第1期（2018年3月30日出版）

國土論壇 (Forum of Land Resources)

[1] 黃小虎. 利用集體建設用地建設租賃住房—— 一個舉重若輕的大手筆[J]. 上海國土資源,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.

土地研究 (Land Research)

[2] 張洪武,張瑋,王莉莉,等. 土地利用與綠色發(fā)展——“土地與未來上海國際研討會”報告觀點綜述[J]. 上海國土資源,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] 張成玉. 我國土地流轉形式的未來選擇[J]. 上海國土資源,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] 鄭義,周豐,王耀峰. 儲備新規(guī)下存量土地的市場化配置——以武漢市委托交易制度為例[J]. 上海國土資源,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] 郭淑紅. 上海建設用地減量化實施策略研究[J]. 上海國土資源,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] 劉靜,閆玉玉. 建設用地雙控背景下的農(nóng)村土地綜合整治策略轉型——以上海為例[J]. 上海國土資源,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] 邵姝遙,李加林. 四明山區(qū)域農(nóng)村居民點景觀格局變化及特征研究[J]. 上海國土資源,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] 繆連榮,任麗軍,吳菲. 基于灰色關聯(lián)分析的耕地后備資源開發(fā)決策研究——以江蘇省泗陽縣為例[J]. 上海國土資源,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] 陳銘,關濤,滕龍妹. 土地質量地球化學調(diào)查成果在浙江省土地利用規(guī)劃編制中的應用研究[J]. 上海國土資源,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,朱從謀,李勝男. 基于格網(wǎng)尺度的杭州城西產(chǎn)業(yè)集聚區(qū)土地利用格局變化及熱點分析[J]. 上海國土資源,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. 基于生長氣候分區(qū)的土地利用農(nóng)作物種植面積快速提取研究——以南京市油菜種植面積提取為例[J]. 上海國土資源,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] 謝火艷,唐婉. 基于遙感影像的廣州南沙區(qū)土地利用動態(tài)變化分析[J]. 上海國土資源,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.

城市地質 (Urban Geology)

[13] 強海洋. 北京市地熱資源開發(fā)利用問題研究[J]. 上海國土資源,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,嚴學新,何中發(fā),等. 上海海岸帶地質工作主要成果與應用[J]. 上海國土資源,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] 馬仁鋒,竇思敏,候勃,等. 海岸帶自然資源資產(chǎn):概念、計量與浙江案例[J]. 上海國土資源,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] 何中發(fā). 長江口及近岸海域沉積物元素地球化學背景值[J]. 上海國土資源,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] 馬驊,鐘煌亮,羅章,等. 基于Landsat 8的長江口懸浮泥沙濃度遙感反演[J]. 上海國土資源,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] 張惠,陳敏,董聰慧. 寬域灰色聚類法在減量化用地復墾場地土壤環(huán)境質量評價中的應用[J]. 上海國土資源,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] 趙洪,蔣一鳴,常吟善,等. 西湖凹陷平湖組基于沉積相標志的沉積特征研究[J]. 上海國土資源,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] 連小翠. 東海陸架盆地沉降中心遷移演化機制[J]. 上海國土資源,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.

簡訊公告 (Information)

[21] “土地與未來上海國際研討會”圖片報導[J]. 上海國土資源,2018,39(1):封2. doi:10.3969/j.issn.2095-1329.2018.01.021.

[22] “第五屆全國地面沉降防治學術研討會”征文啟事[J]. 上海國土資源,2018,39(1):封3. doi:10.3969/j.issn.2095-1329.2018.01.022.

第2期（2018年6月30日出版）

國土論壇 (Forum of Land)

[1] 黃賢金. 中國土地制度改革40年與城鄉(xiāng)融合的發(fā)展之路[J]. 上海國土資源,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.

土地研究 (Land Research)

[2] 張禾裕,葉艷妹,譚勇,等. 我國土地調(diào)查標準化建設進程及展望[J]. 上海國土資源,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,秦濤. 新形勢下土地利用總體規(guī)劃變革[J]. 上海國土資源,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] 張瑋. 上海市新一輪土地利用總體規(guī)劃實施管理思考[J]. 上海國土資源,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] 韓玉蓮,趙玉巖. 長江三角洲城鎮(zhèn)建設用地擴展特征及驅動力研究[J]. 上海國土資源,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] 王深紅,李秀霞. 城市土地集約利用與社會經(jīng)濟時空耦合協(xié)調(diào)發(fā)展研究[J]. 上海國土資源,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] 李若潔,崔許鋒. 武漢市新型城鎮(zhèn)化發(fā)展水平評價及其障礙因素研究[J]. 上海國土資源,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] 范紫靈,周侗,王秋蘇,等. 基于Landsat的南通市建成區(qū)擴展研究[J]. 上海國土資源,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] 黃莉,王直民,鮑海君,等. 城市地下空間的資源屬性與開發(fā)特性分析[J]. 上海國土資源,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] 高飛,余蒙,胡小華,等. 地下空間不動產(chǎn)單元劃分與編碼技術研究[J]. 上海國土資源,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,李寧,孟成,等. 省級國土空間基礎信息平臺數(shù)據(jù)資源體系建設研究[J]. 上海國土資源,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,賈琛琛,吳茗華,等. 基于DPSIR模型的基本農(nóng)田生態(tài)安全評價研究[J]. 上海國土資源,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,唐學瓊. 鄉(xiāng)村產(chǎn)業(yè)發(fā)展及用地管理問題探討[J]. 上海國土資源,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] 閆玉玉,席珊珊. 市地整治之德日韓經(jīng)驗及其借鑒意義[J]. 上海國土資源,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.

城市地質 (Urban Geology)

[15] 楊天亮. 深基坑減壓降水地面沉降控制綜合分區(qū)方法研究[J]. 上海國土資源,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,楊石飛,蘇輝,等. 流固耦合在深層承壓水降水及環(huán)境影響分析中的應用[J]. 上海國土資源,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] 鄭琳. 基于大型頂管穿越高速公路的環(huán)境影響分析[J]. 上海國土資源,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] 李韜. 上海地區(qū)淺部水文地質條件對地下水污染物遷移的影響研究[J]. 上海國土資源,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] 施剛. 軟土地區(qū)基坑開挖現(xiàn)場抽水試驗數(shù)值模擬研究[J]. 上海國土資源,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. 上海地區(qū)地源熱泵系統(tǒng)巖土熱物性參數(shù)測試分析[J]. 上海國土資源,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] 王遠,王治華. 利用探地雷達時距曲線求取介質介電常數(shù)及其應用[J]. 上海國土資源,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] 劉建斌,趙洪,唐賢君,等. 地震地質綜合解釋技術在東海西湖凹陷A氣田的應用[J]. 上海國土資源,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] 姜劍峰,牟建華. 基于紅外熱像技術的上?；鶐r殘丘地質災害隱患調(diào)查[J]. 上海國土資源,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] 陳功亮,陳艷華,朱律. 上海市地下管線全生命周期地理信息系統(tǒng)的設計與實現(xiàn)[J]. 上海國土資源,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.

簡訊公告 (Information)

[25] 龔士良. 第十屆國際地面沉降學術研討會 將于2020年4月20-24日在荷蘭召開[J]. 上海國土資源,2018,39(2):12.doi:10.3969/j.issn.2095-1329.2018.02.025.

第3期（2018年9月30日出版）

國土論壇 (Forum of Land)

[1] 宗仁. 中國農(nóng)村合作社的前世今生與土地制度創(chuàng)新[J]. 上海國土資源,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.

地政研究 (Research of Land Policy)

[2] 郭澤喆. 我國住宅合作社制度異化的表現(xiàn)、成因及破解之策[J]. 上海國土資源,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] 谷國政,張全景,牛善棟,等. 供給側結構性改革視角下的農(nóng)地金融政策創(chuàng)新探討[J]. 上海國土資源,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] 陳振,郭振濤,呂蒙. 地方政府在集體經(jīng)營性建設用地入市中的利益博弈研究[J]. 上海國土資源,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] 朱新帥,巫紅霞,黃克龍,等. 集體經(jīng)營性建設用地流轉之政府角色定位研究[J]. 上海國土資源,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] 劉奇勇,梁媛. 天津市農(nóng)村集體經(jīng)濟組織改股份制公司的模式與焦點問題[J]. 上海國土資源,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.

土地生態(tài) (Land Ecology)

[7] 楊世倫,吳秋原,張賽賽,等. 崇明海岸濕地現(xiàn)狀及其在生態(tài)島建設中的作用[J]. 上海國土資源,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] 馬仁鋒,竇思敏,候勃. 中國東南沿海村鎮(zhèn)生態(tài)建設現(xiàn)狀與問題辨識[J]. 上海國土資源,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態(tài)系統(tǒng)服務價值研究[J]. 上海國土資源,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] 張紅,龍騰. 上海松江新浜鎮(zhèn)土地整治項目景觀生態(tài)設計及其實踐[J]. 上海國土資源,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] 石憶邵,曹向陽,石棕根. 世界大湖區(qū)資源環(huán)境協(xié)同發(fā)展及對環(huán)洞庭湖區(qū)的啟示[J]. 上海國土資源,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. 上海市人地關系協(xié)調(diào)性分析和優(yōu)化調(diào)控[J]. 上海國土資源,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,韓璐,邵雅萍. 基于集對分析的土地生態(tài)補償標準評估方法研究[J]. 上海國土資源,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.

土地利用 (Land Use)

[14] 楊靜,張德禮. 適應自然資源統(tǒng)一管理的林地調(diào)查標準研究[J]. 上海國土資源,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,鮑海君,黃莉. 城市地下空間開發(fā)利用中的樁基沖突及其規(guī)制[J]. 上海國土資源,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] 李偉芳,毛菁旭. 城鄉(xiāng)一體化背景下上海農(nóng)村居民點時空變化研究[J]. 上海國土資源,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] 潘蘭平,宋小冬,鈕心毅. 大數(shù)據(jù)支持下的超大城市職住平衡研究[J]. 上海國土資源,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] 李帥,喻瑤,許珠,等. 開發(fā)區(qū)工業(yè)用地邊際效益測算與規(guī)?？刂蒲芯縖J]. 上海國土資源,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] 樓江,吳玥. 建設用地減量化潛力測算方法研究——以上海市浦東新區(qū)為例[J]. 上海國土資源,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] 許偉. 上海土地利用總體規(guī)劃編制中多元數(shù)據(jù)集成應用研究[J]. 上海國土資源,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] 胡民鋒,謝新朋,余亦奇,等. 武漢市批而未用土地原因分析及對策建議[J]. 上海國土資源,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,鮑海君,韓璐. 鄉(xiāng)村旅游發(fā)展中的耕地保護問題——以江西省為例[J]. 上海國土資源,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] 龍騰. 上海土地整治智能化技術及其發(fā)展方向探討[J]. 上海國土資源,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.

會議簡報 (Meeting Bulletin)

[24] “城市地質上海研討會”圖文報導[J]. 上海國土資源,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.

第4期（2018年12月30日出版）

基礎地質 (Fundamental Geology)

[1] 謝建磊. 上海及鄰區(qū)地震活動特征及地震構造區(qū)劃[J]. 上海國土資源,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,李志剛. 安徽省區(qū)域地殼穩(wěn)定性評價[J]. 上海國土資源,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] 楊明桂,祝平俊,王光輝. 論華南構造—成礦單元劃分[J]. 上海國土資源,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] 陳鋮,陳四寶,成緒光. 江西蒙山地區(qū)石竹山—樟木橋礦區(qū)硅灰石地質特征及成因探討[J]. 上海國土資源,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,花修權. 新形勢下江蘇城市地質未來工作方向及戰(zhàn)略思考[J]. 上海國土資源,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.

環(huán)境地質 (Environmental Geology)

[6] 黃海峰,陳洪陽,陳太聰,等. 上海某多環(huán)芳烴污染地塊健康風險評估研究[J]. 上海國土資源,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. 鉛污染場地的人類健康風險評估及應用實例[J]. 上海國土資源,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] 董聰慧,張惠,何開泰,等. 某場地環(huán)境調(diào)查項目中土壤pH異常的原因探究[J]. 上海國土資源,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] 曹麗亞. 河道底泥重金屬污染的原位修復方法綜述[J]. 上海國土資源,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] 湯華英. 固定穩(wěn)定化技術于某重金屬污染場地的修復應用[J]. 上海國土資源,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] 宋剛練. 巖土施工技術應用于污染場地修復中的問題及研究[J]. 上海國土資源,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] 李輩輩. 石油污染土壤的生物修復[J]. 上海國土資源,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] 石銘,徐濤,石進. 區(qū)域發(fā)展中的土地質量保護探討——以長三角地區(qū)為例[J]. 上海國土資源,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] 劉雨,李夢嬋,朱夢菡. 新時代省級礦產(chǎn)資源規(guī)劃環(huán)境影響評價探討[J]. 上海國土資源,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.

資源礦產(chǎn) (Mineral Resources)

[15] 楊明桂,余忠珍,唐維新,等. 論深地找礦攻略[J]. 上海國土資源,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,丁飛,趙洪. 西湖凹陷構造演化特征及油氣運聚單元劃分[J]. 上海國土資源,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] 黃鑫. 膠東范家莊金礦圍巖蝕變特征及與金礦化關系[J]. 上海國土資源,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] 陳熠,湯國平,張運濤. 贊比亞東部省寧巴多金屬銅礦成礦模式探討[J]. 上海國土資源,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,王樹星,劉連,等. 沂沭斷裂帶臨沂段地熱資源水化學及環(huán)境同位素特征[J]. 上海國土資源,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] 錢俊鋒,毛昌偉,王海寶,等. 浙江構造裂隙型帶狀熱儲地熱及其勘查靶區(qū)預測[J]. 上海國土資源,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] 鄭開富,石銘. 江蘇寶應地區(qū)熱儲類型與勘探前景[J]. 上海國土資源,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] 張凱,王少龍,高志強,等. 宿州市地下水應急水源地研究[J]. 上海國土資源,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,陳莉,劉繼梅,等. 山東膠東金礦綜合信息礦產(chǎn)預測[J]. 上海國土資源,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] 張超,郭寶奎,胡戈,等. 遙感解譯在魯西龍寶山地區(qū)隱伏金礦預測中的應用[J]. 上海國土資源,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] 王先廣,胡正華. 江西省朱溪世界最大鎢銅礦找礦科技創(chuàng)新[J]. 上海國土資源,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.

災害防治 (Geological Disaster Prevention and Control)

[26] 黃鑫磊. 基于地面沉降控制的基坑圍護與工程降水一體化設計方法與應用[J]. 上海國土資源,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] 陶建華. 宿州市地下水漏斗現(xiàn)狀及成因分析[J]. 上海國土資源,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] 陳敏,何招智,袁家余. 上海地區(qū)地面塌陷形成機理分析研究[J]. 上海國土資源,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. 滬通鐵路項目地質災害危險性多因素風險評估[J]. 上海國土資源,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] 黃毅,程遠金,謝金元,等. 地質災害野外判別方法探討[J]. 上海國土資源,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,曾慶浪,陳冬冬. 周寧抽水蓄能電站地下廠房巖爆的預測及處理[J]. 上海國土資源,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.

方法技術 (Methods and Techniques)

[32] 余忠,梅宗明,吳博. 邊坡位移自動監(jiān)測系統(tǒng)在桐廬縣某工程中的應用[J]. 上海國土資源,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,向釩. 垂直型固定式測斜儀在安徽省陽臺滑坡監(jiān)測中的應用[J]. 上海國土資源,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] 龔崇輝. 各型無人機地質環(huán)境監(jiān)測應用實踐與探討[J]. 上海國土資源,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] 何維卿,劉昶. 基于GPS偽距觀測值的三種隨機模型比較[J]. 上海國土資源,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] 楊章賢. 基于標準曲線配線法的野外彌散試驗求解[J]. 上海國土資源,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陽地區(qū)的應用[J]. 上海國土資源,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] 何龍飛. 大直徑貫通式風動潛孔錘在破碎復雜地層中的應用研究[J]. 上海國土資源,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.

科技管理 (Science and Technology Management)

[39] 蔣玨超,王可新,王波. 淺談江蘇某煤炭地質單位知識產(chǎn)權人才隊伍的問題與建議[J]. 上海國土資源,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] 張曉,王可新. 地勘單位科技創(chuàng)新的措施研究[J]. 上海國土資源,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.

簡報信息 (Brie fing and Information)

[41] 第五屆全國地面沉降防治學術研討會 在南京大學成功舉辦[J]. 上海國土資源,2018,39(4):封3.doi:10.3969/j.issn.2095-1329.2018.04.041.

[42] 上海國土資源 2018年第39卷總目次[J]. 上海國土資源,2018,39(4):I-VII. doi:10.3969/j.issn.2095-1329.2018.04.042.