[{"name":"非主题来稿选登","count":691,"id":1},{"name":"研究短文","count":243,"id":2},{"name":"Research Articles on Self-Selected Topics","count":33,"id":3},{"name":"前沿.边缘.分支.热点","count":26,"id":4},{"name":"矿床地质地球化学","count":22,"id":5},{"name":"Evolution History of the Earth","count":20,"id":6},{"name":"地球科学思维","count":20,"id":7},{"name":"非主题来搞选登","count":20,"id":8},{"name":"非专题来稿选登","count":19,"id":9},{"name":"岩石学,矿床学,地球化学及其应用","count":18,"id":10},{"name":"深部地球物质科学与高温高压实验技术","count":17,"id":11},{"name":"Special Issue (Ⅰ) on \"Metallogenic Theory and Pre","count":16,"id":12},{"name":"中国及邻区构造","count":16,"id":13},{"name":"层序地层","count":15,"id":14},{"name":"页岩储层特征与评价","count":15,"id":15},{"name":"微体古生物与古海洋","count":14,"id":16},{"name":"水文地质与环境","count":14,"id":17},{"name":"过去全球变化","count":14,"id":18},{"name":"页岩气富集规律与分布","count":14,"id":19},{"name":"同位素分析技术、示踪与定年进展","count":13,"id":20},{"name":"含油气盆地中的构造地质研究","count":13,"id":21},{"name":"月表物质组分研究","count":13,"id":22},{"name":"洋板块地质与造山带地质","count":13,"id":23},{"name":"陆地表层系统变化","count":13,"id":24},{"name":"Special Issue (Ⅱ) on \"Green Process of Mineral Re","count":12,"id":25},{"name":"岩浆、构造与成矿","count":12,"id":26},{"name":"岩石地球化学","count":12,"id":27},{"name":"成藏-成矿作用与评价","count":12,"id":28},{"name":"沉积学及沉积矿产与开发","count":12,"id":29},{"name":"滑坡灾害及斜坡变形破坏","count":12,"id":30},{"name":"盆地与资源","count":12,"id":31},{"name":"矿物材料科学与制备技术","count":12,"id":32},{"name":"农田生态系统生态地球化学研究","count":11,"id":33},{"name":"变形机制","count":11,"id":34},{"name":"沉积特征与油气","count":11,"id":35},{"name":"油气系统与成藏动力过程","count":11,"id":36},{"name":"油气藏形成","count":11,"id":37},{"name":"深层—超深层碳酸盐岩储层形成环境、发育机理和成因模式","count":11,"id":38},{"name":"特色地域成矿背景与成矿作用","count":11,"id":39},{"name":"矿床地球化学","count":11,"id":40},{"name":"地下水污染修复","count":10,"id":41},{"name":"地球化学","count":10,"id":42},{"name":"地质过程与成矿作用示踪的成因矿物学","count":10,"id":43},{"name":"大陆地质与大陆构造和大陆造山带","count":10,"id":44},{"name":"成矿预测理论与方法","count":10,"id":45},{"name":"煤岩学、煤变质","count":10,"id":46},{"name":"盆地构造分析","count":10,"id":47},{"name":"碰撞带、俯冲带结构与构造演化","count":10,"id":48},{"name":"致密/页岩储层","count":10,"id":49},{"name":"非传统稳定同位素各论","count":10,"id":50},{"name":"中亚造山带地质事件与成矿","count":9,"id":51},{"name":"全球构造","count":9,"id":52},{"name":"其他来稿选登","count":9,"id":53},{"name":"典型矿床研究新进展","count":9,"id":54},{"name":"前沿探索:大地构造与动力学","count":9,"id":55},{"name":"地球物质运动及演化","count":9,"id":56},{"name":"地球环境与生物演化","count":9,"id":57},{"name":"壳幔相互作用与岩石圈演化","count":9,"id":58},{"name":"大陆动力学","count":9,"id":59},{"name":"层序地层、沉积体系与古地理","count":9,"id":60},{"name":"岩浆岩地球化学及成矿","count":9,"id":61},{"name":"岩浆活动、变质作用与构造环境","count":9,"id":62},{"name":"岩浆过程与成矿","count":9,"id":63},{"name":"岩石探针与全球构造","count":9,"id":64},{"name":"成矿作用","count":9,"id":65},{"name":"成矿模式与定量找矿模型","count":9,"id":66},{"name":"成藏、成矿动力过程及油气系统","count":9,"id":67},{"name":"构造控油理论与勘探开发新领域","count":9,"id":68},{"name":"沉积盆地分析与多种能源勘探","count":9,"id":69},{"name":"河流生态系统生态地球化学研究","count":9,"id":70},{"name":"油气储层沉积特征及构造影响","count":9,"id":71},{"name":"特约专栏“页岩气地质与评价”(连载)","count":9,"id":72},{"name":"特约主编致读者","count":9,"id":73},{"name":"盆地构造及其动力学","count":9,"id":74},{"name":"盆地构造理论与油气分布规律","count":9,"id":75},{"name":"综合减灾防灾与地质环境评价","count":9,"id":76},{"name":"表层地球系统与生态环境效应","count":9,"id":77},{"name":"表层系统与古环境演变","count":9,"id":78},{"name":"金属成矿作用与成矿预测","count":9,"id":79},{"name":"页岩储层裂缝研究","count":9,"id":80},{"name":"\"综合生态系统碳循环与碳中和\"专栏","count":8,"id":81},{"name":"A spacial section on The India-Eurasia Collision and Its Long-Range Effect","count":8,"id":82},{"name":"“第四届全国青年地质大会论文”专栏","count":8,"id":83},{"name":"三维地质建模与隐伏矿预测评价","count":8,"id":84},{"name":"中国中西部前陆盆地与海相碳酸盐岩油气勘探","count":8,"id":85},{"name":"变质作用与造山过程","count":8,"id":86},{"name":"古气候模拟","count":8,"id":87},{"name":"地下水环境保护","count":8,"id":88},{"name":"地热开发利用技术","count":8,"id":89},{"name":"地球内部流体与成矿","count":8,"id":90},{"name":"地球化学与古海洋事件","count":8,"id":91},{"name":"地球表层沉积-气候演化","count":8,"id":92},{"name":"地面沉降、滑坡、泥石流灾害","count":8,"id":93},{"name":"大地构造与沉积古地理","count":8,"id":94},{"name":"层序地层及储层沉积学","count":8,"id":95},{"name":"岩石成因与区域演化","count":8,"id":96},{"name":"月表探测技术方法","count":8,"id":97},{"name":"水-岩相互作用研究","count":8,"id":98},{"name":"理论方法研究","count":8,"id":99},{"name":"白垩纪大洋红层与对比","count":8,"id":100},{"name":"盆地与盆山关系动力学","count":8,"id":101},{"name":"盆地层序沉积","count":8,"id":102},{"name":"盆地构造与油气聚集","count":8,"id":103},{"name":"盆地热历史","count":8,"id":104},{"name":"贵金属与有色金属","count":8,"id":105},{"name":"造山带-盆地结合带构造变形与动力学","count":8,"id":106},{"name":"“印度-欧亚大陆碰撞及其远程效应”专栏之五","count":7,"id":107},{"name":"中国中部盆地构造演化与油气","count":7,"id":108},{"name":"人工智能与地质应用","count":7,"id":109},{"name":"储层沉积学与油气资源","count":7,"id":110},{"name":"储层表征与油藏描述","count":7,"id":111},{"name":"前寒武纪地质及早期生命-环境相互作用","count":7,"id":112},{"name":"国外来稿选登","count":7,"id":113},{"name":"土壤污染修复","count":7,"id":114},{"name":"土壤碳库变化的驱动机制","count":7,"id":115},{"name":"地下水作用与生态效应","count":7,"id":116},{"name":"地下水污染与生态安全保障","count":7,"id":117},{"name":"地热资源评价与选区","count":7,"id":118},{"name":"地质环境与地质工程","count":7,"id":119},{"name":"大陆动力学与岩浆作用","count":7,"id":120},{"name":"大陆构造","count":7,"id":121},{"name":"岩(矿)石、地层特征及地质意义","count":7,"id":122},{"name":"常规与非常规储层表征实例","count":7,"id":123},{"name":"幔源流体与幔柱研究","count":7,"id":124},{"name":"微观尺度与深穿透地球化学","count":7,"id":125},{"name":"数学地质与矿产定量勘察","count":7,"id":126},{"name":"新构造与活动构造","count":7,"id":127},{"name":"构造年代学","count":7,"id":128},{"name":"水处理与污水资源化","count":7,"id":129},{"name":"水文地球化学展望","count":7,"id":130},{"name":"水生态、草地生态及污染土壤修复","count":7,"id":131},{"name":"沉积学与古地理学","count":7,"id":132},{"name":"深层—超深层海相层系烃源岩发育、生烃演化和油气地球化学特征及示踪","count":7,"id":133},{"name":"深层构造解析","count":7,"id":134},{"name":"深部地质与构造动力学","count":7,"id":135},{"name":"煤中微量元素分布与富集规律","count":7,"id":136},{"name":"煤成烃","count":7,"id":137},{"name":"煤沉积学","count":7,"id":138},{"name":"特提斯成矿带战略资源地球化学调查评价","count":7,"id":139},{"name":"环境变化与生物圈层相互作用","count":7,"id":140},{"name":"环境地球化学研究","count":7,"id":141},{"name":"现状·趋势·展望","count":7,"id":142},{"name":"生命过程与地质事件","count":7,"id":143},{"name":"生物作用下矿物的形成与分解","count":7,"id":144},{"name":"矿化集中区构造岩相找矿方法与实践","count":7,"id":145},{"name":"矿区生态修复","count":7,"id":146},{"name":"矿床学与矿床地球化学","count":7,"id":147},{"name":"矿床研究方法与综述","count":7,"id":148},{"name":"研究短文目录","count":7,"id":149},{"name":"碳酸盐岩储层裂缝研究","count":7,"id":150},{"name":"资源勘查地球化学","count":7,"id":151},{"name":"钾盐成矿新认识","count":7,"id":152},{"name":"青藏高原地体的地壳变形","count":7,"id":153},{"name":"青藏高原地貌、环境、气候与隆升关系","count":7,"id":154},{"name":"青藏高原壳幔结构","count":7,"id":155},{"name":"非主题来向选登","count":7,"id":156},{"name":"\"生态系统地球化学调查与研究\"专栏","count":6,"id":157},{"name":"中国东部中、新生代构造","count":6,"id":158},{"name":"中国西部盆地形成演化与油气","count":6,"id":159},{"name":"中国近海盆地类型与形成动力学环境","count":6,"id":160},{"name":"区域环境与环境污染","count":6,"id":161},{"name":"地下水化学异常与地方病","count":6,"id":162},{"name":"地下空间开发中问题与对策","count":6,"id":163},{"name":"地下空间开发现状及挑战","count":6,"id":164},{"name":"地热开发利用模拟和实践","count":6,"id":165},{"name":"地热赋存基础理论","count":6,"id":166},{"name":"地球信息科学","count":6,"id":167},{"name":"地球动力学","count":6,"id":168},{"name":"地球物性实验及微区分析","count":6,"id":169},{"name":"地球物理及深部探测","count":6,"id":170},{"name":"地质流体与成矿作用","count":6,"id":171},{"name":"地质观测新技术","count":6,"id":172},{"name":"地震灾害新论","count":6,"id":173},{"name":"大陆深部构造与地幔动力学","count":6,"id":174},{"name":"学科前沿综述","count":6,"id":175},{"name":"宏观生物有机物与矿物的相互作用","count":6,"id":176},{"name":"岩石学与热模拟","count":6,"id":177},{"name":"成烃作用与油气成储","count":6,"id":178},{"name":"新技术方法与实验","count":6,"id":179},{"name":"新能源探索和勘查","count":6,"id":180},{"name":"早期生命演化","count":6,"id":181},{"name":"月球地质演化与编图","count":6,"id":182},{"name":"构造-岩浆作用与大地构造背景","count":6,"id":183},{"name":"构造沉积响应","count":6,"id":184},{"name":"水土有机污染的防治","count":6,"id":185},{"name":"沉积与储层","count":6,"id":186},{"name":"沉积作用与沉积环境演化","count":6,"id":187},{"name":"海相深层—超深层碳酸盐岩油气动态成藏和聚集","count":6,"id":188},{"name":"深层油气成藏","count":6,"id":189},{"name":"深层海相碳酸盐岩油气地质","count":6,"id":190},{"name":"深时气候与环境","count":6,"id":191},{"name":"深海沉积与快速气候变化","count":6,"id":192},{"name":"深海生物地球化学过程","count":6,"id":193},{"name":"煤盆地分析和煤田构造","count":6,"id":194},{"name":"盆-山关系","count":6,"id":195},{"name":"盆地流体与成藏","count":6,"id":196},{"name":"矿产资源研究与滇西北典型矿床","count":6,"id":197},{"name":"矿化富集机理","count":6,"id":198},{"name":"矿床大数据研究","count":6,"id":199},{"name":"矿物及微生物的环境效应","count":6,"id":200}]
