基于LocaSpaceViewer的地理信息技术应用教学设计与反思

本文基于笔者运用LocaSpaceViewer软件完成人教版地理必修3“地理信息技术在区域地理环境研究中的应用”的教学内容,总结反思教学过程中出现的问题,并提出改进的建议和措施。     

贵州夜郎湖表层水体地球化学昼夜变化及其影响因素

为探究岩溶水库水文地球化学行为过程,对贵州普定夜郎湖表层水体进行了为期3 d的高分辨率昼夜监测。结果表明：1）多变的天气和水文条件叠加导致水体离子指标昼夜变化不显著,规律性较差。而水温、DO、pH值、SpC、SIc、pCO₂等常规理化指标受水温变化和生物作用表现出明显的昼夜波动。2）利用亨利常数和主成分分析,得到温度变化、生物作用、人类活动、水库的蓄水与放水对夜郎湖水库水文地球化学特征变化的贡献率分别为21.66%、17.28%、14.08%和10.22%,说明作用于水库水文地球化学行为的因子具有多元性。3）δ ¹⁸O表现出与DO一致的波动趋势,即白天上升,晚上下降,反映在短时间尺度上,氢氧稳定同位素变化受控于生物过程（主要是呼吸作用过程）;而对比水库水体和大气降水的d-excess（d值）发现,水库水体的d值（8.21‰）显著偏低于当地大气降水的d值（9.64‰）,说明在长时间尺度上,主要受蒸发效应引起的不平衡分馏影响。     

秦巴山集中连片特困区农户多维贫困测度与影响机理分析——以商洛市为例

中国扶贫瞄准单位已下沉到农户单元,发展和完善农户尺度的多维贫困测度方法是精准配置扶贫资源、提高扶贫效率的关键。通过借鉴“人”“地”和“业”关系理论构建了“能力—资本—环境”多维贫困综合评估框架,以秦巴山特困区商洛为例,通过多维贫困测度体系对农户进行综合测度,识别样本区多维贫困户,进而与建档立卡贫困户进行对比分析,并探讨了多维贫困发生的主要影响机理,最后依据多维贫困户剥夺维度的组合划分不同类型。研究结果表明:① 有245户被识别为多维贫困户,239户被识别为非多维贫困户,多维贫困户与非多维贫困户在能力维度、资本维度和环境维度均存在较大差异;② 有84.08%的多维贫困户与建档立卡贫困户相重叠,多维贫困户在综合维度和单维度的贫困程度均较深;③ 多维贫困发生主要受“人”的发展能力和生产能力、“业”的金融资本、物质资本以及“地”的地理条件和区位的弱势或剥夺的影响;④ 多维贫困户划分为发展缺失型、复合贫困型、生存环境恶劣型和综合贫困型4类。     

国家自然科学基金地理科学申请代码的调整优化

学科申请代码调整优化是国家自然科学基金委员会“科学基金学科布局改革”任务的重要组成部分和切入点。本文回顾了地理学科申请代码的历史沿革,系统梳理了当前版本地理学科申请代码存在的问题,论述了新版（2021版）申请代码体系的架构理念、遵循原则、形成过程,着重阐释了新申请代码的历史沿革、科学内涵与学科定位。新版申请代码体系较以往版本有以下4个显著特征：① 逻辑更自洽,一级代码名称由“地理学（D01）”改为“地理科学（D01）”;② 学科更融合,取消三级申请代码,仅设二级申请代码,更能体现学科的交叉融合;③ 领域更全面,针对学科发展趋势及经济社会发展需求,增加了“灾害地理”“土地科学”“地理大数据与空间智能”等新兴学科、领域的代码;④ 技术更重视,增设“地理观测与模拟技术”,鼓励面向地理科学问题研究所需关键工具、仪器的研制。     

Waveform Characteristics of Earthquakes Induced by Hydraulic Fracturing and Mining Activities: Comparison with Those of Natural Earthquakes

Natural Resources Research - Some industrial activities, such as underground mining, hydraulic fracturing (HF), can cause microearthquakes and even damaging earthquakes. In recent years, with the...     

基于Sentinel-2的潮间红树林提取方法

位于潮间带的红树林可能在高潮时被海水淹没的特点,使得传统的植被提取方法在红树林信息提取方面存在局限性。本文在对比分析了出露的红树林、高潮水位淹没的红树林、海水水体的光谱特征后,提出了一种利用归一化潮间红树林指数（NIMI）提取潮间带红树林的方法。该指数是由植被强吸收的红波段,强反射的两个红边波段和近红外波段组成的归一化表达式。利用该指数对福建省龙海九龙江口湿地的红树林进行了分类提取,提取结果与高分二号影像目视验证和现场调查结果进行了对照。结果显示,该方法提取红树林的用户精度达到93.98%,并显著优于利用归一化水体指数（NDWI）、归一化植被指数（NDVI）及随机森林的结果。     

Spatio‐temporal prediction of land surface temperature using semantic kriging

Spatio‐temporal prediction and forecasting of land surface temperature (LST) are relevant. However, several factors limit their usage, such as missing pixels, line drops, and cloud cover in satellite images. Being measured close to the Earth's surface, LST is mainly influenced by the land use/land cover (LULC) distribution of the terrain. This article presents a spatio‐temporal interpolation method which semantically models LULC information for the analysis of LST. The proposed spatio‐temporal semantic kriging (ST‐SemK) approach is presented in two variants: non‐separable ST‐SemK (ST‐SemK_NSep) and separable ST‐SemK (ST‐SemK_Sep). Empirical studies have been carried out with derived Landsat 7 ETM+ satellite images of LST for two spatial regions: Kolkata, India and Dallas, Texas, U.S. It has been observed that semantically enhanced spatio‐temporal modeling by ST‐SemK yields more accurate prediction results than spatio‐temporal ordinary kriging and other existing methods.     

塔里木盆地古近纪岩相古地理

古近纪是塔里木盆地由海向陆转化的时期。当时该区的海侵来自研究区西侧的古地中海分支,物源则主要是盆地北部的南天山以及南部的昆仑山,沉积中心在库车坳陷西部以及塔西南坳陷带的西部。古新世-始新世早期（库姆格列木群沉积期）在盆地北部库车坳陷发育砾岩、砂岩、碳酸盐岩及膏盐岩,沉积环境有滨岸、漏湖、潮坪及扇三角洲等,塔西南坳陷以碳酸盐岩和膏岩为特征,从东到西发育开阔台地、近岸局限台地、蒸发盐台地、辫状河三角洲环境等,二者之间即在塔北隆起及北部坳陷带位置为宽阔的古隆起区。始新世晚期-渐新世（苏维依组沉积期）整个盆地以滨浅湖为主,发育粉砂岩与泥岩互层沉积,塔西南坳陷虽然仍发育多个海相层,但海水的影响明显比始新世早期弱,当时主要古地理单元有海湾渴湖、滨浅湖、扇三角洲和辫状河三角洲。总体上,塔里木盆地在古近纪经历了早期以扇三角洲为主的浅水环境到晚期的滨浅湖及海湾溻湖环境,古近纪研究区的古气候以热带-亚热带的干旱气候为主。     

基于ArcGlS的地质灾害巡查单元划分——以珠海市为例

为进一步完善珠海市地质灾害巡查管理和提高地质灾害巡查工作效率,本文选取与地质灾害密切相关的致灾因子,对珠海市进行了地质灾害危险性等级单元格划分,然后利用村界切割格网数据,通过ArcGIS相交分割功能,计算出各村不同危险性等级区面积,在此基础上叠加巡查路线,最终形成地质灾害巡查单元划分图.本成果可以为珠海市地质灾害相关部...     

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.