覆盖型岩溶潜蚀塌陷临界裂隙开度模型试验研究

通过模型试验和理论分析,研究了裂隙开度对覆盖型岩溶潜蚀塌陷的影响及其变化规律。结果表明,临界裂隙开度是覆盖型潜蚀塌陷的关键控制因素,受覆盖层土质、密实度、临界水力梯度等因素的影响,初步提出了临界裂隙开度的估算方法。     

延吉盆地多期不整合面的形成及其油气地质意义

延吉盆地是一个后期改造较为强烈的断陷盆地。应用地震、地质、测井资料识别出延吉盆地中存在6个较大的不整合面,它们以角度不整合和超覆不整合2种类型为主。分析认为,燕山Ⅰ、Ⅱ幕运动形成了盆地雏形,燕山Ⅳ幕运动则使盆地回返,此期出现大量高岭石（40%）,表明其与大气水淋滤等有关。短暂沉降后（龙井组）,燕山运动晚期（Ⅴ幕）发生的又一次大规模以南北挤压为主的构造运动,导致南北两翼抬起幅度巨大,剥蚀厚度超过700 m,盆地中部剥蚀厚度大约为300 m。不整合面是划分三大构造层（前断陷期、断陷期、坳陷期）的依据。其早白垩世铜佛寺组和大砬子组间的整合关系利于油气的生成。不整合面既可改善储集体的渗透性,又是形成油气二次运移的良好通道。初步预测与不整合有关的油气藏（侵蚀残丘、地层超覆不整合、断层坡折）可作为下一步勘探的目标。     

扬子西缘小相岭地区苏雄组古火山机构的发现及意义

通过详细的野外地质调查,发现扬子西缘小相岭地区苏雄组火山岩由巨厚的酸性-中酸性熔岩、火山碎屑岩和少量基性熔岩组成,在小相岭山脊两侧首次厘定4处古火山机构。其中,阳糯雪山古火山机构最壮观,是由火山颈相、溢流相、爆发相和火山沉积相构成的完整古火山机构。通过系统的地质剖面研究,发现该古火山机构存在2次喷发亚旋回和15个火山韵律,2次喷发亚旋回之间出现了1次明显的火山间歇期。小相岭地区古火山机构的发现,进一步厘定了苏雄组火山岩的喷发方式和构建特征,对进一步研究苏雄组酸性火山碎屑岩的起源及新元古代陆内裂谷作用具有重要意义。     

南海北部大陆架西段地热条件与油气资源前景

北部湾盆地下第三系由于油源母质特性原因和适于生油的空间相对局限,总体上看,天然气的潜力大于石油。生油岩与地温条件在空间上的配置适当决定了珠三盆地油气资源的良好前景。较高的地温与古地温环境是莺琼盆地成为南海北部大陆架天然气富集区的重要条件,较高的地温不仅使盆地中西部上第三系烃源岩能够广泛生气,也是本区有巨大远景的深成高压气(盆地中、西部)与浅成生化成因气的形成与富集的重要条件。     

印度河流域气温、降水、蒸发及干旱变化特征

基于印度河流域及周围54个地面气象站气温、降水资料,结合CRU气温和GPCC降水全球格点化陆面再分析资料,通过插值构建了一套0.5°×0.5°分辨率1980—2016年逐月格点数据集。采用Thornthwaite方法计算了潜在蒸散发,基于标准化降水蒸散指数(SPEI),探讨了印度河流域气候变化及干旱演变特征。结果表明:(1)1980—2016年,印度河流域年平均气温以0.30℃·(10 a)^-1的速率呈显著上升趋势,21世纪初增温幅度最大;干季(11月～次年4月)升温速率较快,达0.36℃·(10 a)^-1,湿季(5～10月)增速0.25℃·(10 a)^-1。年降水量呈现少雨—多雨—少雨—多雨年代际振荡。伴随着持续升温,年和各季的潜在蒸发量增加显著。干季干旱频率较多,但湿季干旱强度高,各季干旱频率与降水呈现较一致的年代际波动;干旱的影响面积在干季呈现微弱地增加趋势,湿季却略有减少趋势。(2)空间上,除西北局部,流域其他区域的年和季平均气温、潜在蒸发量增加趋势显著,均达到95%置信水平。其中南部平原和东北山区升温幅度较高,...     

复杂环境下基于GPS+BDS-3的PPP/INS/ODO组合导航性能分析

针对复杂环境下单一导航定位技术存在精度低、可靠性和完整性差的问题,提出一种GPS+BDS-3的PPP/INS/ODO组合导航方案。采用GPS+BDS-3双系统观测数据,推导无电离层组合PPP模型,进一步给出PPP/INS/ODO组合模型并分析时间异步及杆臂误差的处理策略,结合里程计测速信息和非完整性约束信息,提高组合导航的定位性能。利用仿动态和动态跑车实测数据,分别对GPS+BDS-3无电离层组合PPP的定位性能和PPP/INS/ODO组合导航的定位性能进行分析。实验结果表明,GPS+BDS-3组合定位精度较单系统有显著提高;PPP/INS/ODO组合系统在复杂环境下位置的RMSE优于1 m,可为复杂环境下的车载导航提供技术支撑。     

Revisiting Sustainable Development of Dry Valleys in Hengduan Mountains Region

Dry valleys are a striking geographic landscape in Hengduan Mountains Region and are characterized by low rainfall, desert type of vegetation and fragile environment. Past efforts and resources have been concentrated mainly on rehabilitation of degraded ecosystem and fragile environment, particularly reforestation, while socio-economic development has been largely overlooked. Despite successes in pocket areas, the overall trend of unsustainability and environmental deterioration are continuing. It is important to understand that uplift of the Tibetan Plateau is the root cause of development of dry valleys, and development and formation of dry valleys is a natural process. Human intervention has played a secondary role in development of dry valleys and degradation of dry valleys though human intervention in many cases has speeded up environmental degradation of the dry valleys. It is important to understand that dry valleys are climatic enclaves and an integrated approach that combines rehabilitation of degraded ecosystems and socio-economic development should be adopted if the overall goal of sustainable development of dry valleys is to be achieved. Promotion of niche-based cash crops, rural energy including hydropower, solar energy, biogas and fuelwood plantation is recommended as the priority activities.     

Landscape pattern evolution processes of alpine wetlands and their driving factors in the Zoige Plateau of China

Zoige Plateau wetlands are located in the northeastern corner of the Qinghai-Tibet Plateau.The landscape pattern evolution processes in the Zoige Plateau and their driving factors were identified by analyzing the dynamic changes in landscape modification and conversion and their dynamic rates of alpine wetlands over the past four decades.The results showed that the landscape conversion between wetlands and non-wetlands mainly occurred during the period from 1966 to 1986.The marsh wetland area converted from lake and river wetlands was larger because of swamping compared to other wetland landscapes.Meanwhile,the larger area of marsh wetlands was also converted to lake wetlands more than other types of wetlands.The modification processes mainly occurred among natural wetland landscapes in the first three periods.Obvious conversions were observed between wetland and nonwetland landscapes(i.e.,forestland,grassland,and other landscapes) in the Zoige Plateau.These natural wetland landscapes such as river,lake and marsh wetlands showed a net loss over the past four decades,whereas artificial wetland landscapes(i.e.,paddy field and reservoir and pond wetlands) showed a net decrease.The annual dynamic rate of the whole wetland landscape was 0.72%,in which the annual dynamic rate of river wetlands was the highest,followed by lake wetlands,while marsh wetlands had the lowest dynamic rate.The integrated landscape dynamic rate showed a decreasing trend in the first three periods.The changes in wetland landscape patterns were comprehensively controlled by natural factors and human activities,especially human activities play an important role in changing wetland landscape patterns.     

MODIS反照率产品在模拟黄河源区陆面过程和降水中的应用

地表反照率是陆面过程中一个重要的物理量, 其变化直接影响地表能量的收支状况, 进而可以影响气温和降水等其它气象要素。本文利用WRF (Weather Research and Forecasting) 模式, 通过两组数值模拟试验分别探讨了地表反照率改变在黄河源区不同下垫面情况下潜热、 感热的分配关系, 详细分析了地表反照率改变对降水变化的影响机制, 最后应用EOS/MODIS地表反照率产品替代原模式低时空分辨率的地表反照率。研究结果表明: (1)当地表反照率减少(增加)时, 模拟的区域平均地表温度、感热、潜热数值相应增大(减少)。当地表反照率减少0.1时, 地表温度上升约1.0 K, 感热和潜热量增量比约为3∶1。 (2) 地表反照率改变对降水量变化影响最大的区域是黄河源区下游的草场区域, 其次是黄河源头区域, 最小的是黄河源区北部的稀疏植被区域。地表反照率通过对大气动力、 热力以及水汽条件的影响, 使得降水发生的环境改变, 主要体现在: 当地表反照率减少时, 地表气压的减少使得大气低层的辐合气流增强, 有利于上升运动的发生; 2.0 m气温的升高增强了大气近地层的热力不稳定度; 2.0 m比湿的增加表明近地层空气水汽含量增加。 (3) 与实况对比分析发现, 使用卫星遥感产品后在月尺度上能够更准确地模拟降水量的变化过程。