第1期（2022年3月30日出版）

國土空間規(guī)劃和用途管制 (Planning and Use Control of Territorial Space)

[1] 羅翔,賴志勇,曹慧霆.碳達峰碳中和目標下的新城新區(qū)國土空間規(guī)劃策略——基于浦東新區(qū)的實證與思考[J].上海國土資源,2022,43(1):1-5.

LUO X, LAI Z Y, CAO H T.Planning strategies of new city in the context of emission peak and carbon neutralization: empirical research on Shanghai Pudong[J].Shanghai Land & Resources, 2022,43(1):1-5.doi:10.3969/j.issn.2095-1329.2022.01.001.

[2] 張成玉.不同資源稟賦條件下宅基地改革模式比較研究[J].上海國土資源,2022,43(1):6-11.

ZHANG C Y.A comparative study on homestead reform models under different resource endowment[J].Shanghai Land &Resources, 2022,43(1):6-11.doi:10.3969/j.issn.2095-1329.2022.01.002.

[3] 彭秋志,鄧啟輝,馬少華,等.重慶主城區(qū)建設用地爬坡特征及其圈層性[J].上海國土資源,2022,43(1):12-16,22.

PENG Q Z, DENG Q H, MA S H, et al.Slope distribution change and multi-ring pattern of construction land in Chongqing,China[J].Shanghai Land & Resources, 2022,43(1):12-16,22.doi:10.3969/j.issn.2095-1329.2022.01.003.

[4] 劉婉麗,李偉芳,趙宇,等.寧波市國土空間開發(fā)格局與優(yōu)化研究[J].上海國土資源,2022,43(1):17-22.

LIU W L, LI W F, ZHAO Y, et al.Study on development pattern and optimization of territorial space in Ningbo[J].Shanghai Land& Resources, 2022,43(1):17-22.doi:10.3969/j.issn.2095-1329.2022.01.004.

[5] 戴云,吳九興.合肥都市圈農(nóng)地利用變化及其驅動機制[J].上海國土資源,2022,43(1):23-27.

DAI Y, WU J X.The spatial-temporal characteristic of agricultural land use change and its driving mechanism in Hefei metropolitan area[J].Shanghai Land & Resources, 2022,43(2):23-27.doi:10.3969/j.issn.2095-1329.2022.01.005.

[6] 朱吉貝,劉慶,粟增增.湖南省區(qū)域耕地開發(fā)強度時空演變結構分析[J].上海國土資源,2022,43(1):28-33.

ZHU J B, LIU Q, SU Z Z.Spatial-temporal evolution structure analysis of regional cultivated land development intensity in Hunan Province[J].Shanghai Land & Resources, 2022,43(1):28-33.doi:10.3969/j.issn.2095-1329.2022.01.006.

國土空間生態(tài)保護與修復 (Ecological Protection and Restoration of Territorial Space)

[7] 何中發(fā),溫曉華,王丹妮,等.上海海岸帶沉積物地球化學基準值特征[J].上海國土資源,2022,43(1):34-39.

HE Z F, WEN X H, WANG D N, et al.Characteristics of geochemical baseline of sediments in the Shanghai coast zone[J].Shanghai Land & Resources, 2022,43(1):34-39.doi:10.3969/j.issn.2095-1329.2022.01.007.

[8] 楊佳賓,黃海峰.上海市土地整治區(qū)土壤環(huán)境因子與草本植物群落分析研究[J].上海國土資源,2022,43(1):40-44,74.

YANG J B, HUANG H F.Research on soil environmental factors and herbaceous community of land consolidate area in Shangha[J].Shanghai Land & Resources, 2022,43(1):40-44,74.doi:10.3969/j.issn.2095-1329.2022.01.008.

[9] 傅旭升,羅濟穩(wěn),蔡盛.上海市深井健康狀況評估方法研究[J].上海國土資源,2022,43(1):45-48,83.

FU X S, LUO J W, CAI S.Study on health assessment method of deep wells in Shanghai[J].Shanghai Land & Resources,2022,43(1):45-48,83.doi:10.3969/j.issn.2095-1329.2022.01.009.

[10] 江建斌,鞠振宇,梅皓天.不同淋洗劑對污染土壤重金屬形態(tài)分布的影響研究[J].上海國土資源,2022,43(1):49-52.

JIANG J B, JU Z Y, MEI H T.Effects of different eluents on speciation analysis of the heavy metals in contaminated soil[J].Shanghai Land & Resources, 2022,43(1):49-52.doi:10.3969/j.issn.2095-1329.2022.01.010.

[11] 董聰慧.上海某地塊多重污染土壤修復及其效果評估[J].上海國土資源,2022,43(1):53-57.

DONG C H.Remediation and evaluation of multiple contaminated soil in Shanghai[J].Shanghai Land & Resources, 2022,43(1):53-57.doi:10.3969/j.issn.2095-1329.2022.01.011.

自然資源調查監(jiān)測 (Survey and Monitoring of Natural Resources)

[12] 王遠.上海海塘安全隱患地球物理快速探測與識別[J].上海國土資源,2022,43(1):58-63.

WANG Y.Rapid geophysical detection and identification of Shanghai seawall safety hidden dangers[J].Shanghai Land &Resources, 2022,43(1):58-63.doi:10.3969/j.issn.2095-1329.2022.01.012.

[13] 時國凱,杜建國,范迪富,等.淮安城市規(guī)劃區(qū)地熱資源賦存條件及開發(fā)利用潛力研究[J].上海國土資源,2022,43(1):64-69.

SHI G K, DU J G, FAN D F, et al.Study on the occurrence condition and potentiality of geothermal resources in Huai'an urban planning area[J].Shanghai Land & Resources, 2022,43(1):64-69.doi:10.3969/j.issn.2095-1329.2022.01.013.

[14] 錢茹茹.寧波市近岸海洋觀測網(wǎng)絡現(xiàn)狀分析及對策建議[J].上海國土資源,2022,43(1):70-74.

QIAN R R.Current situation analysis and countermeasure suggestion of ocean observation network in Ningbo coastal area[J].Shanghai Land & Resources, 2022,43(1):70-74.doi:10.3969/j.issn.2095-1329.2022.01.014.

[15] 胡偉,俞偉哲,張巖,等.AVO梯度屬性90°相移技術及在東海盆地含煤地層儲層預測中的應用[J].上海國土資源,2022,43(1):75-79.

HU W, YU W Z, ZHANG Y, et al.AVO gradient attribute 90° phase shift technique and its application to reservoir prediction of coal-bearing strata in East China Sea Basin[J].Shanghai Land & Resources, 2022,43(1):75-79.doi:10.3969/j.issn.2095-1329.2022.01.015.

自然資源管理服務 (Management and Service of Natural Resources)

[16] 方國安.自然資源融合調查支撐高質量發(fā)展的策略與機制[J].上海國土資源,2022,43(1):80-83.

FANG G A.Strategies and mechanisms for natural resources integration survey to support high quality development[J].Shanghai Land & Resources, 2022,43(1):80-83.doi:10.3969/j.issn.2095-1329.2022.01.016.

[17] 馮聰,張尹軍.我國礦業(yè)權平臺交易現(xiàn)狀、問題及改革思路[J].上海國土資源,2022,43(1):84-87.

FENG C, ZHANG Y J.The current situation, problems and reform ideas of mining rights platform trading in China[J].Shanghai Land & Resources, 2022,43(1):84-87.doi:10.3969/j.issn.2095-1329.2022.01.017.

[18] 朱萬明.高質量土地儲備的評價體系建立及實現(xiàn)路徑研究[J].上海國土資源,2022,43(1):88-92.

ZHU W M.Establishment and realization of evaluation system for high quality land reserve[J].Shanghai Land & Resources,2022,43(1):88-92.doi:10.3969/j.issn.2095-1329.2022.01.018.

[19] 劉炳菊.地質資料檔案史料的挖掘與利用[J].上海國土資源,2022,43(1):93-96,102.

LIU B J.Excavation and utilization of archives historical materials in geological data[J].Shanghai Land & Resources,2022,43(1):93-96,102.doi:10.3969/j.issn.2095-1329.2022.01.019.

[20] 潘映宗,張一唯,舒斌.不動產(chǎn)“調查—確權—登記”三位一體化機制探索——以上海市自貿(mào)試驗區(qū)臨港新片區(qū)為例[J].上海國土資源,2022,43(1):97-102.

PAN Y Z, ZHANG Y W, SHU B.Excavation and utilization of archives historical materials in geological data Research on the three integrated services of "investigation, right confirmation and registration" in Shanghai pilot free trade zone Lingang special area[J].Shanghai Land & Resources, 2022,43(1):97-102.doi:10.3969/j.issn.2095-1329.2022.01.020.

會議簡報 (Bulletins of Meeting)

[21] 上海市地質學會.上海市地質學會2022年理事長會議暨 “數(shù)字引領,促進城市地質智慧轉型” 學術報告會[J].上海國土資源,2022,43(1):封3.

doi:10.3969/j.issn.2095-1329.2022.01.021.

第2期（2022年6月30日出版）

國土空間規(guī)劃和用途管制 (Planning and Use Control of Territorial Space)

[1] 石憶邵,毛昱昕,鄭建文.美國硅谷城鎮(zhèn)群的發(fā)展經(jīng)驗與挑戰(zhàn)及對中國創(chuàng)新城市建設的啟示[J].上海國土資源,2022,43(2):1-7,45.

SHI Y S, MAO Y X, ZHENG J W.The development experience and challenges of Silicon Valley town group in the United States and its enlightenment to the construction of innovative cities in China[J].Shanghai Land & Resources, 2022,43(2):1-7,45.doi:10.3969/j.issn.2095-1329.2022.02.001.

[2] 王瑤.基于多目標優(yōu)化的大都市土地整治潛力區(qū)劃決策研究——以上海市青浦區(qū)為例[J].上海國土資源,2022,43(2):8-13.

WANG Y.Research on land consolidation potential decision-making zoning in metropolises based on multi-objective optimization:A case study of Qingpu District, Shanghai[J].Shanghai Land & Resources, 2022,43(2):8-13.doi:10.3969/j.issn.2095-1329.2022.02.002.

[3] 張文暉,岳雋,陳小祥.成片土地整備中的國有農(nóng)用地利益實現(xiàn)機制研究——基于深圳的案例分析[J].上海國土資源,2022,43(2):14-18,24.

ZHANG W H, YUE J, CHEN X X.Study on the interest realization mechanism of state-owned agricultural land in land preparation[J].Shanghai Land & Resources, 2022,43(2):14-18,24.doi:10.3969/j.issn.2095-1329.2022.02.003.

[4] 方潔茸,周世健,多玲花,等.環(huán)鄱陽湖生態(tài)經(jīng)濟區(qū)經(jīng)濟—社會—生態(tài)系統(tǒng)耦合關系時空演化研究[J].上海國土資源,2022,43(2):19-24.

FANG J R, ZHOU S J, DUO L H, et al.Space-time evolution of the system coupling relationship between economy, society and ecological in Ecological Economic Zone around Poyang Lake[J].Shanghai Land & Resources, 2022,43(2):19-24.doi:10.3969/j.issn.2095-1329.2022.02.004.

[5] 湯世康,黃朝明.基于PSM 的城鄉(xiāng)統(tǒng)一建設用地市場成熟度研究——以海南文昌市為例[J].上海國土資源,2022,43(2):25-29,34.

TANG S K, HUANG C M.Research on the market maturity of urban and rural unified construction land based on PSM: Taking Wenchang City of Hainan Province as an example[J].Shanghai Land & Resources, 2022,43(2):25-29,34.doi:10.3969/j.issn.2095-1329.2022.02.005.

[6] 屠越棟.從范圍劃定角度優(yōu)化上海成片開發(fā)方案研究[J].上海國土資源,2022,43(2):30-34.

TU Y D.Optimizing the regional development scheme of Shanghai from the perspective of scope demarcation[J].Shanghai Land &Resources, 2022,43(2):30-34.doi:10.3969/j.issn.2095-1329.2022.02.006.

[7] 王佳佳,莫楠,付麗.英國綠帶經(jīng)驗對我國城市開發(fā)邊界管控的啟示[J].上海國土資源,2022,43(2):35-39.

WANG J J, MO N, FU L.The enlightenment of UK Green Belt experience to Chinese urban growth boundary management and control[J].Shanghai Land & Resources, 2022,43(2):35-39.doi:10.3969/j.issn.2095-1329.2022.02.007.

國土空間生態(tài)保護與修復 (Ecological Protection and Restoration of Territorial Space)

[8] 孔慶華.土地整治視角下鄉(xiāng)村低碳更新研究——以浦東新區(qū)惠南鎮(zhèn)橋北村為例[J].上海國土資源,2022,43(2):40-45.

KONG Q H.Research on rural low carbon renewal from the perspective of land consolidation: A case study of Qiaobei Village,Huinan Town, Pudong New Area[J].Shanghai Land & Resources, 2022,43(2):40-45.doi:10.3969/j.issn.2095-1329.2022.02.008.

[9] 陳敏.基于土地整治的復墾耕地生態(tài)質量研究[J].上海國土資源,2022,43(2):46-51.

CHEN M.Research on ecological quality of reclaimed cultivated land based on land rehabilitation[J].Shanghai Land & Resources,2022,43(2):46-51.doi:10.3969/j.issn.2095-1329.2022.02.009.

[10] 聶琪,湯江龍.基于“三生”用地變化的生態(tài)風險時空格局分析和預測——以粵港澳大灣區(qū)為例[J].上海國土資源,2022,43(2):52-59,98.

NIE Q, TANG J L.Spatial-temporal pattern analysis and prediction of ecological risk based on the change of production-livingecological land use: Take the Guangdong-Hong Kong-Macao Greater Bay Area as an example[J].Shanghai Land & Resources,2022,43(2):52-59,98.doi:10.3969/j.issn.2095-1329.2022.02.010.

[11] 劉愷愷,馮秀麗,張馳.基于RSEI模型的濱海圍墾區(qū)生態(tài)環(huán)境動態(tài)變化分析——以杭州灣南岸為例[J].上海國土資源,2022,43(2):60-65.

LIU K K, FENG X L, ZHANG C.Dynamic change analysis of ecological environment in coastal reclamation area based on RSEI model: A case study of Southern Bank of Hangzhou Bay[J].Shanghai Land & Resources, 2022,43(2):60-65.doi:10.3969/j.issn.2095-1329.2022.02.011.

[12] 蔡瓊,朱紅梅,肖婷.耕地質量與耕地產(chǎn)能耦合度研究——以湖南寧遠縣為例[J].上海國土資源,2022,43(2):66-72.

CAI Q, ZHU H M, XIAO T.On coupling degree of cultivated land quality and productivity: A case study of Ningyuan County,Hunan Province[J].Shanghai Land & Resources, 2022,43(2):66-72.doi:10.3969/j.issn.2095-1329.2022.02.012.

[13] 劉有才,馬旺,胡琦,等.秦皇島電廠溫排水對浮游植物群落的影響研究[J].上海國土資源,2022,43(2):73-77.

LIU Y C, MA W, HU Q, et al.Research on influence of Qinhuangdao power plant's thermal drainage on marine phytoplankton community[J].Shanghai Land & Resources, 2022,43(2):73-77.doi:10.3969/j.issn.2095-1329.2022.02.013.

自然資源調查監(jiān)測 (Survey and Monitoring of Natural Resources)

[14] 朱林,陳曉紅,郭興杰,等.近十年來長江口北支動力地貌演化過程[J].上海國土資源,2022,43(2):78-83.

ZHU L, CHEN X H, GUO X J, et al.Dynamic geomorphology evolution of the North Branch of the Yangtze River Estuary in recent ten years[J].Shanghai Land & Resources, 2022,43(2):78-83.doi:10.3969/j.issn.2095-1329.2022.02.014.

[15] 林金鑫.中國上海與越南河內(nèi)地面沉降發(fā)育背景對比研究[J].上海國土資源,2022,43(2):84-88.

LIN J X.Comparative study on development background of land subsidence between Shanghai, China and Hanoi, Vietnam[J].Shanghai Land & Resources, 2022,43(2):84-88.doi:10.3969/j.issn.2095-1329.2022.02.015.

[16] 李金柱.上海地區(qū)飲用天然礦泉水放射性水平的調查與衛(wèi)生學評價[J].上海國土資源,2022,43(2):89-92.

LI J Z.Survey and hygienic evaluation of radioactive level for drinking natural mineral water in Shanghai[J].Shanghai Land &Resources, 2022,43(2):89-92.doi:10.3969/j.issn.2095-1329.2022.02.016.

[17] 韋毅,毛官輝,呂清,等.浙江省水熱型地熱資源特征及賦存規(guī)律[J].上海國土資源,2022,43(2):93-98.

WEI Y, MAO G H, Lü Q, et al.Characteristics and occurrence regularity of hydrothermal geothermal resources in Zhejiang Province[J].Shanghai Land & Resources, 2022,43(2):93-98.doi:10.3969/j.issn.2095-1329.2022.02.017.

[18] 盧思同,陳敏,袁家余.城市道路病害探測三維地質雷達應用技術[J].上海國土資源,2022,43(2):99-102.

LU S T, CHEN M, YUAN J Y.Application technology of 3D geological penetrating radar for urban road disease detection[J].Shanghai Land & Resources, 2022,43(2):99-102.doi:10.3969/j.issn.2095-1329.2022.02.018.

[19] 王遠圓.基于場地歷史進程的土壤污染調查布點方式研究[J].上海國土資源,2022,43(2):103-106.

WANG Y Y.Study on the method of soil pollution investigation based on history process[J].Shanghai Land & Resources,2022,43(2):103-106.doi:10.3969/j.issn.2095-1329.2022.02.019.

自然資源管理服務 (Management and Service of Natural Resources)

[20] 安文通.城市地下空間要素的數(shù)字化路徑探討與思考——以上海市為例[J].上海國土資源,2022,43(2):107-112.

AN W T.Discussion and reflection on the digital path of urban underground space elements: A case study of Shanghai[J].Shanghai Land & Resources, 2022,43(2):107-112.doi:10.3969/j.issn.2095-1329.2022.02.020.

[21] 周安發(fā),金群,王韋.多場景下自然資源業(yè)務審批地理底圖智能調度技術[J].上海國土資源,2022,43(2):113-116,125.

ZHOU A F, JIN Q, WANG W.Intelligent scheduling technology of geographical base map for natural resource service approval in multiple scenarios[J].Shanghai Land & Resources, 2022,43(2):113-116,125.doi:10.3969/j.issn.2095-1329.2022.02.021.

[22] 方國安.作業(yè)預算績效評價的瓶頸、機制與策略探析[J].上海國土資源,2022,43(2):117-120.

FANG G A.Analysis on the bottleneck, mechanism and strategy of performance evaluation of homework budget[J].Shanghai Land& Resources, 2022,43(2):117-120.doi:10.3969/j.issn.2095-1329.2022.02.022.

[23] 姚偉.城市更新背景下上海土地儲備政策執(zhí)行過程分析——基于史密斯政策執(zhí)行過程模型[J].上海國土資源,2022,43(2):121-125.

YAO W.Analysis of the implementation process of Shanghai's land reserve policy under the background of urban renewal: Based on Smith's policy implementation process model[J].Shanghai Land & Resources, 2022,43(2):121-125.doi:10.3969/j.issn.2095-1329.2022.02.023.

簡訊公告 (Newsletter Announcement)

[24] 上海市地質學會.“海陸統(tǒng)籌助力綠色低碳發(fā)展”世界地球日上?？破崭叨苏搲咧袊刭|學會百年華誕紀念活動成功舉辦[J].上海國土資源,2022,43(2):封3.

doi:10.3969/j.issn.2095-1329.2022.02.024.

[25] 上海市地質學會.首屆上海市地質成果獎獲獎項目名錄[J].上海國土資源,2022,43(2):126.

doi:10.3969/j.issn.2095-1329.2022.02.025.

[26] 戴志軍.《長三角海洋經(jīng)濟區(qū)域一體化與高質量發(fā)展研究》書評[J].上海國土資源,2022,43(2):83.

doi:10.3969/j.issn.2095-1329.2022.02.026.

[27] 龔士良.“第十屆國際地面沉降學術研討會”明年重啟[J].上海國土資源,2022,43(2):88.

doi:10.3969/j.issn.2095-1329.2022.02.027.

第3期（2022年9月30日出版）

自然資源調查與開發(fā)利用 (Investigation and Exploitation of Natural Resources)

[1] 周念清,孔令熙,王小清.碳中和背景下上海市淺層地熱能開發(fā)效益分析與評價[J].上海國土資源,2022,43(3):1-7.

ZHOU N Q, KONG L X, WANG X Q.Analysis and evaluation on the benefit of shallow geothermal energy development in Shanghai under the background of carbon neutral[J].Shanghai Land & Resources, 2022,43(3):1-7.doi:10.3969/j.issn.2095-1329.2022.03.001.

[2] 王彩娟,季順偉,任麗燕.長三角城市群能源碳排放空間關聯(lián)及其影響因素研究[J].上海國土資源,2022,43(3):8-14.

WANG C J, JI S W, REN L Y.Spatial correlation and influencing factors of energy carbon emissions in Yangtze River Delta urban agglomeration[J].Shanghai Land & Resources, 2022,43(3):8-14.doi:10.3969/j.issn.2095-1329.2022.03.002.

[3] 王佰偉,張存龍,劉詩劍.海河流域水資源量演變分析研究[J].上海國土資源,2022,43(3):15-18.

WANG B W, ZHANG C L, LIU S J.Study on the situation of water resource quantity change in the Haihe River Basin[J].Shanghai Land & Resources, 2022,43(3):15-18.doi:10.3969/j.issn.2095-1329.2022.03.003.

[4] 任艷.東海盆地平湖斜坡帶斷裂特征及其對構造—巖性油氣藏的控制作用[J].上海國土資源,2022,43(3):19-23,42.

REN Y.Fault characteristics of Pinghu slope belt in the East China Sea Basin and its control on structural-lithologic reservoirs[J].Shanghai Land & Resources, 2022,43(3):19-23,42.doi:10.3969/j.issn.2095-1329.2022.03.004.

[5] 萬延周.東海盆地西湖凹陷西部平湖組烴源巖特征研究[J].上海國土資源,2022,43(3):24-29.

WAN Y Z.The analyzing characteristics of hydrocarbon source rocks of Pinghu formation in the western part of Xihu Sag, East China Sea basin[J].Shanghai Land & Resources, 2022,43(3):24-29.doi:10.3969/j.issn.2095-1329.2022.03.005.

[6] 吳家悅,徐尚智,郝春燕,等.鄉(xiāng)村振興背景下地質文化村建設初探——以北京市門頭溝區(qū)東胡林村為例[J].上海國土資源,2022,43(3):30-36,48.

WU J Y, XU S Z, HAO C Y, et al.Discussion on the construction of geo-cultural village under the background of rural revitalization:Taking Donghulin Village, Mentougou District, Beijing as an example[J].Shanghai Land & Resources, 2022,43(3):30-36,48.doi:10.3969/j.issn.2095-1329.2022.03.006.

國土空間規(guī)劃和用途管制 (Planning and Use Control of Territorial Space)

[7] 王斌.上海市國土空間規(guī)劃數(shù)據(jù)治理關鍵技術及應用實踐[J].上海國土資源,2022,43(2):37-42.

WANG B.Key technologies and application practice of data governance for territorial and spatial planning in Shanghai[J].Shanghai Land & Resources, 2022,43(3):37-42.doi:10.3969/j.issn.2095-1329.2022.03.007.

[8] 姜杉鈺,余星滌.面向復合國土空間的規(guī)劃關鍵問題探討[J].上海國土資源,2022,43(3):43-48.

JIANG S Y, YU X D.Discussion on the planning idea of overall utilization of space resources in compound territory[J].Shanghai Land & Resources, 2022,43(3):43-48.doi:10.3969/j.issn.2095-1329.2022.03.008.

[9] 溫曉詣,劉婷婷,陶世杰.基于人文需求的“三生”空間管控策略探討——以云南省紅河州為例[J].上海國土資源,2022,43(3):49-54,85.

WEN X Y, LIU T T, TAO S J.Discussion on the management and control strategy of production-living-ecological space based on humanistic needs: Take Honghe Prefecture of Yunnan Province as an example[J].Shanghai Land & Resources, 2022,43(3):49-54,85.doi:10.3969/j.issn.2095-1329.2022.03.009.

[10] 梅思雨,李本智,易海軍,等.快速城市化區(qū)域的三生空間沖突時空演化特征分析——以浙江省鎮(zhèn)海區(qū)為例[J].上海國土資源,2022,43(3):55-60,98.

MEI S Y, LI B Z, YI H J, et al.The spatio-temporal evolution characteristics of spatial conflict between production-living-ecological spaces in rapidly urbanized regions: A case study of Zhenhai District in Zhejiang Province[J].Shanghai Land & Resources,2022,43(3):55-60,98.doi:10.3969/j.issn.2095-1329.2022.03.010.

[11] 肖圣,多玲花,鄒自力.城鎮(zhèn)化與水生態(tài)環(huán)境耦合協(xié)調時空演變及驅動因素——以長江中下游城市群為例[J].上海國土資源,2022,43(3):61-68.

XIAO S, DUO L H, ZOU Z L.Spatio-temporal evolution and driving factors of the coupling coordination between urbanization and water ecological environment: Take the urban agglomeration in the middle and lower reaches of the Yangtze River as an example[J].Shanghai Land & Resources, 2022,43(3):61-68.doi:10.3969/j.issn.2095-1329.2022.03.011.

[12] 欒喬林,張永蕾,吳繼萬,等.基于網(wǎng)絡建模與空間引力模型的城鎮(zhèn)空間關聯(lián)分析[J].上海國土資源,2022,43(3):69-75.

LUAN Q L, ZHANG Y L, WU J W, et al.Spatial correlation analysis of cities and towns based on network modeling and spatial gravity model[J].Shanghai Land & Resources, 2022,43(3):69-75.doi:10.3969/j.issn.2095-1329.2022.03.012.

[13] 石憶邵,石雅馨,季皓聰,等.近20年來公共空間研究綜述與發(fā)展趨勢[J].上海國土資源,2022,43(3):76-80.

SHI Y S, SHI Y X, JI H C, et al.Review and development trends of public space research during the past 20 years[J].Shanghai Land & Resources, 2022,43(3):76-80.doi:10.3969/j.issn.2095-1329.2022.03.013.

國土空間生態(tài)保護與修復 (Ecological Protection and Restoration of Territorial Space)

[14] 何招智,伍攀峰.環(huán)境風險管控視角的污染工業(yè)地塊更新策略研究[J].上海國土資源,2022,43(3):81-85.

HE Z Z, WU P F.A novel strategy on polluted industrial site renewal in perspective of environment risk control[J].Shanghai Land& Resources, 2022,43(3):81-85.doi:10.3969/j.issn.2095-1329.2022.03.014.

[15] 溫漢輝,韓麗杰.汕頭市表層土壤銅元素來源及其健康風險評價[J].上海國土資源,2022,43(3):86-92.

WEN H H, HAN L J.Source of cuprum in topsoil and its health risk assessment in Shantou of Guangdong Province[J].Shanghai Land & Resources, 2022,43(3):86-92.doi:10.3969/j.issn.2095-1329.2022.03.015.

[16] 常彬,郭忠華,劉根驛,等.黃河下游流域土壤硒元素分布特征及影響因素研究——以山東省聊城茌平地區(qū)為例[J].上海國土資源,2022,43(3):93-98.

CHANG B, GUO Z H, LIU G Y, et al.Distribution characteristics and influencing factors of soil selenium in the Lower Yellow River Basin: Take Chiping District of Liaocheng Shandong for example[J].Shanghai Land & Resources, 2022,43(3):93-98.doi:10.3969/j.issn.2095-1329.2022.03.016.

[17] 黃耀文,張曉平.國家重點生態(tài)功能區(qū)生態(tài)系統(tǒng)服務價值時空變化研究——以江西省大余縣為例[J].上海國土資源,2022,43(3):99-104,123.

HUANG Y W, ZHANG X P.Study on the spatio-temporal changes of ecosystem service value in national key ecological function areas: Take Dayu County of Jiangxi Province as an example[J].Shanghai Land & Resources, 2022,43(3):99-104,123.doi:10.3969/j.issn.2095-1329.2022.03.017.

[18] 張惠.上海松江某復墾工業(yè)地塊土壤重金屬污染特征及潛在生態(tài)風險評估[J].上海國土資源,2022,43(3):105-110,130.

ZHANG H.Assessment of pollution and potential ecological risk of heavy metals in soil of a reclaimed industrial site in Songjiang district of Shanghai[J].Shanghai Land & Resources, 2022,43(3):105-110,130.doi:10.3969/j.issn.2095-1329.2022.03.018.

[19] 蘇令侃.上海濱海濕地退化原因及生態(tài)修復措施研究[J].上海國土資源,2022,43(3):111-116.

SU L K.Degradation causes of coastal wetlands in Shanghai and ecological restoration measures[J].Shanghai Land & Resources,2022,43(3):111-116.doi:10.3969/j.issn.2095-1329.2022.03.019.

地質環(huán)境安全監(jiān)測與災害防治 (Geological Environment Safety Monitoring and Disaster Prevention)

[20] 熊福文.上海地面沉降精準監(jiān)測基準網(wǎng)構建關鍵技術研究[J].上海國土資源,2022,43(3):117-123.

XIONG F W.Study on key technologies of benchmark network construction for land subsidence precision monitoring in Shanghai[J].Shanghai Land & Resources, 2022,43(3):117-123.doi:10.3969/j.issn.2095-1329.2022.03.020.

[21] 何宏偉,溫漢輝,何利平.粵北山區(qū)某泥石流風險的精細化評價研究[J].上海國土資源,2022,43(3):124-130.

HE H W, WEN H H, HE L P.Research on refined risk assessment of the debris flow in the mountainous area of northern Guangdong Province[J].Shanghai Land & Resources, 2022,43(3):124-130.doi:10.3969/j.issn.2095-1329.2022.03.021.

[22] 周俊峰.GEM-2多頻電磁技術在地下護管橋探測中的應用[J].上海國土資源,2022,43(3):131-133.

ZHOU J F.Application of GEM-2 multifrequency electromagnetic technology in the detection of underground pipe protection bridge[J].Shanghai Land & Resources, 2022,43(3):131-133.doi:10.3969/j.issn.2095-1329.2022.03.022.

簡訊 (Newsletter)

[23] 上海市地質學會.“城市地質賦能綠色發(fā)展”上海市地質學會首屆青年科技論壇圓滿落幕[J].上海國土資源,2022,43(3):封3.

doi:10.3969/j.issn.2095-1329.2022.03.023.

第4期（2022年12月30日出版）

自然資源調查與開發(fā)利用 (Investigation and Exploitation of Natural Resources)

[1] 鄭磊.上海長江口南岸第四紀鉆孔微體古生物化石分布特征及其沉積環(huán)境指示意義[J].上海國土資源,2022,43(4):1-7.

ZHENG L.Distribution of microfossils record in Quaternary sediments and its environmental significance in the south bank of the Yangtze Estuary [J].Shanghai Land & Resources, 2022,43(4):1-7.doi:10.3969/j.issn.2095-1329.2022.04.001.

[2] 柳永勝,毛官輝,符榮權,等.浙江中深層水熱型地熱資源評價與勘查方法優(yōu)選[J].上海國土資源,2022,43(4):8-13.

LIU Y S, MAO G H, FU R Q, et al.Evaluation and exploration method optimization of middle-deep hydrothermal geothermal resources in Zhejiang Province[J].Shanghai Land & Resources, 2022,43(4):8-13.doi:10.3969/j.issn.2095-1329.2022.04.002.

[3] 張克松,高志強,張帥,等.安徽泗縣地區(qū)地溫場特征及地熱地質特征分析[J].上海國土資源,2022,43(4):14-17,27.

ZHANG K S, GAO Z Q, ZHANG S, et al.Characteristics of geothermal field and geothermal geology in Si County, Anhui Province[J].Shanghai Land & Resources, 2022,43(4):14-17,27.doi:10.3969/j.issn.2095-1329.2022.04.003.

[4] 劉和花,韓紅慶,高立.鹽穴地下空間的屬性特征及權屬管理探討——以江蘇省為例[J].上海國土資源,2022,43(4):18-22.

LIU H H, HAN H Q, GAO L.Discussion on the attribute characteristics and ownership management of the underground space of salt cavern in Jiangsu Province[J].Shanghai Land & Resources, 2022,43(4):18-22.doi:10.3969/j.issn.2095-1329.2022.04.004.

[5] 蔡坤,廖凱飛.東海西湖凹陷杭州斜坡帶北部平湖組層序特征與低位扇識別及其地質意義[J].上海國土資源,2022,43(4):23-27.

CAI K, LIAO K F.Sequence characteristics and lowstand fan identification and geological significance of the Pinghu Formation in the north Hangzhou slope zone of Xihu Sag, East China Sea[J].Shanghai Land & Resources, 2022,43(4):23-27.doi:10.3969/j.issn.2095-1329.2022.04.005.

[6] 顧炳偉,徐恒喜,程明,等.花果山國家地質公園景觀資源的特征成因及評價[J].上海國土資源,2022,43(4):28-33.

GU B W, XU H X, CHENG M, et al.Characteristics, origin and value evaluation of landscape resources in Huaguoshan National Geopark[J].Shanghai Land & Resources, 2022,43(4):28-33.doi:10.3969/j.issn.2095-1329.2022.04.006.

[7] 高敏.浦東新區(qū)海域空間資源使用現(xiàn)狀及立體利用研究[J].上海國土資源,2022,43(4):34-38,78.

GAO M.Research on the use status and stereoscopic utilization of sea area space resources in Pudong New Area[J].Shanghai Land& Resources, 2022,43(4):34-38,78.doi:10.3969/j.issn.2095-1329.2022.04.007.

地質環(huán)境安全監(jiān)測與災害防治 (Geological Environment Safety Monitoring and Disaster Prevention)

[8] 魏祥,梁志榮,羅玉珊.軟土地區(qū)臨江深大基坑工程地下水綜合控制技術實踐[J].上海國土資源,2022,43(4):39-43,66.

WEI X, LIANG Z R, LUO Y S.Practice of multi-methods of groundwater control technology in deep and large excavations adjacent to rivers in soft soil area[J].Shanghai Land & Resources, 2022,43(4):39-43,66.doi:10.3969/j.issn.2095-1329.2022.04.008.

[9] 田苗壯,羅勇,崔文君,等.南水北調背景下北京地面沉降發(fā)展變化特征[J].上海國土資源,2022,43(4):44-49.

TIAN M Z, LUO Y, CUI W J, et al.Characteristics of development and change of land subsidence in Beijing under the background of the South-to-North Water Diversion Project[J].Shanghai Land & Resources, 2022,43(4):44-49.doi:10.3969/j.issn.2095-1329.2022.04.009.

[10] 劉明遙,張其琪,龔緒龍,等.江蘇常州地區(qū)地面沉降變形特征與生命過程研究[J].上海國土資源,2022,43(4):50-55,72.

LIU M Y, ZHANG Q Q, GONG X L, et al.Study on soil deformation characteristic and the life process of land subsidence in Changzhou Area of Jiangsu Province[J].Shanghai Land & Resources, 2022,43(4):50-55,72.doi:10.3969/j.issn.2095-1329.2022.04.010.

[11] 史忠鑫,王振海,車增光,等.基于信息量法的江蘇盱眙第一山地質災害易發(fā)性評價[J].上海國土資源,2022,43(4):56-60,120.

SHI Z X, WANG Z H, CHE Z G, et al.Evaluation of geological disaster susceptibility of the first mountain in Xuyi county, Jiangsu Province based on information quantity method[J].Shanghai Land & Resources, 2022,43(4):56-60,120.doi:10.3969/j.issn.2095-1329.2022.04.011.

國土空間規(guī)劃和用途管制 (Planning and Use Control of Territorial Space)

[12] 李玉文,李玉琪,程懷文.基于自然資源資產(chǎn)負債表的省域自然資源核算研究——以浙江省為例[J].上海國土資源,2022,43(4):61-66.

LI Y W, LI Y Q, CHENG H W.Provincial natural resource accounting study based on natural resource balance sheet: A case study of Zhejiang Province[J].Shanghai Land & Resources, 2022,43(4):61-66.doi:10.3969/j.issn.2095-1329.2022.04.012.

[13] 陳秋杏,毛德華,張覽岳,等.農(nóng)村集體經(jīng)營性建設用地市場績效評價及影響因素研究[J].上海國土資源,2022,43(4):67-72.

CHEN Q X, MAO D H, ZHANG L Y, et al.Study on performance evaluation and influencing factorsof rural collective operating construction land market[J].Shanghai Land & Resources, 2022,43(4):67-72.doi:10.3969/j.issn.2095-1329.2022.04.013.

[14] 李晨曦,吳靖瑤,王向陽.西安市農(nóng)村居民點時空演化特征及影響因素[J].上海國土資源,2022,43(4):73-78.

LI C X, WU J Y, WANG X Y.Spatio-temporal evolution and optimization countermeasures of rural residential areas of Xi’an[J].Shanghai Land & Resources, 2022,43(4):73-78.doi:10.3969/j.issn.2095-1329.2022.04.014.

[15] 謝斯琦,冶建明.基于AHP-GIS 的干旱區(qū)城鄉(xiāng)建設用地適宜性評價——以新疆昆玉市為例[J].上海國土資源,2022,43(4):79-85.

XIE S Q, YE J M.Suitability evaluation of urban and rural construction land in arid region based on AHP-GIS: Taking Kunyu City of Xinjiang as an example[J].Shanghai Land & Resources, 2022,43(4):79-85.doi:10.3969/j.issn.2095-1329.2022.04.015.

國土空間生態(tài)保護與修復 (Ecological Protection and Restoration of Territorial Space)

[16] 儀小梅,陳敏,顧文怡.全域土地綜合整治項目生態(tài)修復效果評估體系初步構建[J].上海國土資源,2022,43(4):86-90,104.

CHANG B, GUO Z H, LIU G Y, et al.Distribution characteristics and influencing factors of soil selenium in the Lower Yellow River Basin: Take Chiping District of Liaocheng Shandong for example[J].Shanghai Land & Resources, 2022,43(4):86-90,104.doi:10.3969/j.issn.2095-1329.2022.04.016.

[17] 王華美,陳紅,楊東波,等.安徽滁州天長市生態(tài)安全格局構建與優(yōu)化研究[J].上海國土資源,2022,43(4):91-97.

WANG H M, CHEN H, YANG D B, et al.Study on the construction and optimization of ecological security pattern in Tianchang City of Chuzhou, Anhui[J].Shanghai Land & Resources, 2022,43(4):91-97.doi:10.3969/j.issn.2095-1329.2022.04.017.

[18] 鮑章軒,韋仕川.?？谑小叭臻g”的土地利用轉型及生態(tài)服務功能演變[J].上海國土資源,2022,43(4):98-104.

BAO Z X, WEI S C.Land use transformation and ecological service function evolution of production-living-ecological space in Haikou City[J].Shanghai Land & Resources, 2022,43(4):98-104.doi:10.3969/j.issn.2095-1329.2022.04.018.

自然資源管理與信息技術 (Natural Resources Management and Information Technology)

[19] 宗仁.經(jīng)營性用地入市: 規(guī)范農(nóng)家樂建設的供地之路[J].上海國土資源,2022,43(4):105-109.

ZONG R.Rural collective construction land entering the market: Standardizing the land supply road for the construction of agritainment[J].Shanghai Land & Resources, 2022,43(4):105-109.doi:10.3969/j.issn.2095-1329.2022.04.019.

[20] 易璐,周玉,張婷,等.基于標定地價的國有建設用地資產(chǎn)價值估算價格體系建設研究[J].上海國土資源,2022,43(4):110-115,127.

YI L, ZHOU Y, ZHANG T, et al.The research of state-owned construction land assets inventory price system based on calibrated land price[J].Shanghai Land & Resources, 2022,43(4):110-115,127.doi:10.3969/j.issn.2095-1329.2022.04.020.

[21] 劉立國,梁子亮,彭慧,等.江蘇省國土調查日常變更工作機制與技術方法創(chuàng)新實踐[J].上海國土資源,2022,43(4):116-120.

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[22] 史友峰,陸揚,朱鵬程.縣域農(nóng)村不動產(chǎn)空間特征與管理優(yōu)化——以江蘇海安市為例[J].上海國土資源,2022,43(4):121-127.

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[23] 首屆“上海市地質之星人才計劃”入選人員與研究項目[J].上海國土資源,2022,43(4):128.

doi:10.3969/j.issn.2095-1329.2022.04.023.

[24] 《上海國土資源》刊文高比例獲評“高影響力論文”[J].上海國土資源,2022,43(4):129-130.

doi:10.3969/j.issn.2095-1329.2022.04.024.

[25]《上海國土資源》2022 年度特邀審稿專家名錄[J].上海國土資源,2022,43(4):封3.

doi:10.3969/j.issn.2095-1329.2022.04.025.

[26]《上海國土資源》2022年第43卷總目次[J].上海國土資源,2022,43(4):I-VII.

doi:10.3969/j.issn.2095-1329.2022.04.026.