陈良侃, 陈少辉, 2021. “一带一路”沿线国家农作物虚拟水贸易时空格局及驱动因素分析[J]. 地球科学进展, 36 (4): 399-412.〔CHEN L K, CHEN S H, 2021. Analysis of spatiotemporal pattern and drivers of virtual crops water trade along the Belt and Road [J]. Advances in Earth Science, 36 (4): 399-412.〕
程国栋, 2003. 虚拟水: 中国水资源安全战略的新思路[J]. 中国科学院院刊(4): 260-265.〔CHENG G D, 2003. Virtual water: a strategic instrument to achieve water security [J]. Bulletin of Chinese Academy of Sciences (4): 260-265.〕
范晓莉, 黄凌翔, 2015 . 京津冀城市群城市规模分布特征[J]. 干旱区资源与环境, 29(9): 13-20.〔FAN X L, HUANG L X, 2015. The characteristics of city size distribution in Beijing-Tianjin-Hebei Urban Agglomeration [J]. Journal of Arid Land Resources and Environment, 29(9): 13-20.〕
韩文钰, 张艳军, 张利平等, 2020. 基于投入产出分析的中美两国虚拟水贸易研究[J]. 中国农村水利水电, 458(12): 33-40, 45.〔HAN W Y, ZHANG Y J, ZHANG L P, et al, 2020. Virtual water trade between China and the United States based on input-output analysis [J]. China Rural Water and Hydropower, 458(12): 33-40, 45.〕
李秀玲, 2019. 东北地区三大城市群规模结构的分形特征研究[J]. 东北师大学报(自然科学版), 51(2): 45-50.〔LI X L, 2019. Study on fractal characteristics of the scale structure of three urban agglomerations in Northeast [J]. Journal of Northeast Normal University (Natural Science Edition), 51(2): 45-50.〕
联合国粮食及农业组织, 2020. 详细贸易矩阵[DB/OL]. [2020-12-27]. https: //www. fao. org/faostat/zh/#data/TM. Food and Agriculture Organization of the United Nations, 2020. Detailed Trade Matrix [DB/OL]. [2020-12-27]. http: //www. fao. org/faostat/zh/#data/TM.〕
刘宁, 沙景华, 钟帅, 等, 2015. 中国水资源研究热点及发展趋势[J]. 资源与产业, 17(5): 66-72.〔LIU N, SHA J H, ZHONG S, et al, 2015. Research popularity and trend of Chinas water resource[J]. Resources & Industries, 17(5): 66-72.〕
刘卫东, 2015. “一带一路”战略的科学内涵与科学问题[J]. 地理科学进展, 34(5): 538-544.〔LIU W D, 2015. Scientific understanding of the Belt and Road Initiative of China and related research themes[J]. Progress in Geography, 34 (5): 538-544.〕
刘卫东, 宋周莺, 刘志高, 等, 2018. “一带一路”建设研究进展[J]. 地理学报, 73(4): 620-636.〔LIU W D, SONG Z Y, LIU Z G, et al, 2018. Progress in research on the Belt and Road Initiative[J]. Acta Geographica Sinica, 73 (4): 620-636.〕
刘卫东, 姚秋蕙, 2020 . “一带一路”建设模式研究: 基于制度与文化视角[J]. 地理学报, 75(6): 30-42.〔LIU W D, YAO Q H, 2020. Theorizing the construction of the Belt and Road Initiative: based on institutional and cultural perspectives[J]. Acta Geographica Sinica, 75(6): 30-42.〕
刘振灵, 2011. 资源基础型城市群城镇体系规模结构的时空演变研究[J]. 资源科学, 33(6): 1118-1125.〔LIU Z L, 2011. Spatial-temporal evolution of the city size distribution of urban clusters deriving from resources exploration[J]. Resources Science, 33(6): 1118-1125.〕
吕祯婷, 焦华富, 2008. 基于分形理论的安徽省城市体系规模分布研究[J]. 世界地理研究 (3): 107-112.〔LÜ Z T, JIAO H F, 2008. Study on size distribution of urban system in Anhui Province based on fractal theory[J]. World Regional Studies (3): 107-112.〕
秦耀辰, 刘凯, 2003. 分形理论在地理学中的应用研究进展[J]. 地理科学进展, 22(4): 426-436.〔QIN Y C, LIU K, 2003. Advancement of applied studies of fractal theory in geography[J]. Progress in Geography, 22(4): 426-436.〕
盛来运, 2021. 不平凡之年书写非凡答卷: 《2020年国民经济和社会发展统计公报》评读[R/OL]. (2021-02-28)[2021-05-16]. http: //www. stats. gov. cn/ztjc/zthd/lhfw/2021/lh_hgjj/202103/t20210301_1814215. html.〔SHENG L Y, 2021. Remarkable results in an extraordinary year: 《2020 Statistical Bulletin on National Economic and Social Development》 review[R/OL]. (2021-02-28)[2021-05-16]. http: //www. stats. gov. cn/ztjc/zthd/lhfw/2021/lh_hgjj/202103/t20210301_1814215. html.〕
宋敏, 施凯杰, 马艳霞, 等, 2021. 基于投入产出表的长江经济带各行业灰水足迹的测算分析[J]. 资源与产业, 23(6): 13-22.〔SONG M, SHI K J, MA Y X, et al, 2021. Estimation of industrial graywater footprints in Yangtze River Economic Zone based on input-output Table[J]. Resources & Industries, 23(6): 13-22.〕
孙才志, 王中慧, 2019. 中国与“一带一路”沿线国家农产品贸易的虚拟水量流动特征[J]. 水资源保护, 35(1): 14-19, 26.〔SUN C Z, WANG Z H, 2019. Characteristics of virtual water volume flow of agricultural products trade between China and countries along “Belt and Road”[J]. Water Resources Protection, 35(1): 14-19, 26.〕
孙才志, 王中慧, 2020. 中国和“一带一路”沿线国家农产品虚拟水贸易的驱动因素[J]. 水利经济, 38(1): 1-7, 28.〔SUN C Z, WANG Z H, 2020. Driving factors for virtual water trade of agricultural products between China and countries along “Belt and Road”[J]. Journal of Economics of Water Resources, 38(1): 1-7, 28.〕
孙才志, 张蕾, 2009. 基于分形的中国地均农畜产品虚拟水规模分布的时空演变研究[J]. 地理科学 (3): 98-104.〔SUN C Z, ZHANG L, 2009. Spatialtemporal distribution of croplivestock product virtual water per cultivated land in China based on fractal theory[J]. Scientia Geographica Sinica (3): 98-104.〕
孙在宏, 袁源, 王亚华, 等, 2011. 基于分形理论的江苏省城市规模分布与异速生长特征[J]. 地理研究, 30(12): 2163-2172.〔SUN Z H, YUAN Y, WANG Y H, et al, 2011. Research on citysize distribution and allometric growth in Jiangsu Province based on fractal theory[J]. Geographical Research, 30(12): 2163-2172.〕
谈明洪, 范存会, 2004. Zipf维数和城市规模分布的分维值的关系探讨[J]. 地理研究 (2): 243-248.〔TAN M H, FAN C H, 2004. Relationship between Zipf dimension and fractal dimension of citysize distribution[J]. Geographical Research (2): 243-248.〕
汪艺晗, 杨谨, 刘其芸, 等, 2021. “一带一路”国家粮食贸易下虚拟水和隐含能源流动[J]. 资源科学, 43(5): 974-986.〔WANG Y H, YANG J, LIU Q Y, et al, 2021. Virtual water and embodied energy transfer in grain trade across the countries along the“Belt and Road”[J]. Resources Science, 43(5): 974-986.〕
姚峪岩, 张翼飞, 金紫洋, 等, 2021. “一带一路”绿色贸易合作与竞争格局研究[J]. 世界地理研究, 30(4): 792-801.〔YAO Y Y, ZHANG Y F, JIN Z Y, et al, 2021. Study on the green trade cooperation and competition pattern of the“Belt and Road”[J]. World Regional Studies, 30(4): 792-801.〕
于畅, 岳丹萌, 宫梦蝶, 等, 2020. “一带一路”沿线国家原木水足迹核算及空间流动格局研究[J]. 林业经济, 42(10): 16-27.〔YU C, YUE D M, GONG M D, et al, 2020. Accounting and spatial flow pattern of the timber water footprint in countries along the “Belt and Road”[J]. Forestry Economics, 42(10): 16-27.〕
于津平, 顾威, 2016. “一带一路”建设的利益, 风险与策略[J]. 南开学报(哲学社会科学版) (1): 65-70.〔YU J P, GU W, 2016. The benefits, risks, and strategies of“One Belt and One Road”Initiative[J]. Nankai Journal (Philosophy, Literature and Social Science Edition) (1): 65-70.〕
张蕾, 2009. 中国虚拟水和水足迹区域差异研究[D]. 大连: 辽宁师范大学, 27-33.〔ZHANG L, 2009. Study on the regional differences of the efficiency of the virtual water footprint in China[D]. Dalian: Liaoning Normal University, 27-33.〕
朱华, 姬翠翠, 2011. 分形理论及其应用[M]. 北京: 科学出版社, 22-30, 48-53.〔ZHU H, JI C C, 2011. Fractal theory and its applications[M]. Beijing: Science Press, 22-30, 48-53.〕
朱晓华, 蔡运龙, 2005. 中国土地利用空间分形结构及其机制[J]. 地理科学, 25(6): 671-677.〔ZHU X H, CAI Y L, 2005. Fractal analysis of land use in China[J]. Scientia Geographica Sinica, 25(6): 671-677.〕
朱智洺, 李秀琴, 黄永春, 2020. “一带一路”沿线国家粮食虚拟水贸易网络研究[J]. 资源与产业, 22(3): 31-42.〔ZHU Z M, LI X Q, HUANG Y C, 2020. Provisionvirtualized water trading network along“The Belt And Road”[J]. Resources & Industries, 22(3): 31-42.〕
DUARTE R, PINILLA V, SERRANO A, 2019. Long term drivers of global virtual water trade: a trade gravity approach for 1965—2010[J]. Ecological Economics, 156(2): 318-326.
LENZEN M, 2009. Understanding virtual water flows: a multiregion inputoutput case study of victoria[J]. Water Resources Research, 45(9): 318-326.
MEKONNEN M M, HOEKSTRA A Y, 2011a. The green, blue and grey water footprint of crops and derived crop products[J]. Hydrology and Earth System Sciences Discussions, 8(1): 1577-1600.
MEKONNEN M M, HOEKSTRA A Y, 2011b. National water footprint accounts: the green, blue and grey water footprint of production and consumption[M]. Enschede: University of Twente.
QIAN Y Y, TIAN X, GENG Y, et al, 2019. Driving factors of agricultural virtual water trade between China and the Belt and Road countries[J]. Environmental Science & Technology, 53(10): 5877-5886.
SUN J X, SUN S K, YIN Y L, et al, 2021. “Evaluating grain virtual water flow in China: patterns and drivers from a sociohydrology perspective. ”[J]. Journal of Hydrology, 606(1): 127412.
UNITED NATIONS STATISTICS DIVISION, 2018. Standard country or area codes for statistical use (M49)[DB/OL]. [2018-11-19]. https: //unstats. un. org/unsd/methodology/m49/.
WORLD BANK GROUP, 2017. World Bank open data [DB/OL]. [2017-12-10].https://data.worldbank.org.cn/.
|