Land Degradation Monitoring in the Ordos Plateau of China Using an Expert Knowledge and BP-ANN-Based Approach
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Pizu Group Holdings Limited 比優集團控股有限公司 (Incorporated in the Cayman Islands with Limited Liability) (Stock Code: 8053)
Hong Kong Exchanges and Clearing Limited and The Stock Exchange of Hong Kong Limited take no responsibility for the contents of this announcement, makes no representation as to its accuracy or completeness and expressly disclaim any liability whatsoever for any loss howsoever arising from or in reliance upon the whole or any part of the contents of this announcement. This announcement appears for information purposes only and does not constitute an invitation or offer to acquire, purchase or subscribe for the Shares. Pizu Group Holdings Limited 比優集團控股有限公司 (Incorporated in the Cayman Islands with limited liability) (Stock Code: 8053) (1) VERY SUBSTANTIAL ACQUISITION AND CONNECTED TRANSACTION IN RELATION TO ACQUISITION OF THE SHARES IN, AND SHAREHOLDER’S LOAN DUE BY, AMPLE OCEAN HOLDINGS LIMITED INVOLVING ISSUE OF CONVERTIBLE BONDS (2) INCREASE IN AUTHORISED SHARE CAPITAL OF THE COMPANY (3) NON-EXEMPT CONTINUING CONNECTED TRANSACTION (4) RESUMPTION OF TRADING ACQUISITION OF THE SHARES IN, AND SHAREHOLDER’S LOAN DUE BY, AMPLE OCEAN HOLDINGS LIMITED INVOLVING ISSUE OF CONVERTIBLE BONDS After the close of trading hours on 19 January 2015, the Company, the Vendors and Shiny Ocean entered into the SP Agreement pursuant to which the Vendors and Shiny Ocean have conditionally agreed to sell and the Company conditionally agreed to purchase the Sale Shares and the Sale Loan at the aggregate consideration of HK$837 million. The total consideration for the acquisition of the Sale Shares is HK$774 million, which shall be satisfied by the Company issuing to each of the Vendors or (in respect of Mr. Ma Qiang and Mr. -
Annual Report Annual Report 2020
2020 Annual Report Annual Report 2020 For further details about information disclosure, please visit the website of Yanzhou Coal Mining Company Limited at Important Notice The Board, Supervisory Committee and the Directors, Supervisors and senior management of the Company warrant the authenticity, accuracy and completeness of the information contained in the annual report and there are no misrepresentations, misleading statements contained in or material omissions from the annual report for which they shall assume joint and several responsibilities. The 2020 Annual Report of Yanzhou Coal Mining Company Limited has been approved by the eleventh meeting of the eighth session of the Board. All ten Directors of quorum attended the meeting. SHINEWING (HK) CPA Limited issued the standard independent auditor report with clean opinion for the Company. Mr. Li Xiyong, Chairman of the Board, Mr. Zhao Qingchun, Chief Financial Officer, and Mr. Xu Jian, head of Finance Management Department, hereby warrant the authenticity, accuracy and completeness of the financial statements contained in this annual report. The Board of the Company proposed to distribute a cash dividend of RMB10.00 per ten shares (tax inclusive) for the year of 2020 based on the number of shares on the record date of the dividend and equity distribution. The forward-looking statements contained in this annual report regarding the Company’s future plans do not constitute any substantive commitment to investors and investors are reminded of the investment risks. There was no appropriation of funds of the Company by the Controlling Shareholder or its related parties for non-operational activities. There were no guarantees granted to external parties by the Company without complying with the prescribed decision-making procedures. -
Coal Liquefaction Policy in China: Expla Ining the Policy Reversal Since 2006
LABORATORY ON INTERNATIONAL LAW AND REGULATION ILAR Working Paper #12 October 2011 COAL LIQUEFACTION POLICY IN CHINA: EXPLA INING THE POLICY REVERSAL SINCE 2006 FANG RONG AND DAVID G. VICTOR Note: This is an earlier version of a paper in Energy Policy, vol. 39, pp. 8175–8184. About the Laboratory on International Law and Regulation (ILAR) The Laboratory on International Law and Regulation (ILAR) is an international, interdisciplinary laboratory that explores when and why international laws actually work. Among scholars, this question has triggered a lively debate that ILAR is engaging with better theories and evidence. ILAR research examines a wide array of issues from environment and energy to human rights, trade and security issues. The ILAR team looks at these issues from the international perspective and also through comparisons across countries. The Laboratory is part of School of International Relations and Pacific Studies at University of California, San Diego. ILAR gratefully acknowledges anchor funding from the nonpartisan Electric Power Research Institute, BP, plc, the Norwegian Research Foundation and from UC San Diego‘s School of International Relations and Pacific Studies. About ILAR’s Research on Governance of Water, Land and Energy In 2009 the Laboratory on International Law & Regulation (ILAR) has launched a worldwide study on the governance of land, water and energy. The effort arose at a time when the expansion of biofuels, heavy oil and shale gas as well as perennial challenges such as assuring supply of cooling water for power plants have put a spotlight on the energy industry‘s land and water footprints. ILAR‘s research, pursued through a series of case studies, has aimed to understand why some societies have proved highly capable of anticipating and managing stresses on land and water resources that are linked to the energy system while others have faltered. -
Abiotic CO2 Uptake from the Atmosphere by Semiarid Desert Soil and Its Partitioning Into Soil Phases, Geophys
PUBLICATIONS Geophysical Research Letters RESEARCH LETTER Abiotic CO2 uptake from the atmosphere 10.1002/2015GL064689 by semiarid desert soil and its Key Points: 13 partitioning into soil phases • We added CO2 to natural (unsterilized) desert soil 1 1 1 1 1 1 13 Jiabin Liu , Keyu Fa , Yuqing Zhang , Bin Wu , Shugao Qin , and Xin Jia • Soil absorbed CO2 at a mean rate of À1 À1 0.28g m d 1Yanchi Research Station, School of Soil and Water Conservation, Beijing Forestry University, Beijing, China • The majority of fixed carbon was conserved in the soil solid phase Abstract Deserts may show strong downward CO2 fluxes and thus could be a significant carbon sink. Supporting Information: However, this hypothesis has been strongly challenged because of the failure to determine both the • Tables S1–S3 13 reliability of flux measurements and the exact location of fixed carbon. In this study, we added CO2 to natural (unsterilized) soil in the Mu Us Desert in northern China and quantified the partitioning of added Correspondence to: 13 13 Y. Zhang, CO2 into soil solid and vapor phases. Results show that natural desert soil absorbed CO2 at a mean rate À2 À1 13 13 [email protected] of 0.28 g m d .Oftheabsorbed CO2, 7.1% was released over a 48h period after CO2 feeding, 72.8% was stored in the soil solid phase, 0.0007% was found in the vapor phase, while 20.0% of the absorbed 13 Citation: CO2 was undetected. These results indicate that undisturbed desert soils can absorb CO2 from the Liu, J., K. -
Archaeological Perspectives on the Early Relations of the Korean Peninsula with the Eurasian Steppe
SINO-PLATONIC PAPERS Number 301 May, 2020 Archaeological Perspectives on the Early Relations of the Korean Peninsula with the Eurasian Steppe by Kang, In Uk Victor H. Mair, Editor Sino-Platonic Papers Department of East Asian Languages and Civilizations University of Pennsylvania Philadelphia, PA 19104-6305 USA [email protected] www.sino-platonic.org SINO-PLATONIC PAPERS FOUNDED 1986 Editor-in-Chief VICTOR H. MAIR Associate Editors PAULA ROBERTS MARK SWOFFORD ISSN 2157-9679 (print) 2157-9687 (online) SINO-PLATONIC PAPERS is an occasional series dedicated to making available to specialists and the interested public the results of research that, because of its unconventional or controversial nature, might otherwise go unpublished. The editor-in-chief actively encourages younger, not yet well established scholars and independent authors to submit manuscripts for consideration. Contributions in any of the major scholarly languages of the world, including romanized modern standard Mandarin and Japanese, are acceptable. In special circumstances, papers written in one of the Sinitic topolects (fangyan) may be considered for publication. Although the chief focus of Sino-Platonic Papers is on the intercultural relations of China with other peoples, challenging and creative studies on a wide variety of philological subjects will be entertained. This series is not the place for safe, sober, and stodgy presentations. Sino-Platonic Papers prefers lively work that, while taking reasonable risks to advance the field, capitalizes on brilliant new insights into the development of civilization. Submissions are regularly sent out for peer review, and extensive editorial suggestions for revision may be offered. Sino-Platonic Papers emphasizes substance over form. -
Spatiotemporal Patterns of Desertification Dynamics And
sustainability Article Spatiotemporal Patterns of Desertification Dynamics and Desertification Effects on Ecosystem Services in the Mu Us Desert in China Qingfu Liu 1,†, Yanyun Zhao 1,†, Xuefeng Zhang 1,2, Alexander Buyantuev 3 ID , Jianming Niu 1,* and Xiaojiang Wang 4,* 1 School of Ecology and Environment, Inner Mongolia University, Hohhot 010021, China; [email protected] (Q.L.); [email protected] (Y.Z.); [email protected] (X.Z.) 2 College of Resources and Environment, Baotou Normal College, Inner Mongolia University of Science and Technology, Baotou 014030, China 3 Department of Geography and Planning, University at Albany, State University of New York, Albany, NY 12222, USA; [email protected] 4 Inner Mongolia Academy of Forestry Science, Hohhot 010010, China * Correspondence: [email protected] (J.N.); [email protected] (X.W.); Tel.: +86-471-499-2735 (J.N.) † These authors contributed equally to this work and should be considered co-first authors. Received: 30 December 2017; Accepted: 23 February 2018; Published: 26 February 2018 Abstract: Degradation of semi-arid and arid ecosystems due to desertification is arguably one of the main obstacles for sustainability in those regions. In recent decades, the Mu Us Desert in China has experienced such ecological degradation making quantification of spatial patterns of desertification in this area an important research topic. We analyzed desertification dynamics for seven periods from 1986 to 2015 and focused on five ecosystem services including soil conservation, water retention, net primary productivity (NPP), crop productivity, and livestock productivity, all assessed for 2015. Furthermore, we examined how ecosystem services relate to each other and are impacted by desertification. -
Heavy Metals in the Riverbed Surface Sediment of the Yellow River, China
See discussions, stats, and author profiles for this publication at: https://www.researchgate.net/publication/308575778 Heavy metals in the riverbed surface sediment of the Yellow River, China Article in Environmental Science and Pollution Research · December 2016 DOI: 10.1007/s11356-016-7712-z CITATIONS READS 17 242 9 authors, including: Feifei Wang Wang Lei Harbin Institute of Technology Shenzhen Graduate School Harbin Institute of Technology Shenzhen Graduate School 12 PUBLICATIONS 401 CITATIONS 24 PUBLICATIONS 475 CITATIONS SEE PROFILE SEE PROFILE All content following this page was uploaded by Wang Lei on 31 January 2018. The user has requested enhancement of the downloaded file. Environ Sci Pollut Res DOI 10.1007/s11356-016-7712-z RESEARCH ARTICLE Heavy metals in the riverbed surface sediment of the Yellow River, China Qingyu Guan1 & Ao Cai1 & Feifei Wang1 & Lei Wang1 & Tao Wu 1 & Baotian Pan 1 & Na Song1 & Fuchun Li 1 & Min Lu1 Received: 28 May 2016 /Accepted: 14 September 2016 # Springer-Verlag Berlin Heidelberg 2016 Abstract One hundred and eleven riverbed surface sediment ately contaminated with Ti, Mn, V and Cr because of the dual (RSS) samples were collected to determine the heavy metal influence of anthropogenic activities and nature; and slightly concentration throughout the Inner Mongolia reach of the to not contaminated with Co because it occurs mainly in the Yellow River (IMYR), which has been subjected to rapid eco- bordering desert areas. nomic and industrial development over the past several de- cades. Comprehensive analysis of heavy metal contamination, Keywords The Yellow River . Surface sediment . Heavy including the enrichment factor, geo-accumulation index, con- metal . -
Spatio-Temporal Dynamics of Land-Use and Land-Cover in the Mu Us Sandy Land, China, Using the Change Vector Analysis Technique
Remote Sens. 2014, 6, 9316-9339; doi:10.3390/rs6109316 OPEN ACCESS remote sensing ISSN 2072-4292 www.mdpi.com/journal/remotesensing Article Spatio-Temporal Dynamics of Land-Use and Land-Cover in the Mu Us Sandy Land, China, Using the Change Vector Analysis Technique Arnon Karnieli 1,*, Zhihao Qin 2, Bo Wu 3, Natalya Panov 1 and Feng Yan 3 1 The Remote Sensing Laboratory, Jacob Blaustein Institutes for Desert Research, Ben-Gurion University of the Negev, Sede Boker Campus, Midreshet Ben-Gurion 84990, Israel; E-Mail: [email protected] 2 Institute of Agro-Resources and Regional Planning, Chinese Academy of Agricultural Sciences, Beijing 100081, China; E-Mail: [email protected] 3 Institute of Desertification Studies, Chinese Academy of Forestry, Beijing 100091, China; E-Mails: [email protected] (B.W.); [email protected] (F.Y.) * Author to whom correspondence should be addressed; E-Mail: [email protected]; Tel.: +972-8-6596-855; Fax: +972-8-6596-805. External Editor: Prasad S. Thenkabail Received: 16 June 2014; in revised form: 5 September 2014 / Accepted: 9 September 2014 / Published: 29 September 2014 Abstract: The spatial extent of desertified vs. rehabilitated areas in the Mu Us Sandy Land, China, was explored. The area is characterized by complex landscape changes that were caused by different drivers, either natural or anthropogenic, interacting with each other, and resulting in multiple consequences. Two biophysical variables, NDVI, positively correlated with vegetation cover, and albedo, positively correlated with cover of exposed sands, were computed from a time series of merged NOAA-AVHRR and MODIS images (1981 to 2010). -
Congressional-Executive Commission on China Annual Report 2019
CONGRESSIONAL-EXECUTIVE COMMISSION ON CHINA ANNUAL REPORT 2019 ONE HUNDRED SIXTEENTH CONGRESS FIRST SESSION NOVEMBER 18, 2019 Printed for the use of the Congressional-Executive Commission on China ( Available via the World Wide Web: https://www.cecc.gov VerDate Nov 24 2008 13:38 Nov 18, 2019 Jkt 036743 PO 00000 Frm 00001 Fmt 6011 Sfmt 5011 G:\ANNUAL REPORT\ANNUAL REPORT 2019\2019 AR GPO FILES\FRONTMATTER.TXT CONGRESSIONAL-EXECUTIVE COMMISSION ON CHINA ANNUAL REPORT 2019 ONE HUNDRED SIXTEENTH CONGRESS FIRST SESSION NOVEMBER 18, 2019 Printed for the use of the Congressional-Executive Commission on China ( Available via the World Wide Web: https://www.cecc.gov U.S. GOVERNMENT PUBLISHING OFFICE 36–743 PDF WASHINGTON : 2019 VerDate Nov 24 2008 13:38 Nov 18, 2019 Jkt 036743 PO 00000 Frm 00003 Fmt 5011 Sfmt 5011 G:\ANNUAL REPORT\ANNUAL REPORT 2019\2019 AR GPO FILES\FRONTMATTER.TXT CONGRESSIONAL-EXECUTIVE COMMISSION ON CHINA LEGISLATIVE BRANCH COMMISSIONERS House Senate JAMES P. MCGOVERN, Massachusetts, MARCO RUBIO, Florida, Co-chair Chair JAMES LANKFORD, Oklahoma MARCY KAPTUR, Ohio TOM COTTON, Arkansas THOMAS SUOZZI, New York STEVE DAINES, Montana TOM MALINOWSKI, New Jersey TODD YOUNG, Indiana BEN MCADAMS, Utah DIANNE FEINSTEIN, California CHRISTOPHER SMITH, New Jersey JEFF MERKLEY, Oregon BRIAN MAST, Florida GARY PETERS, Michigan VICKY HARTZLER, Missouri ANGUS KING, Maine EXECUTIVE BRANCH COMMISSIONERS Department of State, To Be Appointed Department of Labor, To Be Appointed Department of Commerce, To Be Appointed At-Large, To Be Appointed At-Large, To Be Appointed JONATHAN STIVERS, Staff Director PETER MATTIS, Deputy Staff Director (II) VerDate Nov 24 2008 13:38 Nov 18, 2019 Jkt 036743 PO 00000 Frm 00004 Fmt 0486 Sfmt 0486 G:\ANNUAL REPORT\ANNUAL REPORT 2019\2019 AR GPO FILES\FRONTMATTER.TXT C O N T E N T S Page I. -
Effects of Subsurface Drip Irrigation on Water Consumption and Yields of Alfalfa Under Different Water and Fertilizer Conditions
Hindawi Journal of Sensors Volume 2021, Article ID 6617437, 12 pages https://doi.org/10.1155/2021/6617437 Research Article Effects of Subsurface Drip Irrigation on Water Consumption and Yields of Alfalfa under Different Water and Fertilizer Conditions Xuesong Cao ,1 Yayang Feng ,2 Heping Li ,1 Hexiang Zheng ,1 Jun Wang ,1 and Changfu Tong 1 1Institute of Water Resources for Pastoral Area, China Institute of Water Resources and Hydropower Research, Huhhot 010020, China 2Water Conservancy and Civil Engineering, Inner Mongolia Agricultural University, Hohhot 010018, China Correspondence should be addressed to Xuesong Cao; [email protected] Received 2 November 2020; Revised 10 January 2021; Accepted 20 January 2021; Published 3 February 2021 Academic Editor: Jingwei Wang Copyright © 2021 Xuesong Cao et al. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. A field experiment was conducted for the purpose of examining the effects of different combinations of water and fertilizer applications on the water consumption and yields of alfalfa under subsurface drip irrigation (SDI). The results showed that the jointing and branching stages were the key stages for alfalfa water requirement. The water consumption had varied greatly (from 130 to 170 mm) during the growth period of each alfalfa crop. The water consumption during the whole growth period was approximately 500 mm, and the maximum water consumption intensity was 3.64 mm·d-1. The overall changes in water consumption and yields during the growth period of the alfalfa displayed trends of first increasing and then decreasing. -
Table of Codes for Each Court of Each Level
Table of Codes for Each Court of Each Level Corresponding Type Chinese Court Region Court Name Administrative Name Code Code Area Supreme People’s Court 最高人民法院 最高法 Higher People's Court of 北京市高级人民 Beijing 京 110000 1 Beijing Municipality 法院 Municipality No. 1 Intermediate People's 北京市第一中级 京 01 2 Court of Beijing Municipality 人民法院 Shijingshan Shijingshan District People’s 北京市石景山区 京 0107 110107 District of Beijing 1 Court of Beijing Municipality 人民法院 Municipality Haidian District of Haidian District People’s 北京市海淀区人 京 0108 110108 Beijing 1 Court of Beijing Municipality 民法院 Municipality Mentougou Mentougou District People’s 北京市门头沟区 京 0109 110109 District of Beijing 1 Court of Beijing Municipality 人民法院 Municipality Changping Changping District People’s 北京市昌平区人 京 0114 110114 District of Beijing 1 Court of Beijing Municipality 民法院 Municipality Yanqing County People’s 延庆县人民法院 京 0229 110229 Yanqing County 1 Court No. 2 Intermediate People's 北京市第二中级 京 02 2 Court of Beijing Municipality 人民法院 Dongcheng Dongcheng District People’s 北京市东城区人 京 0101 110101 District of Beijing 1 Court of Beijing Municipality 民法院 Municipality Xicheng District Xicheng District People’s 北京市西城区人 京 0102 110102 of Beijing 1 Court of Beijing Municipality 民法院 Municipality Fengtai District of Fengtai District People’s 北京市丰台区人 京 0106 110106 Beijing 1 Court of Beijing Municipality 民法院 Municipality 1 Fangshan District Fangshan District People’s 北京市房山区人 京 0111 110111 of Beijing 1 Court of Beijing Municipality 民法院 Municipality Daxing District of Daxing District People’s 北京市大兴区人 京 0115 -
Long‐Term Elimination of Grazing Reverses the Effects of Shrub
RESEARCH ARTICLE Long‐Term Elimination of Grazing Reverses the 10.1029/2019JG005439 Effects of Shrub Encroachment on Soil and Key Points: • Soil texture and soil water holding Vegetation on the Ordos Plateau capacity in the surface layer was Yuanrun Zheng1 , Guangsheng Zhou1, Qianlai Zhuang2 , and Hideyuki Shimizu3 improved in shrub‐encroached grassland when grazing was 1Key Laboratory of Resource Plants, West China Subalpine Botanical Garden, Institute of Botany, Chinese Academy of eliminated 2 • Restoration of shrub‐encroached Sciences, Beijing, China, Department of Earth, Atmospheric, and Planetary Sciences, and Department of Agronomy, grasslands was related to soil Purdue University, West Lafayette, IN, USA, 3National Institute for Environmental Studies, Tsukuba, Japan improvement in surface layer • Shrub‐encroached grasslands could be restored in about 20 years after Abstract Conversion from grasslands to shrublands resulting from overgrazing occurs worldwide and is grazing was eliminated reinforced by the global climatic change. The functioning, biogeochemical cycles (e.g., carbon and water), and the stability of grassland ecosystems are significantly affected by the conversion. To best manage and use those grassland ecosystems, it is imperative to examine how the shrub‐encroached grasslands can be Correspondence to: restored to native grassland ecosystems. In this study, aboveground biomass of all species, root biomass, soil Y. Zheng, [email protected] water content, and soil texture in a set of fenced and unfenced plots were observed every three years from 1992 to 2011 in a semishrub encroached grassland on the Ordos Plateau of China. In the fenced plots, aboveground biomass increased for grass species and decreased for semishrub species. Root biomass and soil Citation: – ‐ – ‐ Zheng, Y., Zhou, G., Zhuang, Q., & water content in the 0 10 cm soil layer increased, but decreased in the 10 30 cm soil layers.