不同气候带的河道与沙丘分布格局及其类型划分

风水交互作用是干旱区常见的地貌现象和重要的地表过程,干旱区河流通过提供物源和场所控制沙漠分布的格局,沙漠分布与风沙活动制约河道发育和泥沙输移,在不同时空尺度表现不一,但关于二者交互作用的分类处于探索阶段,尚未形成分类体系,尤其在地貌格局分类上多为定性描述。因此,自西向东选择位于3个气候带的中国西部克里雅河、中部毛不拉格孔兑以及东部西拉木伦河,利用遥感影像解译获取河道与沙丘信息,探讨近源沙丘的分布与河型之间的组合关系。结果表明：河型、河流流向与风向之间的关系、水文以及距离河道的远近影响河道与沙丘组合的地貌格局;在河道-沙丘尺度上,划分为弯曲河道-对称式边滩沙丘、顺直河道-边滩沙丘、分汊河道-心滩式沙丘、网状河道-格状镶嵌式沙丘4种类型。     

小冰期福建海岸沙丘的沉积环境

选取福建东南沿海典型海岸沙丘——东海沙丘,运用GPR（Ground Penetrating Radar）技术探测海岸沙丘内部构造,辅助天然剖面和人工探槽观测,进行系统的年代采样与OSL（Optically Stimulated Luminescence）测年,并选择物理意义明确的粒度参数作为主要环境代用指标,获得了亚热带季风区砂质海岸带典型海岸沙丘的沉积年代和沉积结构。结果表明：（1）东海沙丘是由若干灌丛沙丘组成的横向沙丘,0～6 m主要是～0.45 ka BP以来形成的海岸风成沙丘,可以划分为～0.45 ka BP和0.22～0.12 ka BP两个阶段。（2）东海沙丘沉积过程是多因素共同作用的结果,冷干的气候环境是沙丘发育的适宜条件,入境台风频率增加可能加快了风沙的沉积过程。对比历史文献资料发现,气候异常期往往与社会动荡期、重要历史事件相对应。     

探地雷达在福建漳浦海岸抛物线沙丘沉积构造探测中的应用

本文进行了探地雷达在福建漳浦六鳌半岛海岸抛物线沙丘沉积构造探测中的初步应用。结果表明:(1)被探测海岸沙丘的粒度、含水量等理化性质,不同的天线频率,室内数字滤波、增益调适等图像处理环节,均会对探地雷达的探测结果产生影响。(2)本次探测结果以及人工砂坑剖面表明探地雷达是探测海岸沙丘沉积构造的良好手段。(3)通过判读探地雷达图像显示的沉积构造序列组合特点,并根据最近数十年研究区海岸环境演变初步调查结果,认为所探测海岸抛物线沙丘的发育过程,经历了早期海滩脊出露海面、继而发育植被和抛物线沙丘两个阶段。     

Understanding river dune splitting through flume experiments and analysis of a dune evolution model

Forecasts of water level during river floods require accurate predictions of the evolution of river dune dimensions, because the hydraulic roughness of the main channel is largely determined by the bed morphology. River dune dimensions are controlled by processes like merging and splitting of dunes. Particularly the process of dune splitting is still poorly understood and – as a result – not yet included in operational dune evolution models. In the current paper, the process of dune splitting is investigated by carrying out laboratory experiments and by means of a sensitivity analysis using a numerical dune evolution model. In the numerical model, we introduced superimposed TRIAS ripples (i.e. triangular asymmetric stoss side‐ripples) on the stoss sides of underlying dunes as soon as these stoss sides exceed a certain critical length. Simulations with the model including dune splitting showed that predictions of equilibrium dune characteristics were significantly improved compared to the model without dune splitting. As dune splitting is implemented in a parameterized way, the computational cost remains low which means that dune evolution can be calculated on the timescale of a flood wave. Subsequently, we used this model to study the mechanism of dune splitting. Literature showed that the initiation of a strong flow separation zone behind a superimposed bedform is one of the main mechanisms behind dune splitting. The flume experiments indicated that besides its height also the lee side slope of the superimposed bedform is an important factor to determine the strength of the flow separation zone and therefore is an important aspect in dune splitting. The sensitivity analysis of the dune evolution model showed that a minimum stoss side length was required to develop a strong flow separation zone. Copyright © 2014 John Wiley & Sons, Ltd.     

Response of bedload transport, submarine topography, and dune internal structures to typhoon processes off Dongfang coast in the Beibu Gulf

Bedload sediment transport was estimated by the SEDTRANS96 model based on three-day hydrodynamics data obtained off the Dongfang coast in the Beibu Gulf during Typhoon Ketsana in September 2009. Bedforms on the sea floor off the Dongfang coast and internal structures of a typical dune were interpreted to evaluate storm influences on individual dunes and the dune field. Results indicated that flow forcings and related bedload transport were both strengthened significantly due to Typhoon Ketsana. The measurements and modeling results, which mainly included three different stages, presented noticeable phasic variation. The three stages were dominated by tidal current (Period Ⅰ), tidal current combined with wind-induced waves (Period Ⅱ), and swells combined with tidal current and seaward flows (Period Ⅲ). This phasic variation could be a common trait of hydrodynamics due to typhoons moving westwardly to the south of Hainan Island and Beibu Gulf in South China Sea. Results indicated that the maximum bedload transport rate for every burst in Period Ⅲ was almost 100 times larger than that in Period I and was ten times larger than that in Period II. However, the short-term increase in bedload transport induced by storms like Ketsana did not change the long-term evolution of dune morphology. Evidence was given by the internal structures of a typical dune, which revealed renewed modification under subsequent moderate conditions after storm erosion. Instead, storms may influence at different scales and regional allocation of sand dunes in some large areas because changes of the sea floor in large scales can hardly be recovered. More surveys during and after storm passage are also needed to document the level of positive contribution to forward migration.     

塔克拉玛干沙漠沙垄区公路防护带内风场特征研究

塔克拉玛干沙漠公路是世界上穿越流沙区最长的公路,公路两侧防沙治沙工程体系是公路正常运行的关键因素。以塔克拉玛干沙漠沙垄区的公路防护林带为研究对象,结合野外地形测量、防护工程调查以及风沙数据观测,分析沙垄不同地貌部位防护林带内气流特征,揭示防护林带内风场变化规律,探讨不同地貌部位防护林带的防护效果。主要结论是:①垂直于公路的防护林带断面风场存在3个区(防护林带前部风速迅速降低区、防护林带中部风速低值区、防护林带工程后部风速恢复区),气流穿过公路路面时风速呈增大趋势,利于公路防护;②现有防护林带具有较好的防护效果,相对于防护林带上风向流沙区的风速,防护林带中部风速降低幅度在80%以上,多数断面在林带前缘10H后（H为植株平均高度）风速降低至最小;③沙垄不同地貌部位的工程防护效益存在显著差异,迎风坡底部防护效果最好,迎风坡中部防护最差。其研究结果可为塔克拉玛干沙漠公路防沙治沙工程体系优化提供科学依据。     

土壤水分对流动沙丘迎风坡与丘间低地过渡带植被入侵的制约

在半干旱沙区植物天然更新过程中,种子萌发、幼苗出土是植物种群维持和实现更新的关键阶段。通常认为,在这一阶段,土壤水分和土壤种子库是主要制约因素。分别对流动沙丘迎风坡与丘间低地过渡带的出土幼苗密度与土壤种子库密度和土壤水分进行二元相关分析。结果表明,生长季的出土幼苗密度与土壤种子库密度的相关性未达到显著水平（P>0.05）;出土幼苗密度与土壤水分呈显著正相关（P<0.05）,而且,幼苗密度随土壤水分呈对数增加。这说明,在植被入侵流动沙丘迎风坡与丘间低地过渡带裸沙的过程中,土壤水分是主要的制约因素,而土壤种子库的制约作用则没有表现出来,植被自然恢复更多地依赖于从沙丘附近植物群落传播来的种子。     

新疆喀拉库姆沙漠新月形沙丘不同部位粒度特征

对新疆叶尔羌河流域绿洲边缘喀拉库姆沙漠高度在3～12 m的新月形沙丘进行了粒度分析。结果表明:表层和下层沉积物均以细砂和极细砂为主,二者含量达82%以上。表层沉积物较下层稍粗,平均粒径分别为2.09 Φ和2.16 Φ。下层沉积物较表层分选性好,σ均值分别为0.48和0.62。表层和下层沉积物偏度均为正偏,SK均值分别为0.21和0.24。峰态均为尖窄,Kg均值分别为1.18和1.11。表层和下层沉积物平均粒径均表现为丘顶最粗,背风坡坡脚最细,由两侧坡脚至丘顶平均粒径变粗,平均粒径与其他粒度特征参数之间均存在良好的相关性。分析表明,喀拉库姆沙漠沙丘沉积物粒度特征除受物源这一背景制约外,还与区域构造、沙漠地貌、植被、气候和较为复杂的风沙动力学过程等众多因素有关。     

基于MATLAB平台的遥感影像沙丘脊线提取与地貌格局表征参数计算

随着现代科学技术的发展,遥感影像为区域风沙地貌形态的研究提供了可靠的资料。近年来,有地貌学者提出了沙丘地貌格局分析法,通过在遥感影像上绘制沙丘脊线,量测和计算得到沙丘地貌格局表征参数,分析沙丘概率分布和空间变化规律、影响因素及形成时间。本文选取腾格里沙漠典型横向沙丘区域为研究对象,发展基于MATLAB平台的遥感影像沙丘脊线提取方法,利用沙丘迎风坡与落沙坡在遥感影像中成像的灰度差异, 对沙丘的沙脊线进行提取, 继而获得沙丘脊线长度、沙丘间距、走向、缺陷密度等沙丘地貌格局表征参数。结果表明,该方法快捷、可靠,为沙丘脊线的绘制提供了一种新方法。     

Cold events of Holocene indicated by primary elements distribution of the high-resolution sand dunes in the Salawusu River Valley

The components of the primary elements in the dune sands for the MGS1 subsec-tion of the Milanggouwan section in the Salawusu River valley, compared with those of mod-ern dune sands, show that they were caused by East Asian winter monsoon in the Mu Us desert during Holocene. The examined ages for the 11 layers of dune sands, based on the average sedimentary rate, are: 0 to 960, 1350–2240, 2470 to 3530, 4000 to 4180, 4290 to 4350, 4380 to 4760, 5040 to 5920, 6570 to 8270, 9020 to 9700, 9880 to 10160 and 10580 to 11080 a BP, respectively. The climatic events indicated by these dune sands are consistent with those records in the Huguangyan volcanic lake, Zoige peat bog, Hulu cave and Dunde ice core, particularly with the climatic fluctuations of the North Atlantic since 11 000 a BP. Among them, patterns from B0 to B8 correspond to the peak values of 0MD, 2D, 4D, 6D+8D+10D, 12D, 14D, 16D, 18D and 20D respectively. It might be caused by the North Atlantic ice age induced by the heat circulation, which strengthened the polar high pressure and Siberian-Mongolian high pressure and further led to the dominance of the winter mon-soon over China’s desert area.