《上海國(guó)土資源》 2017年 第38卷 總目次
The Total Contents of Shanghai Land & Resources (lSSN 2095-1329) 2017 Vol.38 No.1～No.4

第1期（2017年3月30日出版）

國(guó)土論壇 (Forum of Land Resources)

[1] 陳美球. 完善耕地保護(hù)機(jī)制,構(gòu)建生態(tài)糧倉(cāng)的對(duì)策思考[J]. 上海國(guó)土資源,2017,38(1):1-3.Chen M Q. Measures to perfect protection of cultivated land and construct an ecological granary[J]. Shanghai Land & Resources,2017,38(1):1-3. doi:10.3969/j.issn.2095-1329.2017.01.001.

土地研究 (Land Research)

[2] 關(guān)濤,蔣明利,歐陽(yáng)安蛟,等. 浙江省城市區(qū)域建設(shè)用地節(jié)約集約利用動(dòng)態(tài)變化特征分析及總體趨勢(shì)[J]. 上海國(guó)土資源,2017,38(1):4-8.Guan T, Jiang M L, Ouyang A J, et al. Analysis on the dynamic change characteristics and the general trend of economical and intensive use of urban construction land in Zhejiang[J]. Shanghai Land & Resources, 2017,38(1):4-8. doi:10.3969/j.issn.2095-1329.2017.01.002.

[3] 夏浩,苑韶峰,楊麗霞,等. 基于空間自相關(guān)分析的浙南城市群建設(shè)用地利用效益評(píng)價(jià)與分區(qū)管制[J]. 上海國(guó)土資源,2017,38(1):9-13.Xia H, Yuan S F, Yang L X, et al. The regulated zoning of construction land in the urban agglomeration of south Zhejiang based on spatial autocorrelation analysis[J]. Shanghai Land & Resources, 2017,38(1):9-13. doi:10.3969/j.issn.2095-1329.2017.01.003.

[4] 劉曦,王軍,何曼麗. 基于大數(shù)據(jù)的上海市存量土地開(kāi)發(fā)潛力評(píng)價(jià)[J]. 上海國(guó)土資源,2017,38(1):14-20.Liu X, Wang J, He M L. Evaluating the potential of stock land development in Shanghai based on big data[J]. Shanghai Land &Resources, 2017,38(1):14-20. doi:10.3969/j.issn.2095-1329.2017.01.004.

[5] 吳沅箐. 基于“五量用地法”的建設(shè)用地管控評(píng)估方法研究[J]. 上海國(guó)土資源,2017,38(1):21-24.Wu Y Q. Evaluation construction land management and control based on the “l(fā)and use fi ve-quantity guidelines”[J]. Shanghai Land & Resources, 2017,38(1):21-24. doi:10.3969/j.issn.2095-1329.2017.01.005.

[6] 方勇,王昆. 準(zhǔn)存量建設(shè)用地的困與謀[J]. 上海國(guó)土資源,2017,38(1):25-28.Fang Y, Wang K. The dilemma of preparative stock construction land[J]. Shanghai Land & Resources, 2017,38(1):25-28.doi:10.3969/j.issn.2095-1329.2017.01.006.

[7] 寧秀紅,申樹(shù)云. 基于投入產(chǎn)出法探究上海土地整治投資方向[J]. 上海國(guó)土資源,2017,38(1):29-32,37.Ning X H, Shen S Y. Exploring the investment direction of land consolidation based on the input-output method in Shanghai[J].Shanghai Land & Resources, 2017,38(1):29-32,37. doi:10.3969/j.issn.2095-1329.2017.01.007.

[8] 王莉莉. 存量規(guī)劃背景下容積率獎(jiǎng)勵(lì)及轉(zhuǎn)移機(jī)制設(shè)計(jì)研究[J]. 上海國(guó)土資源,2017,38(1):33-37.Wang L L. Floor area ratio rewards and transfer of development rights under the background of stock[J]. Shanghai Land &Resources, 2017,38(1):33-37. doi:10.3969/j.issn.2095-1329.2017.01.008.

[9] 羅景峰. 鄉(xiāng)村土地旅游化流轉(zhuǎn)風(fēng)險(xiǎn)評(píng)價(jià)指標(biāo)體系構(gòu)建研究[J]. 上海國(guó)土資源,2017,38(1):38-41.Luo J F. Construction of an indexing system for land transfer risk assessment during the development of rural tourism[J]. Shanghai Land & Resources, 2017,38(1):38-41. doi:10.3969/j.issn.2095-1329.2017.01.009.

[10] 宋具蘭,羅海波,吳琳娜,等. 欠發(fā)達(dá)地區(qū)農(nóng)村集體建設(shè)用地流轉(zhuǎn)績(jī)效評(píng)價(jià)[J]. 上海國(guó)土資源,2017,38(1):42-47.Song J L, Luo H B, Wu L N, et al. Performance evaluation of rural collective construction land transfer in underdeveloped areas[J].Shanghai Land & Resources, 2017,38(1):42-47. doi:10.3969/j.issn.2095-1329.2017.01.010.

[11] 盧方方. 上海典型鄉(xiāng)鎮(zhèn)農(nóng)村建設(shè)用地協(xié)調(diào)度與集約利用評(píng)價(jià)[J]. 上海國(guó)土資源,2017,38(1):48-50,54.Lu F F. The evaluation on coordination degree and intensive use of rural construction land in typical towns of Shanghai[J].Shanghai Land & Resources, 2017,38(1):48-50,54. doi:10.3969/j.issn.2095-1329.2017.01.011.

[12] 徐成,崔許鋒. 基于模糊綜合評(píng)價(jià)法的兩規(guī)協(xié)調(diào)性評(píng)價(jià)研究[J]. 上海國(guó)土資源,2017,38(1):51-54.Xu C, Cui X F. Coordinating general land use planning and urban master planning using the fuzzy comprehensive evaluation in the city of Wuhan[J]. Shanghai Land & Resources, 2017,38(1):51-54. doi:10.3969/j.issn.2095-1329.2017.01.012.

[13] 程新艷,張坤. 構(gòu)建長(zhǎng)株潭大城市群過(guò)程中的政府關(guān)系分析[J]. 上海國(guó)土資源,2017,38(1):55-58,64.Cheng X Y, Zhang K. Analysis of government relationships during the process of building urban agglomerations of Changsha-Zhuzhou-Xiangtan[J]. Shanghai Land & Resources, 2017,38(1):55-58,64. doi:10.3969/j.issn.2095-1329.2017.01.013.

[14] 肖小明,陳云,郝品. 三維視角下海口市石山鎮(zhèn)全域旅游規(guī)劃探析[J]. 上海國(guó)土資源,2017,38(1):59-64.Xiao X M, Chen Y, Hao P. Tourism planning under the three-dimensional global view in Shishan town of Haikou[J]. Shanghai Land & Resources, 2017,38(1):59-64. doi:10.3969/j.issn.2095-1329.2017.01.014.

[15] 石憶邵,王安迪. 多倫多市生態(tài)用地變化及影響因素分析[J]. 上海國(guó)土資源,2017,38(1):65-69.Shi Y S, Wang A D. Analysis of ecological land use change and impacting factors in Toronto[J]. Shanghai Land & Resources,2017,38(1):65-69. doi:10.3969/j.issn.2095-1329.2017.01.015.

[16] 阮小春,朱紅梅,張健,等. 長(zhǎng)沙市生態(tài)安全分區(qū)對(duì)比研究[J]. 上海國(guó)土資源,2017,38(1):70-73,78.Ruan X C, Zhu H M, Zhang J, et al. Comparing ecological security in different areas of Changsha[J]. Shanghai Land & Resources,2017,38(1):70-73,78. doi:10.3969/j.issn.2095-1329.2017.01.016.

[17] 孟玫,李秀霞,孟祥健. 四平市自然資源綜合承載力評(píng)價(jià)與預(yù)測(cè)研究[J]. 上海國(guó)土資源,2017,38(1):74-78.Meng M, Li X X, Meng X J. Evaluation and forecast of comprehensive carrying capacity of natural resources in Siping city[J].Shanghai Land & Resources, 2017,38(1):74-78. doi:10.3969/j.issn.2095-1329.2017.01.017.

[18] 孫海波,謝輝,陳嘉,等. 污染土地再開(kāi)發(fā)中的環(huán)境風(fēng)險(xiǎn)與責(zé)任[J]. 上海國(guó)土資源,2017,38(1):79-82,86.Sun H B, Xie H, Chen J, et al. Environmental risk and liability of contaminate land redevelopment[J]. Shanghai Land &Resources, 2017,38(1):79-82,86. doi:10.3969/j.issn.2095-1329.2017.01.018.

城市地質(zhì) (Urban Geology)

[19] 唐益群,尹葉鵬. 循環(huán)荷載作用下軟土中單樁承載及變形特性數(shù)值試驗(yàn)研究[J]. 上海國(guó)土資源,2017,38(1):83-86.Tang Y Q, Yin Y P. Numerical analysis of the bearing and deformation characteristics of a single pile in soft soil under cyclic load[J]. Shanghai Land & Resources, 2017,38(1):83-86. doi:10.3969/j.issn.2095-1329.2017.01.019.

[20] 黃正清. 下?lián)P子盆地構(gòu)造演化特征與頁(yè)巖氣主要富集層位[J]. 上海國(guó)土資源,2017,38(1):87-92.Huang Z Q. Tectonic evolutionary characteristics and the main enriched layers of shale gases in the lower Yangtze basins[J].Shanghai Land & Resources, 2017,38(1):87-92. doi:10.3969/j.issn.2095-1329.2017.01.020.

[21] 趙峰. 面向智慧城市的上海測(cè)繪地理信息服務(wù)對(duì)策思考[J]. 上海國(guó)土資源,2017,38(1):93-95.Zhao F. Thinking on the strategy of Shanghai surveying, mapping and geographic information service for smart city[J]. Shanghai Land & Resources, 2017,38(1):93-95. doi:10.3969/j.issn.2095-1329.2017.01.021.

[22] 秦昌杰,謝敏真. CORS RTK無(wú)驗(yàn)潮水下地形測(cè)量技術(shù)在上海潮灘測(cè)量中的應(yīng)用[J]. 上海國(guó)土資源,2017,38(1):96-99.Qin C J, Xie M Z. Application of CORS RTK underwater topographic survey technology without tidal observation in tidal fl at survey in Shanghai[J]. Shanghai Land & Resources, 2017,38(1):96-99. doi:10.3969/j.issn.2095-1329.2017.01.022.

第2期（2017年6月30日出版）

城市地質(zhì) (Urban Geology)

[1] 楊天亮,許言. 國(guó)際地面沉降與城市安全研究動(dòng)態(tài)——第一屆國(guó)際城市地質(zhì)學(xué)術(shù)研討會(huì)綜述[J]. 上海國(guó)土資源,2017,38(2):1-3.Yang T L, Xu Y. Research trends in international land subsidence and urban security: An overview of the First International Symposium on Urban Geology[J]. Shanghai Land & Resources, 2017,38(2):1-3. doi:10.3969/j.issn.2095-1329.2017.02.001.

[2] 焦珣,王寒梅,楊天亮,等. 考慮不可控因素下的地面沉降防治區(qū)劃研究[J]. 上海國(guó)土資源,2017,38(2):4-8,21.Jiao X, Wang H M, Yang T L, et al. Regionalization of land subsidence prevention based on the consideration of uncontrollable factors[J]. Shanghai Land & Resources, 2017,38(2):4-8,21. doi:10.3969/j.issn.2095-1329.2017.02.002.

[3] 吳懷娜,顧偉華,沈水龍. 區(qū)域地面沉降對(duì)上海地鐵隧道長(zhǎng)期沉降的影響評(píng)估[J]. 上海國(guó)土資源,2017,38(2):9-12,25.Wu H N, Gu W H, Shen S L. Evaluation of the influence of land subsidence on the long-term settlemen tof metro tunnels in Shanghai[J]. Shanghai Land & Resources, 2017,38(2):9-12,25. doi:10.3969/j.issn.2095-1329.2017.02.003.

[4] 羅勇. 北京地面沉降發(fā)展新趨勢(shì)初步分析[J]. 上海國(guó)土資源,2017,38(2):13-17.Luo Y. Research in the new trends of Beijing land subsidence[J]. Shanghai Land & Resources, 2017,38(2):13-17. doi:10.3969/j.issn.2095-1329.2017.02.004.

[5] 羅立紅,白晉娬,呂瀟文,等. 基于長(zhǎng)期監(jiān)測(cè)的天津市地面沉降影響分析[J]. 上海國(guó)土資源,2017,38(2):18-21.Luo L H, Bai J W, Lü X W, et al. Tianjin land subsidence in fl uence factor quantization analysis based on long-term monitoring data[J]. Shanghai Land & Resources, 2017,38(2):18-21. doi:10.3969/j.issn.2095-1329.2017.02.005.

[6] 余革淼,李德洲,屈尚俠. 廣州市軟土地面沉降特征分析[J]. 上海國(guó)土資源,2017,38(2):22-25.Yu G M, Li D Z, Qu S X. Analysis of the land subsidence characteristics of soft soil in Guangzhou[J]. Shanghai Land &Resources, 2017,38(2):22-25. doi:10.3969/j.issn.2095-1329.2017.02.006.

[7] 呂瀟文,宋利,邵興,等. 天津市地面沉降監(jiān)測(cè)技術(shù)應(yīng)用及發(fā)展建議[J]. 上海國(guó)土資源,2017,38(2):26-30.Lü X W, Song L, Shao X, et al. The suggestion and application of land subsidence monitoring in Tianjin[J]. Shanghai Land &Resources, 2017,38(2):26-30. doi:10.3969/j.issn.2095-1329.2017.02.007.

[8] 許言,楊天亮,焦珣,等. 上海地面沉降監(jiān)測(cè)技術(shù)應(yīng)用實(shí)踐[J]. 上海國(guó)土資源,2017,38(2):31-34.Xu Y, Yang T L, Jiao X, et al. Application of land subsidence monitoring technology in Shanghai[J]. Shanghai Land & Resources,2017,38(2):31-34. doi:10.3969/j.issn.2095-1329.2017.02.008.

[9] 趙龍,劉久榮,王榮,等. 北京宋莊地裂縫分布特征及成因分析[J]. 上海國(guó)土資源,2017,38(2):35-38.Zhao L, Liu J R, Wang R, et al. Distribution characteristics and cause analysis of Songzhuang ground fissures in Beijing[J].Shanghai Land & Resources, 2017,38(2):35-38. doi:10.3969/j.issn.2095-1329.2017.02.009.

[10] 王建秀,劉月圓,劉笑天,等. 上海市地下空間地質(zhì)結(jié)構(gòu)及其開(kāi)發(fā)適應(yīng)性[J]. 上海國(guó)土資源,2017,38(2):39-42,53.Wang J X, Liu Y Y, Liu X T, et al. Geological structure of the Shanghai underground space and a preliminary analysis of the development of adaption[J]. Shanghai Land & Resources, 2017,38(2):39-42,53. doi:10.3969/j.issn.2095-1329.2017.02.010.

[11] 方寅琛,龔日祥,李三鳳,等. 基于三維地質(zhì)模型的地下空間開(kāi)發(fā)適宜性評(píng)價(jià)——以嘉興城市地質(zhì)調(diào)查工作為例[J]. 上海國(guó)土資源,2017,38(2):43-45.Fang Y C, Gong R X, Li S F, et al. Suitability evaluation of underground space development based on a three-dimensional geological model,using the Jiaxing urban geological survey as an example[J]. Shanghai Land & Resources, 2017,38(2):43-45.doi:10.3969/j.issn.2095-1329.2017.02.011.

[12] 鐘秋娟,肖興,汪凡,等. 鄱陽(yáng)湖濱湖區(qū)淺層地下水鎘元素分布特征及成因分析[J]. 上海國(guó)土資源,2017,38(2):46-48.Zhong Q J, Xiao X, Wang F, et al. Cadmium distribution characteristics and causes of shallow groundwater in lakeside area of Poyang Lake[J]. Shanghai Land & Resources, 2017,38(2):46-48. doi:10.3969/j.issn.2095-1329.2017.02.012.

[13] 李懿淼,李茂田,艾威,等. 長(zhǎng)江流域水庫(kù)“泥沙過(guò)濾器”效應(yīng)對(duì)溶解硅的滯留行為[J]. 上海國(guó)土資源,2017,38(2):49-53.Li Y M, Li M T, Ai W, et al. Sediment fi lter effect on dissolved silica retention in reservoirs of the Yangtze River Basin[J]. Shanghai Land & Resources, 2017,38(2):49-53. doi:10.3969/j.issn.2095-1329.2017.02.013.

[14] 朱宇婕,李加林,馮陳晨. 寧波市海岸帶景觀格局變化研究[J]. 上海國(guó)土資源,2017,38(2):54-58.Zhu Y J, Li J L, Feng C C. Study of the changes in the coastal landscape pattern in Ningbo city[J]. Shanghai Land & Resources,2017,38(2):54-58. doi:10.3969/j.issn.2095-1329.2017.02.014.

土地研究 (Land Research)

[15] 代兵,何芳,徐小峰,等. 園區(qū)低效工業(yè)用地退出機(jī)制創(chuàng)新與措施建議[J]. 上海國(guó)土資源,2017,38(2):59-63.Dai B, He F, Xu X F, et al. Mechanisms to innovate and improve the use of inefficient industrial land in industrial parks[J].Shanghai Land & Resources, 2017,38(2):59-63. doi:10.3969/j.issn.2095-1329.2017.02.015.

[16] 牛星,吳冠岑. 國(guó)內(nèi)外農(nóng)地流轉(zhuǎn)的社會(huì)風(fēng)險(xiǎn)及治理研究綜述[J]. 上海國(guó)土資源,2017,38(2):64-69.Niu X, Wu G C. A review of social risk and its governance of rural land transfer in China and other countries[J]. Shanghai Land &Resources, 2017,38(2):64-69. doi:10.3969/j.issn.2095-1329.2017.02.016.

[17] 張瑋. 上海市國(guó)有建設(shè)用地價(jià)格體系信息發(fā)布機(jī)制研究[J]. 上海國(guó)土資源,2017,38(2):70-72.Zhang W. Researching the state-owned construction land value system and its diffusion in Shanghai[J]. Shanghai Land &Resources, 2017,38(2):70-72. doi:10.3969/j.issn.2095-1329.2017.02.017.

[18] 牟曉慶,李秀霞. 農(nóng)村集體經(jīng)營(yíng)性建設(shè)用地入市的價(jià)格機(jī)制研究[J]. 上海國(guó)土資源,2017,38(2):73-76,86.Mu X Q, Li X X. Research on the price mechanism of rural collective productive construction land on the market[J]. Shanghai Land & Resources, 2017,38(2):73-76,86. doi:10.3969/j.issn.2095-1329.2017.02.018.

[19] 唐學(xué)瓊,雷德. 新型城鎮(zhèn)化問(wèn)題及發(fā)展模式構(gòu)建研究[J]. 上海國(guó)土資源,2017,38(2):77-80.Tang X Q, Lei D. Research on new urbanization and development models[J]. Shanghai Land & Resources, 2017,38(2):77-80.doi:10.3969/j.issn.2095-1329.2017.02.019.

[20] 許實(shí),趙愛(ài)棟,吳一恒,等. 土地二調(diào)不穩(wěn)定耕地調(diào)查評(píng)價(jià)成果及應(yīng)用前景分析[J]. 上海國(guó)土資源,2017,38(2):81-86.Xu S, Zhao A D, Wu Y H. Achievements and prospects for application of the second national unstable farmland survey[J].Shanghai Land & Resources, 2017,38(2):81-86. doi:10.3969/j.issn.2095-1329.2017.02.020.

[21] 邵一希. 基于LESA體系的永久基本農(nóng)田劃定方法研究[J]. 上海國(guó)土資源,2017,38(2):87-90.Shao Y X. Study on delineation of permanent prime farmland based on the LESA system[J]. Shanghai Land & Resources,2017,38(2):87-90. doi:10.3969/j.issn.2095-1329.2017.02.021.

[22] 羅經(jīng)緯,崔許鋒. 生態(tài)文明視角下開(kāi)發(fā)區(qū)土地利用效益評(píng)價(jià)[J]. 上海國(guó)土資源,2017,38(2):91-95.Luo J W, Cui X F. Using ecological civilization to evaluate the land use ef fi ciency of development zones[J]. Shanghai Land &Resources, 2017,38(2):91-95. doi:10.3969/j.issn.2095-1329.2017.02.022.

[23] 易浪. 湘潭市區(qū)域建設(shè)用地節(jié)約集約利用評(píng)價(jià)理想值探討[J]. 上海國(guó)土資源,2017,38(2):96-100.Yi L. Determining ideal values for economical and intensive assessment of regional construction land in Xiangtan city[J]. Shanghai Land & Resources, 2017,38(2):96-100. doi:10.3969/j.issn.2095-1329.2017.02.023.

簡(jiǎn)訊公告 (Information)

[24] 第一屆國(guó)際城市地質(zhì)學(xué)術(shù)研討會(huì)圖片報(bào)導(dǎo)[J]. 上海國(guó)土資源,2017,38(2):封2.doi:10.3969/j.issn.2095-1329.2017.02.024.

[25] 中國(guó)地質(zhì)學(xué)會(huì)2017年學(xué)術(shù)年會(huì)通知暨城市地質(zhì)科技創(chuàng)新研討會(huì)分會(huì)場(chǎng)征稿啟事[J]. 上海國(guó)土資源,2017,38(2):封3.doi:10.3969/j.issn.2095-1329.2017.02.025.

第3期（2017年8月30日出版）

國(guó)土論壇 (Forum of Land)

[1] 孫繼偉,吳燕,牛超群. 夯實(shí)國(guó)土根基,筑就理想城市——談上海以國(guó)土資源管理創(chuàng)新促進(jìn)城市轉(zhuǎn)型發(fā)展的實(shí)踐探索[J]. 上海國(guó)土資源,2017,38(3):1-4.Sun J W, Wu Y, Niu C Q. Consolidate the land foundation, build an ideal city: Practical exploration of promoting urban transformation and development by land and resources management innovation in Shanghai[J]. Shanghai Land & Resources,2017,38(3):1-4. doi:10.3969/j.issn.2095-1329.2017.03.001.

土地研究 (Land Research)

[2] 楊麗霞,苑韶峰. 長(zhǎng)三角城市群城鎮(zhèn)化質(zhì)量測(cè)度及其空間格局分析[J]. 上海國(guó)土資源,2017,38(3):5-8.Yang L X, Yuan F. Analysis of measurement and spatial pattern of urbanization quality in the Yangtze River Delta[J]. Shanghai Land & Resources, 2017,38(3):5-8. doi:10.3969/j.issn.2095-1329.2017.03.002.

[3] 韋仕川. 旅游型城鎮(zhèn)化研究綜述及展望[J]. 上海國(guó)土資源,2017,38(3):9-12.Wei S C. Review and prospects of research on tourism urbanization[J]. Shanghai Land & Resources, 2017,38(3):9-12. doi:10.3969/j.issn.2095-1329.2017.03.003.

[4] 重多,許祖學(xué),柴克清,等. 土地利用政策仿真模擬框架構(gòu)建[J]. 上海國(guó)土資源,2017,38(3):13-17.Chong D, Xu Z X, Chai K Q, et al. Land use policy simulation modeling framework[J]. Shanghai Land & Resources,2017,38(3):13-17. doi:10.3969/j.issn.2095-1329.2017.03.004.

[5] 唐杭. 土地整治項(xiàng)目補(bǔ)充耕地質(zhì)量評(píng)定方法設(shè)計(jì)[J]. 上海國(guó)土資源,2017,38(3):18-23.Tang H. The design of methods of evaluation of supplementary cultivated land quality in Shanghai land consolidation project[J].Shanghai Land & Resources, 2017,38(3):18-23. doi:10.3969/j.issn.2095-1329.2017.03.005.

[6] 馮陳晨,李加林,朱宇婕. 甬臺(tái)溫地區(qū)城鎮(zhèn)用地?cái)U(kuò)展時(shí)空分布研究[J]. 上海國(guó)土資源,2017,38(3):24-29.Feng C C, Li J L, Zhu Y J. Spatio-temporal characteristics of urbanization area growth in Ningbo, Taizhou and Wenzhou city[J].Shanghai Land & Resources, 2017,38(3):24-29. doi:10.3969/j.issn.2095-1329.2017.03.006.

[7] 穆飛翔,蒲春玲,劉祥鑫. 烏魯木齊市轄區(qū)建成區(qū)規(guī)模擴(kuò)張及預(yù)測(cè)分析[J]. 上海國(guó)土資源,2017,38(3):30-35.Mu F X, Pu C L, Liu X X. Scale expansion and forecast analysis of built-up area in Urumqi municipal district[J]. Shanghai Land& Resources, 2017,38(3):30-35. doi:10.3969/j.issn.2095-1329.2017.03.007.

[8] 張曉銘,李秀霞. 基于ArcGIS的住宅基準(zhǔn)地價(jià)時(shí)空演變及驅(qū)動(dòng)力分析[J]. 上海國(guó)土資源,2017,38(3):36-40,45.Zhang X M, Li X X. Spatio-temporal evolution and driving forces of residential land price based on ArcGIS[J]. Shanghai Land &Resources, 2017,38(3):36-40,45. doi:10.3969/j.issn.2095-1329.2017.03.008.

[9] 徐成. 多規(guī)融合 研究綜述及發(fā)展趨勢(shì)研究[J]. 上海國(guó)土資源,2017,38(3):41-45.Xu C. Study on the review and prospect of the multiple planning integration[J]. Shanghai Land & Resources, 2017,38(3):41-45.doi:10.3969/j.issn.2095-1329.2017.03.009.

[10] 龍騰,劉偉,劉靜,等. 新型城鎮(zhèn)化背景下的土地整治與生態(tài)文明建設(shè)Long T, Liu W, Liu J, et al. The study on land consolidation and ecological civilization construction based on new urbanization[J].Shanghai Land & Resources, 2017,38(3):46-48. doi:10.3969/j.issn.2095-1329.2017.03.010.

城市地質(zhì) (Urban Geology)

[11] 何中發(fā). 后工業(yè)化時(shí)期城市地質(zhì)工作實(shí)踐與展望[J]. 上海國(guó)土資源,2017,38(3):49-52.He Z F. The practice and prospect of urban geology in post-industrial cities in Shanghai[J]. Shanghai Land & Resources,2017,38(3):49-52. doi:10.3969/j.issn.2095-1329.2017.03.011.

[12] 黃堅(jiān). 上海地區(qū)地下水源熱泵系統(tǒng)適用性研究[J]. 上海國(guó)土資源,2017,38(3):53-56,61.Huang J. Research on applicability of groundwater source heat pump system in Shanghai[J]. Shanghai Land & Resources,2017,38(3):53-56,61. doi:10.3969/j.issn.2095-1329.2017.03.012.

[13] 楊樹(shù)彪,周念清. 中國(guó)地源熱泵發(fā)展歷程分析[J]. 上海國(guó)土資源,2017,38(3):57-61.Yang S B, Zhou N Q. Analysis of the development process of ground source heat pump in China[J]. Shanghai Land & Resources,2017,38(3):57-61. doi:10.3969/j.issn.2095-1329.2017.03.013.

[14] 唐益群,石亞朝,周潔. 城市發(fā)展與地面沉降控制耦合協(xié)調(diào)模型研究[J]. 上海國(guó)土資源,2017,38(3):62-65,69.Tang Y Q, Shi Y C, Zhou J. Coupling coordination model research of urban development and land subsidence control[J]. Shanghai Land & Resources, 2017,38(3):62-65,69. doi:10.3969/j.issn.2095-1329.2017.03.014.

[15] 沙特,羅勇,趙龍,等. 北京顯著沉降區(qū)地面沉降發(fā)育特征及成因分析[J]. 上海國(guó)土資源,2017,38(3):66-69.Sha T, Luo Y, Zhao L, et al. Characteristics and causes of the signi fi cant land subsidence area of Beijing[J]. Shanghai Land &Resources, 2017,38(3):66-69. doi:10.3969/j.issn.2095-1329.2017.03.015.

[16] 羅立紅,邵興,牛毅,等. 天津市津南區(qū)地面沉降影響因素及防控管理[J]. 上海國(guó)土資源,2017,38(3):70-73.Luo L H, Shao X, Niu Y, et al. Land subsidence in fl uencing factors and prevention and control management in the Jinnan district of Tianjin city[J]. Shanghai Land & Resources, 2017,38(3):70-73. doi:10.3969/j.issn.2095-1329.2017.03.016.

[17] 孔祥如,羅勇,趙龍,等. 基于Biot固結(jié)理論的地面沉降研究綜述[J]. 上海國(guó)土資源,2017,38(3):74-77.Kong X R, Luo Y, Zhao L, et al. A review of land subsidence based on Biot consolidation theory[J]. Shanghai Land & Resources,2017,38(3):74-77. doi:10.3969/j.issn.2095-1329.2017.03.017.

[18] 劉沛然,楊成生,趙超英. 河北邢臺(tái)隆堯地裂縫活動(dòng)PS-InSAR監(jiān)測(cè)與分析[J]. 上海國(guó)土資源,2017,38(3):78-82.Liu P R, Yang C S, Zhao C Y. PS-InSAR monitoring of Longyao ground fi ssure in Xingtai, Hebei province[J]. Shanghai Land &Resources, 2017,38(3):78-82. doi:10.3969/j.issn.2095-1329.2017.03.018.

[19] 宋偉,馬學(xué)軍,呂鳳蘭,等. 滄州河間構(gòu)造地裂縫應(yīng)力場(chǎng)二維平面模型研究[J]. 上海國(guó)土資源,2017,38(3):83-89.Song W, Ma X J, Lü F L, et al. The two-dimensional plane model study of tectonic ground fi ssure stress fi eld in Hejian County of Cangzhou city, Hebei Province[J]. Shanghai Land & Resources, 2017,38(3):83-89. doi:10.3969/j.issn.2095-1329.2017.03.019.

[20] 田苗壯,王榮,趙龍,等. 高密度電法在北京宋莊地裂縫中的應(yīng)用[J]. 上海國(guó)土資源,2017,38(3):90-93.Tian M Z, Wang R, Zhao L, et al. High-density electrical method application in the Beijing Songzhuang ground fi ssure[J]. Shanghai Land & Resources, 2017,38(3):90-93. doi:10.3969/j.issn.2095-1329.2017.03.020.

[21] 王治華. 地震面波映像法在上海海塘結(jié)構(gòu)隱患調(diào)查中的應(yīng)用[J]. 上海國(guó)土資源,2017,38(3):94-97.Wang Z H. Application of seismic surface wave image method in the investigation of Shanghai seawall hidden structure danger[J].Shanghai Land & Resources, 2017,38(3):94-97. doi:10.3969/j.issn.2095-1329.2017.03.021.

簡(jiǎn)訊公告 (Information)

[22]“2017上海.土地整治與鄉(xiāng)村發(fā)展論壇”圖片報(bào)導(dǎo)[J]. 上海國(guó)土資源,2017,38(3):98-封3.doi:10.3969/j.issn.2095-1329.2017.03.022.

[23]《上海國(guó)土資源》被美國(guó)EBSCO文獻(xiàn)數(shù)據(jù)庫(kù)收錄[J]. 上海國(guó)土資源,2017,38(3):23.doi:10.3969/j.issn.2095-1329.2017.03.023.

第4期（2017年11月30日出版）

國(guó)土論壇 (Forum of Land)

[1] 徐毅松,熊健,范宇,等. 生態(tài)文明背景下上海新一輪土地利用總體規(guī)劃探索與實(shí)踐[J]. 上海國(guó)土資源,2017,38(4):1-5.Xu Y S, Xiong J, Fan Y, et al. Exploration of the new round of the Shanghai overall land use plan under the background of ecological civilization[J]. Shanghai Land & Resources, 2017,38(4):1-5. doi:10.3969/j.issn.2095-1329.2017.04.001.

[2] 王訓(xùn)國(guó),黎而力. 上海市低效建設(shè)用地減量化探索與實(shí)踐[J]. 上海國(guó)土資源,2017,38(4):6-8.Wang X G, Li E L. The exploration and practice of the reduction of inef fi cient construction land in Shanghai[J]. Shanghai Land &Resources, 2017,38(4):6-8. doi:10.3969/j.issn.2095-1329.2017.04.002.

[3] 岑?？?韋冬,劉曉濤,等. 上海市工業(yè)用地存量更新常態(tài)管理機(jī)制[J]. 上海國(guó)土資源,2017,38(4):9-11.Cen F K, Wei D, Liu X T, et al. Shanghai industrial land stock update: Normal management mechanisms[J]. Shanghai Land &Resources, 2017,38(4):9-11. doi:10.3969/j.issn.2095-1329.2017.04.003.

土地研究 (Land Research)

[4] 宗仁,姚明霞. 農(nóng)民成員權(quán)與宅基地制度改革探索[J]. 上海國(guó)土資源,2017,38(4):12-17,23.Zong R, Yao M X. Novel exploration of the membership of peasants and reform of the homestead system[J]. Shanghai Land &Resources, 2017,38(4):12-17,23. doi:10.3969/j.issn.2095-1329.2017.04.004.

[5] 吳沅箐,莊一琦,嚴(yán)寬. 上海市土地整治戰(zhàn)略分區(qū)研究[J]. 上海國(guó)土資源,2017,38(4):18-23.Wu Y Q, Zhuang Y Q, Yan K. Study on the strategic division of land consolidation in Shanghai[J]. Shanghai Land & Resources,2017,38(4):18-23. doi:10.3969/j.issn.2095-1329.2017.04.005.

[6] 陳振. 城市土地立體化登記研究[J]. 上海國(guó)土資源,2017,38(4):24-28.Chen Z. Study on the three-dimensional registration of urban land[J]. Shanghai Land & Resources, 2017,38(4):24-28. doi:10.3969/j.issn.2095-1329.2017.04.006.

[7] 張寒,樓江. 農(nóng)村宅基地流轉(zhuǎn)制度優(yōu)化設(shè)計(jì)[J]. 上海國(guó)土資源,2017,38(4):29-33.Zhang H, Lou J. Optimal design of the rural homestead circulation system[J]. Shanghai Land & Resources, 2017,38(4):29-33.doi:10.3969/j.issn.2095-1329.2017.04.007.

[8] 姚樹(shù)榮,李棟楠. 農(nóng)村集體經(jīng)營(yíng)性建設(shè)用地入市改革問(wèn)題探討[J]. 上海國(guó)土資源,2017,38(4):34-37.Yao S R, Li D N. Discussion of reforming the rural collective operating construction of land entering the land market[J]. Shanghai Land & Resources, 2017,38(4):34-37. doi:10.3969/j.issn.2095-1329.2017.04.008.

[9] 季勝武,季波. 縣級(jí)產(chǎn)業(yè)園區(qū)工業(yè)地產(chǎn)發(fā)展可行性和實(shí)踐路徑分析[J]. 上海國(guó)土資源,2017,38(4):38-41.Ji S W, Ji B. Analysis of the feasibility and practical path of industrial real estate in county-level industrial parks[J]. Shanghai Land& Resources, 2017,38(4):38-41. doi:10.3969/j.issn.2095-1329.2017.04.009.

[10] 陳婉鈴,張坤. 基于GM(1,1)模型的株洲市經(jīng)濟(jì)發(fā)展水平預(yù)測(cè)[J]. 上海國(guó)土資源,2017,38(4):42-45.Chen W L, Zhang K. Study on the economic development prediction of Zhuzhou city based on the GM(1,1) model[J]. Shanghai Land & Resources, 2017,38(4):42-45. doi:10.3969/j.issn.2095-1329.2017.04.010.

[11] 康紀(jì)田. 供給側(cè)結(jié)構(gòu)性改革下的礦業(yè)用地制度取向[J]. 上海國(guó)土資源,2017,38(4):46-49.Kang J T. System orientation of mining land under the supply-side structural reform[J]. Shanghai Land & Resources,2017,38(4):46-49. doi:10.3969/j.issn.2095-1329.2017.04.011.

[12] 關(guān)濤,常健,趙紅燕,等. 兩規(guī)融合理念下村級(jí)規(guī)劃基數(shù)合一方法研究[J]. 上海國(guó)土資源,2017,38(4):50-55.Guan T, Chang J, Zhao H Y, et al. Integrated research of original data for village planning based on “two regulations”[J]. Shanghai Land & Resources, 2017,38(4):50-55. doi:10.3969/j.issn.2095-1329.2017.04.013.

[13] 趙文琪. 日本城市土地集約利用的規(guī)劃路徑及其中國(guó)化意義[J]. 上海國(guó)土資源,2017,38(4):56-62,92.Zhao W Q. Intensive urban land use in Japan and its inspiration to China[J]. Shanghai Land & Resources, 2017,38(4):56-62,92.doi:10.3969/j.issn.2095-1329.2017.04.014.

城市地質(zhì) (Urban Geology)

[14] 王騰飛,馬仁鋒. 自然資源資產(chǎn)化視域浙江水資源資產(chǎn)空間區(qū)劃研究[J]. 上海國(guó)土資源,2017,38(4):63-68.Wang T F, Ma R F. Research on the spatial pattern and zoning of water resources assets based on the capitalization of natural resources in Zhejiang[J]. Shanghai Land & Resources, 2017,38(4):63-68. doi:10.3969/j.issn.2095-1329.2017.04.015.

[15] 侯艷聲,胡新鋒,趙團(tuán)芝. 寧波市地下水環(huán)境特征與保護(hù)對(duì)策[J]. 上海國(guó)土資源,2017,38(4):69-74.Hou Y S, Hu X F, Zhao T Z. Characteristics and protection countermeasures of the groundwater environment in Ningbo city[J].Shanghai Land & Resources, 2017,38(4):69-74. doi:10.3969/j.issn.2095-1329.2017.04.016.

[16] 楊海飛,楊世倫,孟翊,等. 長(zhǎng)江口底床沉積物粒度分布特征及測(cè)定方法對(duì)比研究[J]. 上海國(guó)土資源,2017,38(4):75-79.Yang H F, Yang S L, Meng Y, et al. Sediment distribution patterns in the Yangtze Estuary and comparison of particle size measurement methods[J]. Shanghai Land & Resources, 2017,38(4):75-79. doi:10.3969/j.issn.2095-1329.2017.04.017.

[17] 叢新,趙龍偉. 中國(guó)海岸帶地區(qū)第四紀(jì)沉積環(huán)境變遷研究現(xiàn)狀綜述[J]. 上海國(guó)土資源,2017,38(4):80-85.Cong X, Zhao L W. Research status of quaternary sedimentary environment changes in the Chinese coastal zone[J]. Shanghai Land& Resources, 2017,38(4):80-85. doi:10.3969/j.issn.2095-1329.2017.04.018.

[18] 李雅,劉玉卿. 灘涂濕地生態(tài)系統(tǒng)服務(wù)價(jià)值評(píng)估研究綜述[J]. 上海國(guó)土資源,2017,38(4):86-92.Li Y, Liu Y Q. Review of ecosystem service evaluation of a tidal fl at wetland[J]. Shanghai Land & Resources, 2017,38(4):80-92.doi:10.3969/j.issn.2095-1329.2017.04.019.

[19] 葛佳,陳敏. 上海地區(qū)淺層土壤中污染物運(yùn)移特征分析[J]. 上海國(guó)土資源,2017,38(4):93-96.Ge J, Chen M. Analysis of pollutant migration characteristics in shallow soil in Shanghai[J]. Shanghai Land & Resources, 2017,38(4):93-96. doi:10.3969/j.issn.2095-1329.2017.04.020.

[20] 李海濤. 上海測(cè)繪地理信息產(chǎn)業(yè)分析[J]. 上海國(guó)土資源,2017,38(4):97-100.Li H T. Analysis of geographic information industry in Shanghai[J]. Shanghai Land & Resources, 2017,38(4):97-100.doi:10.3969/j.issn.2095-1329.2017.04.022.

簡(jiǎn)訊公告 (Information)

[21]土地與未來(lái) 上海國(guó)際研討會(huì)2017年11月24-25日在滬舉行[J]. 上海國(guó)土資源,2017,38(4):封3.doi:10.3969/j.issn. 2095-1329.2017.04.023.

10.3969/j.issn.2095-1329.2017.04.022