雅鲁藏布江河谷加查-米林段沙丘成因

加查-米林段位于雅鲁藏布江河谷中游下段,分布沙丘89片。通过实地考察、遥感卫星影像解译、DEM分析、粒度分析等方法对加查-米林段沙丘成因进行分析。结果表明：依据沙丘沙物质来源可将加查-米林段沙丘划分为河漫滩型沙丘、阶地型沙丘和谷坡型沙丘。河漫滩型沙丘形成与雅鲁藏布江水位关系密切。丰水期洪水淹没河漫滩,泥沙沉积;枯水期水位降低,泥沙出露,经风的吹蚀、搬运、堆积形成河漫滩型沙丘。阶地型沙丘和谷坡型沙丘形成与表层覆盖的黄土层（粉质砂土）破坏有关。雅鲁藏布江不断下切,在阶地及谷坡不同高度残留古河流冲积沙,遭受风蚀后风蚀堆积物形成古沙丘。因环境演变,古沙丘表面沉积黄土,形成致密坚硬的黄土层,不易被风吹蚀,成为古沙丘的保护层。黄土层受风蚀、水蚀及人类活动破坏,导致下伏古沙丘裸露,形成现代流动沙丘。     

南黄海物理-生物地球化学过程的时空异质性及内在关联和机制

研究多重物理过程控制下陆架边缘海生物地球化学过程的时空异质性及其生态响应,对于深入认识海洋生态系统具有重要的意义。基于相关历史观测资料和卫星遥感海表温度,本文综合分析了南黄海物理-生物地球化学过程的时空变化和空间异质性特征,探讨了该海域内部典型地理单元之间的内在关联和机制。结果显示,冷季沿岸流南向输送和暖季锋面上升流垂向输运的季节性交替是影响石岛外海与海州湾外侧海域生物地球化学和初级生产的重要物理过程。夏季苏北沿岸水的东北向扩展可形成浒苔离岸/跨区域输送的动力驱动。暖季水体层化显著影响着南黄海中部冷水团海域的生物地球化学过程,春至秋季冷水团海域底层水体中的营养盐逐渐累积,形成了营养盐的重要贮库;层化季节黄海冷水团边界锋区上升流系统的存在使得南黄海叶绿素a和初级生产力高值区位置同海表低温涌升流区总体相一致。冷季南黄海西部南下的冷水与中部北向入侵的暖水共同导致了“S”型锋面的形成;暖季黄海冷水团边界锋区的上升流系统是连接层化海域和近岸区的纽带,可实现对冷水团内部营养盐的提取,从而将冷水团内部和边界区的生物地球化学过程形成有机连接,并在成山角-石岛外海、海州湾外侧、苏北浅滩东部形成三个典型的物理-生物地球化学相互作用区。本研究细化和整合了南黄海区域海洋学研究,揭示了该海域物理-生物地球化学过程的空间异质性特征和不同地理单元之间的关联性及机制,获得了对南黄海水文-生物地球化学-生态过程的综合、系统认知。     

不同边界层参数化方案在中国西南地区东部高分辨率气候模拟中的敏感性研究

为了进一步评估和提高区域模式对西南地区东部高分辨率气候的模拟能力,利用 WRF模式,采用 多种边界层参数化方案（下称“不同方案”）对西南地区东部 1998—2019年夏季降水和气温进行双重嵌套模拟 （外层为D01,内层为D02）。对比不同方案模拟结果表明：多年平均降水量在D01中基本为湿偏差;D02中在四 川盆地和重庆低海拔地区为干偏差,湿偏差主要位于贵州和重庆的城口、石柱和武隆一带的地形复杂区;总体 上D01中ACM2方案误差最小,D02中MYJ方案误差最小。对多年平均气温的模拟在D01中除了四川盆地一 带为暖偏差外其余大部地区基本为冷偏差,D02 中大部地区为暖偏差;总体上 D01 和 D02 中 MYJ方案误差最 小,YSU方案最大。对于降水量和平均气温年际变化的模拟技巧在D01和D02中相对较高的地区均集中在重 庆中西部和湖北大部地区;降水量总体为 YSU 方案最高,MYJ 方案最低;平均气温总体为 MYJ 方案最高, ACM2方案最低。因此,提升模式分辨率至对流尺度后对不同气象要素模拟技巧最优的方案存在差异,需根据 业务情况选择适合本地的参数化方案。     

Quality influencing factors of dispersion curves from short period dense arrays based on a convolutional neural network across the north section of the Xiaojiang fault area

The number of dispersion curves increases significantly when the scale of a short-period dense array increases. Owing to a substantial increase in data volume, it is important to quickly evaluate dispersion curve quality as well as select the available dispersion curve. Accordingly, this study quantitatively evaluated dispersion curve quality by training a convolutional neural network model for ambient noise tomography using a short-period dense array. The model can select high-quality dispersio...     

Major contribution to carbon neutrality by China’s geosciences and geological technologies

In the context of global climate change, geosciences provide an important geological solution to achieve the goal of carbon neutrality, China’s geosciences and geological technologies can play an important role in solving the problem of carbon neutrality. This paper discusses the main problems, opportunities, and challenges that can be solved by the participation of geosciences in carbon neutrality, as well as China’s response to them. The main scientific problems involved and the geological work carried out mainly fall into three categories: (1) Carbon emission reduction technology (natural gas hydrate, geothermal, hot dry rock, nuclear energy, hydropower, wind energy, solar energy, hydrogen energy); (2) carbon sequestration technology (carbon capture and storage, underground space utilization); (3) key minerals needed to support carbon neutralization (raw materials for energy transformation, carbon reduction technology). Therefore, geosciences and geological technologies are needed: First, actively participate in the development of green energy such as natural gas, geothermal energy, hydropower, hot dry rock, and key energy minerals, and develop exploration and exploitation technologies such as geothermal energy and natural gas; the second is to do a good job in geological support for new energy site selection, carry out an in-depth study on geotechnical feasibility and mitigation measures, and form the basis of relevant economic decisions to reduce costs and prevent geological disasters; the third is to develop and coordinate relevant departments of geosciences, organize and carry out strategic research on natural resources, carry out theoretical system research on global climate change and other issues under the guidance of earth system science theory, and coordinate frontier scientific information and advanced technological tools of various disciplines. The goal of carbon neutrality provides new opportunities and challenges for geosciences research. In the future, it is necessary to provide theoretical and technical support from various aspects, enhance the ability of climate adaptation, and support the realization of the goal of carbon peaking and carbon neutrality.     

旅游地快速交通优势度与旅游流强度的空间耦合分析

以典型旅游地—云南省为研究案例,以高德交通大数据、统计数据等多源数据为基础,依据“路网及站点密度+通行规模+通行功能+区位优势度+换乘便捷度”的思路,构建快速交通优势度模型;基于旅游流“规模→消费→效益→效应”的历时性维度构建旅游流强度模型;采用加权TOPSIS法对二者评价值进行测算,并运用耦合四象限模型对两者耦合类型进行划分。结果发现：① 快速交通与旅游流耦合存在显著空间差异性。昆明、红河和丽江呈现良性耦合协调,耦合类型表现为“高旅游流-高快速交通优势”,而旅游化水平低、远离交通枢纽和主要交通干线的边缘地区,旅游流与快速交通耦合效应则表现为“低旅游流-低快速交通优势”。② 快速交通优势度与旅游流强度呈正相关关系,不同快速交通方式与旅游流强度的拟合优度表现为“航空运输>高速公路>高速铁路”的特征。③ 云南省快速交通优势度与旅游流强度耦合水平总体偏低,快速交通发展的主导模式为协调互补模式,且缘于快速交通的“时间-空间收敛”效应和“组织-空间协同”效应,快速交通组合类型多样化与旅游流强度存在正相关关系。不同快速交通发展模式对旅游流强度的贡献效应表现出“多元共生模式>协调互补模式>单类孤立模式>低速交通维持模式”的特征。     

1985年以来中国大陆沿海集装箱港口体系位序-规模分布及其网络联系

21世纪以来,中国大陆众多沿海城市纷纷转型为港口城市,港口区域化态势明显,港口发展呈现新的竞合关系。运用位序-规模法则与复杂网络模型,从规模结构、航运网络两方面刻画1985年以来中国大陆沿海集装箱港口体系的区域化特征。结果表明：① 港口体系日趋完善,位序-规模分布更加明显;发展演化呈低级均衡,明显集中化及相对分散化三个阶段,围绕世界级枢纽港形成区域集聚和群内扩散的空间格局。② 港口航运网络小世界特征得到强化,不同类型港口航线网络特性变化差异明显。枢纽港以广度上升深度下降、中转功能上升为主;大型港口变化较为复杂,超过一半的大型港口腹地引致特征明显,中转功能较弱;地方港呈现两极分化态势,大部分港口在航线网络深度、广度与辐射能力等多方面得到提升,少部分港口则明显萎缩。③ 以班轮航线为载体的物流网络推动港口区域化内在联系更加紧密,轴-辐特征得到强化,整个网络效率大为提升。从社会网络分析软件（UCINET）呈现的最强联系航线看,沿海集装箱航运网络已由局部网络转变为统一的双层轴-辐网络,全国性的港口网络联系水平大幅提升,区域航运网络与港口群存在空间错位而非一一对应。     

Evaluation of the integrated multi-satellite retrievals for global precipitation measurement over the Tibetan Plateau

The availability of high-resolution satellite precipitation measurement products provides an opportunity to monitor precipitation over large and complex terrain and thus accurately evaluate the climatic, hydrological and ecological conditions in those regions. The Global Precipitation Measurement(GPM) mission is an important new program designed for global satellite precipitation estimation, but little information has been reported on the applicability of the GPM’s products for the Tibetan Plateau(TP). The object of this study is to evaluate the accuracy of the Integrated Multi-Satellite Retrievals for GPM(IMERG) Final Run product under different terrain and climate conditions over the TP by using 78 ground gauges from April 2014 to December 2017. The results showed the following:(1) the 3-year average daily precipitation estimation in the IMERG agrees well with the rain gauge observations(R~2=0.58, P0.01), and IMERG also has a considerable ability to detect precipitation, as indicated by a high probability of detection(78%-98%) and critical success index(65%-85%);(2) IMERG performed better at altitudes from 3000 m to 4000 m with a small relative bias(RB) of 6.4%. Precipitation change was not significantly affected by local relief;(3) the climate system of the TP was divided into four climate groups with a total of 12 climate types based on the K?ppen climate classification system, and IMERG performed well in all climate types with the exception of the arid-desert-cold climate(Bwk) type. Furthermore, although IMERG showed the potential to detect snowfall, it still exhibits deficiencies in identifying light and moderate snow. These results indicate that IMERG could provide more accurate precipitation data if its retrieval algorithm was improved for complex terrain and arid regions.     

基于容器技术的天文应用软件自动部署方法

平方千米阵列即将开始建设,各子工作包也进入关键设计评估阶段。基于云与容器技术是平方千米阵列科学数据处理器未来可能采用的平台技术。针对超大规模海量数据处理面临的天文应用软件快速部署、运行与实测要求,充分考虑天文应用软件运行环境复杂、云计算环境下超大规模计算集群部署困难等问题,系统研究并给出了一种使用容器技术的天文应用软件通用自动部署方法。以目前较为常用的可见度函数校准软件SAGECaL为例,首先分析了SAGECaL的相关特性和分布式部署方面存在的困难,进而给出了基于容器技术的SAGECaL分布式集群的自动部署方法。实验结果表明,自动部署方法极大地提高了SAGECaL分布式集群的部署效率,满足项目组承担平方千米阵列科学数据处理器相关测试工作所需要的基础平台部署与切换等需求,同时也为其它天文软件在云端的快速部署与执行提供了有益的思路。     

A method for aligning the plastic scintillator detector on DAMPE

The Plastic Scintillator Detector(PSD) onboard the DArk Matter Particle Explorer(DAMPE)is designed to measure cosmic ray charge(Z) and to act as a veto detector for gamma ray identification.To fully exploit the charge identification potential of PSD and to enhance its capability to identify gamma ray events, we develop an alignment method for the PSD. The path length of a given track in the volume of a PSD bar is derived taking into account the shift and rotation alignment corrections. By examining energy spectra of corner-passing events and fully contained events, position shifts and rotations of all PSD bars are obtained, and are found to be on average about 1 mm and 0.0015 radian respectively. To validate the alignment method, we introduce artificial shifts and rotations of PSD bars into the detector simulation.These shift and rotation parameters can be recovered successfully by the alignment procedure. As a result of the PSD alignment procedure, the charge resolution of the PSD is improved from 4% to 8%, depending on the nuclei.