起沙通量（F））的试验观测及其沙尘模式应用中的参数化方案,并讨论了不同起沙参数化方案的应用与校验。同时,针对目前研究中存在的问题和今后可能的研究方向提出建议。     

塔克拉玛干沙漠腹地风蚀起沙特征观测研究

利用塔克拉玛干沙漠腹地塔中气象站2009—2018年的地面观测资料,分析塔中地区的风蚀起沙特征,结果表明:(1)塔中地区临界起沙风速呈明显的季节变化特征,夏季>春季>秋季>冬季,临界起沙风速介于4.47～4.92 m/s;(2)春、夏季是风蚀事件的多发季节,春、夏季沙尘水平通量的平均值分别为2638.9、3298.9 ...     

沙尘天气下输沙率的野外观测与分析

2014年7月—2014年8月借助风速仪、微梯度集沙仪,通过野外监测系统获取的试验数据,对塔中地区2014年7月—2014年8月沙尘天气过程中贴地层输沙率进行分析,得出:0～85 mm高度内,随着风速的增大,35～85 mm无论是绝对的输沙量还是相对的输沙量都减少。0～85 mm高度内,各层输沙率最大值均出现在风速为8 m·s-1左右,波动较为显著;最小值出现在6.5 m·s-1左右,波动不明显;沙尘天气中,输沙率最大值出现在5～15 mm高度,最小值出现在35～85 mm高度。扬沙天气中,风速9.2 m·s-1时,输沙率最大值在0～5 mm处。沙尘暴天气,拐点风速为7.5 m·s-1,7.5 m·s-1时,输沙率增加不显著,7.5 m·s-1时,输沙率增加显著。通过微梯度集沙仪获得的上述试验数据是风沙工程设计的一个极重要工程参数,具有重要的实践意义。     

Diurnal variations of saltation activity at Tazhong: the hinterland of Taklimakan Desert

The Taklimakan Desert of China is a region of frequent sandstorms and, thus, is a major sand and dust source area. Tazhong, a small mining village, is located near the center of the Taklimakan Desert at a distance of 220 km from the desert margins. Near Tazhong, we conducted a 2-year field investigation designed to monitor the diurnal variation of saltation activity using fast-responding piezoelectric saltation sensors (Sensits). Results suggest that saltation activity tends to occur more frequently during daytime in all seasons, relatively high levels of saltation activity are maintained from around 11:30 to around 16:30 local standard time (LST), because of stronger wind speed, higher soil temperature and lower relative humidity. During the spring and summer seasons, the saltation activity can occur at any time of the day, while there are some periods with zero saltation seconds at night and in the early morning during autumn and winter seasons. The results confirm that sandstorms tend to occur more frequently during daylight hours, so it may be helpful to forecast and guard against the occurrence of blowing sand or sandstorms in the Taklimakan Desert.     

策勒沙漠-绿洲输沙及动力环境特征

利用2012年4月9日—5月9日策勒沙漠和绿洲内部测点的输沙及气象资料,分析了沙漠与绿洲内部沙尘传输的差异性,并从风动力环境上揭示了成因。结果表明:(1)观测期间,通过沙漠测点100 cm(宽)×200 cm(高)断面的沙尘总量为117.5 kg,通过绿洲内部棉田相同断面的沙尘总量为15.1 kg,比沙漠测点减少了87.1%;(2)过渡带和防护林带对风速的消减作用明显,观测期间,沙漠测点起沙风的持续时间为97.4 h,棉田测点仅为18.9 h;(3)观测期间,沙漠测点的总输沙势为114.2 VU,合成输沙势为72.8 VU,合成输沙方向为65.5°;棉田测点的总输沙势为16.1 VU,合成输沙势为15.1 VU,合成输沙方向为104.5°。荒漠过渡带和绿洲防护林通过降低绿洲内部的风速,改变动力环境,削弱沙尘在绿洲区的传输。     

风沙灾害对策勒绿洲棉花生物量的影响

为定量评估风沙灾害对策勒棉区棉花生物量的影响,2011—2012年以新陆中21号为供试品种,在中国科学院新疆策勒荒漠草地生态系统国家野外科学观测研究站农民常规栽培模式田内进行有、无防风沙网防护对棉花最终产量影响的对比观测试验,发现频繁的风沙天气对棉花产量形成的影响分两个阶段,前期营养生长阶段,棉花植株抗逆性弱,而此时该地区风沙活动频繁,植被盖度低,平均风速较大,因此该时段棉花遭受风沙危害后其出苗率明显降低,导致后期严重缺苗;棉花营养生长和生殖生长并进时期抗逆性增强,绿洲植被覆盖度增加,起沙风频次减少,从而导致风沙对棉花生长的影响减弱,仅使棉花植株发育期延迟,地上部分单位面积上的生物量在防护网内比网外多52%,但单株生物量仅多4%。     

Momentum extraction with saltation: Implications for experimental evaluation of wind profile parameters

In wind tunnel studies of aeolian transport, the number and position of pitot tubes are decided by the researcher, so that there are important variations in the computation ofU _* between studies. Velocity measurements seldom are made very close to mobile surfaces because the tubes become blocked by drifting sand grains. This practice is fortuitous as demonstrated by recent selfregulatory models of saltation which indicate that fluid and grain-borne shear stress vary substantially within the lowest 0.01 m and application of the logarithmic law is therefore unsound. This study reports detailed velocity measurements which further suggest that no single logarithmic expression, based on fixed values of κ and τ, adequately represents the full wind profile which includes the inner saltation cloud above 0.01 m and the outer grain-free region of the boundary layer. A much improved fit over the logarithmic wind profile model is achieved with a square root relation, although there is no known physical basis for this specific form of power model. Relatively shallow boundary-layer development in wind tunnels forces the velocity gradient above the region of momentum extraction to attain exceptionally large values, uncommon in natural settings.     

丽江机场地面风场特征及气象保障分析

本文利用丽江机场2013~2015年自动气象站地面风场资料,分析了地面风场变化特征,并就地面风的飞行气象保障进行了总结。结果表明:丽江机场各季盛行偏西南风,且风速最大;东北风频率较大,常造成顺风超标;白天盛行西南风,夜晚和早晨盛行东北风;大风主要出现在1~4月12~18时;风切变有93%出现在冬春季。     

WIND SHEAR IDENTIFICATION WITH THE RETRIEVED WIND OF DOPPLER WEATHER RADAR

Wind shear reflects that the wind field is not uniform, which is one of the primary factors which make the retrieval of the wind field difficult. Based on volume velocity process(VVP) wind field retrieval technique, the intensity of wind shear is identified in this paper. After analyzing the traditional techniques that rely on the difference of radial velocity to identify wind shear, a fixed difference among radial velocities that may cause false identification in a uniform wind field was found. Because of the non-uniformity in wind shear areas, the difference of retrieved results between surrounding analysis volumes can be used as a measurement to show how strong the wind shear is. According to the analysis of a severe convective weather process that occurred in Guangzhou, it can be found that the areas of wind shear appeared with the strength significantly larger than in other regions and the magnitude generally larger than4.5 m/(s·km). Besides, by comparing the variation of wind shear strength during the convection, it can be found that new cells will be more likely to generate when the strength is above 3.0 m/(s·km). Therefore, the analysis of strong wind shear's movement and development is helpful to forecasting severe convections.     

科尔沁草原高空风场垂直特征及变化分析

利用2008-2014年CFL20G风廓线雷达数据对科尔沁草原高空风场垂直特征及变化进行研究。主要对高空三维风场季节变化的统计学特征、典型高度层上的变化规律及垂直高度上的日变化规律进行分析。分析发现：四季中高空20-40m/s风速出现的频率最大,3000米至18000米科尔沁草原高空以偏西风为主。垂直高度上水平风速呈一波一谷型变化,随着高度的增加,高层水平风速开始增大的时间有所推后。12600米及以下各层平均风速最小的季节为夏季,最大的季节为冬春两季;19000米平均风速最小的月份为12月份,风速最大月份为8月份。垂直速度在5500米以下有明显日变化,1500米和3000米有较为明显的年变化,最大值出现在春夏交接的4-6月份,最小值出现在12月份,5000米以上垂直速度没有明显的年变化。     

巴丹吉林沙漠北缘沙尘天气过程中近地面气象要素变化及风沙流结构分析

提要：利用2013年春季在巴丹吉林沙漠北缘拐子湖地区的沙尘暴加强观测资料,对比分析该地区典型流动沙面晴天、扬沙和沙尘暴三种天气背景下各气象要素的变化特征及差异,同时对沙尘暴过程中近地层风沙活动特征进行分析。结果表明,随风速增加沙尘天气强度逐步提升且沙尘天气来临前风速、风向均表现出明显的调整现象,此后爆发过程中风速、风向相对稳定。随沙尘天气强度的增加气温逐渐减小且沙尘天气过程中地面呈利于沙尘起动的暖干状态,同时地面气压不断升高。悬浮的沙尘会导致拐子湖流动沙地各层地温有减小趋势,但减小程度相对较弱,使沙尘天气下各层地温仍保持良好的梯度变化和正弦型日变化趋势。拐子湖流沙地春季起沙风速为6.5m/s,输沙通量垂直分布状况在20cm左右具有明显的分段现象。地表100cm内总输沙量的50%和90%分别集中在地表20cm和56cm高度以内。观测期间整个5月地表0～100cm高度内的输沙通量为420.96kg/m。