一种具有巨大经济价值的海洋矿产资源--砂石土

砂石土指第四纪堆积的泥、土、砂，为一种极为重要的资源。我国具有丰富的海洋砂石土资源。以广东海域为例，通过资料的综合分析，探讨了海岸砂石土资源的重要作用，并提出其开采应注意的问题。     

MT法中利用阻抗相位资料对畸变视电阻率曲线的校正

从理论上论证了在一定条件下大地电磁响应中的相位资料将不受随机电磁噪声的影响，介绍了由相位资料递推计算视电阻率的方法，通过与远参考资料的比较，证明利用阻抗相位资料可分段恢复校正畸变的实测视电阻率数据。     

密度计应用的一种新途径

通过理论计算以及实验分析证明，对颜色样品的密度测量可以转换为对其颜色外貌的计量，其计量结果与实际测量结果基本吻合，达到实用要求．     

民俗中的婴儿体貌美及其文化意蕴

中国民俗中对婴儿体貌的审美是以婴儿的生理特征为基础,认为身体白胖、脸庞丰满、额部高宽、头部圆大是形成婴儿体貌美的因素。这种婴儿的体貌美是一种趋向变形、夸张的美,是融合优美和滑稽美的审美形态。也是一种象征意义的美,具有深厚的中国民俗文化意蕴。反映了中国人特有的追求平安、健康的在世理想,以及特殊的求福、祈福文化和审美心理。     

含砾石土壤降雨入渗过程模拟

在室内模拟降雨试验的基础上,利用多重相互作用连续体(MINC)组件,对含砾石土壤降雨入渗过程进行了数值模拟,以期深入理解含砾石土壤中的水土过程.研究结果表明,土壤中砾石的存在能够导致土壤水分饱和度增加,使得土壤总入渗量以及降雨入渗深度降低.含砾石土壤中存在一个陡的湿润锋面,在湿润锋面上土壤水分饱和度急剧下降.MINC组件可以很好地模拟含砾石土壤降雨入渗过程,其对含砾石土壤湿润锋和土壤含水率变化的模拟值与实测值吻合较好.降雨期间土壤水分饱和度沿土壤剖面的变化可用来解释含砾石土壤降雨入渗深度降低的原因.     

和田玉子料"肉"与"皮"的关系初探

通过对大量和田玉子料的表皮及玉肉的观察与分析以及子料薄片的镜下观察与红外光谱分析,对和田玉子料"肉"与"皮"的关系进行了探讨.子料有以下几种表皮特征:皮色、"汗毛孔"、"砂眼"、裂纹、礓等,玉石内部的特征有礓、杂质、铁花等."皮"与"肉"之间存在一定的对应关系,如:"汗毛孔"的大小会反映玉质的粗细;"砂眼"说明内部有不稳定矿物,如黄铁矿出现处会在表皮形成凹坑;礓出现则往往内外相通,礓的分布特征与玉料品质相关,如星点分布,则严重影响玉石的均匀性.和田玉中的主要组成矿物透闪石也可能表现为礓,其在结构上与其周边玉石迥然不同,不同矿物种类,如透辉石、方解石亦可形成礓.裂纹出现并不都是缺陷,有时会形成沿裂隙分布的鲜艳皮色.以上这些对应关系对于和田玉子料的鉴定、评价以及设计加工都有理论或实践意义.当然目前这些还不能表征和田玉"肉"与"皮"的特征以及对应关系的全部,其中对应关系的原因也有待于深入探讨.     

APPEARANCE PATTERN OF TOOTH GERMS WITH DEVELOPMENTAL PROCESS IN MYLOPHARYNGODON PICEUS

The pharyngeal dental formula of Mylopharyngodon piceus is 4-5 as a rule, and the dentition isasymmetrical. It is difficult to identify each tooth in the larval dentition. In this paper the appearancepattem of tooth germ with developmental process in this fish is described in detail. The formationpattern of the left dentition is contrasted with that of the right one. In the developmental process,the left pharyngeal dentition lacks teeth at position An3. Thus the left dentition is D-type as designatedby Nakajima(1984), while the right one is A-type.     

逆风区的回波演变与强对流天气的结构分析

为研究逆风区回波结构的演变与中尺度强对流天气发生发展的关系,分析了2005年4月30日和6月22日在江西省境内有逆风区现象的强对流天气的多普勒雷达回波特征,对逆风区的回波强度与速度的演变进行对比分析后认为：逆风区不仅是暴雨判据,也是强对流天气的判据。逆风区的伸展高度一般较高,有逆风区的存在基本上都伴有剧烈的天气过程,只要逆风区的结构一直存在,强回波的反射率因子就不会减弱。本文提出了一种逆风区的三维结构模型,逆风区回波反映了强对流的生消结构,逆风区实为前方辐合上升、后方下沉的涡管结构,它是认识强对流天气系统三维结构的重要信息。     

上海城市天际线与高层建筑发展之关系分析

以上海市2000年中心城区航空影像为基础,基于GIS技术分析城市高层建筑与天际线的分布特点及其影响机制。认为城市天际线与高层建筑相互制约,高层建筑的发展与布局必须考虑城市天际线的特色。     

Impact of subsurface rock fragments on runoff and interrill soil loss from cultivated soils

Field and laboratory studies have indicated that rock fragments in the topsoil may have a large impact on soil properties, soil quality, hydraulic, hydrological and erosion processes. In most studies, the rock fragments investigated still remain visible at the soil surface and only properties of these visible rock fragments are used for predicting runoff and soil loss. However, there are indications that rock fragments completely incorporated in the topsoil could also significantly influence the percolation and water distribution in stony soils and therefore, also infiltration, runoff and soil loss rates. Therefore, in this study interrill laboratory experiments with simulated rainfall for 60 min were conducted to assess the influence of subsurface rock fragments incorporated in a disturbed silt loam soil at different depths below the soil surface (i.e. 0.001, 0.01, 0.05 and 0.10 m), on infiltration, surface runoff and interrill erosion processes for small and large rock fragment sizes (i.e. mean diameter 0.04 and 0.20 m, respectively). Although only small differences in infiltration rate and runoff volume are observed between the soil without rock fragments (control) and the one with subsurface rock fragments, considerable differences in total interrill soil loss are observed between the control treatment and both contrasting rock fragments sizes. This is explained by a rapid increase in soil moisture in the areas above the rock fragments and therefore a decrease in topsoil cohesion compared with the control soil profile. The observed differences in runoff volume and interrill soil loss between the control plots and those with subsurface rock fragments is largest after a cumulative rainfall (P_cum) of 11 mm and progressively decreases with increasing P_cum. The results highlight the impacts and complexity of subsurface rock fragments on the production of runoff volume and soil loss and requires their inclusion in process‐based runoff and erosion models. Copyright © 2011 John Wiley & Sons, Ltd.