[1] 黄小虎. 利用集体建设用地建设租赁住房—— 一个举重若轻的大手笔[J]. 上海国土资源,2018,39(1):1-4.Huang X H. Using collective construction land to build leasehold housing: Big ideas and measures to ease heavy burdens[J].Shanghai Land & Resources, 2018,39(1):1-4. doi:10.3969/j.issn.2095-1329.2018.01.001.
[2] 张洪武,张玮,王莉莉,等. 土地利用与绿色发展——“土地与未来上海国际研讨会”报告观点综述[J]. 上海国土资源,2018,39(1):5-9.Zhang H W, Zhang W, Wang L L, et al. Land-use and green development: An overview of academic reports from the “Shanghai International Symposium of Land & Future”[J].Shanghai Land & Resources, 2018,39(1):5-9. doi:10.3969/j.issn.2095-1329.2018.01.002.
[3] 张成玉. 我国土地流转形式的未来选择[J]. 上海国土资源,2018,39(1):10-14,18.Zhang C Y. Future forms of Chinese farmland transfer[J].Shanghai Land & Resources, 2018,39(1):10-14,18. doi:10.3969/j.issn.2095-1329.2018.01.003.
[4] 郑义,周丰,王耀峰. 储备新规下存量土地的市场化配置——以武汉市委托交易制度为例[J]. 上海国土资源,2018,39(1):15-18.Zheng Y, Zhou F, Wang Y F. The marketization and allocation of stock land under new land-reserve regulations[J].Shanghai Land& Resources, 2018,39(1):15-18. doi:10.3969/j.issn.2095-1329.2018.01.004.
[5] 郭淑红. 上海建设用地减量化实施策略研究[J]. 上海国土资源,2018,39(1):19-21,33.Guo S H. Researching the construction land reduction implementation strategy in Shanghai[J].Shanghai Land & Resources,2018,39(1):19-21,33. doi:10.3969/j.issn.2095-1329.2018.01.005.
[6] 刘静,闫玉玉. 建设用地双控背景下的农村土地综合整治策略转型——以上海为例[J]. 上海国土资源,2018,39(1):22-26.Liu J, Yan Y Y. The strategic transformation of rural land through comprehensive consolidation under the gross and intension double-control system involved in construction land development: Using Shanghai as an example[J].Shanghai Land & Resources,2018,39(1):22-26. doi:10.3969/j.issn.2095-1329.2018.01.006.
[7] 邵姝遥,李加林. 四明山区域农村居民点景观格局变化及特征研究[J]. 上海国土资源,2018,39(1):27-33.Shao S Y, Li J L. Studying the changes and characteristics of landscape patterns involving rural residents in the Simingshan area[J].Shanghai Land & Resources, 2018,39(1):27-33. doi:10.3969/j.issn.2095-1329.2018.01.007.
[8] 缪连荣,任丽军,吴菲. 基于灰色关联分析的耕地后备资源开发决策研究——以江苏省泗阳县为例[J]. 上海国土资源,2018,39(1):34-38.Miao L R, Ren L J, Wu F. Decision-making involving the utilization of cultivated land-reserve resources based on a gray correlation analysis: A case study of Siyang County, Jiangsu province[J].Shanghai Land & Resources, 2018,39(1):34-38. doi:10.3969/j.issn.2095-1329.2018.01.008.
[9] 陈铭,关涛,滕龙妹. 土地质量地球化学调查成果在浙江省土地利用规划编制中的应用研究[J]. 上海国土资源,2018,39(1):39-43.Chen M, Guan T, Teng L M. Applying research on land quality involving geochemical survey results regarding land-use planning in the Zhejiang province[J].Shanghai Land & Resources, 2018,39(1):39-43. doi:10.3969/j.issn.2095-1329.2018.01.009.
[10] 苑韶峰,朱从谋,李胜男. 基于格网尺度的杭州城西产业集聚区土地利用格局变化及热点分析[J]. 上海国土资源,2018,39(1):44-49.Yuan S F, Zhu C M, Li S N. The patterns and hotspots of land-use change in Hangzhou Chengxi Sci-tech Innovation Zone according to grid scale[J].Shanghai Land & Resources, 2018,39(1):44-49. doi:10.3969/j.issn.2095-1329.2018.01.010.
[11] 肖善才. 基于生长气候分区的土地利用农作物种植面积快速提取研究——以南京市油菜种植面积提取为例[J]. 上海国土资源,2018,39(1):50-56.Xiao S C. Rapid extraction research on cultivable areas based on growth climate zone: The example of rapid planted-area extraction in Nanjing[J].Shanghai Land & Resources, 2018,39(1):50-56. doi:10.3969/j.issn.2095-1329.2018.01.011.
[12] 谢火艳,唐婉. 基于遥感影像的广州南沙区土地利用动态变化分析[J]. 上海国土资源,2018,39(1):57-59,68.Xie H Y, Tang W. Analyses for dynamics changes in land use based on remote sensing images of the Nansha district of Guangzhou city[J].Shanghai Land & Resources, 2018,39(1):57-59,68. doi:10.3969/j.issn.2095-1329.2018.01.012.
[13] 强海洋. 北京市地热资源开发利用问题研究[J]. 上海国土资源,2018,39(1):60-63.Qiang H Y. Sustainable development and utilization of geothermal resources in Beijing[J].Shanghai Land & Resources,2018,39(1):60-63. doi:10.3969/j.issn.2095-1329.2018.01.013.
[14] 黎兵,严学新,何中发,等. 上海海岸带地质工作主要成果与应用[J]. 上海国土资源,2018,39(1):64-68.Li B, Yan X X, He Z F, et al. Main achievements and applications of coastal geology research in Shanghai[J].Shanghai Land &Resources, 2018,39(1):64-68. doi:10.3969/j.issn.2095-1329.2018.01.014.
[15] 马仁锋,窦思敏,候勃,等. 海岸带自然资源资产:概念、计量与浙江案例[J]. 上海国土资源,2018,39(1):69-74.Ma R F, Dou S M, Hou B, et al. Coastal natural resource assets: concept, measurement, and the Zhejiang case[J].Shanghai Land &Resources, 2018,39(1):69-74. doi:10.3969/j.issn.2095-1329.2018.01.015.
[16] 何中发. 长江口及近岸海域沉积物元素地球化学背景值[J]. 上海国土资源,2018,39(1):75-79.He Z F. Geochemical background values of sediments in the Yangtze Estuary and offshore marine areas[J].Shanghai Land &Resources, 2018,39(1):75-79. doi:10.3969/j.issn.2095-1329.2018.01.016.
[17] 马骅,钟煌亮,罗章,等. 基于Landsat 8的长江口悬浮泥沙浓度遥感反演[J]. 上海国土资源,2018,39(1):80-84.Ma H, Zhong H L, Luo Z, et al. Suspended sediment concentrations in the Yangtze Estuary based on Landsat 8 remote sensing inversion[J].Shanghai Land & Resources, 2018,39(1):80-84. doi:10.3969/j.issn.2095-1329.2018.01.017.
[18] 张惠,陈敏,董聪慧. 宽域灰色聚类法在减量化用地复垦场地土壤环境质量评价中的应用[J]. 上海国土资源,2018,39(1):85-87,98.Zhang H, Chen M, Dong C H. Application of range grey clustering methods to soil environmental quality assessment of reduced land reclamation sites[J].Shanghai Land & Resources, 2018,39(1):85-87,98. doi:10.3969/j.issn.2095-1329.2018.01.018.
[19] 赵洪,蒋一鸣,常吟善,等. 西湖凹陷平湖组基于沉积相标志的沉积特征研究[J]. 上海国土资源,2018,39(1):88-92.Zhao H, Jiang Y M, Chang Y S, et al. Study on sedimentary characteristics of the Pinghu Formation based on sedimentary facies markers in Xihu Sag, East China Sea Basin[J].Shanghai Land & Resources, 2018,39(1):88-92. doi:10.3969/j.issn.2095-1329.2018.01.019.
[20] 连小翠. 东海陆架盆地沉降中心迁移演化机制[J]. 上海国土资源,2018,39(1):93-98.Lian X C. Migration and evolution of subsidence centers in the East China Sea Shelf Basin[J].Shanghai Land & Resources,2018,39(1):93-98. doi:10.3969/j.issn.2095-1329.2018.01.020.
[21] “土地与未来上海国际研讨会”图片报导[J]. 上海国土资源,2018,39(1):封2. doi:10.3969/j.issn.2095-1329.2018.01.021.
[22] “第五届全国地面沉降防治学术研讨会”征文启事[J]. 上海国土资源,2018,39(1):封3. doi:10.3969/j.issn.2095-1329.2018.01.022.
[1] 黄贤金. 中国土地制度改革40年与城乡融合的发展之路[J]. 上海国土资源,2018,39(2):1-3.Huang X J. China's land system reform in 40 years and the development road of urban-rural integration[J].Shanghai Land &Resources, 2018,39(2):1-3. doi:10.3969/j.issn.2095-1329.2018.02.001.
[2] 张禾裕,叶艳妹,谭勇,等. 我国土地调查标准化建设进程及展望[J]. 上海国土资源,2018,39(2):4-7.Zhang H Y, Ye Y M, Tan Y, et al. Construction process and prospect of land investigation standardization in China[J].Shanghai Land & Resources, 2018,39(2):4-7. doi:10.3969/j.issn.2095-1329.2018.02.002.
[3] 方勇,秦涛. 新形势下土地利用总体规划变革[J]. 上海国土资源,2018,39(2):8-12.Fang Y, Qin T. Changes of overall land use planning under the new situation[J].Shanghai Land & Resources, 2018,39(2):8-12.doi:10.3969/j.issn.2095-1329.2018.02.003.
[4] 张玮. 上海市新一轮土地利用总体规划实施管理思考[J]. 上海国土资源,2018,39(2):13-15.Zhang W. Suggestions on the implementation and management of the new Shanghai overall land use planning[J].Shanghai Land& Resources, 2018,39(2):13-15. doi:10.3969/j.issn.2095-1329.2018.02.004.
[5] 韩玉莲,赵玉岩. 长江三角洲城镇建设用地扩展特征及驱动力研究[J]. 上海国土资源,2018,39(2):16-20,32.Han Y L, Zhao Y Y. Characteristics of and driving forces behind urban construction land in the Yangtze River Delta region[J].Shanghai Land & Resources, 2018,39(2):16-20,32. doi:10.3969/j.issn.2095-1329.2018.02.005.
[6] 王深红,李秀霞. 城市土地集约利用与社会经济时空耦合协调发展研究[J]. 上海国土资源,2018,39(2):21-26.Wang S H, Li X X. Investigation of the coordinated development of spatio-temporal coupling of urban land use intensity with socioeconomic factors[J].Shanghai Land & Resources, 2018,39(2):21-26. doi:10.3969/j.issn.2095-1329.2018.02.006.
[7] 李若洁,崔许锋. 武汉市新型城镇化发展水平评价及其障碍因素研究[J]. 上海国土资源,2018,39(2):27-32.Li R J, Cui X F. Evaluation of the development level of new urbanization and its obstacle factors in Wuhan[J].Shanghai Land &Resources, 2018,39(2):27-32. doi:10.3969/j.issn.2095-1329.2018.02.007.
[8] 范紫灵,周侗,王秋苏,等. 基于Landsat的南通市建成区扩展研究[J]. 上海国土资源,2018,39(2):33-36.Fan Z L, Zhou T, Wang Q S, et al. Expansion of the built-up area in Nantong based on Landsat[J].Shanghai Land & Resources,2018,39(2):33-36. doi:10.3969/j.issn.2095-1329.2018.02.008.
[9] 黄莉,王直民,鲍海君,等. 城市地下空间的资源属性与开发特性分析[J]. 上海国土资源,2018,39(2):37-40.Huang L, Wang Z M, Bao H J, et al. Analysis of resource attributes and development characteristics of urban underground spaces[J].Shanghai Land & Resources, 2018,39(2):37-40. doi:10.3969/j.issn.2095-1329.2018.02.009.
[10] 高飞,余蒙,胡小华,等. 地下空间不动产单元划分与编码技术研究[J]. 上海国土资源,2018,39(2):41-45.Gao F, Yu M, Hu X H, et al. Research on unit division and coding techniques of real estate in underground space[J].Shanghai Land& Resources, 2018,39(2):41-45. doi:10.3969/j.issn.2095-1329.2018.02.010.
[11] 金群,李宁,孟成,等. 省级国土空间基础信息平台数据资源体系建设研究[J]. 上海国土资源,2018,39(2):46-49.Jin Q, Li N, Meng C, et al. Research on the construction of the data resource system of a basic information platform of territorial space at the provincial level[J].Shanghai Land & Resources, 2018,39(2):46-49. doi:10.3969/j.issn.2095-1329.2018.02.011.
[12] 梁宇哲,贾琛琛,吴茗华,等. 基于DPSIR模型的基本农田生态安全评价研究[J]. 上海国土资源,2018,39(2):50-55,59.Liang Y Z, Jia C C, Wu M H, et al. Research on the basic farmland ecological security evaluation based on the DPSIR model[J].Shanghai Land & Resources, 2018,39(2):50-55,59. doi:10.3969/j.issn.2095-1329.2018.02.012.
[13] 雷德,唐学琼. 乡村产业发展及用地管理问题探讨[J]. 上海国土资源,2018,39(2):56-59.Lei D, Tang X Q. Discussion on the development of rural industry and the management of land use[J].Shanghai Land &Resources, 2018,39(2):56-59. doi:10.3969/j.issn.2095-1329.2018.02.013.
[14] 闫玉玉,席珊珊. 市地整治之德日韩经验及其借鉴意义[J]. 上海国土资源,2018,39(2):60-63.Yan Y Y, Xi S S. Experience and enlightenment of land consolidation in Germany, Japan and Korea[J].Shanghai Land &Resources, 2018,39(2):60-63. doi:10.3969/j.issn.2095-1329.2018.02.014.
[15] 杨天亮. 深基坑减压降水地面沉降控制综合分区方法研究[J]. 上海国土资源,2018,39(2):64-69,74.Yang T L. Comprehensive partition method of land subsidence control induced by engineering dewatering of deep foundation pits[J].Shanghai Land & Resources, 2018,39(2):64-69,74. doi:10.3969/j.issn.2095-1329.2018.02.015.
[16] 雷丹,杨石飞,苏辉,等. 流固耦合在深层承压水降水及环境影响分析中的应用[J]. 上海国土资源,2018,39(2):70-74.Lei D, Yang S F, Su H, et al. Application of fluid-solid coupling in dewatering and environmental impact analysis of deep con fined water[J].Shanghai Land & Resources, 2018,39(2):70-74. doi:10.3969/j.issn.2095-1329.2018.02.016.
[17] 郑琳. 基于大型顶管穿越高速公路的环境影响分析[J]. 上海国土资源,2018,39(2):75-77,83.Zheng L. Analysis of the environmental impact of large pipe jacking crossing super-speed highways[J].Shanghai Land &Resources, 2018,39(2):75-77,83. doi:10.3969/j.issn.2095-1329.2018.02.017.
[18] 李韬. 上海地区浅部水文地质条件对地下水污染物迁移的影响研究[J]. 上海国土资源,2018,39(2):78-83.Li T. In fluence of shallow hydrogeological conditions on the migration of groundwater pollutants in Shanghai[J].Shanghai Land &Resources, 2018,39(2):78-83. doi:10.3969/j.issn.2095-1329.2018.02.018.
[19] 施刚. 软土地区基坑开挖现场抽水试验数值模拟研究[J]. 上海国土资源,2018,39(2):84-87,97.Shi G. Numerical investigation of in-situ pumping tests for foundation pit excavation in soft soil areas[J].Shanghai Land &Resources, 2018,39(2):84-87,97. doi:10.3969/j.issn.2095-1329.2018.02.019.
[20] 金宗川. 上海地区地源热泵系统岩土热物性参数测试分析[J]. 上海国土资源,2018,39(2):88-92.Jin Z C. Testing and analysis of the geothermal physical parameters for the ground source heat pump system in Shanghai[J].Shanghai Land & Resources, 2018,39(2):88-92. doi:10.3969/j.issn.2095-1329.2018.02.020.
[21] 王远,王治华. 利用探地雷达时距曲线求取介质介电常数及其应用[J]. 上海国土资源,2018,39(2):93-97.Wang Y, Wang Z H. Using the GPR time-distance curve to calculate the dielectric constant and its application[J].Shanghai Land &Resources, 2018,39(2):93-97. doi:10.3969/j.issn.2095-1329.2018.02.021.
[22] 刘建斌,赵洪,唐贤君,等. 地震地质综合解释技术在东海西湖凹陷A气田的应用[J]. 上海国土资源,2018,39(2):98-101,109.Liu J B, Zhao H, Tang X J, et al. Application of seismic and geological comprehensive interpretation techniques in the A gas field of the Xihu depression in the East China Sea[J].Shanghai Land & Resources, 2018,39(2):98-101,109. doi:10.3969/j.issn.2095-1329.2018.02.022.
[23] 姜剑峰,牟建华. 基于红外热像技术的上海基岩残丘地质灾害隐患调查[J]. 上海国土资源,2018,39(2):102-104.Jiang J F, Mou J H. Investigation of potential geological hazards in the bedrock monadnock area of Shanghai using infrared thermal imaging technology[J].Shanghai Land & Resources, 2018,39(2):102-104. doi:10.3969/j.issn.2095-1329.2018.02.023.
[24] 陈功亮,陈艳华,朱律. 上海市地下管线全生命周期地理信息系统的设计与实现[J]. 上海国土资源,2018,39(2):105-109.Chen G L, Chen Y H, Zhu L. Design and implementation of the entire underground pipeline life cycle geo-information system in Shanghai using Yangpu district as an example[J].Shanghai Land & Resources, 2018,39(2):105-109. doi:10.3969/j.issn.2095-1329.2018.02.024.
[25] 龚士良. 第十届国际地面沉降学术研讨会 将于2020年4月20-24日在荷兰召开[J]. 上海国土资源,2018,39(2):12.doi:10.3969/j.issn.2095-1329.2018.02.025.
[1] 宗仁. 中国农村合作社的前世今生与土地制度创新[J]. 上海国土资源,2018,39(3):1-9.Zong R. The past and present of rural cooperatives and rural land system innovation in China[J].Shanghai Land & Resources,2018,39(3):1-9. doi:10.3969/j.issn.2095-1329.2018.03.001.
[2] 郭泽喆. 我国住宅合作社制度异化的表现、成因及破解之策[J]. 上海国土资源,2018,39(3):10-14,33.Guo Z Z. The manifestation, cause, and solution of the alienation of China's housing cooperative system[J].Shanghai Land &Resources, 2018,39(3):10-14,33. doi:10.3969/j.issn.2095-1329.2018.03.002.
[3] 谷国政,张全景,牛善栋,等. 供给侧结构性改革视角下的农地金融政策创新探讨[J]. 上海国土资源,2018,39(3):15-20,58.Gu G Z, Zhang Q J, Niu S D, et al. Innovation in agricultural land finance policy from the perspective of supply-side structural reform[J].Shanghai Land & Resources, 2018,39(3):15-20,58. doi:10.3969/j.issn.2095-1329.2018.03.003.
[4] 陈振,郭振涛,吕蒙. 地方政府在集体经营性建设用地入市中的利益博弈研究[J]. 上海国土资源,2018,39(3):21-25,53.Chen Z, Guo Z T, Lü M. The bene fit game of local government in the mercantilization of collective-owned commercial construction land[J].Shanghai Land & Resources, 2018,39(3):21-25,53. doi:10.3969/j.issn.2095-1329.2018.03.004.
[5] 朱新帅,巫红霞,黄克龙,等. 集体经营性建设用地流转之政府角色定位研究[J]. 上海国土资源,2018,39(3):26-29.Zhu X Si, Wu H X, Huang K L, et al. The role of government in the circulation of collective profitable construction land[J].Shanghai Land & Resources, 2018,39(3):26-29. doi:10.3969/j.issn.2095-1329.2018.03.005.
[6] 刘奇勇,梁媛. 天津市农村集体经济组织改股份制公司的模式与焦点问题[J]. 上海国土资源,2018,39(3):30-33.Liu Q Y, Liang Y. Advice and focus questions on shareholding system reform patterns of rural collective economics in Tianjin[J].Shanghai Land & Resources, 2018,39(3):30-33. doi:10.3969/j.issn.2095-1329.2018.03.006.
[7] 杨世伦,吴秋原,张赛赛,等. 崇明海岸湿地现状及其在生态岛建设中的作用[J]. 上海国土资源,2018,39(3):34-37.Yang S L, Wu Q Y, Zhang S S, et al. Coastal wetlands in Chongming Island and their role in ecological island construction[J].Shanghai Land & Resources, 2018,39(3):34-37. doi:10.3969/j.issn.2095-1329.2018.03.007.
[8] 马仁锋,窦思敏,候勃. 中国东南沿海村镇生态建设现状与问题辨识[J]. 上海国土资源,2018,39(3):38-44.Ma R F, Dou S M, Hou B. The current situation and problems of ecological construction of villages and towns in southeastern coastal areas of China[J].Shanghai Land & Resources, 2018,39(3):38-44. doi:10.3969/j.issn.2095-1329.2018.03.008.
[9] 王敬,李秀霞. 吉林省白城市土地生态系统服务价值研究[J]. 上海国土资源,2018,39(3):45-48,63.Wang J, Li X X. Land ecosystem service value of Baicheng City in Jilin Province[J].Shanghai Land & Resources, 2018,39(3):45-48,63. doi:10.3969/j.issn.2095-1329.2018.03.009.
[10] 张红,龙腾. 上海松江新浜镇土地整治项目景观生态设计及其实践[J]. 上海国土资源,2018,39(3):49-53.Zhang H, Long T. Landscape ecological design and practice of land consolidation project in Xinbang town, Songjiang district,Shanghai[J].Shanghai Land & Resources, 2018,39(3):49-53. doi:10.3969/j.issn.2095-1329.2018.03.010.
[11] 石忆邵,曹向阳,石棕根. 世界大湖区资源环境协同发展及对环洞庭湖区的启示[J]. 上海国土资源,2018,39(3):54-58.Shi Y S, Cao X Y, Shi Z G. The development experience of synergy with resources and environment in the world’s major lakes region and the enlightenment to the Dongting Lake District[J].Shanghai Land & Resources, 2018,39(3):54-58. doi:10.3969/j.issn.2095-1329.2018.03.011.
[12] 朱蕾. 上海市人地关系协调性分析和优化调控[J]. 上海国土资源,2018,39(3):59-63.Zhu L. A coordination analysis and optimal regulation of human-land relationships in Shanghai[J].Shanghai Land & Resources,2018,39(3):59-63. doi:10.3969/j.issn.2095-1329.2018.03.012.
[13] 徐保根,韩璐,邵雅萍. 基于集对分析的土地生态补偿标准评估方法研究[J]. 上海国土资源,2018,39(3):64-68,77.Xu B G, Han L, Shao Y P. Evaluation method of land eco-compensation standard based on set pair analysis[J].Shanghai Land &Resources, 2018,39(3):64-68,77. doi:10.3969/j.issn.2095-1329.2018.03.013.
[14] 杨静,张德礼. 适应自然资源统一管理的林地调查标准研究[J]. 上海国土资源,2018,39(3):69-72.Yang J, Zhang D L. Study on the standards of forestland investigation for the uni fied management of natural resources[J].Shanghai Land & Resources, 2018,39(3):69-72. doi:10.3969/j.issn.2095-1329.2018.03.014.
[15] 王直民,鲍海君,黄莉. 城市地下空间开发利用中的桩基冲突及其规制[J]. 上海国土资源,2018,39(3):73-77.Wang Z M, Bao H J, Huang L. Research on con flict and regulation of pile foundation in urban underground space development[J].Shanghai Land & Resources, 2018,39(3):73-77. doi:10.3969/j.issn.2095-1329.2018.03.015.
[16] 李伟芳,毛菁旭. 城乡一体化背景下上海农村居民点时空变化研究[J]. 上海国土资源,2018,39(3):78-82,94.Li W F, Mao J X. Spatial and temporal changes of rural residential areas in Shanghai under urban-rural integration[J].ShanghaiLand & Resources, 2018,39(3):78-82,94. doi:10.3969/j.issn.2095-1329.2018.03.016.
[17] 潘兰平,宋小冬,钮心毅. 大数据支持下的超大城市职住平衡研究[J]. 上海国土资源,2018,39(3):83-86.Pan L P, Song X D, Niu X Y. Jobs-housing balance in a megacity based on big data[J].Shanghai Land & Resources,2018,39(3):83-86. doi:10.3969/j.issn.2095-1329.2018.03.017.
[18] 李帅,喻瑶,许珠,等. 开发区工业用地边际效益测算与规模控制研究[J]. 上海国土资源,2018,39(3):87-90,109.Li S, Yu Y, Xu Z, et al. The measure of marginal bene fit and scale control of industrial land in a development zone[J]. Shanghai Land & Resources, 2018,39(3):87-90,109. doi:10.3969/j.issn.2095-1329.2018.03.018.
[19] 楼江,吴玥. 建设用地减量化潜力测算方法研究——以上海市浦东新区为例[J]. 上海国土资源,2018,39(3):91-94.Lou J, Wu Y. The measurement method of construction land reduction potential: the case of Pudong New Area in Shanghai[J].Shanghai Land & Resources, 2018,39(3):91-94. doi:10.3969/j.issn.2095-1329.2018.03.019.
[20] 许伟. 上海土地利用总体规划编制中多元数据集成应用研究[J]. 上海国土资源,2018,39(3):95-99.Xu W. The application of multivariate data integration in the compilation of land-use master plans in Shanghai[J].Shanghai Land& Resources, 2018,39(3):95-99. doi:10.3969/j.issn.2095-1329.2018.03.020.
[21] 胡民锋,谢新朋,余亦奇,等. 武汉市批而未用土地原因分析及对策建议[J]. 上海国土资源,2018,39(3):100-104.Hu M F, Xie X P, Yu Y Q, et al. Formation mechanism and countermeasures for approved but undeveloped land of Wuhan[J].Shanghai Land & Resources, 2018,39(3):100-104. doi:10.3969/j.issn.2095-1329.2018.03.021.
[22] 曾新,鲍海君,韩璐. 乡村旅游发展中的耕地保护问题——以江西省为例[J]. 上海国土资源,2018,39(3):105-109.Zeng X, Bao H J, Han L. The problem of cultivated land protection in the development of rural tourism: taking Jiangxi Province as an example[J].Shanghai Land & Resources, 2018,39(3):105-109. doi:10.3969/j.issn.2095-1329.2018.03.022.
[23] 龙腾. 上海土地整治智能化技术及其发展方向探讨[J]. 上海国土资源,2018,39(3):110-113.Long T. The discussion on technology and its development direction of land consolidation intelligentization in Shanghai[J].Shanghai Land & Resources, 2018,39(3):110-113. doi:10.3969/j.issn.2095-1329.2018.03.023.
[24] “城市地质上海研讨会”图文报导[J]. 上海国土资源,2018,39(3):封3.News reporting of Shanghai Conference on Urban Geology[J].Shanghai Land & Resources, 2018,39(3): cover 3.doi:10.3969/j.issn.2095-1329.2018.03.024.
[1] 谢建磊. 上海及邻区地震活动特征及地震构造区划[J]. 上海国土资源,2018,39(4):1-6.XIE J L. Seismic activity characteristics and seismotectonic province division of Shanghai and nearby regions [J].Shanghai Land& Resources, 2018,39(4):1-6. doi:10.3969/j.issn.2095-1329.2018.04.001.
[2] 程宏超,魏永霞,李志刚. 安徽省区域地壳稳定性评价[J]. 上海国土资源,2018,39(4):7-12.Cheng H C, Wei Y X, Li Z G. Estimation of regional crustal stability in Anhui Province[J].Shanghai Land & Resources,2018,39(4):7-12. doi:10.3969/j.issn.2095-1329.2018.04.002.
[3] 杨明桂,祝平俊,王光辉. 论华南构造—成矿单元划分[J]. 上海国土资源,2018,39(4):13-18,24.Yang M G, Zhu P J, Wang G H. Division of tectonic-metallogenetic units in South China[J].Shanghai Land & Resources,2018,39(4):13-18,24. doi:10.3969/j.issn.2095-1329.2018.04.003.
[4] 陈铖,陈四宝,成绪光. 江西蒙山地区石竹山—樟木桥矿区硅灰石地质特征及成因探讨[J]. 上海国土资源,2018,39(4):19-24.Chen C, Chen S B, Cheng X G. Geological characteristics and genesis of a wollastonite mineral deposit in the Shizhushan-Zhangmuqiao, Mengshan area of Jiangxi[J].Shanghai Land & Resources, 2018,39(4):19-24. doi:10.3969/j.issn.2095-1329.2018.04.004.
[5] 魏永耀,杭冰,花修权. 新形势下江苏城市地质未来工作方向及战略思考[J]. 上海国土资源,2018,39(4):25-29.Wei Y Y, Hang B, Hua X Q. Future work direction and strategic thinking of urban geology in Jiangsu province under the new situation[J].Shanghai Land & Resources, 2018,39(4):25-29. doi:10.3969/j.issn.2095-1329.2018.04.005.
[6] 黄海峰,陈洪阳,陈太聪,等. 上海某多环芳烃污染地块健康风险评估研究[J]. 上海国土资源,2018,39(4):30-34,38.Huang H F, Chen H Y, Chen T C, et al. Health risk assessment of a PAH-contaminated site in Shanghai[J].Shanghai Land &Resources, 2018,39(4):30-34,38. doi:10.3969/j.issn.2095-1329.2018.04.006.
[7] 葛佳. 铅污染场地的人类健康风险评估及应用实例[J]. 上海国土资源,2018,39(4):35-38.Ge J. Human health risk assessment and application of lead-contaminated sites[J].Shanghai Land & Resources, 2018,39(4):35-38.doi:10.3969/j.issn.2095-1329.2018.04.007.
[8] 董聪慧,张惠,何开泰,等. 某场地环境调查项目中土壤pH异常的原因探究[J]. 上海国土资源,2018,39(4):39-43.Dong C H, Zhang H, He K T, et al. Reasons for abnormal soil pH in a site environment investigation project[J].Shanghai Land &Resources, 2018,39(4):39-43. doi:10.3969/j.issn.2095-1329.2018.04.008.
[9] 曹丽亚. 河道底泥重金属污染的原位修复方法综述[J]. 上海国土资源,2018,39(4):44-47.Cao L Y. An in-situ remediation technology for heavy-metal-contaminated river sediments[J].Shanghai Land & Resources,2018,39(4):44-47. doi:10.3969/j.issn.2095-1329.2018.04.009.
[10] 汤华英. 固定稳定化技术于某重金属污染场地的修复应用[J]. 上海国土资源,2018,39(4):48-50.Tang H Y. Remediation application of fixed stabilization technology in a heavy-metal-contaminated site[J].Shanghai Land &Resources, 2018,39(4):48-50. doi:10.3969/j.issn.2095-1329.2018.04.010.
[11] 宋刚练. 岩土施工技术应用于污染场地修复中的问题及研究[J]. 上海国土资源,2018,39(4):51-54.Song G L. Application of a certain geotechnical construction technology to the remediation of contaminated sites[J].Shanghai Land & Resources, 2018,39(4):51-54. doi:10.3969/j.issn.2095-1329.2018.04.011.
[12] 李辈辈. 石油污染土壤的生物修复[J]. 上海国土资源,2018,39(4):55-57.Li B B. Bioremediation of oil-contaminated soil[J].Shanghai Land & Resources, 2018,39(4):55-57.doi:10.3969/j.issn.2095-1329.2018.04.012.
[13] 石铭,徐涛,石进. 区域发展中的土地质量保护探讨——以长三角地区为例[J]. 上海国土资源,2018,39(4):58-61.Shi M, Xu T, Shi J. Land quality protection in regional development: A case study of the Yangtze River delta region[J].Shanghai Land & Resources, 2018,39(4):58-61. doi:10.3969/j.issn.2095-1329.2018.04.013.
[14] 刘雨,李梦婵,朱梦菡. 新时代省级矿产资源规划环境影响评价探讨[J]. 上海国土资源,2018,39(4):62-64,84.Liu Y, Li M C, Zhu M H. Environmental impact assessment of provincial mineral resources planning in the new age[J].Shanghai Land & Resources, 2018,39(4):62-64,84. doi:10.3969/j.issn.2095-1329.2018.04.014.
[15] 杨明桂,余忠珍,唐维新,等. 论深地找矿攻略[J]. 上海国土资源,2018,39(4):65-74.Yang M G, Yu Z Z, Tang W X, et al. A strategy for deep prospecting[J].Shanghai Land & Resources, 2018,39(4):65-74.doi:10.3969/j.issn.2095-1329.2018.04.015.
[16] 于仲坤,丁飞,赵洪. 西湖凹陷构造演化特征及油气运聚单元划分[J]. 上海国土资源,2018,39(4):75-78.Yu Z K, Ding F, Zhao H. Characteristics of structural evolution and classification of hydrocarbon migration and accumulation units in Xihu Sag, China[J].Shanghai Land & Resources, 2018,39(4):75-78. doi:10.3969/j.issn.2095-1329.2018.04.016.
[17] 黄鑫. 胶东范家庄金矿围岩蚀变特征及与金矿化关系[J]. 上海国土资源,2018,39(4):79-84.Huang X. Characteristics of surrounding rock alteration and their relationship to gold mineralization in the Fanjiazhuang gold deposit, Jiaodong[J].Shanghai Land & Resources, 2018,39(4):79-84. doi:10.3969/j.issn.2095-1329.2018.04.017.
[18] 陈熠,汤国平,张运涛. 赞比亚东部省宁巴多金属铜矿成矿模式探讨[J]. 上海国土资源,2018,39(4):85-89.Chen Y, Tang G P, Zhang Y T. A mineralization model of the Nymbia copper polymetallic ore in the Eastern Province of Zambia[J].Shanghai Land & Resources, 2018,39(4):85-89. doi:10.3969/j.issn.2095-1329.2018.04.018.
[19] 江海洋,王树星,刘连,等. 沂沭断裂带临沂段地热资源水化学及环境同位素特征[J]. 上海国土资源,2018,39(4):90-94 Jiang H Y, Wang S X, Liu L, et al. Hydrochemical and environmentalisotopiccharacteristics of geothermal resources in the Linyi segment of the Yishu fault zone[J].Shanghai Land & Resources, 2018,39(4):90-94. doi:10.3969/j.issn.2095-1329.2018.04.019.
[20] 钱俊锋,毛昌伟,王海宝,等. 浙江构造裂隙型带状热储地热及其勘查靶区预测[J]. 上海国土资源,2018,39(4):95-98.Qiao J F, Mao C W, Wang H B, et al. Geothermal resources of ribbon heat storage of a structural crevice type and its prospecting target area forecast in Zhejiang[J].Shanghai Land & Resources, 2018,39(4):95-98. doi:10.3969/j.issn.2095-1329.2018.04.020.
[21] 郑开富,石铭. 江苏宝应地区热储类型与勘探前景[J]. 上海国土资源,2018,39(4):99-102,106.Zheng K F, Shi M. Thermal reservoir type and exploration prospect in the Baoying area of Jiangsu[J].Shanghai Land & Resources,2018,39(4):99-102,106. doi:10.3969/j.issn.2095-1329.2018.04.021.
[22] 张凯,王少龙,高志强,等. 宿州市地下水应急水源地研究[J]. 上海国土资源,2018,39(4):103-106.Zhang K, Wang S L, Gao Z Q, et al. An emergency groundwater source in Suzhou, Anhui province[J].Shanghai Land &Resources, 2018,39(4):103-106. doi:10.3969/j.issn.2095-1329.2018.04.022.
[23] 王海芹,陈莉,刘继梅,等. 山东胶东金矿综合信息矿产预测[J]. 上海国土资源,2018,39(4):107-111.Wang H Q, Chen L, Liu J M, et al. Comprehensive data regarding mineral prediction for gold mining in the Jiaodong area,Shandong province[J].Shanghai Land & Resources, 2018,39(4):107-111. doi:10.3969/j.issn.2095-1329.2018.04.023.
[24] 张超,郭宝奎,胡戈,等. 遥感解译在鲁西龙宝山地区隐伏金矿预测中的应用[J]. 上海国土资源,2018,39(4):112-116.Zhang C, Guo B K, Hu G, et al. Application of remote-sensing interpretation to metallogenic prognosis of concealed gold deposits in the Longbaoshan area, west Shandong province[J].Shanghai Land & Resources, 2018,39(4):112-116.doi:10.3969/j.issn.2095-1329.2018.04.024.
[25] 王先广,胡正华. 江西省朱溪世界最大钨铜矿找矿科技创新[J]. 上海国土资源,2018,39(4):117-121.Wang X G, Hu Z H. Technological innovation in prospecting the world's largest tungsten copper deposit in Zhuxi, Jiangxi[J].Shanghai Land & Resources, 2018,39(4):117-121. doi:10.3969/j.issn.2095-1329.2018.04.025.
[26] 黄鑫磊. 基于地面沉降控制的基坑围护与工程降水一体化设计方法与应用[J]. 上海国土资源,2018,39(4):122-125.Huang X L. Design method and application research of a foundation pit enclosure and dewatering integration system for land subsidence control[J].Shanghai Land & Resources, 2018,39(4):122-125. doi:10.3969/j.issn.2095-1329.2018.04.026.
[27] 陶建华. 宿州市地下水漏斗现状及成因分析[J]. 上海国土资源,2018,39(4):126-129.Tao J H. Analysis of groundwater depression cone status and causes in Suzhou, Anhui province[J].Shanghai Land & Resources,2018,39(4):126-129. doi:10.3969/j.issn.2095-1329.2018.04.027.
[28] 陈敏,何招智,袁家余. 上海地区地面塌陷形成机理分析研究[J]. 上海国土资源,2018,39(4):130-133,169.Chen M, He Z Z, Yuan J Y. Analysis of the formation mechanism of ground collapse in Shanghai[J].Shanghai Land & Resources,2018,39(4):130-133,169. doi:10.3969/j.issn.2095-1329.2018.04.028.
[29] 戚惠民. 沪通铁路项目地质灾害危险性多因素风险评估[J]. 上海国土资源,2018,39(4):134-139.Qi H M. Multi-factor risk assessment for the geological disaster of Shanghai-Nantong railway[J].Shanghai Land & Resources,2018,39(4):134-139. doi:10.3969/j.issn.2095-1329.2018.04.029.
[30] 黄毅,程远金,谢金元,等. 地质灾害野外判别方法探讨[J]. 上海国土资源,2018,39(4):140-143.Huang Y, Cheng Y J, Xie J Y, et al. Geological hazard recognition during field work[J].Shanghai Land & Resources,2018,39(4):140-143. doi:10.3969/j.issn.2095-1329.2018.04.030.
[31] 林金洪,曾庆浪,陈冬冬. 周宁抽水蓄能电站地下厂房岩爆的预测及处理[J]. 上海国土资源,2018,39(4):144-147.Lin J H, Zeng Q L, Chen D D. Prediction and treatment of rockburst in the underground powerhouse of the Zhouning pumped storage power station[J].Shanghai Land & Resources, 2018,39(4):144-147. doi:10.3969/j.issn.2095-1329.2018.04.031.
[32] 余忠,梅宗明,吴博. 边坡位移自动监测系统在桐庐县某工程中的应用[J]. 上海国土资源,2018,39(4):148-151.Yu Z, Mei Z M, Wu B. Application of an automatic slope displacement monitoring system in an engineering project in Tonglu[J].Shanghai Land & Resources, 2018,39(4):148-151. doi:10.3969/j.issn.2095-1329.2018.04.032.
[33] 蔡志川,向钒. 垂直型固定式测斜仪在安徽省阳台滑坡监测中的应用[J]. 上海国土资源,2018,39(4):152-155.Cai Z C, Xiang F. Application of a vertically fixed inclinometer for Yangtai landslide monitoring in Anhui[J].Shanghai Land &Resources, 2018,39(4):152-155. doi:10.3969/j.issn.2095-1329.2018.04.033.
[34] 龚崇辉. 各型无人机地质环境监测应用实践与探讨[J]. 上海国土资源,2018,39(4):156-160.Gong C H. Application and discussion of geological environmental monitoring using various UAVs[J].Shanghai Land &Resources, 2018,39(4):156-160. doi:10.3969/j.issn.2095-1329.2018.04.034.
[35] 何维卿,刘昶. 基于GPS伪距观测值的三种随机模型比较[J]. 上海国土资源,2018,39(4):161-164.He W Q, Liu C. A comparison three stochastic models based on GPS pseudorange observation[J].Shanghai Land & Resources,2018,39(4):161-164. doi:10.3969/j.issn.2095-1329.2018.04.035.
[36] 杨章贤. 基于标准曲线配线法的野外弥散试验求解[J]. 上海国土资源,2018,39(4):165-169.Yang Z X. Solution of a field dispersion test based on the standard curve distribution method[J].Shanghai Land & Resources,2018,39(4):165-169. doi:10.3969/j.issn.2095-1329.2018.04.036.
[37] 索漓. 地面高精度磁法在松阳地区的应用[J]. 上海国土资源,2018,39(4):170-174,183.Suo L. Application of a high-precision ground magnetic method in Songyang[J].Shanghai Land & Resources, 2018,39(4):170-174,183. doi:10.3969/j.issn.2095-1329.2018.04.037.
[38] 何龙飞. 大直径贯通式风动潜孔锤在破碎复杂地层中的应用研究[J]. 上海国土资源,2018,39(4):175-177,180.He L F. Application of run-through DTH in a complicated broken stratum[J].Shanghai Land & Resources, 2018,39(4):175-177,180. doi:10.3969/j.issn.2095-1329.2018.04.038.
[39] 蒋珏超,王可新,王波. 浅谈江苏某煤炭地质单位知识产权人才队伍的问题与建议[J]. 上海国土资源,2018,39(4):178-180.Jiang J C, Wang K X, Wang B. Problems and suggestions of an intellectual property talent team of a coal geology unit in Jiangsu Province[J].Shanghai Land & Resources, 2018,39(4):178-180. doi:10.3969/j.issn.2095-1329.2018.04.039.
[40] 张晓,王可新. 地勘单位科技创新的措施研究[J]. 上海国土资源,2018,39(4):181-183.Zhang X, Wang K X. Measures for scientific and technological innovation in geological exploration units[J].Shanghai Land &Resources, 2018,39(4):181-183. doi:10.3969/j.issn.2095-1329.2018.04.040.
[41] 第五届全国地面沉降防治学术研讨会 在南京大学成功举办[J]. 上海国土资源,2018,39(4):封3.doi:10.3969/j.issn.2095-1329.2018.04.041.
[42] 上海国土资源 2018年第39卷总目次[J]. 上海国土资源,2018,39(4):I-VII. doi:10.3969/j.issn.2095-1329.2018.04.042.