马莲河流域化学风化的季节变化和影响因素

为查明黄土高原马莲河流域不同季节河水化学的变化特征、来源及主要控制因子,2016年1~12月在流域下游雨落坪水文站采集时间序列水样40组,分析了主要离子组成并计算了化学风化速率.结果表明,河水总溶解固体(TDS)均值1 154.0 mg·L~(-1),远高于长江、黄河和珠江.阳离子以Na+为主,均值202.8 mg·L~(-1),其次为Ca~(2+)和Mg~(2+),阴离子以SO_4~(2-)为主,均值431.2 mg·L~(-1).主要离子质量浓度的季节变化明显,总体规律是雨季前降低,雨季后增高,在融冰期和暴雨期分别突增和骤降.离子来源主要为岩石化学风化,蒸发岩、硅酸盐和碳酸盐贡献比例均值分别为67.1%、13.7%和19.2%.矿物含量和风化速率的不同决定了各风化作用对气候变化的差异响应:蒸发岩因其高风化速率对季风气候响应积极,雨季风化作用增强;雨季前期河水流量低,较长的水岩作用时间有利于硅酸盐风化进行;碳酸盐风化作用在雨季晚期和后期明显增强,可能因其在黄土中含量较高,雨季后降雨吸收了更多的土壤CO_2形成H2CO3增进了碳酸盐的溶解.蒸发岩、碳酸盐风化速率和流量显著正相关,流量是控制流域化学风化的主要因素.     

Performance of Pultruded Jute Fibre Reinforced Phenolic Composites as Building Materials for Door Frame

The pultruded jute/phenolic composites were aged under various humidity, hydrothermal and weathering conditions. Aging-induced effect of these conditions on the jute profiles was studied in terms of their physico-mechanical properties. It is observed that dimensional change of the profiles was only upto 4% even in an accelerated water aging condition. The effect of absorbed moisture/water on the jute profile was more pronounced in an accelerated water aging than the samples are being exposed to high humidity and alternate wetting and drying cycles. The changes in the values of internal bond strength of the profiles could be used as an indicator because of its sensitivity towards aging. Accentuation of fibres on the weathered samples along with severe resin erosion has suggested to layer the surface of the profiles with rich resin prior to use in the outdoor. The properties of jute profile door frame were satisfactory when compared with the requirements mentioned in IS: 4021–83 – Indian standard specification for timber door, window and ventilator frames. Performance of the installed door frame has shown no sign of dimensional instability in terms of warping and bulging after 3 years. It is suggested that jute door frames could be used as an alternative to the wooden door frames in buildings.     

Determination of the Burning Characteristics of a Slick of Oil on Water

The burning rate of a slick of oil on a water bed is characterized by three distinct processes, ignition, flame spread and burning rate. Although all three processes are important, ignition and burning rate are critical. The former, because it defines the potential to burn and the latter because of the inherent possibility of boilover. Burning rate is calculated by a simple expression derived from a one-dimensional heat conduction equation. Heat feedback from the flame to the surface is assumed to be a constant fraction of the total energy released by the combustion reaction. The constant fraction (χ) is named the burning efficiency and represents an important tool in assessing the potential of in situ burning as a counter-measure to an oil spill. By matching the characteristic thermal penetration length scale for the fuel/water system and an equivalent single layer system, a combined thermal diffusivity can be calculated and used to obtain an analytical solution for the burning rate. Theoretical expressions were correlated with crude oil and heating oil, for a number of pool diameters and initial fuel layer thickness. Experiments were also conducted with emulsified and weathered crude oil. The simple analytical expression describes well the effects of pool diameter and initial fuel layer thickness permitting a better observation of the effects of weathering, emulsification and net heat feedback to the fuel surface. Experiments showed that only a small fraction of the heat released by the flame is retained by the fuel layer and water bed (of the order of 1%). Ignition has been studied to provide a tool that will serve to assess a fuels ease to ignite under conditions that are representative of oil spills. Two different techniques are used, piloted ignition when the fuel is exposed to a radiant heat flux and flash point as measured by the ASTM D56 Tag Closed Cup Test. Two different crude oils were used for these experiments, ANS and Cook Inlet. Crude oils were tested in their natural state and at different levels of weathering, showing that piloted ignition and flash point are strong functions of weathering level.     

Historical Weathering Based on Chemical Analyses of Two Spodosols in Southern Sweden

Chemical weathering losses were calculated for two conifer stands in relation to ongoing studies on liming effects and ash amendments on chemical status, soil solution chemistry and soil genesis. Weathering losses were based on elemental depletion trends in soil profiles since deglaciation and exposure to the weathering environment. Gradients in total geochemical composition were assumed to reflect alteration over time. Study sites were Horröd and Hasslöv in southern Sweden. Both Horröd and Hasslöv sites are located on sandy loamy Weichselian till at an altitude of 85 and 190 m a.s.l., respectively. Aliquots from volume determined samples from a number of soil levels were fused with lithium metaborate, dissolved in HNO₃, and analysed by ICP – AES. Results indicated highest cumulative weathering losses at Hasslöv. The weathering losses for the elements are in the following order:Si > Al > K > Na > Ca > MgTotal annual losses for Ca+Mg+K+Na, expressed in mmol_c m^-2 yr^-1, amounted to c. 28 and 58 at Horröd and Hasslöv, respectively. Variations between study sites could not be explained by differences in bulk density, geochemistry or mineralogy. The accumulated weathering losses since deglaciation were larger in the uppermost 15 cm than in deeper B horizons for most elements studied.     

花岗岩风化壳的不均一性与海岸带的可蚀性研究——以南海北大陆海岸带为例

海岸带岩土动力学特征的差异是影响海岸侵蚀过程与方向的重要因素之一。南海北大陆海岸带主要由花岗岩风化边坡组成。通过对该海岸带的北东翼及西南翼典型花岗岩风化壳剖面的黏土矿物及风化指标研究发现,两者存在不均一性：横向上,北东翼黏土矿物主要以高岭石、伊利石为主;西南翼黏土矿物主要以高岭石、伊利石和绿泥石为主,两翼均未见较明显的蒙脱石。相同层位比较,西南翼黏土矿物总量高于北东翼。垂向上,自地表到深部,北东翼黏土矿物组合及总量无明显的分层性,而西南翼则呈明显的分层性且地表含量明显高于深部。海岸带的风化作用也存在明显的不均一性：表现为横向上,北东翼海岸带风化程度要稍弱于西南翼;垂向上,北东翼化学风化指标n（Al2O3）/n（SiO2）,n（Fe2O3＋Al2O3）/n（SiO2）,n（TiO2）/n（Al2O3）、CIA在风化壳中呈无规律变化,而西南翼则呈明显的分层性,这种分层基本与表土层、红土层及砂土层成一定的对应关系。从化学可蚀性指标来看,由南海北大陆海岸带花岗岩风化壳演化而成的土壤均为强抗蚀性,但相同层位比较,北东翼可蚀性要稍弱于西南翼剖面。研究认为,组成南海北大陆海岸带的花岗岩风化壳之黏土矿物与风化作用的不均一性可很大程度影响海岸带的可蚀性。     

2010年2月27日智利地震地球球型自由振荡研究

利用中国数字地震台网（CDSN）5个台站的波形资料,采用功率谱密度估计方法,提取了智利地震激发的地球球型自由振荡,并与地球初步参考模型（PREM）的理论自由振荡周期进行对比,发现球型振荡振型周期与地球初步参考模型预测的球型自由振荡周期基本吻合。所得结果可以进一步用来研究地震震源机制和地球内部结构,并对大地震的震源破裂分布给出一定的约束。     

环境污染加剧石质文物风化:机理、过程及防护措施

石质文物的风化问题由来已久,在影响石质文物风化的各类因素中,环境恶化对石质文物的风化影响日益严重,但现有研究大多忽略了环境污染加剧的影响。在此背景下,本文从酸性气体排放、温度效应和水体污染三个方面阐述了环境污染加剧对石质文物风化的影响和作用机理,并对现有石质文物的防护措施进行综合比较分析,提出石质文物的保护建议和措施,为新形势下石质文物的保护研究提供新的思路。     

柳江流域柳州断面水化学特征及无机碳汇通量分析

用河流水化学的离子组成特征来揭示流域化学风化过程及其碳汇效应成为了当前全球变化研究的一个重要方面.对2013年1月至12月柳州段河水每月2~3次采样分析,结果表明,水化学类型为舒卡列夫分类法中的HCO3-Ca型,离子组成以Ca2+和HCO-3为主,这主要体现了流域内碳酸盐岩溶解对河水水化学特征的控制作用.河水的主要离子质量浓度表现出明显的季节变化特征,总体上冬季最高,秋季和春季次之,夏季最低.其中Ca2+和HCO-3离子质量浓度受稀释效应和CO2效应的共同作用,表现为夏季最低,秋季最高;其它离子的质量浓度变化受稀释效应、农业活动或两者的共同作用的影响.对河水的化学计量分析表明碳酸和硫酸共同参与了流域碳酸盐的风化,并且δ34S的值为7.65‰~8.55‰,通过分析SO2-4可能主要来自矿床硫化物的氧化和大气酸沉降.为了准确估算岩溶碳通量,运用化学质量平衡法,估算出[HCO-3硫酸]/[HCO-3]=28.26%,在扣除硫酸作用产生的无机碳(HCO-3)的基础上,运用水化学-径流法估算出柳江柳州断面无机碳通量(以CO2计)为8.95×105t·a-1.并且通过分析碳通量与流量和HCO-3之间的关系,表明河流流量是影响岩溶碳通量的主控因素.     

基于生物标志物法的珠江流域有机碳溯源及DIC施肥效应研究

内源有机碳由地表水体水生光合固定DIC产生,是岩石风化碳汇的重要组成部分。为准确区分河陆地流水体中的内源有机碳及计算其所占比例,本文选取珠江流域作为研究区,通过不同季节的野外采样调查,利用类脂生物标志物法,结合传统水化学特征,揭示河流中有机碳的来源差异;最终根据有机碳的时空分布规律与水-岩-土-气-生相互作用分析,明确流域岩性及气候变化对碳汇的影响。结果表明:(1)珠江流域水体中冬季和夏季内源有机碳占总有机碳比例的平均值分别为65%和54%,表明水生植物光合作用导致的初级生产力的重要性;(2)内源有机碳比例和水生藻类生物量与DIC浓度和呈现出显著的正相关关系,表明DIC对水生植物光合作用具有施肥效应;(3)雨季因降雨稀释DIC浓度和冲刷外源有机质,对水生植物的施肥效应减弱,生成的内源有机质减少,且携带的外源有机质增加,导致内源比例减少;(4)高悬浮质(TSS)可以遮挡水体表层太阳光,减弱水生光合作用强度,降低内源有机碳的形成;但在TSS浓度比较低的情况下,其对水生植物生长繁殖的影响则体现在为其提供空间和营养物,从而增加水生藻类生物量及内源有机碳比例。