黄河流域产业绿色化与生态环境绿色化耦合协调度时空演变

以黄河流域35个城市为研究对象,分别构建产业绿色化与生态环境绿色化指标体系,基于熵值法测度两系统综合指数,并通过耦合协调度模型和空间自相关法对2009—2018年两系统耦合协调度的时空特征及空间集聚性进行分析。结果表明：（1）黄河流域产业绿色化与生态环境绿色化综合指数总体呈上升趋势且具有趋同性,上游地区生态环境绿色化水平高于产业绿色化水平,中下游地区相反;（2）时空维度上,黄河流域产业绿色化与生态环境绿色化的耦合协调度总体呈上升趋势,上中下游地区呈现“凹”字型发展特征且稳定程度不同;（3）空间集聚上,黄河流域产业绿色化与生态环境绿色化耦合协调度呈显著正相关性,存在明显聚集性,高-高聚集主要集中于上游地区,低-低聚集由中游地区向中下游地区扩展。     

土壤有机碳同位素样品制备过程的影响因素讨论

土壤有机碳同位素地球化学在气候和植被恢复方面的研究已得到广泛应用,但目前对不同类型、不同时代的土壤总有机碳同位素样品制备过程的系统研究较少.本文选取黄土高原不同地区、不同类型的现代土壤和古土壤,对其有机碳同位素样品制备过程进行了较系统的研究.( 1)去除土壤中无机碳酸盐对有机碳同位素组成的干扰:对于现代土壤样品,在室温条件下,用 0.5～ 6 mol/L HCl反应 1 d去除碳酸盐,均可获得理想数据;在 70 ℃反应条件下,用 0.5～ 2 mol/L HCl反应 2 h去除碳酸盐可获得理想数据,但用 6 mol/L HCl,δ 13C值偏负 0.65‰;( 2)在 850 ℃氧化温度条件下,样品制备加铜丝,对现代土壤及古土壤样品的δ 13C值均没有影响,结果表明在用封管法进行现代土壤及古土壤的有机碳同位素样品制备时,可以不加铜丝;( 3)对于有机碳含量较高的有机碳标准物质、植物和现代土壤样品,在 850 ℃氧化条件下,恒温 2.5 h,足以保证样品有机质氧化完全,不会产生同位素分馏;对于深层黄土和红粘土样品,由于样品体系复杂,在上述氧化条件下难以获得理想数据,合适的氧化条件有待进一步深入研究.     

Development mechanism for the landslide at Xinlu Village,Chongqing, China

Due to the continuous and intense rainfall from June 26 to 28, 2016, Xinlu Village in Ganshui Town, Qijiang District, Chongqing, experienced a unitary-slip landslide at approximately UTC+8 19:30 on June 28. This landslide disrupted the Chuan-Qian railway and damaged four residential buildings. To analyze and rehabilitate the landslide, the engineering geology, hydrological conditions, and deformation instability mechanism of this landslide were investigated and comprehensively analyzed based on an in situ survey, geophysical drilling, and a laboratory quick-shearing test. The results show that the landslide is a typical gradual progressive landslide.     

Study on Monitoring Technology of Surrounding Rock in Deep Layered Roadway Based on Constant Resistance and Large Deformation Bolt

Geotechnical and Geological Engineering - The stability monitoring of surrounding rock in layered roadway is an important method to ensure the safety of deep mining coal mine. In view of the actual...     

Field test research on post-grouting effect for super-long cast-in-place bored pile in thick soft foundation

Geotechnical and Geological Engineering - The field static load test method was adopted for two test piles in a project in Zhejiang area of China, analyze the effect of post-grouting technique on...     

塔里木盆地乌什地区上震旦统奇格布拉克组地球化学特征及其地质意义*

塔里木盆地寒武系盐下地层资源量巨大,上震旦统奇格布拉克组是该领域风险勘探的重要层系之一,但当前该层系勘探尚未取得重大突破,其中岩相古地理格局及储集层主控因素认识不深是制约勘探突破的重要因素之一。文中以乌什地区昆盖阔坦剖面为研究对象,通过地层精细描述和104块岩石薄片分析,并优选样品开展常微量元素、稀土元素、碳氧锶同位素、白云石有序度及U-Pb同位素年龄测试,分析了奇格布拉克组沉积环境及白云岩成因。结果表明: (1)塔里木盆地乌什地区昆盖阔坦剖面奇格布拉克组厚约141 m,主要发育叠层石、凝块石、泡沫绵层石3种微生物白云岩和鲕粒、粘结颗粒2种与微生物作用相关的颗粒岩,并根据相序组合可以划分为4个段,自下而上构成碳酸盐缓坡背景下的内缓坡潮坪—微生物丘滩沉积序列;(2)地球化学分析表明,奇格布拉克组沉积时期研究区整体处于温暖、干旱气候条件下的近岸浅水环境,海水具有较高盐度、较高水温和氧化—弱氧化特征,海平面先逐渐上升后快速下降;(3)奇格布拉克组白云岩形成于准同生—浅埋藏期,白云石化流体为具有较高盐度的海水。该研究成果不仅可以为塔里木盆地晚震旦世岩相古地理研究提供依据,还可以为储集层主控因素分析提供依据。     

Spatial and temporal analyses of air pollutants and meteorological driving forces in Beijing–Tianjin–Hebei region,China

Due to its negative impact on the living environment of human beings, ambient air pollution has become a global challenge to human health. In this study, surface observations of six criteria air pollutants, including PM_2.5, PM₁₀, SO₂, NO₂, CO and O₃, were collected to investigate the spatial and temporal variation in the Beijing–Tianjin–Hebei (BTH) region during 2013–2016 and to explore the relationships between atmospheric pollutants and meteorological variables using quantile regression model (QRM) and multiple linear regression model (MLRM). The results show that BTH region has experienced significant air pollution, and the southern part generally has more severe conditions. The annual average indicates clear decreasing trends of the particulate matters, SO₂ and CO concentrations over the last 4 years and slight increasing trends of NO₂ and O₃ in several cities. The seasonal and monthly characteristics indicate that the concentrations of five species reach their maxima in the winter and their minima in the summer, whereas O₃ has the opposite behaviour. Finally, the pseudo R² values show that the QRMs have the best performance in the winter, followed by spring, fall, and summer. Specifically, all the meteorological factors have significant impacts on air pollution but change with pollutants and seasons. The MLRM results are generally consistent with the QRM results in all seasons, and the inconsistencies are more common in the fall and winter. The results of this research provide foundational knowledge for predicting the response of air quality to climate change in the BTH region.     

Probabilistic calibration of a coupled hydro-mechanical slope stability model with integration of multiple observations

Multiple types of responses, such as displacements, ground water level, pore water pressures, water contents, etc., are usually measured in comprehensive monitoring programmes for rainfall-induced landslide prevention. In this study, a probabilistic calibration method for coupled hydro-mechanical modelling of slope stability is presented with integration of multiple types of measurements. A numerical example of a soil slope under rainfall infiltration is illustrated to compare the effects of single and multiple types of responses on parameter estimation and model calibration. The results show that the soil parameters can be estimated with less uncertainty and total uncertainty bounds are narrower with multiple types of responses than with a single type of response. Model calibration based on multiple types of responses can compromise different responses and hence the means and standard deviations of model error are the smallest. A feasible correlation coefficient between soil modulus and permeability can be obtained from model calibration with multiple types of responses and single type of response as long as the responses include displacement data.     

Soil wettability in ground engineering: fundamentals,methods, and applications

Wettability is a fundamental property controlling the extent of wetting in flat and granular solids. In natural soils, wettability affects a wide variety of processes including infiltration, preferential flow and surface runoff. In mineral processing, wettability is paramount in enhancing the efficiency of separation of minerals from gangue. The manipulation of surface wettability is equally crucial in many industrial applications. For instance, superhydrophobic surfaces are those on which water drops roll off easily and as such are used for self-cleaning applications. Therefore, while wettability is strongly cross-disciplinary, its evolution has been discipline-specific with a direct extrapolation or transfer of concepts, approaches, and methods to ground engineering unlikely to remain valid. This paper synthesizes relevant aspects from surface chemistry, materials science, mining engineering, and soil science, and discusses their implications within the context of new granular materials that resist wetting, for use in barriers or ground improvement and, in unsaturated soils, where the effects of wettability have been documented.     

Vertical vibration of a rigid strip footing on viscoelastic half-space

This paper presents an analytical method for modeling the dynamic response of a rigid strip footing subjected to vertical-only loads. The footing is assumed to rest on the surface of a viscoelastic half-space; therefore, effects of hysteretic soil damping on the impedance of the foundation and the generated ground vibrations are considered in the solution. To solve the mixed boundary value problem, we use the Fourier transform to cast a pair of dual integral equations providing contact stresses, which are solved by means of Jacobi orthogonal polynomials. The resulting soil and footing displacements and stresses are obtained by means of the Fourier inverse transform. The solution provides more realistic estimates of footing impedance, compared to existing solutions for elastic soil, as well as of the attenuation of ground vibrations with distance of the footing. The latter is important for the estimation of machine vibration effects on nearby structures and installations.