2D地震数据规则化中随机稀疏采样方案

地震数据规则化是地震信号处理中一个重要步骤,近年来受到广泛关注的压缩感知技术已经被应用到地震数据规则化中。压缩感知技术突破了传统的Shannon-Nyqiust采样定理的限制,可以用采集的少量地震数据重构完整数据。基于压缩感知技术的地震数据规则化质量主要受三个因素影响,除了受地震信号在不同变换域的稀疏表达和11范数重构算法的影响外,极大地取决于地震道随机稀疏采样方式。尽管已有学者开展了2D地震数据离散均匀分布随机采样方式研究,但设计新的稀疏采样方案仍然很有必要。在本文中,我们提出满足Bernoulli分布规律的Bernoulli随机稀疏采样方式和它的抖动形式。对2D数值模拟数据进行四种随机稀疏采样方案和两种变换（Fourier变换和Curvelet变换）实验,对获取的不完整数据应用11范数谱投影梯度算法（SPGL1）进行重构。考虑到不同随机种子点产生不同约束矩阵R会有不同的规则化质量,对每种方案和每个稀疏采样因子进行10次规则化实验,并计算出相应信噪比（SNR）的平均值和标准偏差。实验结果表明,我们提出的新方案好于或等于已有的离散均匀分布采样方案。     

三维地形场景并行渲染技术进展

对三维地形场景并行渲染过程涉及的地形数据分页及分块和基于缓存的并行数据调度机制进行了归纳,总结了三维地形场景并行渲染相关算法及基于分布式和微机多线程的实现方式,并对目前并行渲染所存在的问题和发展趋势进行了分析。     

利用贺兰山北部树轮资料重建过去270年以来6～8月平均干燥指数

采用油松树轮晚材宽度,重建了贺兰山北部地区过去270年以来夏季(6～8月)干燥指数,重建序列的方差解释量(R2)为52%。并发现干燥指数大于均值的年份有1745～1756年、1847～1864年、1925～1933年,小于均值的年份有1731～1744年、1775～1788年、1798～1808年、1865～1877年、1973～1992年;11年滑动平均后发现18世纪50年代前后、19世纪50～60年代、20世纪20年代后期以及30年代初为较干旱时期,干旱时期干燥度变率较小,而湿润时段干燥度变率较大,反映了贺兰山地区气候变化的一个特点,即干旱年会连续出现;周期分析表明,干燥度指数存在22年的准周期。     

义敦岛弧带晚白垩世海子山二长花岗岩成因及其地质意义

义敦岛弧是三江特提斯复合造山带的重要组成部分。文章对义敦岛弧海子山花岗岩体进行锆石U-Pb年代学、全岩地 球化学及Sr-Nd-Pb同位素地球化学进行分析,探讨其成因与构造意义。海子山花岗岩锆石U-Pb年龄为93.7±1.1 Ma（MSWD= 2.1, 2σ）,为晚白垩世早期岩浆活动产物,岩石具高硅、富碱的特征,铝饱和指数A/CNK=1.04~1.12,属于弱过铝质岩石。 稀土配分曲线呈燕式分布,Eu/Eu*=0.05~0.32,具有明显的Eu负异常。富集Rb、Th、U、Ta、Pb等元素,明显亏损Ba和 Sr,表现出A型花岗岩的特征。岩石的εNd(t)=–4.8~-3.4,二阶段模式年龄TDM2= 0.91~1.00 Ga,结合岩石的Pb同位素特征及 低的CaO/Na2O比值与高的Al2O3/TiO2比值,说明其应起源于泥质岩石的部分熔融并有少量地幔组分加入。综合地球化学、 同位素特征及义敦岛弧地区构造资料,表明海子山花岗岩是造山后伸展背景下形成的A型花岗岩,为地壳拉张、减薄,软 流圈地幔上涌引起中上地壳泥质岩部分熔融的产物,具有壳幔物质混合的特征。     

围封对沙漠化草地土壤理化性质和固碳潜力恢复的影响

过度放牧是科尔沁沙地退化的主要原因,禁牧围封可以有效地控制牲畜对植被-土壤系统的破坏,促进退化生态系统的有效恢复。以过度放牧后的沙漠化草地为对象,调查了禁牧围封13年后沙漠化草地土壤理化性质的变化特征,并分析了围封对土壤固碳潜力的影响。结果表明：（1）沙漠化草地围封13年后,土壤砂粒含量减少、粉粒和黏粒含量增加,且粉粒增加最为明显,平均含量增加123%;土壤容重在不同土壤深度均呈下降趋势。（2）围封后土壤有机质、全氮、速效氮和速效钾含量呈增加趋势,分别增加了102%、97%、123%和24%,但土壤有效磷和缓效钾呈减少趋势;土壤pH显著升高,阳离子交换量呈现增加趋势。（3）除土壤有效铁外,其余有效微量元素包括有效铜、有效锰和有效锌平均含量均呈增加趋势,分别增加44%、30%和82%。（4）土壤有机质与pH值、阳离子交换量、全氮、速效氮、速效钾、有效铜、有效锰、有效锌含量呈显著正相关关系。（5）沙漠化草地围封13年后,100 cm深度土壤有机碳储量增加393.45 g·m^-2,碳截存速率为30.27 gC·m^-2·a^-1。对于因持续过度放牧所导致的严重退化草地,禁牧围封可有效促进土壤有机质、养分和微量元素的增加,影响土壤质地及固碳潜力等的变化,但严重退化沙漠化草地的恢复需要一个长期的过程,土壤有机碳储量要恢复到科尔沁非沙漠化草地水平至少需要百年的时间尺度。     

Determination of Ca,K, Mg and Fe in four fish species by FAAS

A method for determining calcium(Ca),potassium(K),magnesium(Mg) and iron(Fe) in four fish species was optimized and validated.It included microwave mineralization of the samples and subsequent quantification by flame atomic absorption spectroscopy(FAAS) with Zeeman-effect background correction.Using HNO3(65%) and H2O2(33%) as extraction solutions,the optimal conditions of extraction were established as follows:0.5 g of sample mass;microwave time program of 300 W/5 min and 600 W/5 min.The method was free of matrix interferences.The linear correlation coefficients were ≥0.9991,the recovery percentage of analytes was from 99.31% to 103.70% and the RSD(relative standard deviation) was lower than 2.06%.The detection limits obtained were 32.3,43.2,14.0 and 68.6 ng mL-1 for Ca,K,Mg and Fe in FAAS respectively.It is shown that the method is rapid,simple,sensitive and accurate.The method was applied to the studies of digestibility and measurement of these nutrients in samples of fish collected from Norway,Japan and China.     

Mesospheric bore formation from large-scale gravity wave perturbations observed by collocated all-sky OH imager and sodium lidar

On 9 October 2007, long-horizontal-wavelength gravity waves were observed for the first time to steepen and form mesospheric bores at the altitude of ～87 km, by an all-sky OH imager located at Fort Collins (41°N, 105°W), Colorado. The collocated sodium lidar simultaneously observed the presence of a temperature inversion layer as the ducting region. One mesospheric bore uniquely later evolved into a large-amplitude soliton-like perturbation. When the gravity wave and the associated soliton-like perturbation passed through the lidar beams, the lidar detected strong vertical disturbance at 90 km, indicating convective instability. A large cold front system recorded several hours before in the troposphere was aligned to phase fronts of these large gravity waves. For all of the 7 mesospheric bores observed over a 5 year period, we found a similar alignment with a cold front 1000–1500 km away as the likely source of these large-scale gravity waves.     

Variability of gravity wave occurrence frequency and propagation direction in the upper mesosphere observed by the OH imager in Northern Colorado

Based on 5 years of OH imager data between September 2003 and September 2008 over Yucca Ridge Field Station, CO (40.7ºN, 104.9ºW), we presented the variation of gravity wave (GW) occurrence frequency and propagation direction in the upper mesosphere. In summer the GW occurrence frequency was extremely high at above 95% compared to other seasons (around 85%). The GW propagation direction showed a strong northward (poleward) preference in summer and a southward (equatorward) preference in winter. This could be possibly due to ducting of waves in the mesopause thermal structure and wave generation by the strong deep convection located at south side in summer and possible storms located at north side in winter. Westward traveling waves were rare, but eastward were frequent. In addition to seasonal variability, significant interannual variability was also observed.     

采用华山松树轮宽度重建秦岭东缘近百年冬半年温度

建立了秦岭东缘高海拔华山松树轮宽度年表,年表的可靠时段是从1911年到2005年(子样本强度大于0.8),基于此年表重建了秦岭东缘过去百年来冬半年(上年12月到当年4月)温度变化,重建方程的方差解释量为51%。重建序列有3个温暖时段： 1938～1944年,1958～1967年和 1998～2005年; 两个冷时段： 1945～1957年和 1968～1976年。自1968年以来,温度开始上升,但温度变化幅度未表现出明显异常。秦岭东缘和华北、华中及华东邻近,本文重建的温度序列与这3个区域的温度变化在低温、高温时段对应一致,而且相关显著,都表现出自1970s以来的升温趋势。表明在秦岭东缘采用高海拔华山松重建冬半年温度具有很大的潜力。