DOCSLIB.ORG

Provenance of Upper Miocene Sediments in the Yinggehai and Qiongdongnan Basins, Northwestern South China Sea: Evidence from REE, Heavy Minerals and Zircon U–Pb Ages

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Provenance of Upper Miocene Sediments in the Yinggehai and Qiongdongnan Basins, Northwestern South China Sea: Evidence from REE, Heavy Minerals and Zircon U–Pb Ages Marine Geology 361 (2015) 136–146 Contents lists available at ScienceDirect Marine Geology journal homepage: www.elsevier.com/locate/margeo Provenance of Upper Miocene sediments in the Yinggehai and Qiongdongnan basins, northwestern South China Sea: Evidence from REE, heavy minerals and zircon U–Pb ages Licheng Cao a,b,TaoJianga,⁎, Zhenfeng Wang c, Yingzhao Zhang c, Hui Sun a a Key Laboratory of Tectonics and Petroleum Resources of Ministry of Education, China University of Geosciences, Wuhan 430074, China b State Key Laboratory of Marine Geology, Tongji University, Shanghai 200092, China c Zhanjiang Branch of China National Offshore Oil Corporation, Zhanjiang 524057, China article info abstract Article history: The Yinggehai and Qiongdongnan basins in the northwestern South China Sea preserve a large volume of Ceno- Received 31 August 2014 zoic sediments. However, their sources are still barely understood. In this paper, we combine rare earth element Received in revised form 18 January 2015 (REE) geochemistry, heavy mineral analysis and detrital zircon U–Pb geochronology for samples from potential Accepted 19 January 2015 source areas and basin boreholes to explore the Late Miocene source-to-sink system. Our reconstructed model Available online 20 January 2015 reveals that the Upper Miocene sediments were supplied from nonunique sources. Hainan Island mainly con- trolled the supply to the outer shelf, resulting in the relatively high REE concentration, zircon–tourmaline–rutile Keywords: – Yinggehai Basin (ZTR) index and the Yanshanian zircon U Pb ages. By contrast, sediments from the northern Yinggehai Basin Qiongdongnan Basin show a lower REE concentration and the assemblage of garnet, magnetite, epidote, amphibole and staurolite, sug- South China Sea gesting the influence of metamorphic rocks along the Red River Fault Zone. Despite the geological data shortage Upper Miocene in Central Vietnam, it may still be distinguished from the other provenances in the Central Depression of the Provenance Yinggehai Basin where is characterized by little metamorphic minerals and the relatively low ZTR index. It is noteworthy that sediments in the Central Depression of the Qiongdongnan Basin are distinct from those offshore Hainan Island in terms of each provenance proxy. We interpret that these sediments probably were transported from the southeastern Yinggehai Basin through the submarine canyon. The relative sea level fall during the Late Miocene and the structural inversion in the northern Yinggehai Basin could together facilitate this long-distance sediment transport. The local mafic volcanism is also found in the Qiongdongnan Basin, as indicated by the Eu enrichment and the mineral group of augite and olivine. © 2015 Elsevier B.V. All rights reserved. 1. Introduction area of 160 × 103 km2 and a discharge of 120 km3/yr respectively (Milliman and Farnsworth, 2011). Accordingly, it has been previously The intensive petroleum exploration in the northwestern South held that the Red River dominated the Neogene sediment supply to China Sea (SCS) has led to a number of oil and gas discoveries (e.g. the the basins (Clift and Sun, 2006). Recent detrital zircon U–Pb geochro- DF1 and YC13 wells; Hao et al., 2000; Xie et al., 2008b) in the Yinggehai nology on Upper Miocene–Quaternary sediments by Wang et al. and Qiongdongnan basins (the YGHB and the QDNB). Moreover, the (2014) also favored this viewpoint that the Yangtze Craton along the basins preserve an important sedimentary record of Cenozoic Tibetan upstream Red River was always the major source to the YGHB. But Plateau uplift, tectonic activity of adjacent plates and East Asian mon- this conclusion may be questionable at the whole basin scale, as sample soon evolution (e.g. Clift and Sun, 2006; van Hoang et al., 2010b). locations are just confined to the Dongfang area of the central YGHB. Hence, their sedimentary filling, structural evolution and hydrocarbon There is already growing evidence that the YGHB and the QDNB were accumulation have received great scientific attentions. As an important not solely sourced from the Red River. Another possible provenance is component of basin research, provenance analysis has been widely ap- Hainan Island, which can be exemplified by progradational slope plied in e.g. paleogeographic reconstruction and reservoir evaluation clinoforms along its margin (Xie et al., 2008a). U–Pb ages peaking at (e.g. Nie et al., 2012; Vincent et al., 2013). The Red River is one of the 90–110 Ma of detrital zircons from the joint area of the two basins also largest rivers along the northwestern SCS (Fig. 1), with a drainage suggest that Hainan Island was an important source throughout the Oli- gocene–Miocenetime(Yan et al., 2011). Meanwhile, a contribution from Central Vietnam is usually disregarded because of the scarcity of pub- ⁎ Corresponding author at: 388 Lumo Rd., China University of Geosciences, Wuhan 430074, China. lished research in this source area. Clift et al. (2004) speculated that Cen- E-mail address: [email protected] (T. Jiang). tral Vietnam mainly feeds the Mekong River drainage basin, thus http://dx.doi.org/10.1016/j.margeo.2015.01.007 0025-3227/© 2015 Elsevier B.V. All rights reserved. L. Cao et al. / Marine Geology 361 (2015) 136–146 137 Fig. 1. (a) Location of the Yinggehai and Qiongdongnan basins relative to SE Asia and the South China Sea. (b) Map displaying the topography and sample locations. Topography data are after Ryan et al. (2009). Major rivers in potential source areas are also shown: RR, Red River; NSR, Nam San River; CR, Ca River; SR, Son River; TBR, Thu Bon River; CHR, Changhua River; LSR, Lingshui River; WQR, Wanquan River. Crosses, circles and stars represent the analyzed samples of rare earth element (REE), heavy mineral and detrital zircon U–Pb age, respectively. The locations of LK, LS4 and LS33 are also marked for a comparison of REE data (Clift et al., 2008; Shao et al., 2010; Chen, 2012). delivering little sediment to the YGHB. However, recent offshore seismic Yingdong Slope, the Yingxi Slope, the Lingao Low-uplift and the Central profiling revealed eastward progradation from the Vietnamese margin to Depression (Fig. 2). The maximum thickness of the Cenozoic sedimen- thewesternQDNBsincetheMiocene(Yao et al., 2008; van Hoang et al., tary fill reaches up to approximately 17 km (Gong et al., 1997). The 2010b), suggesting a potential provenance from Central Vietnam. high geothermal gradient and strong overpressure facilitate a complex Large-scale submarine fans are widely distributed in the Upper petroleum system (Hao et al., 2000). Miocene strata of the YGHB and the QDNB (Zhang et al., 2013b). Their The QDNB is surrounded by Hainan Island, the Shenhu Uplift and the sedimentary provenance is still not well understood. Wang et al. Xisha Islands (or Paracel Islands) with its orientation perpendicular to (2011) interpreted them as a part of the Red River depositional system, the trend of the YGHB (Fig. 1). The tectonic framework of the QDNB whereas Sun et al. (2014) suggested that the coeval gravity flow system shows obvious differences between its western and eastern parts in the central YGHB was probably fed by the Ca River in Central (Zhang et al., 2013a), and can be subdivided into the Northern Depres- Vietnam. A provenance study is thus presented in this paper, based on sion, the Central Depression and the Southern Uplift (Fig. 2). analyses on river sands from Hainan Island and Upper Miocene The structure and stratigraphy of the YGHB and the QDNB have been sediments from the YGHB and the QDNB. A combination of rare earth el- studied for decades. Several mechanisms e.g. the strike-slip of the Red ement (REE) geochemistry, heavy mineral analysis and detrital zircon River Fault Zone (RRFZ), the Indochina block extrusion and the SCS sea- U–Pb geochronology is employed to constrain the provenance informa- floor opening are used to explain their complex evolution (e.g. Zhu et al., tion. Major controlling factors like regional tectonic activity and eustatic 2009; Wang et al., 2013b; Zhang et al., 2013a; Zhu and Lei, 2013). The sea level change are also briefly discussed in order to establish a basic basins feature the typical passive continental margin with a two- model for the Late Miocene source-to-sink system. phase evolution: a rift phase from the Paleocene to the Oligocene and a post-rift phase from the Miocene to the recent (Fig. 3; Chen et al., 2. Geological setting 1993). During the early-stage Neogene post-rifting, the basins underwent a thermal subsidence with attenuated fault activities. The 2.1. Geological background of the YGHB and the QDNB stress pattern of the northern YGHB changed from transtensional to transpressional after the Middle Miocene, and this resulted in the exten- The YGHB is situated between Hainan Island and Vietnam with a sive inversion in the Hanoi Basin and the northern part of the YGHB long axis oriented NNW–SSE (Fig. 1). The basin can be parted into the (Rangin et al., 1995; Clift and Sun, 2006). During the Late Miocene, the 138 L. Cao et al. / Marine Geology 361 (2015) 136–146 Fig. 2. Tectonic units of the Yinggehai and Qiongdongnan basins and the simplified geological map (modified from Commission for the Geological Map of the World, 1975)ofpotential source areas showing the lithological distribution along river courses. Only rivers that directly flow into the northwestern South China Sea are displayed. Major fault zones are modified from Lepvrier et al. (2008). relative sea level fall (Fig. 3) led to the retreat and partial drowning of southeastern YGHB and the western QDNB were mainly characterized carbonate platforms along the southeast Vietnamese margin and by progradational slope clinoforms favored by high rates of sediment around the Xisha Islands (Fyhn et al., 2009; Wu et al., 2014). The supply, whereas the eastern QDNB showed an aggradational pattern Fig.
Load more

Recommended publications
  • Initial Exploration of a Protection System for Historical and Cultural Towns and Villages in Hainan, China
    Structural Studies, Repairs and Maintenance of Heritage Architecture XV 297 INITIAL EXPLORATION OF A PROTECTION SYSTEM FOR HISTORICAL AND CULTURAL TOWNS AND VILLAGES IN HAINAN, CHINA WANG ZHENYU Department of Architecture and Urban Planning, Huazhong University of Science and Technology, China ABSTRACT The long course of Chinese national history runs from a remote source. Since China has a vast territory, different regions formed a variety of regional cultures with different natural environments and era evolutions. Historical and cultural towns and villages not only exist as individual entities, but also as integrated urban and rural settlements and regional cultures. This paper presents the methodologies for the protection of historical towns and villages in the phase of systematic planning in Hainan Province. The research begin with looking at Hainan’s regional culture, adopting the research method of anthropology and regional heritage to retrace the culture of Hainan’s towns and villages, analysing the status quo, and on this basis, building a framework of Hainan historical towns and villages in promotion of its rational protection and development. Keywords: historical and cultural towns and villages, land use, Meso-scale space unit, non-motor- vehicle travel. 1 INTRODUCTION Hainan is a tropical island in southern China with beautiful scenery; its special natural environment has created an exotic culture. Today, most people see Hainan as an international scenic spot; however, less attention is paid to Hainan’s culture and traditions, which, to some extent, results in a lack of cultural construction. Historical and cultural villages and towns are important space carriers of Hainan culture; therefore, the construction of provincial-level historical and cultural towns and villages to protect the historical and cultural heritage of Hainan is essential.
    [Show full text]
  • Using Zircon U–Pb Ages to Constrain the Provenance and Transport of Heavy Minerals Within the Northwestern Shelf Of
    Accepted Manuscript Using zircon U–Pb ages to constrain the provenance and transport of heavy minerals within the northwestern shelf of the South China Sea Lifeng Zhong, Gang Li, Wen Yan, Bin Xia, Yuexing Feng, Li Miao, Jianxin Zhao PII: S1367-9120(16)30367-4 DOI: http://dx.doi.org/10.1016/j.jseaes.2016.11.019 Reference: JAES 2857 To appear in: Journal of Asian Earth Sciences Received Date: 27 July 2016 Revised Date: 11 November 2016 Accepted Date: 20 November 2016 Please cite this article as: Zhong, L., Li, G., Yan, W., Xia, B., Feng, Y., Miao, L., Zhao, J., Using zircon U–Pb ages to constrain the provenance and transport of heavy minerals within the northwestern shelf of the South China Sea, Journal of Asian Earth Sciences (2016), doi: http://dx.doi.org/10.1016/j.jseaes.2016.11.019 This is a PDF file of an unedited manuscript that has been accepted for publication. As a service to our customers we are providing this early version of the manuscript. The manuscript will undergo copyediting, typesetting, and review of the resulting proof before it is published in its final form. Please note that during the production process errors may be discovered which could affect the content, and all legal disclaimers that apply to the journal pertain. Using zircon U–Pb ages to constrain the provenance and transport of heavy minerals within the northwestern shelf of the South China Sea Lifeng Zhonga,b,, Gang Lib, Wen Yanb, Bin Xiaa, Yuexing Fengc, Li Miaob, Jianxin Zhaoc a School of Marine Sciences, Sun Yat-Sen University, Guangzhou 510006, China b Key Laboratory of Marginal Sea Geology, South China Sea Institute of Oceanology, Chinese Academy of Sciences, Guangzhou 510301, China c Radiogenic Isotope Laboratory, School of Earth Sciences, The University of Queensland, Brisbane 4072, Australia ABSTRACT Numerous ore-grade heavy mineral placer deposits occur in the northern South China Sea region.
    [Show full text]
  • A Semantic Expansion Model for VGI Retrieval
    International Journal of Geo-Information Article A Semantic Expansion Model for VGI Retrieval Tao Sun 1, Hui Xia 2, Lin Li 1,3,4,* , Hang Shen 1 and Yu Liu 1 1 School of Resource and Environment Sciences, Wuhan University, Wuhan 430079, China; [email protected] (T.S.); [email protected] (H.S.); [email protected] (Y.L.) 2 Changjiang Spatial Information Technology Engineering CO, LTD, Wuhan 430079, China; [email protected] 3 The Key Laboratory for Geographical Information Systems, Ministry of Education, Wuhan 430079, China 4 Geo Spatial Information Science Collaborative Innovation Center of Wuhan University, 129 Luoyu Rd., Wuhan 430079, China * Correspondence: [email protected]; Tel.: +86-138-7150-4963 Received: 19 October 2019; Accepted: 16 December 2019; Published: 17 December 2019 Abstract: OpenStreetMap (OSM) is a representative volunteered geographic information (VGI) project. However, there have been difficulties in retrieving spatial information from OSM. Ontology is an effective knowledge organization and representation method that is often used to enrich the search capabilities of search systems. This paper constructed an OSM ontology model with semantic property items. A query expansion method is also proposed based on the similarity of properties of the ontology model. Moreover, a relevant experiment is conducted using OSM data related to China. The experimental results demonstrate that the recall and precision of the proposed method reach 80% and 87% for geographic information retrieval, respectively. This study provides a method that can be used as a reference for subsequent research on spatial information retrieval. Keywords: geographical information retrieval; OSM ontology; sematic similarity; query expansion 1.
    [Show full text]
  • Apr 2018 02.Indd
    CORE Metadata, citation and similar papers at core.ac.uk Provided by UKM Journal Article Repository Sains Malaysiana 47(4)(2018): 651-659 http://dx.doi.org/10.17576/jsm-2018-4704-02 Distribution and Behaviour of Nitrogen Compounds in the Surface Water of Sungai Terengganu Estuary, Southern Waters of South China Sea, Malaysia (Taburan dan Perlakuan Sebatian Nitrogen di Permukaan Air Muara Sungai Terengganu, Perairan Selatan Laut China Selatan, Malaysia) SUHAIMI SURATMAN*, AZYYATI ABDUL AZIZ, NORHAYATI MOHD TAHIR & LEE HIN LEE ABSTRACT A study was carried out to determine the distribution and behaviour of nitrogen (N) compounds (nitrite, nitrate, ammonia, dissolved and particulate organic nitrogen) in Sungai Terengganu estuary (TRE). Surface water samples were collected during ebb neap and spring tides for the longitudinal survey along the salinity gradient. The results indicated that all N compounds behave non-conservatively with addition during both tidal cycles, except for nitrate which exhibited removal behaviour during spring tide. In general, higher concentration of N compounds was observed during spring tide compared to neap tide. It is suggested that during spring tide, stronger water turbulence resulted in resuspension of nutrients in bottom sediment and lead to the increase in N compounds concentrations in the surface water. The diurnal survey for the freshwater station showed that the concentrations of N compounds follow the ebb and flood variations, whereas for the coastal station the reverse trend was observed. Comparisons with a previous study under similar tidal conditions show there was an increase in nitrite and ammonia concentrations in TRE, which was probably due to increase in discharge from the rapid development activities around this area.
    [Show full text]
  • Rare Earth Element Distributions in Continental Shelf Sediment, Northern South China Sea
    water Article Rare Earth Element Distributions in Continental Shelf Sediment, Northern South China Sea Qian Ge 1,2,*, Z. George Xue 3,4,5 and Fengyou Chu 1,2 1 Key Laboratory of Submarine Geosciences, Ministry of Natural Resources, Hangzhou 310012, China; [email protected] 2 Second Institute of Oceanography, Ministry of Natural Resources, Hangzhou 310012, China 3 Department of Oceanography and Coastal Sciences, Louisiana State University, Baton Rouge, LA 70803, USA; [email protected] 4 Center for Computation and Technology, Louisiana State University, Baton Rouge, LA 70803, USA 5 Coastal Studies Institute, Louisiana State University, Baton Rouge, LA 70803, USA * Correspondence: [email protected] Received: 16 October 2020; Accepted: 11 December 2020; Published: 16 December 2020 Abstract: A total of 388 surface sediment samples taken from the northern South China Sea (SCS) continental shelf were analyzed to characterize the signature of their rare earth elements (REEs). The average REEs concentration was 192.94 µg/g, with a maximum of 349.07 µg/g, and a minimum of 32.97 µg/g. The chondrite-normalized REEs pattern exhibits a remarkably light REEs accumulation, a relatively flat heavy REEs pattern, and a negative Eu anomaly. We subdivided the study area into three zones using the characteristics of REEs and statistical characteristics. Zone I: continental shelf off western Guangdong Province. Here, the sediment provenance is mainly river-derived from the Pearl River, Taiwanese rivers, and those in the adjacent area. Zone II: Qiongzhou Strait and Leizhou Peninsula. Here, the sediment provenance consists of the Qiongzhou Strait and the Hainan Island.
    [Show full text]
  • The Species Composition and Distribution Patterns of Non-Native Fishes in the Main Rivers of South China
    sustainability Article The Species Composition and Distribution Patterns of Non-Native Fishes in the Main Rivers of South China Dang En Gu 1,2,3, Fan Dong Yu 1,2,3, Yin Chang Hu 2, Jian Wei Wang 1,*, Meng Xu 2, Xi Dong Mu 2, Ye Xin Yang 2, Du Luo 2, Hui Wei 2, Zhi Xin Shen 4, Gao Jun Li 4, Yan Nan Tong 4 and Wen Xuan Cao 1 1 Institute of Hydrobiology, Chinese Academy of Sciences, Wuhan 430072, China; [email protected] (D.E.G.); [email protected] (F.D.Y.); [email protected] (W.X.C.) 2 Pearl River Fisheries Research Institute, Chinese Academy of Fishery Sciences, Key Laboratory of Recreational Fisheries, Ministry of Agriculture and Rural Affairs, Guangzhou 510380, China; [email protected] (Y.C.H.); [email protected] (M.X.); [email protected] (X.D.M.); [email protected] (Y.X.Y.); [email protected] (D.L.); [email protected] (H.W.) 3 University of Chinese Academy of Sciences, Beijing 100049, China 4 Hainan Academy of Ocean and Fisheries Sciences, Haikou 570100, China; [email protected] (Z.X.S.); [email protected] (G.J.L.); [email protected] (Y.N.T.) * Correspondence: [email protected]; Tel.: +86-27-6878-0033 Received: 19 April 2020; Accepted: 29 May 2020; Published: 3 June 2020 Abstract: Non-native fish invasions are among the greatest threats to the sustainability of freshwater ecosystems worldwide. Tilapia and catfish are regularly cultured in South China which is similar to their climate in native areas and may also support their invasive potential.
    [Show full text]
  • Ri:-R .$ Everlasting Spring Br Qitrn Sottg.Rutt T
    .ri:-r .$ Everlasting spring br Qitrn Sottg.rutt t : CHING tlNG (MME" SUN SE!-VI- "!18J}'.PUBIISHED LYBY-THE I tN ets-oriiiNls'inrilin,Tne l-Ah Genunru, poRt AND c Articfles o thE qmtf? voL xxxt $tQ. 1 JAN!,JARY 1982. ilrlew Trends in E&NTENTS Foreign Trode Volume ond volue Ihe 30th Anniversory of ehino Reconstlucts ore up; monufqctured Three Decades Mirroring the New China 2 qoods' ore overtoking Beginnings, Growing Pains and Prospec'ls 6 iow moteriqls os mojor ln lts Founder's SPirit 7 Headers' Letters Olo and New 8 From Noted Artists I Econon'ricsT5ociety 13 New Trends in Foreign Trade lhem. Poge China's Shipbuilding Boom 19 A Chinese Village's 45 Years 24 A Villoge's 45 Yeors Firsl Rarlway to the 'Roof of ihe World' 29 Basic Forms in the Sociaiist Economy 42 Eminent socio'cnthroPologist The Fashion Scene in Beijing 6t Fei Xiootong, visiting Koixiongong for the third time ouel 45 Yeors, Scienee uses it 65 s misrocosm through Fighting Back the Deserts 3B which to view the historY of uPs Studying Tibet's Weather 57 ond downs, p Protecting Hare Yangtze Alligators 74 ond tuture pro pects ol the rurq The Arts Flecent Trends in Chinese Writing 16 Symposium on Dai Literature Aa A Dance TriumPh 4B Foshiom Seene in Beiiing Medicine The new fosh,ion conscious' Trilrute to a Pioneer: Dr Samuel Rosen 34 ,ress" seems here to stoy, AE Lin Oiaozhi China's Beloved Baby Doctor ll os - nof Archeology hind China's Ancient Weapons 58 sby in- Across the Lond dustries to keep up with new lnternational Tournaments: Fencing, Swimming, Water demonds" Poge 67 Polo 47 Hainan, the Treasure lsland (ll) 53 'Flying Dragon' ls Good to Eat 62 Chinese Shipbuilding Reviues Dalian Seamen's Club 63 Beautiful Huangshan 64 , its Products now sold in the int I : leods the woY in Golumns ond Speciols shi Poge-Chino's 19 Children: Budding Scientist 23 Do You Know? China's Maior Holidays 37 Sketches by A Lao 76 Ancienl Weopons Legends and Tales from History: Story ot Yi Yin 77 Language Corner: Lesson 13 Bone, stoner bronze, iron Address.
    [Show full text]
  • Nutrient Dynamics in Tropical Rivers, Lagoons, and Coastal Ecosystems of Eastern Hainan Island, South China Sea
    Biogeosciences, 11, 481–506, 2014 Open Access www.biogeosciences.net/11/481/2014/ doi:10.5194/bg-11-481-2014 Biogeosciences © Author(s) 2014. CC Attribution 3.0 License. Nutrient dynamics in tropical rivers, lagoons, and coastal ecosystems of eastern Hainan Island, South China Sea R. H. Li1, S. M. Liu1, Y. W. Li1,3, G. L. Zhang1, J. L. Ren1, and J. Zhang2 1Key Laboratory of Marine Chemistry Theory and Technology, Ministry of Education, Ocean University of China, Qingdao colobrative innovation center of marine science and technology, Qingdao 266100, China 2State Key Laboratory of Estuarine and Coastal Research, East China Normal University, Shanghai 200062, China 3now at: College of Chemistry and Chemical Engineering, Taishan University, Tai’an 271000, China Correspondence to: S. M. Liu ([email protected]) Received: 10 April 2013 – Published in Biogeosciences Discuss.: 5 June 2013 Revised: 8 December 2013 – Accepted: 10 December 2013 – Published: 30 January 2014 Abstract. Nutrient dynamics based on field observations of Hainan Island. Nutrient inputs to the coastal ecosystem made along the eastern Hainan Island during the period increased with typhoon-induced runoff of rainwater, eluci- 2006–2009 were investigated to understand nutrient biogeo- dating the important influence of typhoons on small tropical chemical processes, and to provide an overview of human rivers. perturbations of coastal ecosystems in this tropical region. The rivers showed seasonal variations in nutrient concen- trations, with enrichment of dissolved inorganic nitrogen 3− 1 Introduction and dissolved silicate, and depletion of PO4 . High riverine concentrations of nitrate mainly originated from agricultural 3− Estuaries and coastal areas are regions of high population fertilizer inputs.
    [Show full text]
  • V. Healthcare Industry (5 Projects)
    V. Healthcare Industry (5 Projects) 42. Hainan Boao Lecheng International Medical Tourism Pilot Zone Project Name Hainan Boao Lecheng International Medical Tourism Pilot Zone Established with the approval of the State Council on February 28th, 2013, the Hainan Boao Lecheng International Medical Tourism Pilot Zone is China’s first national development park that offers international medical tourism services, low-carbon ecological community services and international convergence services. The pilot zone is highly praised as the “Second Movement of ‘Boao Forum for Asia’” by Premier Li Keqiang Park Overview and is given nine preferential policies by the State Council. The project plans to build an international medical tourism demonstration base with first-class hardware facilities, a high service level and an international service idea. After completion, the zone will be inhabited by about 56,000 permanent residents and 41,000 jobs will be created. About 5 million medical tourists will be received annually and the annual total output value of core industries will reach RMB33-50 billion. Located on both banks of the Wanquan River between the urban area of Park Location Jiaji Town, Qionghai City and the core area of Boao Forum for Asia. The planning area covers 20.14km2 (control area: 45.9km2). The land for construction covers 9.96km2. Key investment International medicine-related industries including healthcare, anti-aging, content physical examination and scientific research Panoramic Photo (Project Rendering) Contact Person Wang Shiquan 15595841886 1 43. Boao Lecheng Cooperation Project Park Project Name Boao Lecheng Cooperation Project Park We are actively involved in the construction of the Boao Lecheng International Medical Tourism Pilot Zone and cooperate with the China Life Insurance Co., Ltd.
    [Show full text]
  • 河口海岸学国家重点实验室(华东师范大学)所有, 未经许可不得转载和翻印。 河口海岸学国家重点实验室 ( 华东师范大学 ) State Key Laboratory of Estuarine and Coastal Research (East China Normal University)
    版权归河口海岸学国家重点实验室(华东师范大学)所有, 未经许可不得转载和翻印。 河口海岸学国家重点实验室 ( 华东师范大学 ) State Key Laboratory of Estuarine and Coastal Research (East China Normal University) ۶ղڅٵ 河口海岸学国家重点实验室 State Key Laboratory of Estuarine and Coastal Research (华东师范大学) East China Normal University 地址:上海市中山北路 3663 号 Shanghai200062,China 邮编:200062 Tel:86-21-62232887 电话:021-62232887 Fax:86-21-62546441 传真:021-62546441 Email:[email protected] 网址:http://www.sklec.ecnu.edu.cn Website:http://www.sklec.ecnu.edu.cn 河口海岸学国家重点实验室(华东师范大学) 2011 年度报告 主编:周云轩、张卫国 Editiors in-chief:ZhouYunxuan,ZhangWeiguo 编辑:金灿、江红、李俊红、瞿建国、谈莉、王璐 Editiors:JinCan,JiangHong,LiJunhong,QuJianguo,TanLi,WangLu ဣዩ၀ኧၣᆕᏋ્ǖ ৻ ᆰǖ ޾૴᎜ ᒦਪ৔߈ᏔᏔိ ખࣁနपࡍኧ ୴၈ Ⴁଗ౾ ᒦਪపኧᏔᏔိ ਪଜ਱ዳ௜࢒औ਱ዳዐ௅Ⴥ ዐ௅Ꮛ ᓍ ྀǖ ᅽ਒໿ ᒦਪపኧᏔᏔိ ༹ખࡍኧ ୴၈ ঃᓍྀǖ ೶ኧᶀ ᒦਪపኧᏔᏔိ ૴೶ࡍኧ ୴၈ ᐽ ள ᒦਪపኧᏔᏔိ ખࣁနपࡍኧ ୴၈ ᆕ Ꮛǖ ჰ໪ဍ ᒦਪ৔߈ᏔᏔိ ᒦਪၺޘపኧዐ௅Ꮤલ਱ၺޘዐ௅Ⴥ ዐ௅Ꮛ ઈ࣮ቢ ᒦਪపኧᏔᏔိ ᒦਪపኧᏔ਱ዳዐ௅Ⴥ ዐ௅Ꮛ ༬ࡍ੡ ᒦਪపኧᏔᏔိ ᒦਪపኧᏔ਼ཌ੃ཌણஹᎧ৔߈ዐ௅Ⴥ ዐ௅Ꮛ ණ ᆖ ᒦਪ৔߈ᏔᏔိ ᒦਪણஹపኧዐ௅Ꮤ ዐ௅Ꮛ ௜ ዐ௅Ꮛއᐽ੷ჸ ਪᅉᓾᏎݝݬူ ᒦਪ࢐ᒠࢯ ୗ ໻ ୣᄰᏥၒݝᏇᔐ৔ ୴၈଀঱৔ ޾ ం ਪଜ૥߻࢐ಯቧᇦᒦቦ ᔐ৔ ୴၈ ዮᔫဍ ᒦਪ਱ዳࡍኧ ୴၈ ঱ ၑ ฉயࡍኧ ୴၈ ᎝ೂᒦ ખࣁနपࡍኧ ୴၈ ࢷຳቭ ખࣁနपࡍኧ ୴၈ ᒲᏠኛ ખࣁနपࡍኧ ୴၈ ဣዩ၀ഌࡴǖ ᓍ ྀǖᒲᏠኛ ঃᓍྀǖੜ ༴ĂᐽᆦਪĂᑌޟ༴ SKLEC Academic Committee: Advisory Members: Prof. Chen Jiyu, East China Normal University, and Academician of CAE Prof. Dr. Su Jilan, Second Institute of Oceanography, SOA, and Academician of CAS Chair: Prof. Dr. Wang Guangqian, Tsinghua University, Academician of CAS Deputy Chairs: Prof. Lin Xueyu, Jilin University, and Academician of CAS Prof. Dr. Zhang Jing, East China Normal University, and Academician of CAS Members: Prof.
    [Show full text]
  • Areas Benefiting from Water Conservation in Key Ecological Function Areas in China
    Nov., 2015 Journal of Resources and Ecology Vol.6 No.6 J. Resour. Ecol. 2015 6 (6) 375-385 Eco. Compensation DOI:10.5814/j.issn.1674-764x.2015.06.005 www.jorae.cn Areas Benefiting from Water Conservation in Key Ecological Function Areas in China XIAO Yu1*, ZHANG Changshun1 and XU Jie1,2 1 Institute of Geographic Sciences and Natural Resources Research, CAS, Beijing 100101, China; 2 University of Chinese Academy of Sciences, Beijing 100049, China Abstract: Ecosystem services are transferred from the service-providing area to the service-benefiting area to satisfy human needs through some substance, energy or information. Most studies focus on the provision of ecosystem services and few focus on the demands on ecosystem services and their spatial distribution. Here, on the basis of the flow of water conservation services from the providing area to the benefiting area, the benefits produced by water conservation service are investigated and the benefiting areas are identified. The results indicate that in 2010 the water conservation service of key ecological function areas provided irrigation water for 1.67×105 km2 of paddy fields and 1.01×105 km2 irrigated fields, domestic water to urban residents and industrial water to factories, mines and enterprises of 2.64×104 km2 urban construction land and domestic water to rural residents across 3.73×104 km2 of rural settlements and formed 6.64×104 km2 of inland water which can be used for freshwater aquaculture, downstream regions comprise 1.31×104 km of navigable river, which can be used for inland shipping. The benefit areas of the key function areas located in the upper and middle reaches of the Yangtze River are greater and more influential benefit areas.
    [Show full text]
  • Report on the State of the Environment in China 2012
    2012 The “2012 Report on the State of the Environment in China” is hereby announced in accordance with the Environmental Protection Law of the People's Republic of China. Minister of Environmental Protection The People’s Republic of China May 28, 2013 2012 Reduction of the Total Load of Major Pollutants .................................. 1 Freshwater Environment ......................................................................... 4 Marine Environment ............................................................................... 16 Atmospheric Environment ..................................................................... 22 Acoustic Environment ............................................................................. 29 Solid Waste ............................................................................................... 31 Radiation Environment .......................................................................... 34 Nature and Ecology ................................................................................. 38 Rural Environmental Protection ........................................................... 44 Forest ........................................................................................................ 47 Grassland ................................................................................................. 48 Climate and Natural Disasters ............................................................... 50 12th Five-Year Plan for Energy Conservation and Pollution Reduction ............ 2 Source
    [Show full text]